#!/usr/bin/env perl ## infobash: Copyright (C) 2005-2007 Michiel de Boer aka locsmif ## inxi: Copyright (C) 2008-2023 Harald Hope ## Additional features (C) Scott Rogers - kde, cpu info ## Parse::EDID (C): 2005-2010 by Mandriva SA, Pascal Rigaux, Anssi Hannula ## Further fixes (listed as known): Horst Tritremmel ## Steven Barrett (aka: damentz) - usb audio patch; swap percent used patch ## Jarett.Stevens - dmidecode -M patch for older systems without /sys machine ## ## License: GNU GPL v3 or greater ## ## You should have received a copy of the GNU General Public License ## along with this program. If not, see . ## ## If you don't understand what Free Software is, please read (or reread) ## this page: http://www.gnu.org/philosophy/free-sw.html ## ## DEVS: NOTE: geany/scite folding is picky. Leave 1 space after # or it breaks! use strict; use warnings; # use diagnostics; use 5.008; ## Perl 7 things for testing: depend on Perl 5.032 # use 5.034; # use compat::perl5; # act like Perl 5's defaults # no feature qw(indirect); # no multidimensional; # no bareword::filehandles; use Cwd qw(abs_path); # #abs_path realpath getcwd use Data::Dumper qw(Dumper); # print_r $Data::Dumper::Sortkeys = 1; # NOTE: load in SystemDebugger unless encounter issues with require/import # use File::Find; use File::stat; # needed for Xorg.0.log file mtime comparisons use Getopt::Long qw(GetOptions); # Note: default auto_abbrev is enabled Getopt::Long::Configure ('bundling', 'no_ignore_case', 'no_getopt_compat', 'no_auto_abbrev','pass_through'); use POSIX qw(ceil uname strftime ttyname); # use bigint qw/hex/; # to handle large hex number warnings, but Perl 5.010 and later. # use Benchmark qw(:all);_ # use Devel::Size qw(size total_size); # use feature qw(say state); # 5.10 or newer Perl ### INITIALIZE VARIABLES ### ## INXI INFO ## my $self_name='inxi'; my $self_version='3.3.31'; my $self_date='2023-11-02'; my $self_patch='00'; ## END INXI INFO ## my ($b_pledge,@pledges); if (eval {require OpenBSD::Pledge}){ OpenBSD::Pledge->import(); $b_pledge = 1; # cpath/wpath: dir/files .inxi, --debug > 9, -c 9x, -w/W; # dns/inet: ftp upload --debug > 20; exec/proc/rpath: critical; # prot_exec: Perl import; getpw: perl getpwuid() -c 9x, Net::FTP --debug > 20; # stdio: default; error: debugging pledge/perl # tested. not required: mcast pf ps recvfd sendfd tmppath tty unix vminfo; # Pledge removal: OptionsHandler::post_process() [dns,inet,cpath,getpw,wpath]; # SelectColors::set_selection() [getpw] @pledges = qw(cpath dns exec getpw inet proc prot_exec rpath wpath); pledge(@pledges); } ## Self data my ($fake_data_dir,$self_path,$user_config_dir,$user_config_file,$user_data_dir); ## Hashes my (%alerts,%build_prop,%client,%colors,,%cpuinfo_machine,%disks_bsd, %dboot,%devices,%dl,%dmmapper,%force,%loaded,%mapper,%program_values,%risc, %service_tool,%show,%sysctl,%system_files,%usb,%windows); ## System Arrays my (@app,@cpuinfo,@dmi,@ifs,@ifs_bsd,@paths,@ps_aux,@ps_cmd,@ps_gui, @sensors_exclude,@sensors_use,@uname); ## Disk/Logical/Partition/RAID arrays my (@btrfs_raid,@glabel,@labels,@lsblk,@lvm,@lvm_raid,@md_raid,@partitions, @proc_partitions,@raw_logical,@soft_raid,@swaps,@uuids,@zfs_raid); ## Debuggers my %debugger = ('level' => 0); my (@dbg,%fake,@t0); my ($b_hires,$b_log,$b_log_colors,$b_log_full); my ($end,$start,$fh_l,$log_file); # log file handle, file my ($t1,$t2,$t3) = (0,0,0); # timers ## debug / temp tools $debugger{'sys'} = 1; $client{'test-konvi'} = 0; # NOTE: redhat removed HiRes from Perl Core Modules. if (eval {require Time::HiRes}){ Time::HiRes->import('gettimeofday','tv_interval','usleep'); $b_hires = 1; } @t0 = eval 'Time::HiRes::gettimeofday()' if $b_hires; # let's start it right away ## Booleans [busybox_ps not used actively] my ($b_admin,$b_android,$b_busybox_ps,$b_display,$b_irc,$b_root); ## System my ($bsd_type,$device_vm,$language,$os,$pci_tool) = ('','','','',''); my ($wan_url,$wl_compositors) = ('',''); my ($bits_sys,$cpu_arch,$ppid); my ($cpu_sleep,$dl_timeout,$limit,$ps_cols,$ps_count) = (0.35,4,10,0,5); my $sensors_cpu_nu = 0; my ($weather_source,$weather_unit) = (100,'mi'); ## Tools my ($display,$ftp_alt); my ($display_opt,$sudoas) = ('',''); ## Output my $extra = 0;# supported values: 0-3 my $filter_string = ''; my $line1 = "----------------------------------------------------------------------\n"; my $line2 = "======================================================================\n"; my $line3 = "----------------------------------------\n"; my ($output_file,$output_type) = ('','screen'); my $prefix = 0; # for the primary row hash key prefix ## Initialize internal hashes # these assign a separator to non irc states. Important! Using ':' can # trigger stupid emoticon. Note: SEP1/SEP2 from short form not used anymore. # behaviors in output on IRC, so do not use those. my %sep = ( 's1-irc' => ':', 's1-console' => ':', 's2-irc' => '', 's2-console' => ':', ); #$show{'host'} = 1; my %size = ( 'console' => 80, # In display, orig: 115 # Default indentation level. NOTE: actual indent is 1 greater to allow for # spacing 'indent' => 11, 'indents' => 2, 'irc' => 100, # shorter because IRC clients have nick lists etc 'lines' => 1, # for active output line counter for -Y 'max-cols' => 0, 'max-lines' => 0, 'max-wrap' => 110, 'no-display' => 100, # No Display, orig: 130 # this will be set dynamically in set_display_size() 'term-cols' => 80, # orig: 80 'term-lines' => 40, # orig: 100 ); my %use = ( 'update' => 1, # switched off/on with maintainer config ALLOW_UPDATE 'weather' => 1, # switched off/on with maintainer config ALLOW_WEATHER ); ######################################################################## #### STARTUP ######################################################################## #### ------------------------------------------------------------------- #### MAIN #### ------------------------------------------------------------------- sub main { # print Dumper \@ARGV; eval $start if $b_log; initialize(); ## Uncomment these two values for start client debugging # $debugger{'level'} = 3; # 3 prints timers / 10 prints to log file # set_debugger(); # for debugging of konvi and other start client issues ## legacy method # my $ob_start = StartClient->new(); #$ob_start->get_client_data(); StartClient::set(); # print_line(Dumper \%client); OptionsHandler::get(); set_debugger(); # right after so it's set CheckTools::set(); set_colors(); set_sep(); # print download_file('stdout','https://') . "\n"; OutputGenerator::generate(); eval $end if $b_log; cleanup(); # weechat's executor plugin forced me to do this, and rightfully so, # because else the exit code from the last command is taken.. exit 0; } #### ------------------------------------------------------------------- #### INITIALIZE #### ------------------------------------------------------------------- sub initialize { set_path(); set_user_paths(); set_basics(); set_system_files(); set_os(); Configs::set(); # set_downloader(); set_display_size(); } ## CheckTools { package CheckTools; my (%commands); sub set { eval $start if $b_log; set_commands(); my ($action,$program,$message,@data); foreach my $test (keys %commands){ ($action,$program) = ('use',''); $message = main::message('tool-present'); if ($commands{$test}->[1] && ( ($commands{$test}->[1] eq 'linux' && $os ne 'linux') || ($commands{$test}->[1] eq 'bsd' && $os eq 'linux'))){ $action = 'platform'; } elsif ($program = main::check_program($test)){ # > 0 means error in shell # my $cmd = "$program $commands{$test} >/dev/null"; # print "$cmd\n"; $pci_tool = $test if $test =~ /pci/; # this test is not ideal because other errors can make program fail, but # we can't test for root since could be say, wheel permissions needed if ($commands{$test}->[0] eq 'exec-sys'){ $action = 'permissions' if system("$program $commands{$test}->[2] >/dev/null 2>&1"); } elsif ($commands{$test}->[0] eq 'exec-string'){ @data = main::grabber("$program $commands{$test}->[2] 2>&1"); # dmidecode errors are so specific it gets its own section # also sets custom dmidecode error messages if ($test eq 'dmidecode'){ $action = set_dmidecode(\@data) if scalar @data < 15; } elsif (grep { $_ =~ /$commands{$test}->[3]/i } @data){ $action = 'permissions'; } } } else { $action = 'missing'; } $alerts{$test}->{'action'} = $action; $alerts{$test}->{'path'} = $program; if ($action eq 'missing'){ $alerts{$test}->{'message'} = main::message('tool-missing-recommends',"$test"); } elsif ($action eq 'permissions'){ $alerts{$test}->{'message'} = main::message('tool-permissions',"$test"); } elsif ($action eq 'platform'){ $alerts{$test}->{'message'} = main::message('tool-missing-os', $uname[0] . " $test"); } } print Data::Dumper::Dumper \%alerts if $dbg[25]; set_fake_bsd_tools() if $fake{'bsd'}; eval $end if $b_log; } sub set_dmidecode { my ($data) = @_; my $action = 'use'; if ($b_root){ foreach (@$data){ # don't need first line or scanning /dev/mem lines if (/^(# dmi|Scanning)/){ next; } elsif ($_ =~ /No SMBIOS/i){ $action = 'smbios'; last; } elsif ($_ =~ /^\/dev\/mem: Operation/i){ $action = 'no-data'; last; } else { $action = 'unknown-error'; last; } } } else { if (grep {$_ =~ /(^\/dev\/mem: Permission|Permission denied)/i } @$data){ $action = 'permissions'; } else { $action = 'unknown-error'; } } if ($action ne 'use' && $action ne 'permissions'){ if ($action eq 'smbios'){ $alerts{'dmidecode'}->{'message'} = main::message('dmidecode-smbios'); } elsif ($action eq 'no-data'){ $alerts{'dmidecode'}->{'message'} = main::message('dmidecode-dev-mem'); } elsif ($action eq 'unknown-error'){ $alerts{'dmidecode'}->{'message'} = main::message('tool-unknown-error','dmidecode'); } } return $action; } sub set_commands { # note: gnu/linux has sysctl so it may be used that for something if present # there is lspci for bsds so doesn't hurt to check it if (!$bsd_type){ if ($use{'pci'}){ $commands{'lspci'} = ['exec-sys','','-n']; } if ($use{'logical'}){ $commands{'lvs'} = ['exec-sys','','']; } } else { if ($use{'pci'}){ $commands{'pciconf'} = ['exec-sys','','-l']; $commands{'pcictl'} = ['exec-sys','',' pci0 list']; $commands{'pcidump'} = ['exec-sys','','']; } if ($use{'sysctl'}){ # note: there is a case of kernel.osrelease but it's a linux distro $commands{'sysctl'} = ['exec-sys','','kern.osrelease']; } if ($use{'bsd-partition'}){ $commands{'bioctl'} = ['missing','','']; $commands{'disklabel'} = ['missing','','']; $commands{'fdisk'} = ['missing','','']; $commands{'gpart'} = ['missing','','']; } } if ($use{'dmidecode'}){ $commands{'dmidecode'} = ['exec-string','','-t chassis -t baseboard -t processor','']; } if ($use{'usb'}){ # note: lsusb ships in FreeBSD ports sysutils/usbutils $commands{'lsusb'} = ['missing','','','']; # we want these set for various null bsd data tests $commands{'usbconfig'} = ['exec-string','bsd','list','permissions']; $commands{'usbdevs'} = ['missing','bsd','','']; } if ($show{'bluetooth'}){ $commands{'bluetoothctl'} = ['missing','linux','','']; # bt-adapter hangs when bluetooth service is disabled $commands{'bt-adapter'} = ['missing','linux','','']; # btmgmt enters its own shell with no options given $commands{'btmgmt'} = ['missing','linux','','']; $commands{'hciconfig'} = ['missing','linux','','']; } if ($show{'sensor'}){ $commands{'sensors'} = ['missing','linux','','']; } if ($show{'ip'} || ($bsd_type && $show{'network-advanced'})){ $commands{'ip'} = ['missing','linux','','']; $commands{'ifconfig'} = ['missing','','','']; } # can't check permissions since we need to know the partition/disc if ($use{'block-tool'}){ $commands{'blockdev'} = ['missing','linux','','']; $commands{'lsblk'} = ['missing','linux','','']; } if ($use{'btrfs'}){ $commands{'btrfs'} = ['missing','linux','','']; } if ($use{'mdadm'}){ $commands{'mdadm'} = ['missing','linux','','']; } if ($use{'smartctl'}){ $commands{'smartctl'} = ['missing','','','']; } if ($show{'unmounted'}){ $commands{'disklabel'} = ['missing','bsd','xx']; } } # only for dev/debugging BSD sub set_fake_bsd_tools { $system_files{'dmesg-boot'} = '/var/run/dmesg.boot' if $fake{'dboot'}; $alerts{'sysctl'}->{'action'} = 'use' if $fake{'sysctl'}; if ($fake{'pciconf'} || $fake{'pcictl'} || $fake{'pcidump'}){ $alerts{'pciconf'}->{'action'} = 'use' if $fake{'pciconf'}; $alerts{'pcictl'}->{'action'} = 'use' if $fake{'pcictl'}; $alerts{'pcidump'}->{'action'} = 'use' if $fake{'pcidump'}; $alerts{'lspci'} = { 'action' => 'missing', 'message' => 'Required program lspci not available', }; } if ($fake{'usbconfig'} || $fake{'usbdevs'}){ $alerts{'usbconfig'}->{'action'} = 'use' if $fake{'usbconfig'}; $alerts{'usbdevs'}->{'action'} = 'use' if $fake{'usbdevs'}; $alerts{'lsusb'} = { 'action' => 'missing', 'message' => 'Required program lsusb not available', }; } if ($fake{'disklabel'}){ $alerts{'disklabel'}->{'action'} = 'use'; } } } sub set_basics { ### LOCALIZATION - DO NOT CHANGE! ### # set to default LANG to avoid locales errors with , or . # Make sure every program speaks English. $ENV{'LANG'}='C'; $ENV{'LC_ALL'}='C'; # remember, perl uses the opposite t/f return as shell!!! # some versions of busybox do not have tty, like openwrt $b_irc = (check_program('tty') && system('tty >/dev/null')) ? 1 : 0; # print "birc: $b_irc\n"; $b_display = ($ENV{'DISPLAY'}) ? 1 : 0; $b_root = $< == 0; # root UID 0, all others > 0 $dl{'dl'} = 'curl'; $dl{'curl'} = 1; $dl{'fetch'} = 1; $dl{'tiny'} = 1; # note: two modules needed, tested for in set_downloader $dl{'wget'} = 1; $client{'console-irc'} = 0; $client{'dcop'} = (check_program('dcop')) ? 1 : 0; $client{'qdbus'} = (check_program('qdbus')) ? 1 : 0; $client{'konvi'} = 0; $client{'name'} = ''; $client{'name-print'} = ''; $client{'su-start'} = ''; # shows sudo/su $client{'version'} = ''; $client{'whoami'} = getpwuid($<) || ''; $colors{'default'} = 2; $show{'partition-sort'} = 'id'; # sort order for partitions @raw_logical = (0,0,0); $ppid = getppid(); } sub set_display_size { ## sometimes tput will trigger an error (mageia) if irc client if (!$b_irc){ if (my $program = check_program('tput')){ # Arch urxvt: 'tput: unknown terminal "rxvt-unicode-256color"' # trips error if use qx(); in FreeBSD, if you use 2>/dev/null # it makes default value 80x24, who knows why? chomp($size{'term-cols'} = qx{$program cols}); chomp($size{'term-lines'} = qx{$program lines}); } # print "tc: $size{'term-cols'} cmc: $size{'console'}\n"; # double check, just in case it's missing functionality or whatever if (!is_int($size{'term-cols'} || $size{'term-cols'} == 0)){ $size{'term-cols'} = 80; } if (!is_int($size{'term-lines'} || $size{'term-lines'} == 0)){ $size{'term-lines'} = 24; } } # this lets you set different size for in or out of display server if (!$b_display && $size{'no-display'}){ $size{'console'} = $size{'no-display'}; } # term_cols is set in top globals, using tput cols # print "tc: $size{'term-cols'} cmc: $size{'console'}\n"; if ($size{'term-cols'} < $size{'console'}){ $size{'console'} = $size{'term-cols'}; } # adjust, some terminals will wrap if output cols == term cols $size{'console'} = ($size{'console'} - 1); # echo cmc: $size{'console'} # comes after source for user set stuff if (!$b_irc){ $size{'max-cols'} = $size{'console'}; } else { $size{'max-cols'} = $size{'irc'}; } # for -V/-h overrides $size{'max-cols-basic'} = $size{'max-cols'}; # print "tc: $size{'term-cols'} cmc: $size{'console'} cm: $size{'max-cols'}\n"; } sub set_os { @uname = uname(); $os = lc($uname[0]); $cpu_arch = lc($uname[-1]); if ($cpu_arch =~ /arm|aarch/){ $risc{'arm'} = 1; $risc{'id'} = 'arm';} elsif ($cpu_arch =~ /mips/){ $risc{'mips'} = 1; $risc{'id'} = 'mips';} elsif ($cpu_arch =~ /power|ppc/){ $risc{'ppc'} = 1; $risc{'id'} = 'ppc';} elsif ($cpu_arch =~ /riscv/){ $risc{'riscv'} = 1; $risc{'id'} = 'riscv';} elsif ($cpu_arch =~ /(sparc|sun4[uv])/){ $risc{'sparc'} = 1; $risc{'id'} = 'sparc';} # aarch32 mips32, i386. centaur/via/intel/amd handled in cpu if ($cpu_arch =~ /(armv[1-7]|32|[23456]86)/){ $bits_sys = 32; } elsif ($cpu_arch =~ /(alpha|64|e2k|sparc_v9|sun4[uv]|ultrasparc)/){ $bits_sys = 64; # force to string e2k, and also in case we need that ID changed $cpu_arch = 'elbrus' if $cpu_arch =~ /e2k|elbrus/; } # set some less common scenarios if ($os =~ /cygwin/){ $windows{'cygwin'} = 1; } elsif (-e '/usr/lib/wsl/drivers'){ $windows{'wsl'} = 1; } elsif (-e '/system/build.prop'){ $b_android = 1; } if ($os =~ /(aix|bsd|cosix|dragonfly|darwin|hp-?ux|indiana|illumos|irix|sunos|solaris|ultrix|unix)/){ if ($os =~ /openbsd/){ $os = 'openbsd'; } elsif ($os =~ /darwin/){ $os = 'darwin'; } # NOTE: most tests internally are against !$bsd_type if ($os =~ /kfreebsd/){ $bsd_type = 'debian-bsd'; } else { $bsd_type = $os; } } } # Sometimes users will have more PATHs local to their setup, so we want those # too. sub set_path { # Extra path variable to make execute failures less likely, merged below my (@path); # NOTE: recent Xorg's show error if you try /usr/bin/Xorg -version but work # if you use the /usr/lib/xorg-server/Xorg path. my @test = qw(/sbin /bin /usr/sbin /usr/bin /usr/local/sbin /usr/local/bin /usr/X11R6/bin); foreach (@test){ push(@paths,$_) if -d $_; } @path = split(':', $ENV{'PATH'}) if $ENV{'PATH'}; # print "paths: @paths\nPATH: $ENV{'PATH'}\n"; # Create a difference of $PATH and $extra_paths and add that to $PATH: foreach my $id (@path){ if (-d $id && !(grep {/^$id$/} @paths) && $id !~ /(game)/){ push(@paths, $id); } } # print "paths: \n", join("\n", @paths),"\n"; } sub set_sep { if ($b_irc){ # too hard to read if no colors, so force that for users on irc if ($colors{'scheme'} == 0){ $sep{'s1'} = $sep{'s1-console'}; $sep{'s2'} = $sep{'s2-console'}; } else { $sep{'s1'} = $sep{'s1-irc'}; $sep{'s2'} = $sep{'s2-irc'}; } } else { $sep{'s1'} = $sep{'s1-console'}; $sep{'s2'} = $sep{'s2-console'}; } } # Important: -n makes it non interactive, no prompt for password # only use doas/sudo if not root, -n option requires sudo -V 1.7 or greater. # for some reason sudo -n with < 1.7 in Perl does not print to stderr # sudo will just error out which is the safest course here for now, # otherwise that interactive sudo password thing is too annoying sub set_sudo { if (!$b_root){ my ($path); if (!$force{'no-doas'} && ($path = check_program('doas'))){ $sudoas = "$path -n "; } elsif (!$force{'no-sudo'} && ($path = check_program('sudo'))){ my @data = program_data('sudo'); $data[1] =~ s/^([0-9]+\.[0-9]+).*/$1/; # print "sudo v: $data[1]\n"; $sudoas = "$path -n " if is_numeric($data[1]) && $data[1] >= 1.7; } } } sub set_system_files { my %files = ( 'asound-cards' => '/proc/asound/cards', 'asound-modules' => '/proc/asound/modules', 'asound-version' => '/proc/asound/version', 'dmesg-boot' => '/var/run/dmesg.boot', 'proc-cmdline' => '/proc/cmdline', 'proc-cpuinfo' => '/proc/cpuinfo', 'proc-mdstat' => '/proc/mdstat', 'proc-meminfo' => '/proc/meminfo', 'proc-modules' => '/proc/modules', # not used 'proc-mounts' => '/proc/mounts',# not used 'proc-partitions' => '/proc/partitions', 'proc-scsi' => '/proc/scsi/scsi', 'proc-version' => '/proc/version', # note: 'xorg-log' is set in set_xorg_log() only if -G is triggered ); foreach (keys %files){ $system_files{$_} = (-e $files{$_}) ? $files{$_} : ''; } } sub set_user_paths { my ($b_conf,$b_data); # this needs to be set here because various options call the parent # initialize function directly. $self_path = $0; $self_path =~ s/[^\/]+$//; # print "0: $0 sp: $self_path\n"; if (defined $ENV{'XDG_CONFIG_HOME'} && $ENV{'XDG_CONFIG_HOME'}){ $user_config_dir=$ENV{'XDG_CONFIG_HOME'}; $b_conf=1; } elsif (-d "$ENV{'HOME'}/.config"){ $user_config_dir="$ENV{'HOME'}/.config"; $b_conf=1; } else { $user_config_dir="$ENV{'HOME'}/.$self_name"; } if (defined $ENV{'XDG_DATA_HOME'} && $ENV{'XDG_DATA_HOME'}){ $user_data_dir="$ENV{'XDG_DATA_HOME'}/$self_name"; $b_data=1; } elsif (-d "$ENV{'HOME'}/.local/share"){ $user_data_dir="$ENV{'HOME'}/.local/share/$self_name"; $b_data=1; } else { $user_data_dir="$ENV{'HOME'}/.$self_name"; } # note, this used to be created/checked in specific instance, but we'll just # do it universally so it's done at script start. if (! -d $user_data_dir){ mkdir $user_data_dir; # system "echo", "Made: $user_data_dir"; } if ($b_conf && -f "$ENV{'HOME'}/.$self_name/$self_name.conf"){ # system 'mv', "-f $ENV{'HOME'}/.$self_name/$self_name.conf", $user_config_dir; # print "WOULD: Moved $self_name.conf from $ENV{'HOME'}/.$self_name to $user_config_dir\n"; } if ($b_data && -d "$ENV{'HOME'}/.$self_name"){ # system 'mv', '-f', "$ENV{'HOME'}/.$self_name/*", $user_data_dir; # system 'rm', '-Rf', "$ENV{'HOME'}/.$self_name"; # print "WOULD: Moved data dir $ENV{'HOME'}/.$self_name to $user_data_dir\n"; } $fake_data_dir = "$ENV{'HOME'}/bin/scripts/inxi/data"; $log_file="$user_data_dir/$self_name.log"; # system 'echo', "$ENV{'HOME'}/.$self_name/* $user_data_dir"; # print "scd: $user_config_dir sdd: $user_data_dir \n"; } sub set_xorg_log { eval $start if $b_log; my (@temp,@x_logs); my ($file_holder,$time_holder,$x_mtime) = ('',0,0); # NOTE: other variations may be /var/run/gdm3/... but not confirmed # worry about we are just going to get all the Xorg logs we can find, # and not which is 'right'. Xorg was XFree86 earlier, only in /var/log. @temp = globber('/var/log/{Xorg,XFree86}.*.log'); push(@x_logs, @temp) if @temp; @temp = globber('/var/lib/gdm/.local/share/xorg/Xorg.*.log'); push(@x_logs, @temp) if @temp; @temp = globber($ENV{'HOME'} . '/.local/share/xorg/Xorg.*.log',); push(@x_logs, @temp) if @temp; # root will not have a /root/.local/share/xorg directory so need to use a # user one if we can find one. if ($b_root){ @temp = globber('/home/*/.local/share/xorg/Xorg.*.log'); push(@x_logs, @temp) if @temp; } foreach (@x_logs){ if (-r $_){ my $src_info = File::stat::stat("$_"); # print "$_\n"; if ($src_info){ $x_mtime = $src_info->mtime; # print $_ . ": $x_time" . "\n"; if ($x_mtime > $time_holder){ $time_holder = $x_mtime; $file_holder = $_; } } } } if (!$file_holder && check_program('xset')){ my $data = qx(xset q 2>/dev/null); foreach (split('\n', $data)){ if ($_ =~ /Log file/i){ $file_holder = get_piece($_,3); last; } } } print "Xorg log file: $file_holder\nLast modified: $time_holder\n" if $dbg[14]; log_data('data',"Xorg log file: $file_holder") if $b_log; $system_files{'xorg-log'} = $file_holder; eval $end if $b_log; } ######################################################################## #### UTILITIES ######################################################################## #### ------------------------------------------------------------------- #### COLORS #### ------------------------------------------------------------------- ## args: 0: the type of action, either integer, count, or full sub get_color_scheme { eval $start if $b_log; my ($type) = @_; my $color_schemes = [ [qw(EMPTY EMPTY EMPTY)], [qw(NORMAL NORMAL NORMAL)], # for dark OR light backgrounds [qw(BLUE NORMAL NORMAL)], [qw(BLUE RED NORMAL)], [qw(CYAN BLUE NORMAL)], [qw(DCYAN NORMAL NORMAL)], [qw(DCYAN BLUE NORMAL)], [qw(DGREEN NORMAL NORMAL)], [qw(DYELLOW NORMAL NORMAL)], [qw(GREEN DGREEN NORMAL)], [qw(GREEN NORMAL NORMAL)], [qw(MAGENTA NORMAL NORMAL)], [qw(RED NORMAL NORMAL)], # for light backgrounds [qw(BLACK DGREY NORMAL)], [qw(DBLUE DGREY NORMAL)], [qw(DBLUE DMAGENTA NORMAL)], [qw(DBLUE DRED NORMAL)], [qw(DBLUE BLACK NORMAL)], [qw(DGREEN DYELLOW NORMAL)], [qw(DYELLOW BLACK NORMAL)], [qw(DMAGENTA BLACK NORMAL)], [qw(DCYAN DBLUE NORMAL)], # for dark backgrounds [qw(WHITE GREY NORMAL)], [qw(GREY WHITE NORMAL)], [qw(CYAN GREY NORMAL)], [qw(GREEN WHITE NORMAL)], [qw(GREEN YELLOW NORMAL)], [qw(YELLOW WHITE NORMAL)], [qw(MAGENTA CYAN NORMAL)], [qw(MAGENTA YELLOW NORMAL)], [qw(RED CYAN NORMAL)], [qw(RED WHITE NORMAL)], [qw(BLUE WHITE NORMAL)], # miscellaneous [qw(RED BLUE NORMAL)], [qw(RED DBLUE NORMAL)], [qw(BLACK BLUE NORMAL)], [qw(BLACK DBLUE NORMAL)], [qw(NORMAL BLUE NORMAL)], [qw(BLUE MAGENTA NORMAL)], [qw(DBLUE MAGENTA NORMAL)], [qw(BLACK MAGENTA NORMAL)], [qw(MAGENTA BLUE NORMAL)], [qw(MAGENTA DBLUE NORMAL)], ]; eval $end if $b_log; if ($type eq 'count'){ return scalar @$color_schemes; } if ($type eq 'full'){ return $color_schemes; } else { # print Dumper $color_schemes->[$type]; return $color_schemes->[$type]; } } sub set_color_scheme { eval $start if $b_log; my ($scheme) = @_; $colors{'scheme'} = $scheme; my $index = ($b_irc) ? 1 : 0; # defaults to non irc # NOTE: qw(...) kills the escape, it is NOT the same as using # Literal "..", ".." despite docs saying it is. my %color_palette = ( 'EMPTY' => [ '', '' ], 'DGREY' => [ "\e[1;30m", "\x0314" ], 'BLACK' => [ "\e[0;30m", "\x0301" ], 'RED' => [ "\e[1;31m", "\x0304" ], 'DRED' => [ "\e[0;31m", "\x0305" ], 'GREEN' => [ "\e[1;32m", "\x0309" ], 'DGREEN' => [ "\e[0;32m", "\x0303" ], 'YELLOW' => [ "\e[1;33m", "\x0308" ], 'DYELLOW' => [ "\e[0;33m", "\x0307" ], 'BLUE' => [ "\e[1;34m", "\x0312" ], 'DBLUE' => [ "\e[0;34m", "\x0302" ], 'MAGENTA' => [ "\e[1;35m", "\x0313" ], 'DMAGENTA' => [ "\e[0;35m", "\x0306" ], 'CYAN' => [ "\e[1;36m", "\x0311" ], 'DCYAN' => [ "\e[0;36m", "\x0310" ], 'WHITE' => [ "\e[1;37m", "\x0300" ], 'GREY' => [ "\e[0;37m", "\x0315" ], 'NORMAL' => [ "\e[0m", "\x03" ], ); my $color_scheme = get_color_scheme($colors{'scheme'}); $colors{'c1'} = $color_palette{$color_scheme->[0]}[$index]; $colors{'c2'} = $color_palette{$color_scheme->[1]}[$index]; $colors{'cn'} = $color_palette{$color_scheme->[2]}[$index]; # print Dumper \@scheme; # print "$colors{'c1'}here$colors{'c2'} we are!$colors{'cn'}\n"; eval $end if $b_log; } sub set_colors { eval $start if $b_log; # it's already been set with -c 0-43 if (exists $colors{'c1'}){ return 1; } # This let's user pick their color scheme. For IRC, only shows the color # schemes, no interactive. The override value only will be placed in user # config files. /etc/inxi.conf can also override if (exists $colors{'selector'}){ my $ob_selector = SelectColors->new($colors{'selector'}); $ob_selector->select_schema(); return 1; } # set the default, then override as required my $color_scheme = $colors{'default'}; # these are set in user configs if (defined $colors{'global'}){ $color_scheme = $colors{'global'}; } else { if ($b_irc){ if (defined $colors{'irc-virt-term'} && $b_display && $client{'console-irc'}){ $color_scheme = $colors{'irc-virt-term'}; } elsif (defined $colors{'irc-console'} && !$b_display){ $color_scheme = $colors{'irc-console'}; } elsif (defined $colors{'irc-gui'}){ $color_scheme = $colors{'irc-gui'}; } } else { if (defined $colors{'console'} && !$b_display){ $color_scheme = $colors{'console'}; } elsif (defined $colors{'virt-term'}){ $color_scheme = $colors{'virt-term'}; } } } # force 0 for | or > output, all others prints to irc or screen if (!$b_irc && !$force{'colors'} && ! -t STDOUT){ $color_scheme = 0; } set_color_scheme($color_scheme); eval $end if $b_log; } ## SelectColors { package SelectColors; my (@data,%configs,%status); my ($type,$w_fh); my $safe_color_count = 12; # null/normal + default color group my $count = 0; # args: 0: type sub new { my $class = shift; ($type) = @_; my $self = {}; return bless $self, $class; } sub select_schema { eval $start if $b_log; assign_selectors(); main::set_color_scheme(0); set_status(); start_selector(); create_color_selections(); if (!$b_irc){ Configs::check_file(); get_selection(); } else { print_irc_message(); } eval $end if $b_log; } sub set_status { $status{'console'} = (defined $colors{'console'}) ? "Set: $colors{'console'}" : 'Not Set'; $status{'virt-term'} = (defined $colors{'virt-term'}) ? "Set: $colors{'virt-term'}" : 'Not Set'; $status{'irc-console'} = (defined $colors{'irc-console'}) ? "Set: $colors{'irc-console'}" : 'Not Set'; $status{'irc-gui'} = (defined $colors{'irc-gui'}) ? "Set: $colors{'irc-gui'}" : 'Not Set'; $status{'irc-virt-term'} = (defined $colors{'irc-virt-term'}) ? "Set: $colors{'irc-virt-term'}" : 'Not Set'; $status{'global'} = (defined $colors{'global'}) ? "Set: $colors{'global'}" : 'Not Set'; } sub assign_selectors { if ($type == 94){ $configs{'variable'} = 'CONSOLE_COLOR_SCHEME'; $configs{'selection'} = 'console'; } elsif ($type == 95){ $configs{'variable'} = 'VIRT_TERM_COLOR_SCHEME'; $configs{'selection'} = 'virt-term'; } elsif ($type == 96){ $configs{'variable'} = 'IRC_COLOR_SCHEME'; $configs{'selection'} = 'irc-gui'; } elsif ($type == 97){ $configs{'variable'} = 'IRC_X_TERM_COLOR_SCHEME'; $configs{'selection'} = 'irc-virt-term'; } elsif ($type == 98){ $configs{'variable'} = 'IRC_CONS_COLOR_SCHEME'; $configs{'selection'} = 'irc-console'; } elsif ($type == 99){ $configs{'variable'} = 'GLOBAL_COLOR_SCHEME'; $configs{'selection'} = 'global'; } } sub start_selector { my $whoami = getpwuid($<) || "unknown???"; if (!$b_irc){ @data = ( [ 0, '', '', "Welcome to $self_name! Please select the default $configs{'selection'} color scheme."], ); } push(@data, [ 0, '', '', "Because there is no way to know your $configs{'selection'} foreground/background colors, you can set your color preferences from color scheme option list below:"], [ 0, '', '', "0 is no colors; 1 is neutral."], [ 0, '', '', "After these, there are 4 sets:"], [ 0, '', '', "1-dark^or^light^backgrounds; 2-light^backgrounds; 3-dark^backgrounds; 4-miscellaneous"], [ 0, '', '', ""], ); if (!$b_irc){ push(@data, [ 0, '', '', "Please note that this will set the $configs{'selection'} preferences only for user: $whoami"], ); } push(@data, [ 0, '', '', "$line1"], ); main::print_basic(\@data); @data = (); } sub create_color_selections { my $spacer = '^^'; # printer removes double spaces, but replaces ^ with ' ' $count = (main::get_color_scheme('count') - 1); foreach my $i (0 .. $count){ if ($i > 9){ $spacer = '^'; } if ($configs{'selection'} =~ /^(global|irc-gui|irc-console|irc-virt-term)$/ && $i > $safe_color_count){ last; } main::set_color_scheme($i); push(@data, [0, '', '', "$i)$spacer$colors{'c1'}Card:$colors{'c2'}^nVidia^GT218 $colors{'c1'}Display^Server$colors{'c2'}^x11^(X.Org^1.7.7)$colors{'cn'}"], ); } main::print_basic(\@data); @data = (); main::set_color_scheme(0); } sub get_selection { my $number = $count + 1; @data = ( [0, '', '', ($number++) . ")^Remove all color settings. Restore $self_name default."], [0, '', '', ($number++) . ")^Continue, no changes or config file setting."], [0, '', '', ($number++) . ")^Exit, use another terminal, or set manually."], [0, '', '', "$line1"], [0, '', '', "Simply type the number for the color scheme that looks best to your eyes for your $configs{'selection'} settings and hit . NOTE: You can bring this option list up by starting $self_name with option: -c plus one of these numbers:"], [0, '', '', "94^-^console,^not^in^desktop^-^$status{'console'}"], [0, '', '', "95^-^terminal,^desktop^-^$status{'virt-term'}"], [0, '', '', "96^-^irc,^gui,^desktop^-^$status{'irc-gui'}"], [0, '', '', "97^-^irc,^desktop,^in^terminal^-^$status{'irc-virt-term'}"], [0, '', '', "98^-^irc,^not^in^desktop^-^$status{'irc-console'}"], [0, '', '', "99^-^global^-^$status{'global'}"], [0, '', '', ""], [0, '', '', "Your selection(s) will be stored here: $user_config_file"], [0, '', '', "Global overrides all individual color schemes. Individual schemes remove the global setting."], [0, '', '', "$line1"], ); main::print_basic(\@data); @data = (); chomp(my $response = ); if (!main::is_int($response) || $response > ($count + 3)){ @data = ( [0, '', '', "Error - Invalid Selection. You entered this: $response. Hit to continue."], [0, '', '', "$line1"], ); main::print_basic(\@data); my $response = ; start_selector(); create_color_selections(); get_selection(); } else { process_selection($response); } if ($b_pledge){ @pledges = grep {$_ ne 'getpw'} @pledges; OpenBSD::Pledge::pledge(@pledges); } } sub process_selection { my $response = shift; if ($response == ($count + 3)){ @data = ( [0, '', '', "Ok, exiting $self_name now. You can set the colors later."], ); main::print_basic(\@data); exit 0; } elsif ($response == ($count + 2)){ @data = ( [0, '', '', "Ok, continuing $self_name unchanged."], [0, '', '', "$line1"], ); main::print_basic(\@data); if (defined $colors{'console'} && !$b_display){ main::set_color_scheme($colors{'console'}); } if (defined $colors{'virt-term'}){ main::set_color_scheme($colors{'virt-term'}); } else { main::set_color_scheme($colors{'default'}); } } elsif ($response == ($count + 1)){ @data = ( [0, '', '', "Removing all color settings from config file now..."], [0, '', '', "$line1"], ); main::print_basic(\@data); delete_all_config_colors(); main::set_color_scheme($colors{'default'}); } else { main::set_color_scheme($response); @data = ( [0, '', '', "Updating config file for $configs{'selection'} color scheme now..."], [0, '', '', "$line1"], ); main::print_basic(\@data); if ($configs{'selection'} eq 'global'){ delete_all_colors(); } else { delete_global_color(); } set_config_color_scheme($response); } } sub delete_all_colors { my @file_lines = main::reader($user_config_file); open($w_fh, '>', $user_config_file) or main::error_handler('open', $user_config_file, $!); foreach (@file_lines){ if ($_ !~ /^(CONSOLE_COLOR_SCHEME|GLOBAL_COLOR_SCHEME|IRC_COLOR_SCHEME|IRC_CONS_COLOR_SCHEME|IRC_X_TERM_COLOR_SCHEME|VIRT_TERM_COLOR_SCHEME)/){ print {$w_fh} "$_"; } } close $w_fh; } sub delete_global_color { my @file_lines = main::reader($user_config_file); open($w_fh, '>', $user_config_file) or main::error_handler('open', $user_config_file, $!); foreach (@file_lines){ if ($_ !~ /^GLOBAL_COLOR_SCHEME/){ print {$w_fh} "$_"; } } close $w_fh; } sub set_config_color_scheme { my $value = shift; my @file_lines = main::reader($user_config_file); my $b_found = 0; open($w_fh, '>', $user_config_file) or main::error_handler('open', $user_config_file, $!); foreach (@file_lines){ if ($_ =~ /^$configs{'variable'}/){ $_ = "$configs{'variable'}=$value"; $b_found = 1; } print $w_fh "$_\n"; } if (!$b_found){ print $w_fh "$configs{'variable'}=$value\n"; } close $w_fh; } sub print_irc_message { @data = ( [ 0, '', '', "$line1"], [ 0, '', '', "After finding the scheme number you like, simply run this again in a terminal to set the configuration data file for your irc client. You can set color schemes for the following: start inxi with -c plus:"], [ 0, '', '', "94 (console,^not^in^desktop^-^$status{'console'})"], [ 0, '', '', "95 (terminal, desktop^-^$status{'virt-term'})"], [ 0, '', '', "96 (irc,^gui,^desktop^-^$status{'irc-gui'})"], [ 0, '', '', "97 (irc,^desktop,^in terminal^-^$status{'irc-virt-term'})"], [ 0, '', '', "98 (irc,^not^in^desktop^-^$status{'irc-console'})"], [ 0, '', '', "99 (global^-^$status{'global'})"] ); main::print_basic(\@data); exit 0; } } #### ------------------------------------------------------------------- #### CONFIGS #### ------------------------------------------------------------------- ## Configs # public: set() check_file() { package Configs; sub set { my ($b_show) = @_; my ($b_files,$key, $val,@config_files); # removed legacy kde @$configs test which never worked @config_files = ( qq(/etc/$self_name.conf), qq(/etc/$self_name.d/$self_name.conf), qq($user_config_dir/$self_name.conf) ); # Config files should be passed in an array as a param to this function. # Default intended use: global @CONFIGS; foreach (@config_files){ next unless open(my $fh, '<', "$_"); my $b_configs; $b_files = 1; print "${line1}Configuration file: $_\n" if $b_show; while (<$fh>){ chomp; s/#.*//; s/^\s+//; s/\s+$//; s/'|"//g; s/true/1/i; # switch to 1/0 perl boolean s/false/0/i; # switch to 1/0 perl boolean next unless length; ($key, $val) = split(/\s*=\s*/, $_, 2); next unless length($val); if (!$b_show){ process_item($key,$val); } else { print $line3 if !$b_configs; print "$key=$val\n"; $b_configs = 1; } # print "f: $file key: $key val: $val\n"; } close $fh; if ($b_show && !$b_configs){ print "No configuration items found in file.\n"; } } return $b_files if $b_show; } sub show { print "Showing current active/set configurations, by file. Last overrides previous.\n"; my $b_files = set(1); print $line1; if ($b_files){ print "All done! Everything look good? If not, fix it.\n"; } else { print "No configuration files found. Is that what you expected?\n"; } exit 0; } # note: someone managed to make a config file with corrupted values, so check # int explicitly, don't assume it was done correctly. # args: 0: key; 1: value sub process_item { my ($key,$val) = @_; ## UTILITIES ## if ($key eq 'ALLOW_UPDATE' || $key eq 'B_ALLOW_UPDATE'){ $use{'update'} = $val if main::is_int($val)} elsif ($key eq 'ALLOW_WEATHER' || $key eq 'B_ALLOW_WEATHER'){ $use{'weather'} = $val if main::is_int($val)} elsif ($key eq 'CPU_SLEEP'){ $cpu_sleep = $val if main::is_numeric($val)} elsif ($key eq 'DL_TIMEOUT'){ $dl_timeout = $val if main::is_int($val)} elsif ($key eq 'DOWNLOADER'){ if ($val =~ /^(curl|fetch|ftp|perl|wget)$/){ # this dumps all the other data and resets %dl for only the # desired downloader. $val = main::set_perl_downloader($val); %dl = ('dl' => $val, $val => 1); }} elsif ($key eq 'FAKE_DATA_DIR'){ $fake_data_dir = $val} elsif ($key eq 'FILTER_STRING'){ $filter_string = $val} elsif ($key eq 'LANGUAGE'){ $language = $val if $val =~ /^(en)$/} elsif ($key eq 'LIMIT'){ $limit = $val if main::is_int($val)} elsif ($key eq 'OUTPUT_TYPE'){ $output_type = $val if $val =~ /^(json|screen|xml)$/} elsif ($key eq 'NO_DIG'){ $force{'no-dig'} = $val if main::is_int($val)} elsif ($key eq 'NO_DOAS'){ $force{'no-doas'} = $val if main::is_int($val)} elsif ($key eq 'NO_HTML_WAN'){ $force{'no-html-wan'} = $val if main::is_int($val)} elsif ($key eq 'NO_SUDO'){ $force{'no-sudo'} = $val if main::is_int($val)} elsif ($key eq 'PARTITION_SORT'){ if ($val =~ /^(dev-base|fs|id|label|percent-used|size|uuid|used)$/){ $show{'partition-sort'} = $val; }} elsif ($key eq 'PS_COUNT'){ $ps_count = $val if main::is_int($val) } elsif ($key eq 'SENSORS_CPU_NO'){ $sensors_cpu_nu = $val if main::is_int($val)} elsif ($key eq 'SENSORS_EXCLUDE'){ @sensors_exclude = split(/\s*,\s*/, $val) if $val} elsif ($key eq 'SENSORS_USE'){ @sensors_use = split(/\s*,\s*/, $val) if $val} elsif ($key eq 'SHOW_HOST' || $key eq 'B_SHOW_HOST'){ if (main::is_int($val)){ $show{'host'} = $val; $show{'no-host'} = 1 if !$show{'host'}; } } elsif ($key eq 'USB_SYS'){ $force{'usb-sys'} = $val if main::is_int($val)} elsif ($key eq 'WAN_IP_URL'){ if ($val =~ /^(ht|f)tp[s]?:\//i){ $wan_url = $val; $force{'no-dig'} = 1; } } elsif ($key eq 'WEATHER_SOURCE'){ $weather_source = $val if main::is_int($val)} elsif ($key eq 'WEATHER_UNIT'){ $val = lc($val) if $val; if ($val && $val =~ /^(c|f|cf|fc|i|m|im|mi)$/){ my %units = ('c'=>'m','f'=>'i','cf'=>'mi','fc'=>'im'); $val = $units{$val} if defined $units{$val}; $weather_unit = $val; } } ## COLORS/SEP ## elsif ($key eq 'CONSOLE_COLOR_SCHEME'){ $colors{'console'} = $val if main::is_int($val)} elsif ($key eq 'GLOBAL_COLOR_SCHEME'){ $colors{'global'} = $val if main::is_int($val)} elsif ($key eq 'IRC_COLOR_SCHEME'){ $colors{'irc-gui'} = $val if main::is_int($val)} elsif ($key eq 'IRC_CONS_COLOR_SCHEME'){ $colors{'irc-console'} = $val if main::is_int($val)} elsif ($key eq 'IRC_X_TERM_COLOR_SCHEME'){ $colors{'irc-virt-term'} = $val if main::is_int($val)} elsif ($key eq 'VIRT_TERM_COLOR_SCHEME'){ $colors{'virt-term'} = $val if main::is_int($val)} # note: not using the old short SEP1/SEP2 elsif ($key eq 'SEP1_IRC'){ $sep{'s1-irc'} = $val} elsif ($key eq 'SEP1_CONSOLE'){ $sep{'s1-console'} = $val} elsif ($key eq 'SEP2_IRC'){ $sep{'s2-irc'} = $val} elsif ($key eq 'SEP2_CONSOLE'){ $sep{'s2-console'} = $val} ## SIZES ## elsif ($key eq 'COLS_MAX_CONSOLE'){ $size{'console'} = $val if main::is_int($val)} elsif ($key eq 'COLS_MAX_IRC'){ $size{'irc'} = $val if main::is_int($val)} elsif ($key eq 'COLS_MAX_NO_DISPLAY'){ $size{'no-display'} = $val if main::is_int($val)} elsif ($key eq 'INDENT'){ $size{'indent'} = $val if main::is_int($val)} elsif ($key eq 'INDENTS'){ $filter_string = $val if main::is_int($val)} elsif ($key eq 'LINES_MAX'){ if ($val =~ /^-?\d+$/ && $val >= -1){ if ($val == 0){ $size{'max-lines'} = $size{'term-lines'};} elsif ($val == -1){ $use{'output-block'} = 1;} else { $size{'max-lines'} = $val;} }} elsif ($key eq 'MAX_WRAP' || $key eq 'WRAP_MAX' || $key eq 'INDENT_MIN'){ $size{'max-wrap'} = $val if main::is_int($val)} # print "mc: key: $key val: $val\n"; # print Dumper (keys %size) . "\n"; } sub check_file { $user_config_file = "$user_config_dir/$self_name.conf"; if (! -f $user_config_file){ open(my $fh, '>', $user_config_file) or main::error_handler('create', $user_config_file, $!); } } } #### ------------------------------------------------------------------- #### DEBUGGERS #### ------------------------------------------------------------------- # called in the initial -@ 10 program args setting so we can get logging # as soon as possible # will have max 3 files, inxi.log, inxi.1.log, # inxi.2.log sub begin_logging { return 1 if $fh_l; # if we want to start logging for testing before options my $log_file_2="$user_data_dir/$self_name.1.log"; my $log_file_3="$user_data_dir/$self_name.2.log"; my $data = ''; $end='main::log_data("fe", (caller(1))[3], "");'; $start='main::log_data("fs", (caller(1))[3], \@_);'; #$t3 = tv_interval ($t0, [gettimeofday]); $t3 = eval 'Time::HiRes::tv_interval (\@t0, [Time::HiRes::gettimeofday()]);' if $b_hires; # print Dumper $@; my $now = strftime "%Y-%m-%d %H:%M:%S", localtime; return if $debugger{'timers'}; # do the rotation if logfile exists if (-f $log_file){ # copy if present second to third if (-f $log_file_2){ rename $log_file_2, $log_file_3 or error_handler('rename', "$log_file_2 -> $log_file_3", "$!"); } # then copy initial to second rename $log_file, $log_file_2 or error_handler('rename', "$log_file -> $log_file_2", "$!"); } # now create the logfile # print "Opening log file for reading: $log_file\n"; open($fh_l, '>', $log_file) or error_handler(4, $log_file, "$!"); # and echo the start data $data = $line2; $data .= "START $self_name LOGGING:\n"; $data .= "NOTE: HiRes timer not available.\n" if !$b_hires; $data .= "$now\n"; $data .= "Elapsed since start: $t3\n"; $data .= "n: $self_name v: $self_version p: $self_patch d: $self_date\n"; $data .= '@paths:' . joiner(\@paths, '::', 'unset') . "\n"; $data .= $line2; print $fh_l $data; } # NOTE: no logging available until get_parameters is run, since that's what # sets logging # in order to trigger earlier logging manually set $b_log # to true in top variables. # args: 0: type [fs|fe|cat|dump|raw]; 1: function name OR data to log; # [2: function args OR hash/array ref] sub log_data { return if !$b_log; my ($one, $two, $three) = @_; my ($args,$data,$timer) = ('','',''); my $spacer = ' '; # print "1: $one 2: $two 3: $three\n"; if ($one eq 'fs'){ if (ref $three eq 'ARRAY'){ # print Data::Dumper::Dumper $three; $args = "\n${spacer}Args: " . joiner($three, '; ', 'unset'); } else { $args = "\n${spacer}Args: None"; } # $t1 = [gettimeofday]; #$t3 = tv_interval ($t0, [gettimeofday]); $t3 = eval 'Time::HiRes::tv_interval(\@t0, [Time::HiRes::gettimeofday()])' if $b_hires; # print Dumper $@; $data = "Start: Function: $two$args\n${spacer}Elapsed: $t3\n"; $spacer=''; $timer = $data if $debugger{'timers'}; } elsif ($one eq 'fe'){ # print 'timer:', Time::HiRes::tv_interval(\@t0, [Time::HiRes::gettimeofday()]),"\n"; #$t3 = tv_interval ($t0, [gettimeofday]); eval '$t3 = Time::HiRes::tv_interval(\@t0, [Time::HiRes::gettimeofday()])' if $b_hires; # print Dumper $t3; $data = "${spacer}Elapsed: $t3\nEnd: Function: $two\n"; $spacer=''; $timer = $data if $debugger{'timers'}; } elsif ($one eq 'cat'){ if ($b_log_full){ foreach my $file ($two){ my $contents = do { local(@ARGV, $/) = $file; <> }; # or: qx(cat $file) $data = "$data${line3}Full file data: $file\n\n$contents\n$line3\n"; } $spacer=''; } } elsif ($one eq 'cmd'){ $data = "Command: $two\n"; $data .= qx($two); } elsif ($one eq 'data'){ $data = "$two\n"; } elsif ($one eq 'dump'){ $data = "$two:\n"; if (ref $three eq 'HASH'){ $data .= Data::Dumper::Dumper $three; } elsif (ref $three eq 'ARRAY'){ # print Data::Dumper::Dumper $three; $data .= Data::Dumper::Dumper $three; } else { $data .= Data::Dumper::Dumper $three; } $data .= "\n"; # print $data; } elsif ($one eq 'raw'){ if ($b_log_full){ $data = "\n${line3}Raw System Data:\n\n$two\n$line3"; $spacer=''; } } else { $data = "$two\n"; } if ($debugger{'timers'}){ print $timer if $timer; } # print "d: $data"; elsif ($data){ print $fh_l "$spacer$data"; } } sub set_debugger { user_debug_test_1() if $debugger{'test-1'}; if ($debugger{'level'} >= 20){ error_handler('not-in-irc', 'debug data generator') if $b_irc; my $option = ($debugger{'level'} > 22) ? 'main-full' : 'main'; $debugger{'gz'} = 1 if ($debugger{'level'} == 22 || $debugger{'level'} == 24); my $ob_sys = SystemDebugger->new($option); $ob_sys->run_debugger(); $ob_sys->upload_file($ftp_alt) if $debugger{'level'} > 20; exit 0; } elsif ($debugger{'level'} >= 10 && $debugger{'level'} <= 12){ $b_log = 1; if ($debugger{'level'} == 11){ $b_log_full = 1; } elsif ($debugger{'level'} == 12){ $b_log_colors = 1; } begin_logging(); } elsif ($debugger{'level'} <= 3){ if ($debugger{'level'} == 3){ $b_log = 1; $debugger{'timers'} = 1; begin_logging(); } else { $end = ''; $start = ''; } } } ## SystemDebugger { package SystemDebugger; my $option = 'main'; my ($data_dir,$debug_dir,$debug_gz,$parse_src,$upload) = ('','','','',''); my @content; my $b_debug = 0; my $b_delete_dir = 1; # args: 0: type; 1: upload sub new { my $class = shift; ($option) = @_; my $self = {}; # print "$f\n"; # print "$option\n"; return bless $self, $class; } sub run_debugger { print "Starting $self_name debugging data collector...\n"; check_required_items(); create_debug_directory(); print "Note: for dmidecode, smartctl, lvm data you must be root.\n" if !$b_root; print $line3; if (!$b_debug){ audio_data(); bluetooth_data(); disk_data(); display_data(); network_data(); perl_modules(); system_data(); } system_files(); print $line3; if (!$b_debug){ # note: android has unreadable /sys, but -x and -r tests pass # main::globber('/sys/*') && if ($debugger{'sys'} && main::count_dir_files('/sys')){ build_tree('sys'); # kernel crash, not sure what creates it, for ppc, as root if ($debugger{'sys'} && ($debugger{'sys-force'} || !$b_root || !$risc{'ppc'})){ sys_traverse_data(); } } else { print "Skipping /sys data collection.\n"; } print $line3; # note: proc has some files that are apparently kernel processes, I've tried # filtering them out but more keep appearing, so only run proc debugger if not root if (!$debugger{'no-proc'} && (!$b_root || $debugger{'proc'}) && -d '/proc' && main::count_dir_files('/proc')){ build_tree('proc'); proc_traverse_data(); } else { print "Skipping /proc data collection.\n"; } print $line3; } run_self(); print $line3; compress_dir(); } sub check_required_items { print "Loading required debugger Perl File:: modules... \n"; # Fedora/Redhat doesn't include File::Find File::Copy in # core modules. why? Or rather, they deliberately removed them. if (main::check_perl_module('File::Find')){ File::Find->import; } else { main::error_handler('required-module', 'File', 'File::Find'); } if (main::check_perl_module('File::Copy')){ File::Copy->import; } else { main::error_handler('required-module', 'File', 'File::Copy'); } if (main::check_perl_module('File::Spec::Functions')){ File::Spec::Functions->import; } else { main::error_handler('required-module', 'File', 'File::Spec::Functions'); } if ($debugger{'level'} > 20){ if (main::check_perl_module('Net::FTP')){ Net::FTP->import; } else { main::error_handler('required-module', 'Net', 'Net::FTP'); } } print "Checking basic core system programs exist... \n"; if ($debugger{'level'} > 19){ # astoundingly, rhel 9 and variants are shipping without tar in minimal install if (!main::check_program('tar')){ main::error_handler('required-program', 'tar', 'debugger'); } } } sub create_debug_directory { my $host = main::get_hostname(); $host =~ s/ /-/g; $host = 'no-host' if !$host || $host eq 'N/A'; my ($alt_string,$root_string) = ('',''); # note: Time::Piece was introduced in perl 5.9.5 my ($sec,$min,$hour,$mday,$mon,$year) = localtime; $year = $year+1900; $mon += 1; if (length($sec) == 1){$sec = "0$sec";} if (length($min) == 1){$min = "0$min";} if (length($hour) == 1){$hour = "0$hour";} if (length($mon) == 1){$mon = "0$mon";} if (length($mday) == 1){$mday = "0$mday";} my $today = "$year-$mon-${mday}_$hour$min$sec"; # my $date = strftime "-%Y-%m-%d_", localtime; if ($b_root){ $root_string = '-root'; } my $id = ($debugger{'id'}) ? '-' . $debugger{'id'}: ''; $alt_string = '-' . uc($risc{'id'}) if %risc; $alt_string .= "-BSD-$bsd_type" if $bsd_type; $alt_string .= '-ANDROID' if $b_android; $alt_string .= '-CYGWIN' if $windows{'cygwin'}; # could be windows arm? $alt_string .= '-WSL' if $windows{'wsl'}; # could be windows arm? $debug_dir = "$self_name$alt_string-$host$id-$today$root_string-$self_version-$self_patch"; $debug_gz = "$debug_dir.tar.gz"; $data_dir = "$user_data_dir/$debug_dir"; if (-d $data_dir){ unlink $data_dir or main::error_handler('remove', "$data_dir", "$!"); } mkdir $data_dir or main::error_handler('mkdir', "$data_dir", "$!"); if (-e "$user_data_dir/$debug_gz"){ #rmdir "$user_data_dir$debug_gz" or main::error_handler('remove', "$user_data_dir/$debug_gz", "$!"); print "Failed removing leftover directory:\n$user_data_dir$debug_gz error: $?" if system('rm','-rf',"$user_data_dir$debug_gz"); } print "Debugger data going into:\n$data_dir\n"; } sub compress_dir { print "Creating tar.gz compressed file of this material...\n"; print "File: $debug_gz\n"; system("cd $user_data_dir; tar -czf $debug_gz $debug_dir"); print "Removing $data_dir...\n"; #rmdir $data_dir or print "failed removing: $data_dir error: $!\n"; return 1 if !$b_delete_dir; if (system('rm','-rf',$data_dir)){ print "Failed removing: $data_dir\nError: $?\n"; } else { print "Directory removed.\n"; } } # NOTE: incomplete, don't know how to ever find out # what sound server is actually running, and is in control sub audio_data { my (%data,@files,@files2); print "Collecting audio data...\n"; my @cmds = ( ['aplay', '--version'], # alsa ['aplay', '-l'], # alsa devices ['aplay', '-L'], # alsa list of features, can detect active sound server ['artsd', '-v'], # aRts ['esd', '-v'], # EsounD, to stderr ['nasd', '-V'], # NAS ['jackd', '--version'], # JACK ['pactl', '--version'], # pulseaudio ['pactl', 'info'], # pulseaudio, check if running as server: Server Name: ['pactl', 'list'], # pulseaudio ['pipewire', '--version'], # pipewire ['pipewire-alsa', '--version'], # pipewire-alsa - just config files ['pipewire-pulse', '--version'], # pipewire-pulse ['pulseaudio', '--version'], # PulseAudio ['pw-jack', '--version'], # pipewire-jack ['pw-cli', 'ls'], # pipewire, check if running as server ['pw-cli', 'info all'], ); run_commands(\@cmds,'audio'); @files = main::globber('/proc/asound/card*/codec*'); if (@files){ my $asound = qx(head -n 1 /proc/asound/card*/codec* 2>&1); $data{'proc-asound-codecs'} = $asound; } else { $data{'proc-asound-codecs'} = undef; } write_data(\%data,'audio'); @files = ( '/proc/asound/cards', '/proc/asound/version', ); @files2 = main::globber('/proc/asound/*/usbid'); push(@files,@files2) if @files2; copy_files(\@files,'audio'); } sub bluetooth_data { print "Collecting bluetooth data...\n"; # no warnings 'uninitialized'; my @cmds = ( ['btmgmt','info'], ['hciconfig','-a'], # no version #['hcidump',''], # hangs sometimes ['hcitool','dev'], ['rfkill','--output-all'], ); # these hang if bluetoothd not enabled if (@ps_cmd && (grep {m|/bluetoothd|} @ps_cmd)){ push(@cmds, ['bt-adapter','--list'], # no version ['bt-adapter','--info'], ['bluetoothctl','--version'], ['bluetoothctl','--list'], ['bluetoothctl','--show'] ); } run_commands(\@cmds,'bluetooth'); } ## NOTE: >/dev/null 2>&1 is sh, and &>/dev/null is bash, fix this # ls -w 1 /sysrs > tester 2>&1 sub disk_data { my (%data,@files,@files2); print "Collecting dev, label, disk, uuid data, df...\n"; @files = ( '/etc/fstab', '/etc/mtab', '/proc/devices', '/proc/mdstat', '/proc/mounts', '/proc/partitions', '/proc/scsi/scsi', '/proc/sys/dev/cdrom/info', ); # very old systems if (-d '/proc/ide/'){ my @ides = main::globber('/proc/ide/*/*'); push(@files, @ides) if @ides; } else { push(@files, '/proc-ide-directory'); } copy_files(\@files, 'disk'); my @cmds = ( ['blockdev', '--version'], ['blockdev', '--report'], ['btrfs', 'fi show'], # no version ['btrfs', 'filesystem show'], ['btrfs', 'filesystem show --mounted'], # ['btrfs', 'filesystem show --all-devices'], ['df', '-h -T'], # no need for version, and bsd doesn't have its ['df', '-h'], ['df', '-k'], ['df', '-k -P'], ['df', '-k -T'], ['df', '-k -T -P'], ['df', '-k -T -P -a'], ['df', '-P'], ['dmsetup', 'ls --tree'], ['findmnt', ''], ['findmnt', '--df --no-truncate'], ['findmnt', '--list --no-truncate'], ['gpart', 'list'], # no version ['gpart', 'show'], ['gpart', 'status'], ['ls', '-l /dev'],# core util, don't need version # block is for mmcblk / arm devices ['ls', '-l /dev/block'], ['ls', '-l /dev/block/bootdevice'], ['ls', '-l /dev/block/bootdevice/by-name'], ['ls', '-l /dev/disk'], ['ls', '-l /dev/disk/by-id'], ['ls', '-l /dev/disk/by-label'], ['ls', '-l /dev/disk/by-partlabel'], ['ls', '-l /dev/disk/by-partuuid'], ['ls', '-l /dev/disk/by-path'], ['ls', '-l /dev/disk/by-uuid'], # http://comments.gmane.org/gmane.linux.file-systems.zfs.user/2032 ['ls', '-l /dev/disk/by-wwn'], ['ls', '-l /dev/mapper'], ['lsblk', '--version'], # important since lsblk has been changing output ['lsblk', '-fs'], ['lsblk', '-fsr'], ['lsblk', '-fsP'], ['lsblk', '-a'], ['lsblk', '-aP'], ['lsblk', '-ar'], ['lsblk', '-p'], ['lsblk', '-pr'], ['lsblk', '-pP'], ['lsblk', '-r'], ['lsblk', '-r --output NAME,PKNAME,TYPE,RM,FSTYPE,SIZE,LABEL,UUID,MOUNTPOINT,PHY-SEC,LOG-SEC,PARTFLAGS'], ['lsblk', '-rb --output NAME,PKNAME,TYPE,RM,FSTYPE,SIZE,LABEL,UUID,MOUNTPOINT,PHY-SEC,LOG-SEC,PARTFLAGS'], ['lsblk', '-rb --output NAME,TYPE,RM,FSTYPE,SIZE,LABEL,UUID,SERIAL,MOUNTPOINT,PHY-SEC,LOG-SEC,PARTFLAGS,MAJ:MIN,PKNAME'], ['lsblk', '-Pb --output NAME,PKNAME,TYPE,RM,FSTYPE,SIZE'], ['lsblk', '-Pb --output NAME,TYPE,RM,FSTYPE,SIZE,LABEL,UUID,SERIAL,MOUNTPOINT,PHY-SEC,LOG-SEC,PARTFLAGS'], # this should always be the live command used internally: ['lsblk', '-bP --output NAME,TYPE,RM,FSTYPE,SIZE,LABEL,UUID,SERIAL,MOUNTPOINT,PHY-SEC,LOG-SEC,PARTFLAGS,MAJ:MIN,PKNAME'], ['lvdisplay', '--version'], ['lvdisplay', '-c'], ['lvdisplay', '-cv'], ['lvdisplay', '-cv --segments'], ['lvdisplay', '-m --segments'], ['lvdisplay', '-ma --segments'], ['lvs', '--version'], ['lvs', '--separator :'], ['lvs', '--separator : --segments'], ['lvs', '-o +devices --separator : --segments'], ['lvs', '-o +devices -v --separator : --segments'], ['lvs', '-o +devices -av --separator : --segments'], ['lvs', '-o +devices -aPv --separator : --segments'], # LSI raid https://hwraid.le-vert.net/wiki/LSIMegaRAIDSAS ['megacli', '-AdpAllInfo -aAll'], # no version ['megacli', '-LDInfo -L0 -a0'], ['megacli', '-PDList -a0'], ['megaclisas-status', ''], # no version ['megaraidsas-status', ''], ['megasasctl', ''], ['mount', ''], ['nvme', 'present'], # no version ['pvdisplay', '--version'], ['pvdisplay', '-c'], ['pvdisplay', '-cv'], ['pvdisplay', '-m'], ['pvdisplay', '-ma'], ['pvs', '--version'], ['pvs', '--separator :'], ['pvs', '--separator : --segments'], ['pvs', '-a --separator : --segments'], ['pvs', '-av --separator : --segments'], ['pvs', '-aPv --separator : --segments -o +pv_major,pv_minor'], ['pvs', '-v --separator : --segments'], ['pvs', '-Pv --separator : --segments'], ['pvs', '--segments -o pv_name,pv_size,seg_size,vg_name,lv_name,lv_size,seg_pe_ranges'], ['readlink', '/dev/root'], # coreutils, don't need version ['swapon', '-s'], # coreutils, don't need version # 3ware-raid ['tw-cli', 'info'], ['vgdisplay', ''], ['vgdisplay', '-v'], ['vgdisplay', '-c'], ['vgdisplay', '-vc'], ['vgs', '--separator :'], # part of lvm, don't need version ['vgs', '-av --separator :'], ['vgs', '-aPv --separator :'], ['vgs', '-v --separator :'], ['vgs', '-o +pv_name --separator :'], ['zfs', 'list'], ['zpool', 'list'], # don't use version, might not be supported in linux ['zpool', 'list -v'], ); run_commands(\@cmds,'disk'); @cmds = ( ['atacontrol', 'list'], ['camcontrol', 'devlist'], ['camcontrol', 'devlist -v'], ['geom', 'part list'], ['glabel', 'status'], ['gpart', 'list'], # gpart in linux/bsd but do it here again ['gpart', 'show'], ['gpart', 'status'], ['swapctl', '-l -k'], ['swapctl', '-l -k'], ['vmstat', ''], ['vmstat', '-H'], ); run_commands(\@cmds,'disk-bsd'); } sub display_data { my (%data,@files,@files2); my $working = ''; if (!$b_display){ print "Warning: only some of the data collection can occur if you are not in X\n"; main::toucher("$data_dir/display-data-warning-user-not-in-x"); } if ($b_root){ print "Warning: only some of the data collection can occur if you are running as Root user\n"; main::toucher("$data_dir/display-data-warning-root-user"); } print "Collecting Xorg log and xorg.conf files...\n"; if (-d "/etc/X11/xorg.conf.d/"){ @files = main::globber("/etc/X11/xorg.conf.d/*"); } else { @files = ('/xorg-conf-d'); } # keep this updated to handle all possible locations we know about for Xorg.0.log # not using $system_files{'xorg-log'} for now though it would be best to know what file is used main::set_xorg_log(); push(@files, '/var/log/Xorg.0.log'); push(@files, '/var/lib/gdm/.local/share/xorg/Xorg.0.log'); push(@files, $ENV{'HOME'} . '/.local/share/xorg/Xorg.0.log'); push(@files, $system_files{'xorg-log'}) if $system_files{'xorg-log'}; push(@files, '/etc/X11/XFCconfig-4'); # very old format for xorg.conf push(@files, '/etc/X11/xorg.conf'); copy_files(\@files,'display-xorg'); print "Collecting X, xprop, glxinfo, xrandr, xdpyinfo data, Wayland info...\n"; %data = ( 'desktop-session' => $ENV{'DESKTOP_SESSION'}, 'display' => $ENV{'DISPLAY'}, 'gdmsession' => $ENV{'GDMSESSION'}, 'gnome-desktop-session-id' => $ENV{'GNOME_DESKTOP_SESSION_ID'}, 'kde-full-session' => $ENV{'KDE_FULL_SESSION'}, 'kde-session-version' => $ENV{'KDE_SESSION_VERSION'}, 'vdpau-driver' => $ENV{'VDPAU_DRIVER'}, 'xdg-current-desktop' => $ENV{'XDG_CURRENT_DESKTOP'}, 'xdg-session-desktop' => $ENV{'XDG_SESSION_DESKTOP'}, 'xdg-vtnr' => $ENV{'XDG_VTNR'}, # wayland data collectors: 'wayland-display' => $ENV{'WAYLAND_DISPLAY'}, 'xdg-session-type' => $ENV{'XDG_SESSION_TYPE'}, 'gdk-backend' => $ENV{'GDK_BACKEND'}, 'qt-qpa-platform' => $ENV{'QT_QPA_PLATFORM'}, 'clutter-backend' => $ENV{'CLUTTER_BACKEND'}, 'sdl-videodriver' => $ENV{'SDL_VIDEODRIVER'}, # program display values 'size-cols-max' => $size{'max-cols'}, 'size-indent' => $size{'indent'}, 'size-lines-max' => $size{'max-lines'}, 'size-wrap-width' => $size{'max-wrap'}, ); write_data(\%data,'display'); my @cmds = ( # kde 5/plasma desktop 5, this is maybe an extra package and won't be used ['about-distro',''], ['aticonfig','--adapter=all --od-gettemperature'], ['clinfo',''], ['clinfo','--list'], ['clinfo','--raw'], # machine friendly ['eglinfo',''], ['eglinfo','-B'], ['es2_info',''], ['glxinfo',''], ['glxinfo','-B'], ['kded','--version'], ['kded1','--version'], ['kded2','--version'], ['kded3','--version'], ['kded4','--version'], ['kded5','--version'], ['kded6','--version'], ['kded7','--version'], ['kf-config','--version'], ['kf4-config','--version'], ['kf5-config','--version'], ['kf6-config','--version'], ['kf7-config','--version'], ['kwin_x11','--version'], # ['locate','/Xorg'], # for Xorg.wrap problem ['loginctl','--no-pager list-sessions'], ['ls','/sys/class/drm'], ['nvidia-settings','-q screens'], ['nvidia-settings','-c :0.0 -q all'], ['nvidia-smi','-q'], ['nvidia-smi','-q -x'], ['plasmashell','--version'], ['swaymsg','-t get_inputs -p'], ['swaymsg','-t get_inputs -r'], ['swaymsg','-t get_outputs -p'], ['swaymsg','-t get_outputs -r'], ['swaymsg','-t get_tree'], ['swaymsg','-t get_workspaces -p'], ['swaymsg','-t get_workspaces -r'], ['vainfo',''], ['vdpauinfo',''], ['vulkaninfo',''], ['vulkaninfo','--summary'], # ['vulkaninfo','--json'], # outputs to file, not sure how to output to stdout ['wayland-info',''], # not packaged as far as I know yet ['weston-info',''], ['wmctrl','-m'], ['weston','--version'], ['wlr-randr',''], ['xdpyinfo',''], ['xdriinfo',''], ['Xorg','-version'], ['xprop','-root'], ['xrandr',''], ['Xvesa','-version'], ['Xvesa','-listmodes'], ['Xwayland','-version'], ); run_commands(\@cmds,'display'); } sub network_data { print "Collecting networking data...\n"; # no warnings 'uninitialized'; my @cmds = ( ['ifconfig',''], # no version maybe in bsd, --version in linux ['ip','-Version'], ['ip','addr'], ['ip','-s link'], ); run_commands(\@cmds,'network'); } sub perl_modules { print "Collecting Perl module data (this can take a while)...\n"; my @modules; my ($dirname,$holder,$mods,$value) = ('','','',''); my $filename = 'perl-modules.txt'; my @inc; foreach (sort @INC){ # some BSD installs have '.' n @INC path if (-d $_ && $_ ne '.'){ $_ =~ s/\/$//; # just in case, trim off trailing slash $value .= "EXISTS: $_\n"; push(@inc, $_); } else { $value .= "ABSENT: $_\n"; } } main::writer("$data_dir/perl-inc-data.txt",$value); File::Find::find({ wanted => sub { push(@modules, File::Spec->canonpath($_)) if /\.pm\z/ }, no_chdir => 1 }, @inc); @modules = sort @modules; foreach (@modules){ my $dir = $_; $dir =~ s/[^\/]+$//; if (!$holder || $holder ne $dir){ $holder = $dir; $value = "DIR: $dir\n"; $_ =~ s/^$dir//; $value .= " $_\n"; } else { $value = $_; $value =~ s/^$dir//; $value = " $value\n"; } $mods .= $value; } open(my $fh, '>', "$data_dir/$filename"); print $fh $mods; close $fh; } sub system_data { print "Collecting system data...\n"; # has to run here because if null, error, list constructor throws fatal error my $ksh = qx(ksh -c 'printf \%s "\$KSH_VERSION"' 2>/dev/null); my %data = ( 'cc' => $ENV{'CC'}, # @(#)MIRBSD KSH R56 2018/03/09: ksh and mksh 'ksh-version' => $ksh, # shell, not env, variable 'manpath' => $ENV{'MANPATH'}, 'path' => $ENV{'PATH'}, 'shell' => $ENV{'SHELL'}, 'xdg-config-home' => $ENV{'XDG_CONFIG_HOME'}, 'xdg-config-dirs' => $ENV{'XDG_CONFIG_DIRS'}, 'xdg-data-home' => $ENV{'XDG_DATA_HOME'}, 'xdg-data-dirs' => $ENV{'XDG_DATA_DIRS'}, ); my @files = main::globber('/usr/bin/gcc*'); if (@files){ $data{'gcc-versions'} = join("\n", @files); } else { $data{'gcc-versions'} = undef; } @files = main::globber('/sys/*'); if (@files){ $data{'sys-tree-ls-1-basic'} = join("\n", @files); } else { $data{'sys-tree-ls-1-basic'} = undef; } write_data(\%data,'system'); # bsd tools http://cb.vu/unixtoolbox.xhtml my @cmds = ( # general ['sysctl', '-a'], ['sysctl', '-b kern.geom.conftxt'], ['sysctl', '-b kern.geom.confxml'], ['usbdevs','-v'], # freebsd ['ofwdump','-a'], # arm / soc ['ofwdump','-ar'], # arm / soc ['pciconf','-l -cv'], ['pciconf','-vl'], ['pciconf','-l'], ['usbconfig','dump_device_desc'], ['usbconfig','list'], # needs root, sigh... why? # openbsd ['ofctl',''], # arm / soc, need to see data sample of this ['pcidump',''], ['pcidump','-v'], # netbsd ['kldstat',''], ['pcictl','pci0 list'], ['pcictl','pci0 list -N'], ['pcictl','pci0 list -n'], # sunos ['prtdiag',''], ['prtdiag','-v'], ); run_commands(\@cmds,'system-bsd'); # diskinfo -v # fdisk @cmds = ( ['clang','--version'], # only for prospective ram feature data collection: requires i2c-tools and module eeprom loaded ['decode-dimms',''], ['dmidecode','--version'], ['dmidecode',''], ['dmesg',''], ['gcc','--version'], ['getconf','-a'], ['getconf','-l'], # openbsd ['initctl','list'], ['ipmi-sensors','-V'], # version ['ipmi-sensors',''], ['ipmi-sensors','--output-sensor-thresholds'], ['ipmitool','-V'],# version ['ipmitool','sensor'], ['lscpu',''],# part of util-linux ['lsmem',''], ['lsmem','--all'], ['lspci','--version'], ['lspci',''], ['lspci','-k'], ['lspci','-n'], ['lspci','-nn'], ['lspci','-nnk'], ['lspci','-nnkv'],# returns ports ['lspci','-nnv'], ['lspci','-mm'], ['lspci','-mmk'], ['lspci','-mmkv'], ['lspci','-mmv'], ['lspci','-mmnn'], ['lspci','-v'], ['lsusb','--version'], ['lsusb',''], ['lsusb','-t'], ['lsusb','-v'], ['ps','aux'], ['ps','-e'], ['ps','-p 1'], ['runlevel',''], ['rc-status','-a'], ['rc-status','-l'], ['rc-status','-r'], ['sensors','--version'], ['sensors',''], ['sensors','-j'], ['sensors','-u'], # leaving this commented out to remind that some systems do not # support strings --version, but will just simply hang at that command # which you can duplicate by simply typing: strings then hitting enter. # ['strings','--version'], ['strings','present'], ['sysctl','-a'], ['systemctl','--version'], ['systemctl','get-default'], ['systemctl','list-units'], ['systemctl','list-units --type=target'], ['systemd-detect-virt',''], ['uname','-a'], ['upower','-e'], ['uptime',''], ['vcgencmd','get_mem arm'], ['vcgencmd','get_mem gpu'], ); run_commands(\@cmds,'system'); my $glob = '/sys/devices/system/cpu/'; $glob .= '{cpufreq,cpu*/topology,cpu*/cpufreq,cpu*/cache/index*,smt,'; $glob .= 'vulnerabilities}/*'; get_glob('sys','cpu',$glob); @files = main::globber('/dev/bus/usb/*/*'); copy_files(\@files, 'system'); } sub system_files { print "Collecting system files data...\n"; my (%data,@files,@files2); @files = RepoItem::get($data_dir); copy_files(\@files, 'repo'); # chdir "/etc"; @files = main::globber('/etc/*[-_]{[rR]elease,[vV]ersion,issue}*'); push(@files, '/etc/issue',' /etc/lsb-release', '/etc/os-release', '/system/build.prop', # android data file, requires rooted '/var/log/installer/oem-id'); # ubuntu only for oem installs? copy_files(\@files,'system-distro'); @files = main::globber('/etc/upstream[-_]{[rR]elease,[vV]ersion}/*'); copy_files(\@files,'system-distro'); @files = main::globber('/etc/calamares/branding/*/branding.desc'); copy_files(\@files,'system-distro'); @files = ( '/etc/systemd/system/default.target', '/proc/1/comm', '/proc/cmdline', '/proc/cpuinfo', '/proc/iomem', '/proc/meminfo', '/proc/modules', '/proc/net/arp', '/proc/version', ); @files2=main::globber('/sys/class/power_supply/*/uevent'); if (@files2){ push(@files,@files2); } else { push(@files, '/sys-class-power-supply-empty'); } copy_files(\@files, 'system'); @files = ( '/etc/make.conf', '/etc/src.conf', '/var/run/dmesg.boot', ); copy_files(\@files,'system-bsd'); @files = main::globber('/sys/devices/system/cpu/vulnerabilities/*'); copy_files(\@files,'security'); } ## SELF EXECUTE FOR LOG/OUTPUT sub run_self { print "Creating $self_name output file now. This can take a few seconds...\n"; print "Starting $self_name from: $self_path\n"; my $args = '-FERfJLrploudma --slots --pkg --edid'; my $a = ($debugger{'arg'}) ? ' ' . $debugger{'arg'} : ''; my $i = ($option eq 'main-full')? ' -i' : ''; my $z = ($debugger{'filter'}) ? ' -z' : ''; my $w = ($debugger{'width'}) ? $debugger{'width'} : 120; $args = $debugger{'arg-use'} if $debugger{'arg-use'}; $args = "$args$a$i$z --debug 10 -y $w"; my $arg_string = $args; $arg_string =~ s/\s//g; my $self_file = "$data_dir/$self_name$arg_string.txt"; my $cmd = "$self_path/$self_name $args > $self_file 2>&1"; # print "Args: $args\nArg String: $arg_string\n";exit; system($cmd); copy($log_file, "$data_dir") or main::error_handler('copy-failed', "$log_file", "$!"); system("$self_path/$self_name --recommends -y 120 > $data_dir/$self_name-recommends-120.txt 2>&1"); } ## UTILITIES COPY/CMD/WRITE sub copy_files { my ($files_ref,$type,$alt_dir) = @_; my ($absent,$error,$good,$name,$unreadable); my $directory = ($alt_dir) ? $alt_dir : $data_dir; my $working = ($type ne 'proc') ? "$type-file-": ''; foreach (@$files_ref){ $name = $_; $name =~ s/^\///; $name =~ s/\//~/g; # print "$name\n" if $type eq 'proc'; $name = "$directory/$working$name"; $good = $name . '.txt'; $absent = $name . '-absent'; $error = $name . '-error'; $unreadable = $name . '-unreadable'; # proc have already been tested for readable/exists if ($type eq 'proc' || -e $_){ print "F:$_\n" if $type eq 'proc' && $debugger{'proc-print'}; if ($type eq 'proc' || -r $_){ copy($_,"$good") or main::toucher($error); } else { main::toucher($unreadable); } } else { main::toucher($absent); } } } sub run_commands { my ($cmds,$type) = @_; my $holder = ''; my ($name,$cmd,$args); foreach my $rows (@$cmds){ if (my $program = main::check_program($rows->[0])){ if ($rows->[1] eq 'present'){ $name = "$data_dir/$type-cmd-$rows->[0]-present"; main::toucher($name); } else { $args = $rows->[1]; $args =~ s/\s|--|\/|=/-/g; # for: $args =~ s/--/-/g;# strip out -- that result from the above $args =~ s/^-//g; $args = "-$args" if $args; $name = "$data_dir/$type-cmd-$rows->[0]$args.txt"; $cmd = "$program $rows->[1] >$name 2>&1"; system($cmd); } } else { if ($holder ne $rows->[0]){ $name = "$data_dir/$type-cmd-$rows->[0]-absent"; main::toucher($name); $holder = $rows->[0]; } } } } sub get_glob { my ($type,$id,$glob) = @_; my @files = main::globber($glob); return if !@files; my ($item,@result); foreach (sort @files){ next if -d $_; if (-r $_) { $item = main::reader($_,'strip',0); } else { $item = main::message('root-required'); } $item = main::message('undefined') if !defined $item; push(@result,$_ . '::' . $item); } # print Data::Dumper::Dumper \@result; main::writer("$data_dir/$type-data-$id-glob.txt",\@result); } sub write_data { my ($data_ref, $type) = @_; my ($empty,$error,$fh,$good,$name,$undefined,$value); foreach (keys %$data_ref){ $value = $data_ref->{$_}; $name = "$data_dir/$type-data-$_"; $good = $name . '.txt'; $empty = $name . '-empty'; $error = $name . '-error'; $undefined = $name . '-undefined'; if (defined $value){ if ($value || $value eq '0'){ open($fh, '>', $good) or main::toucher($error); print $fh "$value"; } else { main::toucher($empty); } } else { main::toucher($undefined); } } } ## TOOLS FOR DIRECTORY TREE/LS/TRAVERSE; UPLOADER sub build_tree { my ($which) = @_; if ($which eq 'sys' && main::check_program('tree')){ print "Constructing /$which tree data...\n"; my $dirname = '/sys'; my $cmd; system("tree -a -L 10 /sys > $data_dir/sys-data-tree-full-10.txt"); opendir(my $dh, $dirname) or main::error_handler('open-dir',"$dirname", "$!"); my @files = readdir($dh); closedir $dh; foreach (@files){ next if /^\./; $cmd = "tree -a -L 10 $dirname/$_ > $data_dir/sys-data-tree-$_-10.txt"; # print "$cmd\n"; system($cmd); } } print "Constructing /$which ls data...\n"; if ($which eq 'sys'){ directory_ls($which,1); directory_ls($which,2); directory_ls($which,3); directory_ls($which,4); } elsif ($which eq 'proc'){ directory_ls('proc',1); directory_ls('proc',2,'[a-z]'); # don't want the /proc/self or /proc/thread-self directories, those are # too invasive #directory_ls('proc',3,'[a-z]'); #directory_ls('proc',4,'[a-z]'); } } # include is basic regex for ls path syntax, like [a-z] sub directory_ls { my ($dir,$depth,$include) = @_; $include ||= ''; my ($exclude) = (''); # we do NOT want to see anything in self or thread-self!! # $exclude = 'I self -I thread-self' if $dir eq 'proc'; my $cmd = do { if ($depth == 1){ "ls -l $exclude /$dir/$include 2>/dev/null" } elsif ($depth == 2){ "ls -l $exclude /$dir/$include*/ 2>/dev/null" } elsif ($depth == 3){ "ls -l $exclude /$dir/$include*/*/ 2>/dev/null" } elsif ($depth == 4){ "ls -l $exclude /$dir/$include*/*/*/ 2>/dev/null" } elsif ($depth == 5){ "ls -l $exclude /$dir/$include*/*/*/*/ 2>/dev/null" } elsif ($depth == 6){ "ls -l $exclude /$dir/$include*/*/*/*/*/ 2>/dev/null" } }; my @working; my $output = ''; my ($type); my $result = qx($cmd); open(my $ch, '<', \$result) or main::error_handler('open-data',"$cmd", "$!"); while (my $line = <$ch>){ chomp($line); $line =~ s/^\s+|\s+$//g; @working = split(/\s+/, $line); $working[0] ||= ''; if (scalar @working > 7){ if ($working[0] =~ /^d/){ $type = "d - "; } elsif ($working[0] =~ /^l/){ $type = "l - "; } elsif ($working[0] =~ /^c/){ $type = "c - "; } else { $type = "f - "; } $working[9] ||= ''; $working[10] ||= ''; $output = $output . " $type$working[8] $working[9] $working[10]\n"; } elsif ($working[0] !~ /^total/){ $output = $output . $line . "\n"; } } close $ch; my $file = "$data_dir/$dir-data-ls-$depth.txt"; open(my $fh, '>', $file) or main::error_handler('create',"$file", "$!"); print $fh $output; close $fh; # print "$output\n"; } sub proc_traverse_data { print "Building /proc file list...\n"; # get rid pointless error:Can't cd to (/sys/kernel/) debug: Permission denied #no warnings 'File::Find'; no warnings; $parse_src = 'proc'; File::Find::find(\&wanted, "/proc"); process_proc_traverse(); @content = (); } sub process_proc_traverse { my ($data,$fh,$result,$row,$sep); my $proc_dir = "$data_dir/proc"; print "Adding /proc files...\n"; mkdir $proc_dir or main::error_handler('mkdir', "$proc_dir", "$!"); # @content = sort @content; copy_files(\@content,'proc',$proc_dir); # foreach (@content){print "$_\n";} } sub sys_traverse_data { print "Building /sys file list...\n"; # get rid pointless error:Can't cd to (/sys/kernel/) debug: Permission denied #no warnings 'File::Find'; no warnings; $parse_src = 'sys'; File::Find::find(\&wanted, "/sys"); process_sys_traverse(); @content = (); } sub process_sys_traverse { my ($data,$fh,$result,$row,$sep); my $filename = "sys-data-parse.txt"; print "Parsing /sys files...\n"; # no sorts, we want the order it comes in # @content = sort @content; foreach (@content){ $data=''; $sep=''; my $b_fh = 1; print "F:$_\n" if $debugger{'sys-print'}; open($fh, '<', $_) or $b_fh = 0; # needed for removing -T test and root if ($b_fh){ while ($row = <$fh>){ chomp($row); $data .= $sep . '"' . $row . '"'; $sep=', '; } } else { $data = ''; } $result .= "$_:[$data]\n"; # print "$_:[$data]\n" } # print scalar @content . "\n"; open($fh, '>', "$data_dir/$filename"); print $fh $result; close $fh; # print $fh "$result"; } # perl compiler complains on start if prune = 1 used only once, so either # do $File::Find::prune = 1 if !$File::Find::prune; OR use no warnings 'once' sub wanted { # note: we want these directories pruned before the -d test so find # doesn't try to read files inside of the directories if ($parse_src eq 'proc'){ if ($File::Find::name =~ m!^/proc/[0-9]+! || # /proc/registry is from cygwin, we never want to see that $File::Find::name =~ m!^/proc/(irq|spl|sys|reg)! || # these choke on sudo/root: kmsg kcore kpage and we don't want keys or kallsyms $File::Find::name =~ m!^/proc/k! || $File::Find::name =~ m!^/proc/bus/pci!){ $File::Find::prune = 1; return; } } elsif ($parse_src eq 'sys'){ # note: a new file in 4.11 /sys can hang this, it is /parameter/ then # a few variables. Since inxi does not need to see that file, we will # not use it. if ($File::Find::name =~ m!/(kernel/|trace/|parameters|debug)!){ $File::Find::prune = 1; } } return if -d; # not directory return unless -e; # Must exist return unless -f; # Must be file return unless -r; # Must be readable if ($parse_src eq 'sys'){ # print $File::Find::name . "\n"; # block maybe: cfgroup\/ # picdec\/|, wait_for_fb_sleep/wake is an odroid thing caused hang # wakeup_count also fails for android, but works fine on regular systems return if $risc{'arm'} && $File::Find::name =~ m!^/sys/power/(wait_for_fb_|wakeup_count$)!; # do not need . files or __ starting files return if $File::Find::name =~ m!/\.[a-z]!; # pp_num_states: amdgpu driver bug; android: wakeup_count return if $File::Find::name =~ m!/pp_num_states$!; # comment this one out if you experience hangs or if # we discover syntax of foreign language characters # Must be ascii like. This is questionable and might require further # investigation, it is removing some characters that we might want # NOTE: this made a bunch of files on arm systems unreadable so we handle # the readable tests in copy_files() # return unless -T; } elsif ($parse_src eq 'proc'){ return if $File::Find::name =~ m!(/mb_groups|debug)$!; } # print $File::Find::name . "\n"; push(@content, $File::Find::name); return; } # args: 0: path to file to be uploaded; 1: optional: alternate ftp upload url # NOTE: must be in format: ftp.site.com/incoming sub upload_file { my ($self, $ftp_url) = @_; my ($ftp, $domain, $host, $user, $pass, $dir, $error); $ftp_url ||= main::get_defaults('ftp-upload'); $ftp_url =~ s/\/$//g; # trim off trailing slash if present my @url = split('/', $ftp_url); my $file_path = "$user_data_dir/$debug_gz"; $host = $url[0]; $dir = $url[1]; $domain = $host; $domain =~ s/^ftp\.//; $user = "anonymous"; $pass = "anonymous\@$domain"; print $line3; print "Uploading to: $ftp_url\n"; # print "$host $domain $dir $user $pass\n"; print "File to be uploaded:\n$file_path\n"; if ($host && ($file_path && -e $file_path)){ # NOTE: important: must explicitly set to passive true/1 $ftp = Net::FTP->new($host, Debug => 0, Passive => 1) || main::error_handler('ftp-connect', $ftp->message); $ftp->login($user, $pass) || main::error_handler('ftp-login', $ftp->message); $ftp->binary(); $ftp->cwd($dir); print "Connected to FTP server.\n"; $ftp->put($file_path) || main::error_handler('ftp-upload', $ftp->message); $ftp->quit; print "Uploaded file successfully!\n"; print $ftp->message; if ($debugger{'gz'}){ print "Removing debugger gz file:\n$file_path\n"; unlink $file_path or main::error_handler('remove',"$file_path", "$!"); print "File removed.\n"; } print "Debugger data generation and upload completed. Thank you for your help.\n"; } else { main::error_handler('ftp-bad-path', "$file_path"); } } } # random tests for various issues sub user_debug_test_1 { # open(my $duped, '>&', STDOUT); # local *STDOUT = $duped; # my $item = POSIX::strftime("%c", localtime); # print "Testing character encoding handling. Perl IO data:\n"; # print(join(', ', PerlIO::get_layers(STDOUT)), "\n"); # print "Without binmode: ", $item,"\n"; # binmode STDOUT,":utf8"; # print "With binmode: ", $item,"\n"; # print "Perl IO data:\n"; # print(join(', ', PerlIO::get_layers(STDOUT)), "\n"); # close $duped; } # see docs/optimization.txt sub ram_use { my ($name, $ref) = @_; printf "%-25s %5d %5d\n", $name, size($ref), total_size($ref); } #### ------------------------------------------------------------------- #### DOWNLOADER #### ------------------------------------------------------------------- # args: 0: download type; 1: url; 2: file; 3: [ua type string] sub download_file { my ($type, $url, $file,$ua) = @_; my ($cmd,$args,$timeout) = ('','',''); my $debug_data = ''; my $result = 1; $ua = ($ua && $dl{'ua'}) ? $dl{'ua'} . $ua : ''; $dl{'no-ssl'} ||= ''; $dl{'spider'} ||= ''; $file ||= 'N/A'; # to avoid debug error if (!$dl{'dl'}){ return 0; } if ($dl{'timeout'}){ $timeout = "$dl{'timeout'}$dl_timeout"; } # print "$dl{'no-ssl'}\n"; # print "$dl{'dl'}\n"; # tiny supports spider sort of ## NOTE: 1 is success, 0 false for Perl if ($dl{'dl'} eq 'tiny'){ $cmd = "Using tiny: type: $type \nurl: $url \nfile: $file"; $result = get_file_http_tiny($type,$url,$file,$ua); $debug_data = ($type ne 'stdout') ? $result : 'Success: stdout data not null.'; } # But: 0 is success, and 1 is false for these # when strings are returned, they will be taken as true # urls must be " quoted in case special characters present else { if ($type eq 'stdout'){ $args = $dl{'stdout'}; $cmd = "$dl{'dl'} $dl{'no-ssl'} $ua $timeout $args \"$url\" $dl{'null'}"; $result = qx($cmd); $debug_data = ($result) ? 'Success: stdout data not null.' : 'Download resulted in null data!'; } elsif ($type eq 'file'){ $args = $dl{'file'}; $cmd = "$dl{'dl'} $dl{'no-ssl'} $ua $timeout $args $file \"$url\" $dl{'null'}"; system($cmd); $result = ($?) ? 0 : 1; # reverse these into Perl t/f $debug_data = $result; } elsif ($dl{'dl'} eq 'wget' && $type eq 'spider'){ $cmd = "$dl{'dl'} $dl{'no-ssl'} $ua $timeout $dl{'spider'} \"$url\""; system($cmd); $result = ($?) ? 0 : 1; # reverse these into Perl t/f $debug_data = $result; } } print "-------\nDownloader Data:\n$cmd\nResult: $debug_data\n" if $dbg[1]; log_data('data',"$cmd\nResult: $result") if $b_log; return $result; } sub get_file_http_tiny { my ($type,$url,$file,$ua) = @_; $ua = ($ua && $dl{'ua'}) ? $dl{'ua'} . $ua: ''; my %headers = ($ua) ? ('agent' => $ua) : (); my $tiny = HTTP::Tiny->new(%headers); # note: default is no verify, so default here actually is to verify unless overridden $tiny->verify_SSL => 1 if !$use{'no-ssl'}; my $response = $tiny->get($url); my $return = 1; my $debug = 0; my $fh; $file ||= 'N/A'; log_data('dump','%{$response}',$response) if $b_log; # print Dumper $response; if (!$response->{'success'}){ my $content = $response->{'content'}; $content ||= "N/A\n"; my $msg = "Failed to connect to server/file!\n"; $msg .= "Response: ${content}Downloader: HTTP::Tiny URL: $url\nFile: $file"; log_data('data',$msg) if $b_log; print error_defaults('download-error',$msg) if $dbg[1]; $return = 0; } else { if ($debug){ print "$response->{success}\n"; print "$response->{status} $response->{reason}\n"; while (my ($key, $value) = each %{$response->{'headers'}}){ for (ref $value eq "ARRAY" ? @$value : $value){ print "$key: $_\n"; } } } if ($type eq "stdout" || $type eq "ua-stdout"){ $return = $response->{'content'}; } elsif ($type eq "spider"){ # do nothing, just use the return value } elsif ($type eq "file"){ open($fh, ">", $file); print $fh $response->{'content'}; # or die "can't write to file!\n"; close $fh; } } return $return; } sub set_downloader { eval $start if $b_log; my $quiet = ''; my $ua_raw = 's-tools/' . $self_name . '-'; $dl{'no-ssl'} = ''; $dl{'null'} = ''; $dl{'spider'} = ''; # we only want to use HTTP::Tiny if it's present in user system. # It is NOT part of core modules. IO::Socket::SSL is also required # For some https connections so only use tiny as option if both present if ($dl{'tiny'}){ # this only for -U 4, grab file with ftp to avoid unsupported SSL issues if ($use{'ftp-download'}){ $dl{'tiny'} = 0; } elsif (check_perl_module('HTTP::Tiny') && check_perl_module('IO::Socket::SSL')){ HTTP::Tiny->import; IO::Socket::SSL->import; $dl{'tiny'} = 1; } else { $dl{'tiny'} = 0; } } # print $dl{'tiny'} . "\n"; if ($dl{'tiny'}){ $dl{'dl'} = 'tiny'; $dl{'file'} = ''; $dl{'stdout'} = ''; $dl{'timeout'} = ''; $dl{'ua'} = $ua_raw; } elsif ($dl{'curl'} && check_program('curl')){ $quiet = '-s ' if !$dbg[1]; $dl{'dl'} = 'curl'; $dl{'file'} = " -L ${quiet}-o "; $dl{'no-ssl'} = ' --insecure'; $dl{'stdout'} = " -L ${quiet}"; $dl{'timeout'} = ' -y '; $dl{'ua'} = ' -A ' . $ua_raw; } elsif ($dl{'wget'} && check_program('wget')){ $quiet = '-q ' if !$dbg[1]; $dl{'dl'} = 'wget'; $dl{'file'} = " ${quiet}-O "; $dl{'no-ssl'} = ' --no-check-certificate'; $dl{'spider'} = " ${quiet}--spider"; $dl{'stdout'} = " $quiet -O -"; $dl{'timeout'} = ' -T '; $dl{'ua'} = ' -U ' . $ua_raw; } elsif ($dl{'fetch'} && check_program('fetch')){ $quiet = '-q ' if !$dbg[1]; $dl{'dl'} = 'fetch'; $dl{'file'} = " ${quiet}-o "; $dl{'no-ssl'} = ' --no-verify-peer'; $dl{'stdout'} = " ${quiet}-o -"; $dl{'timeout'} = ' -T '; $dl{'ua'} = ' --user-agent=' . $ua_raw; } # at least openbsd/netbsd elsif ($bsd_type && check_program('ftp')){ $dl{'dl'} = 'ftp'; $dl{'file'} = ' -o '; $dl{'null'} = ' 2>/dev/null'; $dl{'stdout'} = ' -o - '; $dl{'timeout'} = ''; $dl{'ua'} = ' -U ' . $ua_raw; } else { $dl{'dl'} = ''; } # $use{'no-ssl' is set to 1 with --no-ssl, when false, unset to '' $dl{'no-ssl'} = '' if !$use{'no-ssl'}; eval $end if $b_log; } sub set_perl_downloader { my ($downloader) = @_; $downloader =~ s/perl/tiny/; return $downloader; } #### ------------------------------------------------------------------- #### ERROR HANDLER #### ------------------------------------------------------------------- sub error_handler { eval $start if $b_log; my ($err,$one,$two) = @_; my ($b_help,$b_recommends); my ($b_exit,$errno) = (1,0); my $message = do { if ($err eq 'empty'){ 'empty value' } ## Basic rules elsif ($err eq 'not-in-irc'){ $errno=1; "You can't run option $one in an IRC client!" } ## Internal/external options elsif ($err eq 'bad-arg'){ $errno=10; $b_help=1; "Unsupported value: $two for option: $one" } elsif ($err eq 'bad-arg-int'){ $errno=11; "Bad internal argument: $one" } elsif ($err eq 'distro-block'){ $errno=20; "Option: $one has been disabled by the $self_name distribution maintainer." } elsif ($err eq 'option-feature-incomplete'){ $errno=21; "Option: '$one' feature: '$two' has not been implemented yet." } elsif ($err eq 'unknown-option'){ $errno=22; $b_help=1; "Unsupported option: $one" } ## Data elsif ($err eq 'open-data'){ $errno=32; "Error opening data for reading: $one \nError: $two" } elsif ($err eq 'download-error'){ $errno=33; "Error downloading file with $dl{'dl'}: $one \nError: $two" } ## Files: elsif ($err eq 'copy-failed'){ $errno=40; "Error copying file: $one \nError: $two" } elsif ($err eq 'create'){ $errno=41; "Error creating file: $one \nError: $two" } elsif ($err eq 'downloader-error'){ $errno=42; "Error downloading file: $one \nfor download source: $two" } elsif ($err eq 'file-corrupt'){ $errno=43; "Downloaded file is corrupted: $one" } elsif ($err eq 'mkdir'){ $errno=44; "Error creating directory: $one \nError: $two" } elsif ($err eq 'open'){ $errno=45; $b_exit=0; "Error opening file: $one \nError: $two" } elsif ($err eq 'open-dir'){ $errno=46; "Error opening directory: $one \nError: $two" } elsif ($err eq 'output-file-bad'){ $errno=47; "Value for --output-file must be full path, a writable directory, \nand include file name. Path: $two" } elsif ($err eq 'not-writable'){ $errno=48; "The file: $one is not writable!" } elsif ($err eq 'open-dir-failed'){ $errno=49; "The directory: $one failed to open with error: $two" } elsif ($err eq 'remove'){ $errno=50; "Failed to remove file: $one Error: $two" } elsif ($err eq 'rename'){ $errno=51; "There was an error moving files: $one\nError: $two" } elsif ($err eq 'write'){ $errno=52; "Failed writing file: $one - Error: $two!" } elsif ($err eq 'dir-missing'){ $errno=53; "Directory supplied for option $one does not exist:\n $two" } ## Downloaders elsif ($err eq 'missing-downloader'){ $errno=60; "Downloader program $two could not be located on your system." } elsif ($err eq 'missing-perl-downloader'){ $errno=61; $b_recommends=1; "Perl downloader missing required module." } ## FTP elsif ($err eq 'ftp-bad-path'){ $errno=70; "Unable to locate for FTP upload file:\n$one" } elsif ($err eq 'ftp-connect'){ $errno=71; "There was an error with connection to ftp server: $one" } elsif ($err eq 'ftp-login'){ $errno=72; "There was an error with login to ftp server: $one" } elsif ($err eq 'ftp-upload'){ $errno=73; "There was an error with upload to ftp server: $one" } ## Modules elsif ($err eq 'required-module'){ $errno=80; $b_recommends=1; "The required $one Perl module is not installed:\n$two" } ## Programs elsif ($err eq 'required-program'){ $errno=90; "Required program '$one' could not be located on your system.\nNeeded for: $two" } ## DEFAULT else { $errno=255; "Error handler ERROR!! Unsupported options: $err!"} }; print_line("Error $errno: $message\n"); if ($b_help){ print_line("Check -h for correct parameters.\n"); } if ($b_recommends){ print_line("See --recommends for more information.\n"); } eval $end if $b_log; exit $errno if $b_exit && !$debugger{'no-exit'}; } sub error_defaults { my ($type,$one) = @_; $one ||= ''; my %errors = ( 'download-error' => "Download Failure:\n$one\n", ); return $errors{$type}; } #### ------------------------------------------------------------------- #### RECOMMENDS #### ------------------------------------------------------------------- ## CheckRecommends { package CheckRecommends; my ($item_data,@modules,@pms); sub run { main::error_handler('not-in-irc', 'recommends') if $b_irc; my (@data,@rows); my $rows = []; my $line = main::make_line(); @pms = get_pms(); set_item_data(); basic_data($rows,$line); if (!$bsd_type){ check_items($rows,'required system directories',$line); } check_items($rows,'recommended system programs',$line); check_items($rows,'recommended display information programs',$line); check_items($rows,'recommended downloader programs',$line); if (!$bsd_type){ check_items($rows,'recommended kernel modules',$line); } check_items($rows,'recommended Perl modules',$line); check_items($rows,'recommended directories',$line); check_items($rows,'recommended files',$line); push(@$rows, ['0', '', '', "$line"], ['0', '', '', "Ok, all done with the checks. Have a nice day."], ['0', '', '', ''], ); # print Data::Dumper::Dumper $rows; main::print_basic($rows); exit 0; # shell true } sub basic_data { my ($rows,$line) = @_; my (@data,@rows); $extra = 1; # needed for shell version ShellData::set(); my $client = $client{'name-print'}; $client .= ' ' . $client{'version'} if $client{'version'}; my $default_shell = 'N/A'; if ($ENV{'SHELL'}){ $default_shell = $ENV{'SHELL'}; $default_shell =~ s/.*\///; } my $sh = main::check_program('sh'); my $sh_real = Cwd::abs_path($sh); push(@$rows, ['0', '', '', "$self_name will now begin checking for the programs it needs to operate."], ['0', '', '', ""], ['0', '', '', "Check $self_name --help or the man page (man $self_name) to see what options are available."], ['0', '', '', "$line"], ['0', '', '', "Test: core tools:"], ['0', '', '', ""], ['0', '', '', "Perl version: ^$]"], ['0', '', '', "Current shell: " . $client], ['0', '', '', "Default shell: " . $default_shell], ['0', '', '', "sh links to: $sh_real"], ); if (scalar @pms == 0){ push(@$rows,['0', '', '', "Package manager(s): No supported PM(s) detected"]); } elsif (scalar @pms == 1){ push(@$rows,['0', '', '', "Package manager: $pms[0]"]); } else { push(@$rows,['0', '', '', "Package managers detected:"]); foreach my $pm (@pms){ push(@$rows,['0', '', '', " pm: $pm"]); } } } sub check_items { my ($rows,$type,$line) = @_; my (@data,@missing,$row,$result,@unreadable); my ($b_dir,$b_file,$b_kernel_module,$b_perl_module,$b_program,$item); my ($about,$extra,$extra2,$extra3,$extra4,$info_os) = ('','','','','','info'); if ($type eq 'required system directories'){ @data = qw(/proc /sys); $b_dir = 1; $item = 'Directory'; } elsif ($type eq 'recommended system programs'){ if ($bsd_type){ @data = qw(camcontrol dig disklabel dmidecode doas fdisk file glabel gpart ifconfig ipmi-sensors ipmitool pciconfig pcidump pcictl smartctl sudo sysctl tree upower uptime usbconfig usbdevs); $info_os = 'info-bsd'; } else { @data = qw(blockdev bt-adapter btmgmt dig dmidecode doas fdisk file fruid_print hciconfig hddtemp ifconfig ip ipmitool ipmi-sensors lsblk lsusb lvs mdadm modinfo runlevel sensors smartctl strings sudo tree upower uptime); } $b_program = 1; $item = 'Program'; $extra2 = "Note: IPMI sensors are generally only found on servers. To access that data, you only need one of the ipmi items."; } elsif ($type eq 'recommended display information programs'){ if ($bsd_type){ @data = qw(eglinfo glxinfo vulkaninfo wmctrl xdpyinfo xprop xdriinfo xrandr); $info_os = 'info-bsd'; } else { @data = qw(eglinfo glxinfo vulkaninfo wmctrl xdpyinfo xprop xdriinfo xrandr); } $b_program = 1; $item = 'Program'; } elsif ($type eq 'recommended downloader programs'){ if ($bsd_type){ @data = qw(curl dig fetch ftp wget); $info_os = 'info-bsd'; } else { @data = qw(curl dig wget); } $b_program = 1; $extra = ' (You only need one of these)'; $extra2 = "Perl HTTP::Tiny is the default downloader tool if IO::Socket::SSL is present. See --help --alt 40-44 options for how to override default downloader(s) in case of issues. "; $extra3 = "If dig is installed, it is the default for WAN IP data. Strongly recommended. Dig is fast and accurate."; $extra4 = ". However, you really only need dig in most cases. All systems should have "; $extra4 .= "at least one of the downloader options present."; $item = 'Program'; } elsif ($type eq 'recommended Perl modules'){ @data = qw(File::Copy File::Find File::Spec::Functions HTTP::Tiny IO::Socket::SSL Time::HiRes JSON::PP Cpanel::JSON::XS JSON::XS XML::Dumper Net::FTP); if ($bsd_type && $bsd_type eq 'openbsd'){ push(@data, qw(OpenBSD::Pledge OpenBSD::Unveil)); } $b_perl_module = 1; $item = 'Perl Module'; $extra = ' (Optional)'; $extra2 = "None of these are strictly required, but if you have them all, you can eliminate some recommended non Perl programs from the install. "; $extra3 = "HTTP::Tiny and IO::Socket::SSL must both be present to use as a downloader option. For json export Cpanel::JSON::XS is preferred over JSON::XS, but JSON::PP is in core modules. To run --debug 20-22 File::Copy, File::Find, and File::Spec::Functions must be present (most distros have these in Core Modules). "; } elsif ($type eq 'recommended kernel modules'){ @data = qw(amdgpu drivetemp nouveau radeon); @modules = main::lister('/sys/module/'); $b_kernel_module = 1; $extra2 = "GPU modules are only needed if applicable. NVMe drives do not need drivetemp but other types do."; $extra3 = "To load a module: modprobe - To permanently load add to /etc/modules or /etc/modules-load.d/modules.conf (check your system paths for exact file/directory names)."; $item = 'Kernel Module'; } elsif ($type eq 'recommended directories'){ if ($bsd_type){ @data = qw(/dev); } else { @data = qw(/dev /dev/disk/by-id /dev/disk/by-label /dev/disk/by-path /dev/disk/by-uuid /sys/class/dmi/id /sys/class/hwmon); } $b_dir = 1; $item = 'Directory'; } elsif ($type eq 'recommended files'){ if ($bsd_type){ @data = qw(/var/run/dmesg.boot /var/log/Xorg.0.log); } else { @data = qw(/etc/lsb-release /etc/os-release /proc/asound/cards /proc/asound/version /proc/cpuinfo /proc/mdstat /proc/meminfo /proc/modules /proc/mounts /proc/scsi/scsi /var/log/Xorg.0.log); } $b_file = 1; $item = 'File'; $extra2 = "Note that not all of these are used by every system, so if one is missing it's usually not a big deal."; } push(@$rows, ['0', '', '', "$line" ], ['0', '', '', "Test: $type$extra:" ], ['0', '', '', ''], ); if ($extra2){ push(@$rows, ['0', '', '', $extra2], ['0', '', '', '']); } if ($extra3){ push(@$rows, ['0', '', '', $extra3], ['0', '', '', '']); } foreach my $item (@data){ undef $about; my $info = $item_data->{$item}; $about = $info->{$info_os}; if (($b_dir && -d $item) || ($b_file && -r $item) || ($b_program && main::check_program($item)) || ($b_perl_module && main::check_perl_module($item)) || ($b_kernel_module && @modules && (grep {/^$item$/} @modules))){ $result = 'Present'; } elsif ($b_file && -f $item){ $result = 'Unreadable'; push(@unreadable, "$item"); } else { $result = 'Missing'; push(@missing,"$item"); if (($b_program || $b_perl_module) && @pms){ my @install; foreach my $pm (@pms){ $info->{$pm} ||= 'N/A'; push(@install," $pm: $info->{$pm}"); } push(@missing,@install); } } $row = make_row($item,$about,$result); push(@$rows, ['0', '', '', $row]); } push(@$rows, ['0', '', '', '']); if (@missing){ push(@$rows, ['0', '', '', "The following $type are missing$extra4:"]); foreach (@missing){ push(@$rows, ['0', '', '', $_]); } } if (@unreadable){ push(@$rows, ['0', '', '', "The following $type are not readable: "]); foreach (@unreadable){ push(@$rows, ['0', '', '', "$item: $_"]); } } if (!@missing && !@unreadable){ push(@$rows, ['0', '', '', "All $type are present"]); } } sub set_item_data { $item_data = { ## Directory Data ## '/dev' => { 'info' => '-l,-u,-o,-p,-P,-D disk partition data', }, '/dev/disk/by-id' => { 'info' => '-D serial numbers', }, '/dev/disk/by-path' => { 'info' => '-D extra data', }, '/dev/disk/by-label' => { 'info' => '-l,-o,-p,-P partition labels', }, '/dev/disk/by-uuid' => { 'info' => '-u,-o,-p,-P partition uuid', }, '/proc' => { 'info' => '', }, '/sys' => { 'info' => '', }, '/sys/class/dmi/id' => { 'info' => '-M system, motherboard, bios', }, '/sys/class/hwmon' => { 'info' => '-s sensor data (fallback if no lm-sensors)', }, ## File Data ## '/etc/lsb-release' => { 'info' => '-S distro version data (older version)', }, '/etc/os-release' => { 'info' => '-S distro version data (newer version)', }, '/proc/asound/cards' => { 'info' => '-A sound card data', }, '/proc/asound/version' => { 'info' => '-A ALSA data', }, '/proc/cpuinfo' => { 'info' => '-C cpu data', }, '/proc/mdstat' => { 'info' => '-R mdraid data (if you use dm-raid)', }, '/proc/meminfo' => { 'info' => '-I,-tm, -m memory data', }, '/proc/modules' => { 'info' => '-G module data (sometimes)', }, '/proc/mounts' => { 'info' => '-P,-p partition advanced data', }, '/proc/scsi/scsi' => { 'info' => '-D Advanced hard disk data (used rarely)', }, '/var/log/Xorg.0.log' => { 'info' => '-G graphics driver load status', }, '/var/run/dmesg.boot' => { 'info' => '-D,-d disk data', }, ## Kernel Module Data ## 'amdgpu' => { 'info' => '-s, -G AMD GPU sensor data (newer GPUs)', 'info-bsd' => '', }, 'drivetemp' => { 'info' => '-Dx drive temperature (kernel >= 5.6)', 'info-bsd' => '', }, 'nouveau' => { 'info' => '-s, -G Nvidia GPU sensor data (if using free driver)', 'info-bsd' => '', }, 'radeon' => { 'info' => '-s, -G AMD GPU sensor data (older GPUs)', 'info-bsd' => '', }, ## START PACKAGE MANAGER BLOCK ## # BSD only tools do not list package manager install names ## Programs-System ## # Note: see inxi-perl branch for details: docs/inxi-custom-recommends.txt # System Tools 'blockdev' => { 'info' => '--admin -p/-P (filesystem blocksize)', 'info-bsd' => '', 'apt' => 'util-linux', 'pacman' => 'util-linux', 'pkgtool' => 'util-linux', 'rpm' => 'util-linux', }, 'bt-adapter' => { 'info' => '-E bluetooth data (if no hciconfig, btmgmt)', 'info-bsd' => '', 'apt' => 'bluez-tools', 'pacman' => 'bluez-tools', 'pkgtool' => '', # needs to be built by user 'rpm' => 'bluez-tools', }, 'btmgmt' => { 'info' => '-E bluetooth data (if no hciconfig)', 'info-bsd' => '', 'apt' => 'bluez', 'pacman' => 'bluez-utils', 'pkgtool' => '', # needs to be built by user 'rpm' => 'bluez', }, 'curl' => { 'info' => '-i (if no dig); -w,-W; -U', 'info-bsd' => '-i (if no dig); -w,-W; -U', 'apt' => 'curl', 'pacman' => 'curl', 'pkgtool' => 'curl', 'rpm' => 'curl', }, 'camcontrol' => { 'info' => '', 'info-bsd' => '-R; -D; -P. Get actual gptid /dev path', }, 'dig' => { 'info' => '-i wlan IP', 'info-bsd' => '-i wlan IP', 'apt' => 'dnsutils', 'pacman' => 'dnsutils', 'pkgtool' => 'bind', 'rpm' => 'bind-utils', }, 'disklabel' => { 'info' => '', 'info-bsd' => '-j, -p, -P; -R; -o (Open/NetBSD+derived)', }, 'dmidecode' => { 'info' => '-M if no sys machine data; -m', 'info-bsd' => '-M if null sysctl; -m; -B if null sysctl', 'apt' => 'dmidecode', 'pacman' => 'dmidecode', 'pkgtool' => 'dmidecode', 'rpm' => 'dmidecode', }, 'doas' => { 'info' => '-Dx hddtemp-user; -o file-user (alt for sudo)', 'info-bsd' => '-Dx hddtemp-user; -o file-user', 'apt' => 'doas', 'pacman' => 'doas', 'pkgtool' => ' opendoas', 'rpm' => 'doas', }, 'fdisk' => { 'info' => '-D partition scheme (fallback)', 'info-bsd' => '-D partition scheme', 'apt' => 'fdisk', 'pacman' => 'util-linux', 'pkgtool' => 'util-linux', 'rpm' => 'util-linux', }, 'fetch' => { 'info' => '', 'info-bsd' => '-i (if no dig); -w,-W; -U', }, 'file' => { 'info' => '-o unmounted file system (if no lsblk)', 'info-bsd' => '-o unmounted file system', 'apt' => 'file', 'pacman' => 'file', 'pkgtool' => 'file', 'rpm' => 'file', }, 'ftp' => { 'info' => '', 'info-bsd' => '-i (if no dig); -w,-W; -U', }, 'fruid_print' => { 'info' => '-M machine data, Elbrus only', 'info-bsd' => '', 'apt' => '', 'pacman' => '', 'pkgtool' => '', 'rpm' => '', }, 'glabel' => { 'info' => '', 'info-bsd' => '-R; -D; -P. Get actual gptid /dev path', }, 'gpart' => { 'info' => '', 'info-bsd' => '-p,-P; -R; -o (FreeBSD+derived)', }, 'hciconfig' => { 'info' => '-E bluetooth data (deprecated, good report)', 'info-bsd' => '', 'apt' => 'bluez', 'pacman' => 'bluez-utils-compat (frugalware: bluez-utils)', 'pkgtool' => 'bluez', 'rpm' => 'bluez-utils', }, 'hddtemp' => { 'info' => '-Dx show hdd temp, if no drivetemp module', 'info-bsd' => '-Dx show hdd temp', 'apt' => 'hddtemp', 'pacman' => 'hddtemp', 'pkgtool' => 'hddtemp', 'rpm' => 'hddtemp', }, 'ifconfig' => { 'info' => '-i ip LAN (deprecated)', 'info-bsd' => '-i ip LAN', 'apt' => 'net-tools', 'pacman' => 'net-tools', 'pkgtool' => 'net-tools', 'rpm' => 'net-tools', }, 'ip' => { 'info' => '-i ip LAN', 'info-bsd' => '', 'apt' => 'iproute', 'pacman' => 'iproute2', 'pkgtool' => 'iproute2', 'rpm' => 'iproute', }, 'ipmi-sensors' => { 'info' => '-s IPMI sensors (servers)', 'info-bsd' => '', 'apt' => 'freeipmi-tools', 'pacman' => 'freeipmi', 'pkgtool' => 'freeipmi', 'rpm' => 'freeipmi', }, 'ipmitool' => { 'info' => '-s IPMI sensors (servers)', 'info-bsd' => '-s IPMI sensors (servers)', 'apt' => 'ipmitool', 'pacman' => 'ipmitool', 'pkgtool' => 'ipmitool', 'rpm' => 'ipmitool', }, 'lsblk' => { 'info' => '-L LUKS/bcache; -o unmounted file system (best option)', 'info-bsd' => '-o unmounted file system', 'apt' => 'util-linux', 'pacman' => 'util-linux', 'pkgtool' => 'util-linux', 'rpm' => 'util-linux-ng', }, 'lvs' => { 'info' => '-L LVM data', 'info-bsd' => '', 'apt' => 'lvm2', 'pacman' => 'lvm2', 'pkgtool' => 'lvm2', 'rpm' => 'lvm2', }, 'lsusb' => { 'info' => '-A usb audio; -J (optional); -N usb networking', 'info-bsd' => '', 'apt' => 'usbutils', 'pacman' => 'usbutils', 'pkgtool' => 'usbutils', 'rpm' => 'usbutils', }, 'mdadm' => { 'info' => '-Ra advanced mdraid data', 'info-bsd' => '', 'apt' => 'mdadm', 'pacman' => 'mdadm', 'pkgtool' => 'mdadm', 'rpm' => 'mdadm', }, 'modinfo' => { 'info' => 'Ax; -Nx module version', 'info-bsd' => '', 'apt' => 'module-init-tools', 'pacman' => 'module-init-tools', 'pkgtool' => 'kmod (earlier: module-init-tools)', 'rpm' => 'module-init-tools', }, 'pciconfig' => { 'info' => '', 'info-bsd' => '-A,-E,-G,-N pci devices (FreeBSD+derived)', }, 'pcictl' => { 'info' => '', 'info-bsd' => '-A,-E,-G,-N pci devices (NetBSD+derived)', }, 'pcidump' => { 'info' => '', 'info-bsd' => '-A,-E,-G,-N pci devices (OpenBSD+derived, doas/su)', }, 'runlevel' => { 'info' => '-I fallback to Perl', 'info-bsd' => '', 'apt' => 'systemd or sysvinit', 'pacman' => 'systemd', 'pkgtool' => 'sysvinit', 'rpm' => 'systemd or sysvinit', }, 'sensors' => { 'info' => '-s sensors output (optional, /sys supplies most)', 'info-bsd' => '', 'apt' => 'lm-sensors', 'pacman' => 'lm-sensors', 'pkgtool' => 'lm_sensors', 'rpm' => 'lm-sensors', }, 'smartctl' => { 'info' => '-Da advanced data', 'info-bsd' => '-Da advanced data', 'apt' => 'smartmontools', 'pacman' => 'smartmontools', 'pkgtool' => 'smartmontools', 'rpm' => 'smartmontools', }, 'strings' => { 'info' => '-I sysvinit version', 'info-bsd' => '', 'apt' => 'binutils', 'pacman' => 'binutils', 'pkgtool' => 'binutils', 'rpm' => 'binutils', }, 'sudo' => { 'info' => '-Dx hddtemp-user; -o file-user (try doas!)', 'info-bsd' => '-Dx hddtemp-user; -o file-user (alt for doas)', 'apt' => 'sudo', 'pacman' => 'sudo', 'pkgtool' => 'sudo', 'rpm' => 'sudo', }, 'sysctl' => { 'info' => '', 'info-bsd' => '-C; -I; -m; -tm', }, 'tree' => { 'info' => '--debugger 20,21 /sys tree', 'info-bsd' => '--debugger 20,21 /sys tree', 'apt' => 'tree', 'pacman' => 'tree', 'pkgtool' => 'tree', 'rpm' => 'tree', }, 'upower' => { 'info' => '-sx attached device battery info', 'info-bsd' => '-sx attached device battery info', 'apt' => 'upower', 'pacman' => 'upower', 'pkgtool' => 'upower', 'rpm' => 'upower', }, 'uptime' => { 'info' => '-I uptime', 'info-bsd' => '-I uptime', 'apt' => 'procps', 'pacman' => 'procps', 'pkgtool' => 'procps', 'rpm' => 'procps', }, 'usbconfig' => { 'info' => '', 'info-bsd' => '-A; -E; -G; -J; -N; (FreeBSD+derived, doas/su)', }, 'usbdevs' => { 'info' => '', 'info-bsd' => '-A; -E; -G; -J; -N; (Open/NetBSD+derived)', }, 'wget' => { 'info' => '-i (if no dig); -w,-W; -U', 'info-bsd' => '-i (if no dig); -w,-W; -U', 'apt' => 'wget', 'pacman' => 'wget', 'pkgtool' => 'wget', 'rpm' => 'wget', }, ## Programs-Display ## 'eglinfo' => { 'info' => '-G X11/Wayland EGL info', 'info-bsd' => '-G X11/Wayland EGL info', 'apt' => 'mesa-utils (or: mesa-utils-extra)', 'pacman' => 'mesa-demos', 'pkgtool' => 'mesa', 'rpm' => 'egl-utils (SUSE: Mesa-demo-egl)', }, 'glxinfo' => { 'info' => '-G X11 GLX info', 'info-bsd' => '-G X11 GLX info', 'apt' => 'mesa-utils', 'pacman' => 'mesa-demos', 'pkgtool' => 'mesa', 'rpm' => 'glx-utils (Fedora: glx-utils; SUSE: Mesa-demo-x)', }, 'vulkaninfo' => { 'info' => '-G Vulkan API info', 'info-bsd' => '-G Vulkan API info', 'apt' => 'vulkan-tools', 'pacman' => 'vulkan-tools', 'pkgtool' => 'vulkan-tools', 'rpm' => 'vulkan-demos (Fedora: vulkan-tools; SUSE: vulkan-demos)', }, 'wmctrl' => { 'info' => '-S active window manager (fallback)', 'info-bsd' => '-S active window manager (fallback)', 'apt' => 'wmctrl', 'pacman' => 'wmctrl', 'pkgtool' => 'wmctrl', 'rpm' => 'wmctrl', }, 'xdpyinfo' => { 'info' => '-G (X) Screen resolution, dpi; -Ga Screen size', 'info-bsd' => '-G (X) Screen resolution, dpi; -Ga Screen size', 'apt' => 'X11-utils', 'pacman' => 'xorg-xdpyinfo', 'pkgtool' => 'xdpyinfo', 'rpm' => 'xorg-x11-utils (SUSE/Fedora: xdpyinfo)', }, 'xdriinfo' => { 'info' => '-G (X) DRI driver (if missing, fallback to Xorg log)', 'info-bsd' => '-G (X) DRI driver (if missing, fallback to Xorg log', 'apt' => 'X11-utils', 'pacman' => 'xorg-xdriinfo', 'pkgtool' => 'xdriinfo', 'rpm' => 'xorg-x11-utils (SUSE/Fedora: xdriinfo)', }, 'xprop' => { 'info' => '-S (X) desktop data', 'info-bsd' => '-S (X) desktop data', 'apt' => 'X11-utils', 'pacman' => 'xorg-xprop', 'pkgtool' => 'xprop', 'rpm' => 'x11-utils (Fedora/SUSE: xprop)', }, 'xrandr' => { 'info' => '-G (X) monitors(s) resolution; -Ga monitor data', 'info-bsd' => '-G (X) monitors(s) resolution; -Ga monitor data', 'apt' => 'x11-xserver-utils', 'pacman' => 'xrandr', 'pkgtool' => 'xrandr', 'rpm' => 'x11-server-utils (SUSE/Fedora: xrandr)', }, ## Perl Modules ## 'Cpanel::JSON::XS' => { 'info' => '-G wayland, --output json (faster).', 'info-bsd' => '-G wayland, --output json (faster).', 'apt' => 'libcpanel-json-xs-perl', 'pacman' => 'perl-cpanel-json-xs', 'pkgtool' => 'perl-Cpanel-JSON-XS', 'rpm' => 'perl-Cpanel-JSON-XS', }, 'File::Copy' => { 'info' => '--debug 20-22 - required for debugger.', 'info-bsd' => '--debug 20-22 - required for debugger.', 'apt' => 'Core Modules', 'pacman' => 'Core Modules', 'pkgtool' => 'Core Modules', 'rpm' => 'perl-File-Copy', }, 'File::Find' => { 'info' => '--debug 20-22 - required for debugger.', 'info-bsd' => '--debug 20-22 - required for debugger.', 'apt' => 'Core Modules', 'pacman' => 'Core Modules', 'pkgtool' => 'Core Modules', 'rpm' => 'perl-File-Find', }, 'File::Spec::Functions' => { 'info' => '--debug 20-22 - required for debugger.', 'info-bsd' => '--debug 20-22 - required for debugger.', 'apt' => 'Core Modules', 'pacman' => 'Core Modules', 'pkgtool' => 'Core Modules', 'rpm' => 'Core Modules', }, 'HTTP::Tiny' => { 'info' => '-U; -w,-W; -i (if dig not installed).', 'info-bsd' => '-U; -w,-W; -i (if dig not installed)', 'apt' => 'libhttp-tiny-perl (Core Modules >= 5.014)', 'pacman' => 'Core Modules', 'pkgtool' => 'perl-http-tiny (Core Modules >= 5.014)', 'rpm' => 'Perl-http-tiny', }, 'IO::Socket::SSL' => { 'info' => '-U; -w,-W; -i (if dig not installed).', 'info-bsd' => '-U; -w,-W; -i (if dig not installed)', 'apt' => 'libio-socket-ssl-perl', 'pacman' => 'perl-io-socket-ssl', 'pkgtool' => 'perl-IO-Socket-SSL', # maybe in core modules 'rpm' => 'perl-IO-Socket-SSL', }, 'JSON::PP' => { 'info' => '-G wayland, --output json (in CoreModules, slower).', 'info-bsd' => '-G wayland, --output json (in CoreModules, slower).', 'apt' => 'libjson-pp-perl (Core Modules >= 5.014)', 'pacman' => 'perl-json-pp (Core Modules >= 5.014)', 'pkgtool' => 'Core Modules >= 5.014', 'rpm' => 'perl-JSON-PP', }, 'JSON::XS' => { 'info' => '-G wayland, --output json (legacy).', 'info-bsd' => '-G wayland, --output json (legacy).', 'apt' => 'libjson-xs-perl', 'pacman' => 'perl-json-xs', 'pkgtool' => 'perl-JSON-XS', 'rpm' => 'perl-JSON-XS', }, 'Net::FTP' => { 'info' => '--debug 21,22', 'info-bsd' => '--debug 21,22', 'apt' => 'Core Modules', 'pacman' => 'Core Modules', 'pkgtool' => 'Core Modules', 'rpm' => 'Core Modules', }, 'OpenBSD::Pledge' => { 'info' => "$self_name Perl pledge support.", 'info-bsd' => "$self_name Perl pledge support.", }, 'OpenBSD::Unveil' => { 'info' => "Experimental: $self_name Perl unveil support.", 'info-bsd' => "Experimental: $self_name Perl unveil support.", }, 'Time::HiRes' => { 'info' => '-C cpu sleep (not required); --debug timers', 'info-bsd' => '-C cpu sleep (not required); --debug timers', 'apt' => 'Core Modules', 'pacman' => 'Core Modules', 'pkgtool' => 'Core Modules', 'rpm' => 'perl-Time-HiRes', }, 'XML::Dumper' => { 'info' => '--output xml - Crude and raw.', 'info-bsd' => '--output xml - Crude and raw.', 'apt' => 'libxml-dumper-perl', 'pacman' => 'perl-xml-dumper', 'pkgtool' => '', # package does not appear to exist 'rpm' => 'perl-XML-Dumper', }, ## END PACKAGE MANAGER BLOCK ## }; } sub get_pms { my @pms = (); # support maintainers of other pm types using custom lists if (main::check_program('dpkg')){ push(@pms,'apt'); } if (main::check_program('pacman')){ push(@pms,'pacman'); } # assuming netpkg uses installpkg as backend if (main::check_program('installpkg')){ push(@pms,'pkgtool'); } # rpm needs to go last because it's sometimes available on other pm systems if (main::check_program('rpm')){ push(@pms,'rpm'); } return @pms; } # note: end will vary, but should always be treated as longest value possible. # expected values: Present/Missing sub make_row { my ($start,$middle,$end) = @_; my ($dots,$line,$sep) = ('','',': '); foreach (0 .. ($size{'max-cols'} - 16 - length("$start$middle"))){ $dots .= '.'; } $line = "$start$sep$middle$dots $end"; return $line; } } #### ------------------------------------------------------------------- #### TOOLS #### ------------------------------------------------------------------- # Duplicates the functionality of awk to allow for one liner # type data parsing. note: -1 corresponds to awk NF # args: 0: array of data; 1: search term; 2: field result; 3: separator # correpsonds to: awk -F='separator' '/search/ {print $2}' <<< @data # array is sent by reference so it must be dereferenced # NOTE: if you just want the first row, pass it \S as search string # NOTE: if $num is undefined, it will skip the second step sub awk { eval $start if $b_log; my ($ref,$search,$num,$sep) = @_; my ($result); # print "search: $search\n"; return if !@$ref || !$search; foreach (@$ref){ next if !defined $_; if (/$search/i){ $result = $_; $result =~ s/^\s+|\s+$//g; last; } } if ($result && defined $num){ $sep ||= '\s+'; $num-- if $num > 0; # retain the negative values as is $result = (split(/$sep/, $result))[$num]; $result =~ s/^\s+|,|\s+$//g if $result; } eval $end if $b_log; return $result; } # 0: Perl module to check sub check_perl_module { my ($module) = @_; my $b_present = 0; eval "require $module"; $b_present = 1 if !$@; return $b_present; } # args: 0: string or path to search gneerated @paths data for. # note: a few nano seconds are saved by using raw $_[0] for program sub check_program { (grep { return "$_/$_[0]" if -e "$_/$_[0]"} @paths)[0]; } sub cleanup { # maybe add in future: , $fh_c, $fh_j, $fh_x foreach my $fh ($fh_l){ if ($fh){ close $fh; } } } # args: 0,1: version numbers to compare by turning them to strings # note that the structure of the two numbers is expected to be fairly # similar, otherwise it may not work perfectly. sub compare_versions { my ($one,$two) = @_; if ($one && !$two){return $one;} elsif ($two && !$one){return $two;} elsif (!$one && !$two){return} my ($pad1,$pad2) = ('',''); $pad1 = join('', map {$_ = sprintf("%04s", $_);$_ } split(/[._-]/, $one)); $pad2 = join('', map {$_ = sprintf("%04s", $_);$_ } split(/[._-]/, $two)); # print "p1:$pad1 p2:$pad2\n"; if ($pad1 ge $pad2){return $one} elsif ($pad2 gt $pad1){return $two} } # some things randomly use hex with 0x starter, return always integer # warning: perl will generate a 32 bit too big number warning if you pass it # random values that exceed 2^32 in hex, even if the base system is 64 bit. # sample: convert_hex(0x000b0000000b); sub convert_hex { return (defined $_[0] && $_[0] =~ /^0x/) ? hex($_[0]) : $_[0]; } # returns count of files in directory, if 0, dir is empty sub count_dir_files { return unless -d $_[0]; opendir(my $dh, $_[0]) or error_handler('open-dir-failed', "$_[0]", $!); my $count = grep { ! /^\.{1,2}/ } readdir($dh); # strips out . and .. closedir $dh; return $count; } # args: 0: the string to get piece of # 1: the position in string, starting at 1 for 0 index. # 2: the separator, default is ' ' sub get_piece { eval $start if $b_log; my ($string, $num, $sep) = @_; $num--; $sep ||= '\s+'; $string =~ s/^\s+|\s+$//g; my @temp = split(/$sep/, $string); eval $end if $b_log; if (exists $temp[$num]){ $temp[$num] =~ s/,//g; return $temp[$num]; } } # args: 0: command to turn into an array; 1: optional: splitter; # 2: optionsl, strip and clean data # similar to reader() except this creates an array of data # by lines from the command arg sub grabber { eval $start if $b_log; my ($cmd,$split,$strip,$type) = @_; $type ||= 'arr'; $split ||= "\n"; my @rows; if ($strip){ for (split(/$split/, qx($cmd))){ next if /^\s*(#|$)/; $_ =~ s/^\s+|\s+$//g; push(@rows,$_); } } else { @rows = split(/$split/, qx($cmd)); } eval $end if $b_log; return ($type eq 'arr') ? @rows : \@rows; } # args: 0: string value to glob sub globber { eval $start if $b_log; my @files = <$_[0]>; eval $end if $b_log; return @files; } # arg MUST be quoted when inserted, otherwise perl takes it for a hex number sub is_hex { return (defined $_[0] && $_[0] =~ /^0x/) ? 1 : 0; } ## NOTE: for perl pre 5.012 length(undef) returns warning # receives string, returns boolean 1 if integer sub is_int { return 1 if (defined $_[0] && length($_[0]) && length($_[0]) == ($_[0] =~ tr/0123456789//)); } # receives string, returns true/1 if >= 0 numeric. tr/// 4x faster than regex sub is_numeric { return 1 if (defined $_[0] && ($_[0] =~ tr/0123456789//) >= 1 && length($_[0]) == ($_[0] =~ tr/0123456789.//) && ($_[0] =~ tr/.//) <= 1); } # gets array ref, which may be undefined, plus join string # this helps avoid debugger print errors when we are printing arrays # which we don't know are defined or not null. # args: 0: array ref; 1: join string; 2: default value, optional sub joiner { my ($arr,$join,$default) = @_; $default ||= ''; my $string = ''; foreach (@$arr){ if (defined $_){ $string .= $_ . $join; } else { $string .= $default . $join; } } return $string; } # gets directory file list sub lister { return if ! -d $_[0]; opendir my $dir, $_[0] or return; my @list = readdir $dir; @list = grep {!/^(\.|\.\.)$/} @list if @list; closedir $dir; return @list; } # checks for 1 of 3 perl json modules. All three have same encode_json, # decode_json() methods. sub load_json { eval $start if $b_log; $loaded{'json'} = 1; # recommended, but not in core modules if (check_perl_module('Cpanel::JSON::XS')){ Cpanel::JSON::XS->import(qw(encode_json decode_json)); # my $new = Cpanel::JSON::XS->new; $use{'json'} = {'type' => 'cpanel-json-xs', 'encode' => \&Cpanel::JSON::XS::encode_json, 'decode' => \&Cpanel::JSON::XS::decode_json,}; # $use{'json'} = {'type' => 'cpanel-json-xs', # 'new-json' => \Cpanel::JSON::XS->new()}; } # somewhat legacy, not in perl modules elsif (check_perl_module('JSON::XS')){ JSON::XS->import; $use{'json'} = {'type' => 'json-xs', 'encode' => \&JSON::XS::encode_json, 'decode' => \&JSON::XS::decode_json}; } # perl, in core modules as of 5.14 elsif (check_perl_module('JSON::PP')){ JSON::PP->import; $use{'json'} = {'type' => 'json-pp', 'encode' => \&JSON::PP::encode_json, 'decode' => \&JSON::PP::decode_json}; } eval $end if $b_log; } # returns array of: 0: program print name 1: program version # args: 0: program values id; 1: program version string; # 2: $extra level. Note that StartClient runs BEFORE -x levels are set! # Only use this function when you only need the name/version data returned sub program_data { eval $start if $b_log; my ($values_id,$version_id,$level) = @_; my (@data,$path,@program_data); $level = 0 if !$level; # print "val_id: $values_id ver_id:$version_id lev:$level ex:$extra\n"; $version_id = $values_id if !$version_id; @data = program_values($values_id); if ($data[3]){ $program_data[0] = $data[3]; # programs that have no version method return 0 0 for index 1 and 2 if ($extra >= $level && $data[1] && $data[2]){ $program_data[1] = program_version($version_id,$data[0], $data[1],$data[2],$data[5],$data[6],$data[7],$data[8]); } } $program_data[0] ||= ''; $program_data[1] ||= ''; eval $end if $b_log; return @program_data; } # It's almost 1000 times slower to load these each time program_values is called!! sub set_program_values { %program_values = ( ## Clients ## 'bitchx' => ['bitchx',2,'','BitchX',1,0,0,'',''],# special 'finch' => ['finch',2,'-v','Finch',1,1,0,'',''], 'gaim' => ['[0-9.]+',2,'-v','Gaim',0,1,0,'',''], 'ircii' => ['[0-9.]+',3,'-v','ircII',1,1,0,'',''], 'irssi' => ['irssi',2,'-v','Irssi',1,1,0,'',''], 'irssi-text' => ['irssi',2,'-v','Irssi',1,1,0,'',''], 'konversation' => ['konversation',2,'-v','Konversation',0,0,0,'',''], 'kopete' => ['Kopete',2,'-v','Kopete',0,0,0,'',''], 'kvirc' => ['[0-9.]+',2,'-v','KVIrc',0,0,1,'',''], # special 'pidgin' => ['[0-9.]+',2,'-v','Pidgin',0,1,0,'',''], 'quassel' => ['',1,'-v','Quassel [M]',0,0,0,'',''], # special 'quasselclient' => ['',1,'-v','Quassel',0,0,0,'',''],# special 'quasselcore' => ['',1,'-v','Quassel (core)',0,0,0,'',''],# special 'gribble' => ['^Supybot',2,'--version','Gribble',1,0,0,'',''],# special 'limnoria' => ['^Supybot',2,'--version','Limnoria',1,0,0,'',''],# special 'supybot' => ['^Supybot',2,'--version','Supybot',1,0,0,'',''],# special 'weechat' => ['[0-9.]+',1,'-v','WeeChat',1,0,0,'',''], 'weechat-curses' => ['[0-9.]+',1,'-v','WeeChat',1,0,0,'',''], 'xchat-gnome' => ['[0-9.]+',2,'-v','X-Chat-Gnome',1,1,0,'',''], 'xchat' => ['[0-9.]+',2,'-v','X-Chat',1,1,0,'',''], ## Desktops / wm / compositors ## '2bwm' => ['^2bwm',0,'0','2bWM',0,1,0,'',''], # unverified/based on mcwm '3dwm' => ['^3dwm',0,'0','3Dwm',0,1,0,'',''], # unverified '5dwm' => ['^5dwm',0,'0','5Dwm',0,1,0,'',''], # unverified '9wm' => ['^9wm',3,'-version','9wm',0,1,0,'',''], 'aewm' => ['^aewm',3,'--version','aewm',0,1,0,'',''], 'aewm++' => ['^Version:',2,'-version','aewm++',0,1,0,'',''], 'afterstep' => ['^afterstep',3,'--version','AfterStep',0,1,0,'',''], 'amiwm' => ['^amiwm',0,'0','AmiWM',0,1,0,'',''], # no version 'antiwm' => ['^antiwm',0,'0','AntiWM',0,1,0,'',''], # no version known 'asc' => ['^asc',0,'0','asc',0,1,0,'',''], 'awc' => ['^awc',0,'0','awc',0,1,0,'',''], # unverified 'awesome' => ['^awesome',2,'--version','awesome',0,1,0,'',''], 'beryl' => ['^beryl',0,'0','Beryl',0,1,0,'',''], # unverified; legacy 'blackbox' => ['^Blackbox',2,'--version','Blackbox',0,1,0,'',''], 'bspwm' => ['^\S',1,'-v','bspwm',0,1,0,'',''], 'budgie-desktop' => ['^budgie-desktop',2,'--version','Budgie',0,1,0,'',''], 'budgie-wm' => ['^budgie',0,'0','budgie-wm',0,1,0,'',''], 'cage' => ['^cage',0,'0','Cage',0,1,0,'',''], # unverified 'cagebreak' => ['^Cagebreak',3,'-v','Cagebreak',0,1,0,'',''], 'calmwm' => ['^calmwm',0,'0','CalmWM',0,1,0,'',''], # unverified 'cardboard' => ['^cardboard',0,'0','Cardboard',0,1,0,'',''], # unverified 'catwm' => ['^catwm',0,'0','catwm',0,1,0,'',''], # unverified 'cde' => ['^cde',0,'0','CDE',0,1,0,'',''], # unverified 'chameleonwm' => ['^chameleon',0,'0','ChameleonWM',0,1,0,'',''], # unverified 'cinnamon' => ['^cinnamon',2,'--version','Cinnamon',0,1,0,'',''], 'clfswm' => ['^clsfwm',0,'0','clfswm',0,1,0,'',''], # no version 'comfc' => ['^comfc',0,'0','comfc',0,1,0,'',''], # unverified 'compiz' => ['^compiz',2,'--version','Compiz',0,1,0,'',''], 'compton' => ['^\d',1,'--version','Compton',0,1,0,'',''], 'cosmic-comp' => ['^cosmic-comp',0,'0','cosmic-comp',0,1,0,'',''], # unverified 'ctwm' => ['^\S',1,'-version','ctwm',0,1,0,'',''], 'cwm' => ['^cwm',0,'0','CWM',0,1,0,'',''], # no version 'dcompmgr' => ['^dcompmgr',0,'0','dcompmgr',0,1,0,'',''], # unverified 'deepin' => ['^Version',2,'file','Deepin',0,100,'=','','/etc/deepin-version'], # special 'deepin-metacity' => ['^metacity',2,'--version','Deepin-Metacity',0,1,0,'',''], 'deepin-mutter' => ['^mutter',2,'--version','Deepin-Mutter',0,1,0,'',''], 'deepin-wm' => ['^gala',0,'0','DeepinWM',0,1,0,'',''], # no version 'dwc' => ['^dwc',0,'0','dwc',0,1,0,'',''], # unverified 'dwl' => ['^dwl',0,'0','dwl',0,1,0,'',''], # unverified 'dwm' => ['^dwm',1,'-v','dwm',0,1,1,'^dwm-',''], 'echinus' => ['^echinus',1,'-v','echinus',0,1,1,'',''], # echinus-0.4.9 (c)... # only listed here for compositor values, version data comes from xprop 'enlightenment' => ['^enlightenment',0,'0','enlightenment',0,1,0,'',''], # no version, yet? 'epd-wm' => ['^epd-wm',0,'0','epd-wm',0,1,0,'',''], # unverified 'evilwm' => ['evilwm',3,'-V','evilwm',0,1,0,'',''],# might use full path in match 'feathers' => ['^feathers',0,'0','feathers',0,1,0,'',''], # unverified 'fenestra' => ['^fenestra',0,'0','fenestra',0,1,0,'',''], # unverified 'fireplace' => ['^fireplace',0,'0','fireplace',0,1,0,'',''], # unverified 'fluxbox' => ['^fluxbox',2,'-v','Fluxbox',0,1,0,'',''], 'flwm' => ['^flwm',0,'0','FLWM',0,0,1,'',''], # no version # openbsd changed: version string: [FVWM[[main] Fvwm.. sigh, and outputs to stderr. Why? 'fvwm' => ['^fvwm',2,'-version','FVWM',0,1,0,'',''], 'fvwm1' => ['^Fvwm',3,'-version','FVWM1',0,1,1,'',''], 'fvwm2' => ['^fvwm',2,'--version','FVWM2',0,1,0,'',''], 'fvwm3' => ['^fvwm',2,'--version','FVWM3',0,1,0,'',''], 'fvwm95' => ['^fvwm',2,'--version','FVWM95',0,1,1,'',''], 'fvwm-crystal' => ['^fvwm',2,'--version','FVWM-Crystal',0,0,0,'',''], # for print name fvwm 'gala' => ['^gala',0,'0','gala',0,1,0,'',''], # pantheon wm: super slow result, 2, '--version' works? 'gamescope' => ['^gamescope',0,'0','Gamescope',0,1,0,'',''], # unverified 'glass' => ['^glass',3,'-v','Glass',0,1,0,'',''], 'gnome' => ['^gnome',3,'--version','GNOME',0,1,0,'',''], # no version, print name 'gnome-about' => ['^gnome',3,'--version','GNOME',0,1,0,'',''], 'gnome-shell' => ['^gnome',3,'--version','gnome-shell',0,1,0,'',''], 'greenfield' => ['^greenfield',0,'0','Greenfield',0,1,0,'',''], # unverified 'grefson' => ['^grefson',0,'0','Grefson',0,1,0,'',''], # unverified 'hackedbox' => ['^hackedbox',2,'-version','HackedBox',0,1,0,'',''], # unverified, assume blackbox # note, herbstluftwm when launched with full path returns full path in version string 'herbstluftwm' => ['herbstluftwm',2,'--version','herbstluftwm',0,1,0,'',''], 'hikari' => ['^hikari',0,'0','hikari',0,1,0,'',''], # unverified 'hopalong' => ['^hopalong',0,'0','Hopalong',0,1,0,'',''], # unverified 'hyprland' => ['^hyprland',0,'0','Hyprland',0,1,0,'',''], # unverified 'i3' => ['^i3',3,'--version','i3',0,1,0,'',''], 'icewm' => ['^icewm',2,'--version','IceWM',0,1,0,'',''], 'inaban' => ['^inaban',0,'0','inaban',0,1,0,'',''], # unverified 'instantwm' => ['^instantwm',1,'-v','instantWM',0,1,1,'^instantwm-?(instantos-?)?',''], 'ion3' => ['^ion3',0,'--version','Ion3',0,1,0,'',''], # unverified; also shell called ion 'japokwm' => ['^japokwm',0,'0','japokwm',0,1,0,'',''], # unverified 'jbwm' => ['jbwm',3,'-v','JBWM',0,1,0,'',''], # might use full path in match 'jwm' => ['^jwm',2,'--version','JWM',0,1,0,'',''], 'kded' => ['^KDE( Development Platform)?:',2,'--version','KDE',0,1,0,'\sDevelopment Platform',''], 'kded1' => ['^KDE( Development Platform)?:',2,'--version','KDE',0,1,0,'\sDevelopment Platform',''], 'kded2' => ['^KDE( Development Platform)?:',2,'--version','KDE',0,1,0,'\sDevelopment Platform',''], 'kded3' => ['^KDE( Development Platform)?:',2,'--version','KDE',0,1,0,'\sDevelopment Platform',''], 'kded4' => ['^KDE( Development Platform)?:',2,'--version','KDE',0,1,0,'\sDevelopment Platform',''], 'kiwmi' => ['^kwimi',0,'0','kiwmi',0,1,0,'',''], # unverified 'ksmcon' => ['^ksmcon',0,'0','ksmcon',0,1,0,'',''],# no version 'kwin' => ['^kwin',0,'0','kwin',0,1,0,'',''],# no version 'kwin_wayland' => ['^kwin_wayland',0,'0','kwin_wayland',0,1,0,'',''],# no version 'kwin_x11' => ['^kwin_x11',0,'0','kwin_x11',0,1,0,'',''],# no version 'kwinft' => ['^kwinft',0,'0','KWinFT',0,1,0,'',''], # unverified 'labwc' => ['^labwc',0,'0','LabWC',0,1,0,'',''], # unverified 'laikawm' => ['^laikawm',0,'0','LaikaWM',0,1,0,'',''], # unverified 'larswm' => ['^larswm',2,'-v','larswm',0,1,1,'',''], 'leftwm' => ['^leftwm',0,'0','LeftWM',0,1,0,'',''],# no version, in CHANGELOG 'liri' => ['^liri',0,'0','liri',0,1,0,'',''], 'lipstick' => ['^lipstick',0,'0','Lipstick',0,1,0,'',''], # unverified 'liri' => ['^liri',0,'0','liri',0,1,0,'',''], # unverified 'lumina-desktop' => ['^\S',1,'--version','Lumina',0,1,1,'',''], 'lwm' => ['^lwm',0,'0','lwm',0,1,0,'',''], # no version 'lxpanel' => ['^lxpanel',2,'--version','LXDE',0,1,0,'',''], # command: lxqt-panel 'lxqt-panel' => ['^lxqt-panel',2,'--version','LXQt',0,1,0,'',''], 'lxqt-variant' => ['^lxqt-panel',0,'0','LXQt-Variant',0,1,0,'',''], 'lxsession' => ['^lxsession',0,'0','lxsession',0,1,0,'',''], 'mahogany' => ['^mahogany',0,'0','Mahogany',0,1,0,'',''], # unverified 'manokwari' => ['^manokwari',0,'0','Manokwari',0,1,0,'',''], 'marina' => ['^marina',0,'0','Marina',0,1,0,'',''], # unverified 'marco' => ['^marco',2,'--version','marco',0,1,0,'',''], 'matchbox' => ['^matchbox',0,'0','Matchbox',0,1,0,'',''], 'matchbox-window-manager' => ['^matchbox',2,'--help','Matchbox',0,0,0,'',''], 'mate-about' => ['^MATE[[:space:]]DESKTOP',-1,'--version','MATE',0,1,0,'',''], # note, mate-session when launched with full path returns full path in version string 'mate-session' => ['mate-session',-1,'--version','MATE',0,1,0,'',''], 'maze' => ['^maze',0,'0','Maze',0,1,0,'',''], # unverified 'mcwm' => ['^mcwm',0,'0','mcwm',0,1,0,'',''], # unverified/see 2bwm 'metacity' => ['^metacity',2,'--version','Metacity',0,1,0,'',''], 'metisse' => ['^metisse',0,'0','metisse',0,1,0,'',''], 'mini' => ['^Mini',5,'--version','Mini',0,1,0,'',''], 'mir' => ['^mir',0,'0','mir',0,1,0,'',''],# unverified 'moblin' => ['^moblin',0,'0','moblin',0,1,0,'',''],# unverified 'monsterwm' => ['^monsterwm',0,'0','monsterwm',0,1,0,'',''],# unverified 'motorcar' => ['^motorcar',0,'0','motorcar',0,1,0,'',''],# unverified 'muffin' => ['^muffin',2,'--version','Muffin',0,1,0,'',''], 'musca' => ['^musca',0,'-v','Musca',0,1,0,'',''], # unverified 'mutter' => ['^mutter',2,'--version','Mutter',0,1,0,'',''], 'mwm' => ['^mwm',0,'0','MWM',0,1,0,'',''],# no version 'nawm' => ['^nawm',0,'0','nawm',0,1,0,'',''],# unverified 'newm' => ['^newm',0,'0','newm',0,1,0,'',''], # unverified 'notion' => ['^.',1,'--version','Notion',0,1,0,'',''], 'nscde' => ['^nscde',0,'0','NsCDE',0,1,0,'',''], # unverified 'nucleus' => ['^nucleus',0,'0','Nucleus',0,1,0,'',''], # unverified 'openbox' => ['^openbox',2,'--version','Openbox',0,1,0,'',''], 'orbital' => ['^orbital',0,'0','Orbital',0,1,0,'',''],# unverified 'pantheon' => ['^pantheon',0,'0','Pantheon',0,1,0,'',''],# no version 'papyros' => ['^papyros',0,'0','papyros',0,1,0,'',''],# no version 'pekwm' => ['^pekwm',3,'--version','PekWM',0,1,0,'',''], 'penrose' => ['^penrose',0,'0','Penrose',0,1,0,'',''],# no version? 'perceptia' => ['^perceptia',0,'0','perceptia',0,1,0,'',''], 'phoc' => ['^phoc',0,'0','phoc',0,1,0,'',''], # unverified 'picom' => ['^\S',1,'--version','Picom',0,1,0,'^v',''], 'plasmashell' => ['^plasmashell',2,'--version','KDE Plasma',0,1,0,'',''], 'pywm' => ['^pywm',0,'0','pywm',0,1,0,'',''], # unverified 'qtile' => ['^',1,'--version','Qtile',0,1,0,'',''], 'qvwm' => ['^qvwm',0,'0','qvwm',0,1,0,'',''], # unverified 'razor-session' => ['^razor',0,'0','Razor-Qt',0,1,0,'',''], 'ratpoison' => ['^ratpoison',2,'--version','Ratpoison',0,1,0,'',''], 'river' => ['^river',0,'0','River',0,1,0,'',''], # unverified 'rootston' => ['^rootston',0,'0','rootston',0,1,0,'',''], # unverified, wlroot ref 'rustland' => ['^rustland',0,'0','rustland',0,1,0,'',''], # unverified 'sawfish' => ['^sawfish',3,'--version','Sawfish',0,1,0,'',''], 'scrotwm' => ['^scrotwm.*welcome.*',5,'-v','scrotwm',0,1,1,'',''], 'simulavr' => ['simulavr^',0,'0','SimulaVR',0,1,0,'',''], # unverified 'skylight' => ['^skylight',0,'0','Skylight',0,1,0,'',''], # unverified 'smithay' => ['^smithay',0,'0','Smithay',0,1,0,'',''], # unverified 'sommelier' => ['^sommelier',0,'0','sommelier',0,1,0,'',''], # unverified 'snapwm' => ['^snapwm',0,'0','snapwm',0,1,0,'',''], # unverified 'spectrwm' => ['^spectrwm.*welcome.*wm',5,'-v','spectrwm',0,1,1,'',''], # out of stump, 2 --version, but in tries to start new wm instance endless hang 'stumpwm' => ['^SBCL',0,'--version','StumpWM',0,1,0,'',''], # hangs when run in wm 'sway' => ['^sway',3,'-v','sway',0,1,0,'',''], 'swc' => ['^swc',0,'0','swc',0,1,0,'',''], # unverified 'swvkc' => ['^swvkc',0,'0','swvkc',0,1,0,'',''], # unverified 'tabby' => ['^tabby',0,'0','Tabby',0,1,0,'',''], # unverified 'taiwins' => ['^taiwins',0,'0','taiwins',0,1,0,'',''], # unverified 'tinybox' => ['^tinybox',0,'0','tinybox',0,1,0,'',''], # unverified 'tinywl' => ['^tinywl',0,'0','TinyWL',0,1,0,'',''], # unverified 'tinywm' => ['^tinywm',0,'0','TinyWM',0,1,0,'',''], # no version 'trinkster' => ['^trinkster',0,'0','Trinkster',0,1,0,'',''], # unverified 'tvtwm' => ['^tvtwm',0,'0','tvtwm',0,1,0,'',''], # unverified 'twin' => ['^Twin:',2,'--version','Twin',0,0,0,'',''], 'twm' => ['^twm',0,'0','TWM',0,1,0,'',''], # no version 'ukui' => ['^ukui-session',2,'--version','UKUI',0,1,0,'',''], 'ukwm' => ['^ukwm',2,'--version','ukwm',0,1,0,'',''], 'unagi' => ['^\S',1,'--version','unagi',0,1,0,'',''], 'unity' => ['^unity',2,'--version','Unity',0,1,0,'',''], 'unity-system-compositor' => ['^unity-system-compositor',2,'--version', 'unity-system-compositor (mir)',0,0,0,'',''], 'uwm' => ['^uwm',0,'0','UWM',0,1,0,'',''], # unverified 'velox' => ['^velox',0,'0','Velox',0,1,0,'',''], # unverified 'vimway' => ['^vimway',0,'0','vimway',0,1,0,'',''], # unverified 'vivarium' => ['^vivarium',0,'0','Vivarium',0,1,0,'',''], # unverified 'wavy' => ['^wavy',0,'0','wavy',0,1,0,'',''], # unverified 'waybox' => ['^way',0,'0','waybox',0,1,0,'',''], # unverified 'waycooler' => ['^way',3,'--version','way-cooler',0,1,0,'',''], 'way-cooler' => ['^way',3,'--version','way-cooler',0,1,0,'',''], 'wayfire' => ['^\d',1,'--version','wayfire',0,1,0,'',''], # -version/--version 'wayhouse' => ['^wayhouse',0,'0','wayhouse',0,1,0,'',''], # unverified 'waymonad' => ['^waymonad',0,'0','waymonad',0,1,0,'',''], # unverified 'westeros' => ['^westeros',0,'0','westeros',0,1,0,'',''], # unverified 'westford' => ['^westford',0,'0','westford',0,1,0,'',''], # unverified 'weston' => ['^weston',0,'0','Weston',0,1,0,'',''], # unverified 'windowlab' => ['^windowlab',2,'-about','WindowLab',0,1,0,'',''], 'wingo' => ['^wingo',0,'0','Wingo',0,1,0,'',''], # unverified 'wio' => ['^wio',0,'0','Wio',0,1,0,'',''], # unverified 'wio' => ['^wio\+',0,'0','wio+',0,1,0,'',''], # unverified 'wm2' => ['^wm2',0,'0','wm2',0,1,0,'',''], # no version 'wmaker' => ['^Window[[:space:]]*Maker',-1,'--version','WindowMaker',0,1,0,'',''], 'wmfs' => ['^wmfs',0,'0','WMFS',0,1,0,'',''], # unverified 'wmfs2' => ['^wmfs',0,'0','WMFS',0,1,0,'',''], # unverified 'wmii' => ['^wmii',1,'-v','wmii',0,1,0,'^wmii[234]?-',''], # wmii is wmii3 'wmii2' => ['^wmii2',1,'--version','wmii2',0,1,0,'^wmii[234]?-',''], 'wmx' => ['^wmx',0,'0','wmx',0,1,0,'',''], # no version 'wxrc' => ['^wx',0,'0','',0,1,0,'WXRC',''], # unverified 'wxrd' => ['^wx',0,'0','',0,1,0,'WXRD',''], # unverified 'xcompmgr' => ['^xcompmgr',0,'0','xcompmgr',0,1,0,'',''], # no version 'xfce-panel' => ['^xfce-panel',2,'--version','Xfce',0,1,0,'',''], 'xfce4-panel' => ['^xfce4-panel',2,'--version','Xfce',0,1,0,'',''], 'xfce5-panel' => ['^xfce5-panel',2,'--version','Xfce',0,1,0,'',''], 'xfdesktop' => ['xfdesktop[[:space:]]version',5,'--version','Xfce',0,1,0,'',''], # command: xfdesktop 'xfdesktop-toolkit' => ['Built[[:space:]]with[[:space:]]GTK',4,'--version','Gtk',0,1,0,'',''], # ' This is xfwm4 version 4.16.1 (revision 5f61a84ad) for Xfce 4.16' 'xfwm' => ['xfwm[3-8]? version',5,'--version','xfwm',0,1,0,'^^\s+',''],# unverified 'xfwm4' => ['xfwm4? version',5,'--version','xfwm',0,1,0,'^^\s+',''], 'xfwm5' => ['xfwm5? version',5,'--version','xfwm',0,1,0,'^^\s+',''], # unverified 'xmonad' => ['^xmonad',2,'--version','XMonad',0,1,0,'',''], 'xuake' => ['^xuake',0,'0','xuake',0,1,0,'',''], # unverified 'yeahwm' => ['^yeahwm',0,'--version','YeahWM',0,1,0,'',''], # unverified ## Toolkits ## 'gtk-launch' => ['^\S',1,'--version','GTK',0,1,0,'',''], 'qmake' => ['^^Using Qt version',4,'--version','Qt',0,0,0,'',''], 'qtdiag' => ['^qt',2,'--version','Qt',0,1,0,'',''], ## Display Managers (dm) ## 'brzdm' => ['^brzdm version',3,'-v','brzdm',0,1,0,'',''], # unverified, slim fork 'cdm' => ['^cdm',0,'0','CDM',0,1,0,'',''], # might be xlogin, unknown output for -V 'clogin' => ['^clogin',0,'-V','clogin',0,1,0,'',''], # unverified, maybe xlogin 'emptty' => ['^emptty',0,'0','EMPTTY',0,1,0,'',''], # unverified 'entrance' => ['^entrance',0,'0','Entrance',0,1,0,'',''], 'gdm' => ['^gdm',2,'--version','GDM',0,1,0,'',''], 'gdm3' => ['^gdm',2,'--version','GDM3',0,1,0,'',''], 'greetd' => ['^greetd',0,'0','greetd',0,1,0,'',''], # no version 'kdm' => ['^kdm',0,'0','KDM',0,1,0,'',''], 'kdm3' => ['^kdm',0,'0','KDM',0,1,0,'',''], 'kdmctl' => ['^kdm',0,'0','KDM',0,1,0,'',''], 'ldm' => ['^ldm',0,'0','LDM',0,1,0,'',''], 'lightdm' => ['^lightdm',2,'--version','LightDM',0,1,1,'',''], 'lxdm' => ['^lxdm',0,'0','LXDM',0,1,0,'',''], 'ly' => ['^ly',3,'--version','Ly',0,1,0,'',''], 'mdm' => ['^mdm',0,'0','MDM',0,1,0,'',''], 'mlogin' => ['^mlogin',0,'0','mlogin',0,1,0,'',''], # unverified 'nodm' => ['^nodm',0,'0','nodm',0,1,0,'',''], 'pcdm' => ['^pcdm',0,'0','PCDM',0,1,0,'',''], 'qingy' => ['^qingy',0,'0','qingy',0,1,0,'',''], # unverified 'sddm' => ['^sddm',0,'0','SDDM',0,1,0,'',''], 'slim' => ['slim version',3,'-v','SLiM',0,1,0,'',''], 'slimski' => ['slimski version',3,'-v','slimski',0,1,0,'',''], # slim fork 'tbsm' => ['^tbsm',0,'0','tbsm',0,1,0,'',''], # unverified 'tdm' => ['^tdm',0,'0','TDM',0,1,0,'',''], 'udm' => ['^udm',0,'0','udm',0,1,0,'',''], 'wdm' => ['^wdm',0,'0','WINGs DM',0,1,0,'',''], 'xdm' => ['^xdm',0,'0','XDM',0,1,0,'',''], 'xdmctl' => ['^xdm',0,'0','XDM',0,1,0,'',''],# opensuse/redhat may use this to start real dm 'xenodm' => ['^xenodm',0,'0','xenodm',0,1,0,'',''], 'xlogin' => ['^xlogin',0,'-V','xlogin',0,1,0,'',''], # unverified, probably clogin ## Shells - not checked: ion, eshell ## ## See ShellData::shell_test() for unhandled but known shells 'ash' => ['',3,'pkg','ash',1,0,0,'',''], # special; dash precursor 'bash' => ['^GNU[[:space:]]bash',4,'--version','Bash',1,1,0,'',''], 'busybox' => ['^busybox',0,'0','BusyBox',1,0,0,'',''], # unverified, hush/ash likely 'cicada' => ['^\s*version',2,'cmd','cicada',1,1,0,'',''], # special 'csh' => ['^tcsh',2,'--version','csh',1,1,0,'',''], # mapped to tcsh often 'dash' => ['',3,'pkg','DASH',1,0,0,'',''], # no version, pkg query 'elvish' => ['^\S',1,'--version','Elvish',1,0,0,'',''], 'fish' => ['^fish',3,'--version','fish',1,0,0,'',''], 'fizsh' => ['^fizsh',3,'--version','FIZSH',1,0,0,'',''], # ksh/lksh/loksh/mksh/posh//pdksh need to print their own $VERSION info 'ksh' => ['^\S',1,'cmd','ksh',1,0,0,'^(Version|.*KSH)\s*',''], # special 'ksh93' => ['^\S',1,'cmd','ksh93',1,0,0,'^(Version|.*KSH)\s*',''], # special 'lksh' => ['^\S',1,'cmd','lksh',1,0,0,'^.*KSH\s*',''], # special 'loksh' => ['^\S',1,'cmd','loksh',1,0,0,'^.*KSH\s*',''], # special 'mksh' => ['^\S',1,'cmd','mksh',1,0,0,'^.*KSH\s*',''], # special 'nash' => ['^nash',0,'0','Nash',1,0,0,'',''], # unverified; rc based [no version] 'oh' => ['^oh',0,'0','Oh',1,0,0,'',''], # no version yet 'oil' => ['^Oil',3,'--version','Oil',1,1,0,'',''], # could use cmd $OIL_SHELL 'osh' => ['^osh',3,'--version','OSH',1,1,0,'',''], # precursor of oil 'pdksh' => ['^\S',1,'cmd','pdksh',1,0,0,'^.*KSH\s*',''], # special, in ksh family 'posh' => ['^\S',1,'cmd','posh',1,0,0,'',''], # special, in ksh family 'tcsh' => ['^tcsh',2,'--version','tcsh',1,1,0,'',''], # enhanced csh 'xonsh' => ['^xonsh',1,'--version','xonsh',1,0,0,'^xonsh[\/-]',''], 'yash' => ['^Y',5,'--version','yash',1,0,0,'',''], 'zsh' => ['^zsh',2,'--version','Zsh',1,0,0,'',''], ## Tools ## 'clang' => ['clang',3,'--version','Clang',1,0,0,'',''], 'gcc' => ['^gcc',3,'--version','GCC',1,0,0,'',''], 'gcc-apple' => ['Apple[[:space:]]LLVM',2,'--version','LLVM',1,0,0,'',''], 'sudo' => ['^Sudo',3,'-V','Sudo',1,1,0,'',''], # sudo pre 1.7 does not have --version ); } # returns array of: # 0: match string; 1: search number; 2: version string [alt: file]; # 3: Print name; 4: console 0/1; # 5: 0/1 exit version loop at 1 [alt: if version=file replace value with \s]; # 6: 0/1 write to stderr [alt: if version=file, path for file]; # 7: replace regex for further cleanup; 8: extra data # note: setting index 1 or 2 to 0 will trip flags to not do version # args: 0: program lower case name sub program_values { my ($app) = @_; my (@program_data); set_program_values() if !%program_values; if (defined $program_values{$app}){ @program_data = @{$program_values{$app}}; } # my $debug = Dumper \@program_data; log_data('dump',"Program Data",\@program_data) if $b_log; return @program_data; } # args: 0: desktop/app command for --version; 1: search string; # 2: space print number; 3: [optional] version arg: -v, version, etc; # 4: [optional] exit first find 0/1; 5: [optional] 0/1 stderr output; # 6: replace regex; 7: extra data sub program_version { eval $start if $b_log; my ($app,$search,$num,$version,$exit,$stderr,$replace,$extra) = @_; my ($b_no_space,$cmd,$line,$output); my $version_nu = ''; my $count = 0; my $app_name = $app; $app_name =~ s%^.*/%%; # print "app: $app :: appname: $app_name\n"; $exit ||= 100; # basically don't exit ever $version ||= '--version'; # adjust to array index, not human readable $num-- if (defined $num && $num > 0); # konvi in particular doesn't like using $ENV{'PATH'} as set, so we need # to always assign the full path if it hasn't already been done if ($version ne 'file' && $app !~ /^\//){ if (my $program = check_program($app)){ $app = $program; } else { log_data('data',"$app not found in path.") if $b_log; return 0; } } if ($version eq 'file'){ return 0 unless $extra && -r $extra; my @data = reader($extra,'strip'); @data = map {s/$stderr/ /;$_} @data if $stderr; # $stderr is the splitter $output = join("\n", @data); $cmd = ''; } # These will mostly be shells that require running the shell command -c to get info data elsif ($version eq 'cmd'){ ($cmd,$b_no_space) = program_version_cmd($app,$app_name,$extra); return 0 if !$cmd; } # slow: use pkg manager to get version, avoid unless you really want version elsif ($version eq 'pkg'){ ($cmd,$search) = program_version_pkg($app_name); return 0 if !$cmd; } # note, some wm/apps send version info to stderr instead of stdout elsif ($stderr){ $cmd = "$app $version 2>&1"; } else { $cmd = "$app $version 2>/dev/null"; } log_data('data',"version: $version num: $num search: $search command: $cmd") if $b_log; # special case, in rare instances version comes from file if ($version ne 'file'){ $output = qx($cmd); log_data('data',"output: $output") if $b_log; } # print "cmd: $cmd\noutput:\n$output\n"; # sample: dwm-5.8.2, ©.. etc, why no space? who knows. Also get rid of v in number string # xfce, and other, output has , in it, so dump all commas and parentheses if ($output){ open(my $ch, '<', \$output) or error_handler('open-data',"$cmd", "$!"); while (<$ch>){ #chomp; last if $count > $exit; if ($_ =~ /$search/i){ $_ = trimmer($_); # print "loop: $_ :: num: $num\n"; $_ =~ s/$replace//i if $replace; $_ =~ s/\s/_/g if $b_no_space; # needed for some items with version > 1 word my @data = split(/\s+/, $_); $version_nu = $data[$num]; last if ! defined $version_nu; # some distros add their distro name before the version data, which # breaks version detection. A quick fix attempt is to just add 1 to $num # to get the next value. $version_nu = $data[$num+1] if $data[$num+1] && $version_nu =~ /version/i; $version_nu =~ s/(\([^)]+\)|,|"|\||\(|\))//g if $version_nu; # trim off leading v but only when followed by a number $version_nu =~ s/^v([0-9])/$1/i if $version_nu; # print "$version_nu\n"; last; } $count++; } close $ch if $ch; } log_data('data',"Program version: $version_nu") if $b_log; eval $end if $b_log; return $version_nu; } # print program_version('bash', 'bash', 4) . "\n"; # returns ($cmdd, $b_no_space) # ksh: Version JM 93t+ 2010-03-05 [OR] Version A 2020.0.0 # mksh: @(#)MIRBSD KSH R56 2018/03/09; lksh/pdksh: @(#)LEGACY KSH R56 2018/03/09 # loksh: @(#)PD KSH v5.2.14 99/07/13.2; posh: 0.13.2 sub program_version_cmd { eval $start if $b_log; my ($app,$app_name,$extra) = @_; my @data = ('',0); if ($app_name eq 'cicada'){ $data[0] = $app . ' -c "' . $extra . '" 2>/dev/null';} elsif ($app_name =~ /^(|l|lo|m|pd)ksh(93)?$/){ $data[0] = $app . ' -c \'printf %s "$KSH_VERSION"\' 2>/dev/null'; $data[1] = 1;} elsif ($app_name eq 'posh'){ $data[0] = $app . ' -c \'printf %s "$POSH_VERSION"\' 2>/dev/null'} # print "$data[0] :: $data[1]\n"; eval $end if $b_log; return @data; } # returns $cmd, $search sub program_version_pkg { eval $start if $b_log; my ($app) = @_; my ($program,@data); # note: version $num is 3 in dpkg-query/pacman/rpm, which is convenient if ($program = check_program('dpkg-query')){ $data[0] = "$program -W -f='\${Package}\tversion\t\${Version}\n' $app 2>/dev/null"; $data[1] = "^$app\\b"; } elsif ($program = check_program('pacman')){ $data[0] = "$program -Q --info $app 2>/dev/null"; $data[1] = '^Version'; } elsif ($program = check_program('rpm')){ $data[0] = "$program -qi --nodigest --nosignature $app 2>/dev/null"; $data[1] = '^Version'; } # print "$data[0] :: $data[1]\n"; eval $end if $b_log; return @data; } # args: 0: full file path, returns array of file lines; # 1: optionsl, strip and clean data; # 2: optional: undef|arr|ref|index return specific index, if it exists, else undef # note: chomp has to chomp the entire action, not just <$fh> sub reader { eval $start if $b_log; my ($file,$strip,$type) = @_; return if !$file || ! -r $file; # not all OS respect -r tests!! $type = 'arr' if !defined $type; my ($error,@rows); open(my $fh, '<', $file) or $error = $!; # $fh always non null, even on error if ($error){ error_handler('open', $file, $error); } else { chomp(@rows = <$fh>); close $fh; if (@rows && $strip){ my @temp; for (@rows){ next if /^\s*(#|$)/; $_ =~ s/^\s+|\s+$//g; push(@temp,$_); } @rows = @temp; } } eval $end if $b_log; return @rows if $type eq 'arr'; return \@rows if $type eq 'ref'; # note: returns undef scalar value if $rows[index] does not exist return $rows[$type]; } # args: 0: the file to create if not exists sub toucher { my $file = shift; if (! -e $file){ open(my $fh, '>', $file) or error_handler('create', $file, $!); } } # calling it trimmer to avoid conflicts with existing trim stuff # args: 0: string to be right left trimmed. Also slices off \n so no chomp needed # this thing is super fast, no need to log its times etc, 0.0001 seconds or less sub trimmer { # eval $start if $b_log; my ($str) = @_; $str =~ s/^\s+|\s+$|\n$//g; # eval $end if $b_log; return $str; } # args: 0: array, by ref, modifying by ref # send array, assign to hash, changed array by reference, uniq values only. sub uniq { my %seen; @{$_[0]} = grep !$seen{$_}++, @{$_[0]}; } # args: 0: file full path to write to; 1: array ref or scalar of data to write. # note: turning off strict refs so we can pass it a scalar or an array reference. sub writer { my ($path, $content) = @_; my ($contents); no strict 'refs'; # print Dumper $content, "\n"; if (ref $content eq 'ARRAY'){ $contents = join("\n", @$content); # or die "failed with error $!"; } else { $contents = $content; } open(my $fh, ">", $path) or error_handler('open',"$path", "$!"); print $fh $contents; close $fh; } #### ------------------------------------------------------------------- #### UPDATER #### ------------------------------------------------------------------- # args: 0: type to return sub get_defaults { my ($type) = @_; my %defaults = ( 'ftp-upload' => 'ftp.smxi.org/incoming', 'inxi-branch-1' => 'https://codeberg.org/smxi/inxi/raw/one/', 'inxi-branch-2' => 'https://codeberg.org/smxi/inxi/raw/two/', "$self_name-dev" => 'https://smxi.org/in/', "$self_name-dev-ftp" => 'ftp://ftp.smxi.org/outgoing/', "inxi-main" => 'https://codeberg.org/smxi/inxi/raw/master/', 'pinxi-main' => 'https://codeberg.org/smxi/pinxi/raw/master/', ); if ($defaults{$type}){ return $defaults{$type}; } else { error_handler('bad-arg-int', $type); } } # args: 0: download url, not including file name; 1: string to print out # 2: update type option # note that 0 must end in / to properly construct the url path sub update_me { eval $start if $b_log; my ($self_download,$download_id) = @_; my $downloader_error=1; my $file_contents=''; my $output = ''; $self_path =~ s/\/$//; # dirname sometimes ends with /, sometimes not $self_download =~ s/\/$//; # dirname sometimes ends with /, sometimes not my $full_self_path = "$self_path/$self_name"; if ($b_irc){ error_handler('not-in-irc', "-U/--update") } if (! -w $full_self_path){ error_handler('not-writable', "$self_name", ''); } $output .= "Starting $self_name self updater.\n"; $output .= "Using $dl{'dl'} as downloader.\n"; $output .= "Currently running $self_name version number: $self_version\n"; $output .= "Current version patch number: $self_patch\n"; $output .= "Current version release date: $self_date\n"; $output .= "Updating $self_name in $self_path using $download_id as download source...\n"; print $output; $output = ''; $self_download = "$self_download/$self_name"; $file_contents = download_file('stdout', $self_download); # then do the actual download if ($file_contents){ # make sure the whole file got downloaded and is in the variable print "Validating downloaded data...\n"; if ($file_contents =~ /###\*\*EOF\*\*###/){ open(my $fh, '>', $full_self_path); print $fh $file_contents or error_handler('write', $full_self_path, "$!"); close $fh; qx(chmod +x '$self_path/$self_name'); set_version_data(); $output .= "Successfully updated to $download_id version: $self_version\n"; $output .= "New $download_id version patch number: $self_patch\n"; $output .= "New $download_id version release date: $self_date\n"; $output .= "To run the new version, just start $self_name again.\n"; $output .= "$line3\n"; print $output; $output = ''; if ($use{'man'}){ update_man($self_download,$download_id); } else { print "Skipping man download because branch version is being used.\n"; } exit 0; } else { error_handler('file-corrupt', "$self_name"); } } # now run the error handlers on any downloader failure else { error_handler('download-error', $self_download, $download_id); } eval $end if $b_log; } sub update_man { eval $start if $b_log; my ($self_download,$download_id) = @_; my $man_file_location = set_man_location(); my $man_file_path = "$man_file_location/$self_name.1" ; my ($file_contents,$man_file_url,$output,$program) = ('','','',''); print "Starting download of man page file now.\n"; if (! -d $man_file_location){ print "The required man directory was not detected on your system.\n"; print "Unable to continue: $man_file_location\n"; return 0; } if (! -w $man_file_location){ print "Cannot write to $man_file_location! Root privileges required.\n"; print "Unable to continue: $man_file_location\n"; return 0; } if (-f "/usr/share/man/man8/inxi.8.gz"){ print "Updating man page location to man1.\n"; rename "/usr/share/man/man8/inxi.8.gz", "$man_file_location/inxi.1.gz"; if (check_program('mandb')){ system('mandb'); } } if (!($program = check_program('gzip'))){ print "Required program gzip not found. Unable to install man page.\n"; return 0; } # first choice is inxi.1/pinxi.1 from gh, second from smxi.org $man_file_url = $self_download . '.1'; print "Updating $self_name.1 in $man_file_location\n"; print "using $download_id branch as download source\n"; print "Downloading man page file...\n"; print "Download URL: $man_file_url\n" if $dbg[1]; $file_contents = download_file('stdout', $man_file_url); if ($file_contents){ # make sure the whole file got downloaded and is in the variable print "Download successful. Validating downloaded man file data...\n"; if ($file_contents =~ m|\.\\" EOF|){ print "Contents validated. Writing to man location...\n"; open(my $fh, '>', $man_file_path); print $fh $file_contents or error_handler('write', $man_file_path, "$!"); close $fh; print "Writing successful. Compressing file...\n"; system("$program -9 -f $man_file_path > $man_file_path.gz"); my $err = $?; if ($err > 0){ print "Oh no! Something went wrong compressing the man file!\n"; print "Error: $err\n"; } else { print "Download, install, and compression of man page successful.\n"; print "Check to make sure it works: man $self_name\n"; } } else { error_handler('file-corrupt', "$self_name.1"); } } # now run the error handlers on any downloader failure else { error_handler('download-error', $man_file_url, $download_id); } eval $end if $b_log; } sub set_man_location { my $location=''; my $default_location='/usr/share/man/man1'; my $man_paths=qx(man --path 2>/dev/null); my $man_local='/usr/local/share/man'; my $b_use_local=0; if ($man_paths && $man_paths =~ /$man_local/){ $b_use_local=1; } # for distro installs if (-f "$default_location/inxi.1.gz"){ $location=$default_location; } else { if ($b_use_local){ if (! -d "$man_local/man1"){ mkdir "$man_local/man1"; } $location="$man_local/man1"; } } if (!$location){ $location=$default_location; } return $location; } # update for updater output version info # note, this is only now used for self updater function so it can get # the values from the UPDATED file, NOT the running program! sub set_version_data { open(my $fh, '<', "$self_path/$self_name"); while (my $row = <$fh>){ chomp($row); $row =~ s/'|;//g; if ($row =~ /^my \$self_name/){ $self_name = (split('=', $row))[1]; } elsif ($row =~ /^my \$self_version/){ $self_version = (split('=', $row))[1]; } elsif ($row =~ /^my \$self_date/){ $self_date = (split('=', $row))[1]; } elsif ($row =~ /^my \$self_patch/){ $self_patch = (split('=', $row))[1]; } elsif ($row =~ /^## END INXI INFO/){ last; } } close $fh; } ######################################################################## #### OPTIONS HANDLER / VERSION ######################################################################## ## OptionsHandler { package OptionsHandler; # note: had %trigger local but tripped odd perl 5.008 failures unless global # so moved to %use and %show globals. my ($self_download,$download_id); sub get { eval $start if $b_log; $show{'short'} = 1; Getopt::Long::GetOptions ( 'a|admin' => sub { $b_admin = 1;}, 'A|audio' => sub { $show{'short'} = 0; $show{'audio'} = 1;}, 'b|basic' => sub { $show{'short'} = 0; $show{'battery'} = 1; $show{'cpu-basic'} = 1; $show{'raid-basic'} = 1; $show{'disk-total'} = 1; $show{'graphic'} = 1; $show{'graphic-basic'} = 1; $show{'info'} = 1; $show{'machine'} = 1; $show{'network'} = 1; $show{'system'} = 1;}, 'B|battery' => sub { $show{'short'} = 0; $show{'battery'} = 1; $show{'battery-forced'} = 1;}, 'c|color:i' => sub { my ($opt,$arg) = @_; if ($arg >= 0 && $arg < main::get_color_scheme('count')){ main::set_color_scheme($arg); } elsif ($arg >= 94 && $arg <= 99){ $colors{'selector'} = $arg; } else { main::error_handler('bad-arg', $opt, $arg); }}, 'C|cpu' => sub { $show{'short'} = 0; $show{'cpu'} = 1;}, 'config|configs|configuration|configurations' => sub { $show{'configs'} = 1;}, 'd|disk-full|optical' => sub { $show{'short'} = 0; $show{'disk'} = 1; $show{'optical'} = 1;}, 'D|disk' => sub { $show{'short'} = 0; $show{'disk'} = 1;}, 'E|bluetooth' => sub { $show{'short'} = 0; $show{'bluetooth'} = 1; $show{'bluetooth-forced'} = 1;}, 'edid' => sub { $b_admin = 1; $show{'short'} = 0; $show{'edid'} = 1; $show{'graphic'} = 1; $show{'graphic-full'} = 1;}, 'f|flags|flag' => sub { $show{'short'} = 0; $show{'cpu'} = 1; $show{'cpu-flag'} = 1;}, 'F|full' => sub { $show{'short'} = 0; $show{'audio'} = 1; $show{'battery'} = 1; $show{'bluetooth'} = 1; $show{'cpu'} = 1; $show{'disk'} = 1; $show{'graphic'} = 1; $show{'graphic-basic'} = 1; $show{'graphic-full'} = 1; $show{'info'} = 1; $show{'machine'} = 1; $show{'network'} = 1; $show{'network-advanced'} = 1; $show{'partition'} = 1; $show{'raid'} = 1; $show{'sensor'} = 1; $show{'swap'} = 1; $show{'system'} = 1;}, 'gpu|nvidia|nv' => sub { $b_admin = 1; $show{'short'} = 0; $show{'graphic'} = 1; $show{'graphic-full'} = 1;}, 'G|graphics|graphic' => sub { $show{'short'} = 0; $show{'graphic'} = 1; $show{'graphic-basic'} = 1; $show{'graphic-full'} = 1;}, 'h|help|?' => sub { $show{'help'} = 1;}, 'i|ip' => sub { $show{'short'} = 0; $show{'ip'} = 1; $show{'network'} = 1; $show{'network-advanced'} = 1; $use{'downloader'} = 1 if ! main::check_program('dig');}, 'I|info' => sub { $show{'short'} = 0; $show{'info'} = 1;}, 'j|swap|swaps' => sub { $show{'short'} = 0; $show{'swap'} = 1;}, 'J|usb' => sub { $show{'short'} = 0; $show{'usb'} = 1;}, 'l|labels|label' => sub { $show{'label'} = 1;}, 'limit:i' => sub { my ($opt,$arg) = @_; if ($arg != 0){ $limit = $arg; } else { main::error_handler('bad-arg',$opt,$arg); }}, 'L|logical|lvm' => sub { $show{'short'} = 0; $show{'logical'} = 1;}, 'm|memory' => sub { $show{'short'} = 0; $show{'ram'} = 1;}, 'memory-modules|mm' => sub { $show{'short'} = 0; $show{'ram'} = 1; $show{'ram-modules'} = 1;}, 'memory-short|ms' => sub { $show{'short'} = 0; $show{'ram'} = 1; $show{'ram-short'} = 1;}, 'M|machine' => sub { $show{'short'} = 0; $show{'machine'} = 1;}, 'n|network-advanced' => sub { $show{'short'} = 0; $show{'network'} = 1; $show{'network-advanced'} = 1;}, 'N|network' => sub { $show{'short'} = 0; $show{'network'} = 1;}, 'o|unmounted' => sub { $show{'short'} = 0; $show{'unmounted'} = 1;}, 'p|partition-full|partitions-full' => sub { $show{'short'} = 0; $show{'partition'} = 0; $show{'partition-full'} = 1;}, 'P|partitions|partition' => sub { $show{'short'} = 0; $show{'partition'} = 1;}, 'partition-sort:s' => sub { my ($opt,$arg) = @_; if ($arg =~ /^(dev-base|fs|id|label|percent-used|size|uuid|used)$/){ $show{'partition-sort'} = $arg; } else { main::error_handler('bad-arg',$opt,$arg); }}, 'r|repos|repo' => sub { $show{'short'} = 0; $show{'repo'} = 1;}, 'R|raid' => sub { $show{'short'} = 0; $show{'raid'} = 1; $show{'raid-forced'} = 1;}, 's|sensors|sensor' => sub { $show{'short'} = 0; $show{'sensor'} = 1;}, 'separator|sep:s' => sub { my ($opt,$arg) = @_; if ($arg){ $sep{'s1-console'} = $arg; $sep{'s2-console'} = $arg; $sep{'s1-irc'} = $arg; $sep{'s2-irc'} = $arg; } else { main::error_handler('bad-arg',$opt,$arg); }}, 'sleep:s' => sub { my ($opt,$arg) = @_; $arg ||= 0; if ($arg >= 0){ $cpu_sleep = $arg; } else { main::error_handler('bad-arg',$opt,$arg); }}, 'slots|slot' => sub { $show{'short'} = 0; $show{'slot'} = 1;}, 'S|system' => sub { $show{'short'} = 0; $show{'system'} = 1;}, 't|processes|process:s' => sub { my ($opt,$arg) = @_; $show{'short'} = 0; $arg ||= 'cm'; my $num = $arg; $num =~ s/^[cm]+// if $num; if ($arg =~ /^([cm]+)([0-9]+)?$/ && (!$num || $num =~ /^\d+/)){ $show{'process'} = 1; if ($arg =~ /c/){ $show{'ps-cpu'} = 1; } if ($arg =~ /m/){ $show{'ps-mem'} = 1; } $ps_count = $num if $num; } else { main::error_handler('bad-arg',$opt,$arg); }}, 'u|uuid' => sub { $show{'uuid'} = 1;}, 'v|verbosity:i' => sub { my ($opt,$arg) = @_; $show{'short'} = 0; if ($arg =~ /^[0-8]$/){ if ($arg == 0){ $show{'short'} = 1; } if ($arg >= 1){ $show{'cpu-basic'} = 1; $show{'disk-total'} = 1; $show{'graphic'} = 1; $show{'graphic-basic'} = 1; $show{'info'} = 1; $show{'system'} = 1; } if ($arg >= 2){ $show{'battery'} = 1; $show{'disk-basic'} = 1; $show{'raid-basic'} = 1; $show{'machine'} = 1; $show{'network'} = 1; } if ($arg >= 3){ $show{'network-advanced'} = 1; $show{'cpu'} = 1; $extra = 1; } if ($arg >= 4){ $show{'disk'} = 1; $show{'partition'} = 1; } if ($arg >= 5){ $show{'audio'} = 1; $show{'bluetooth'} = 1; $show{'graphic-full'} = 1; $show{'label'} = 1; $show{'optical-basic'} = 1; $show{'raid'} = 1; $show{'ram'} = 1; $show{'sensor'} = 1; $show{'swap'} = 1; $show{'uuid'} = 1; } if ($arg >= 6){ $show{'optical'} = 1; $show{'partition-full'} = 1; $show{'unmounted'} = 1; $show{'usb'} = 1; $extra = 2; } if ($arg >= 7){ $use{'downloader'} = 1 if !main::check_program('dig'); $show{'battery-forced'} = 1; $show{'bluetooth-forced'} = 1; $show{'cpu-flag'} = 1; $show{'ip'} = 1; $show{'logical'} = 1; $show{'raid-forced'} = 1; $extra = 3; } if ($arg >= 8){ $b_admin = 1; # $use{'downloader'} = 1; # only if weather $force{'pkg'} = 1; $show{'edid'} = 1; $show{'process'} = 1; $show{'ps-cpu'} = 1; $show{'ps-mem'} = 1; $show{'repo'} = 1; $show{'slot'} = 1; # $show{'weather'} = 1; } } else { main::error_handler('bad-arg',$opt,$arg); }}, 'V|version' => sub { $show{'version'} = 1;}, 'version-short|vs' => sub { $show{'version-short'} = 1;}, 'w|weather' => sub { my ($opt) = @_; $show{'short'} = 0; $use{'downloader'} = 1; if ($use{'weather'}){ $show{'weather'} = 1; } else { main::error_handler('distro-block', $opt); }}, 'W|weather-location:s' => sub { my ($opt,$arg) = @_; $arg ||= ''; $arg =~ s/\s//g; $show{'short'} = 0; $use{'downloader'} = 1; if ($use{'weather'}){ if ($arg){ $show{'weather'} = 1; $show{'weather-location'} = $arg; } else { main::error_handler('bad-arg',$opt,$arg); } } else { main::error_handler('distro-block', $opt); }}, 'ws|weather-source:s' => sub { my ($opt,$arg) = @_; # let api processor handle checks if valid, this # future proofs this if ($arg =~ /^[1-9]$/){ $weather_source = $arg; } else { main::error_handler('bad-arg',$opt,$arg); }}, 'weather-unit:s' => sub { my ($opt,$arg) = @_; $arg ||= ''; $arg =~ s/\s//g; $arg = lc($arg) if $arg; if ($arg && $arg =~ /^(c|f|cf|fc|i|m|im|mi)$/){ my %units = ('c'=>'m','f'=>'i','cf'=>'mi','fc'=>'im'); $arg = $units{$arg} if defined $units{$arg}; $weather_unit = $arg; } else { main::error_handler('bad-arg',$opt,$arg); }}, 'x|extra:i' => sub { my ($opt,$arg) = @_; if ($arg > 0){ $extra = $arg; } else { $extra++; }}, 'y|width:i' => sub { my ($opt, $arg) = @_; if (defined $arg && $arg == -1){ $arg = 2000; } # note: :i creates 0 value if not supplied even though means optional elsif (!$arg){ $arg = 80; } if ($arg =~ /\d/ && ($arg == 1 || $arg >= 60)){ $size{'max-cols-basic'} = $arg if $arg != 1; $size{'max-cols'} = $arg; } else { main::error_handler('bad-arg', $opt, $arg); }}, 'Y|height|less:i' => sub { my ($opt, $arg) = @_; main::error_handler('not-in-irc', '-Y/--height') if $b_irc; if ($arg >= -3){ if ($arg >= 0){ $size{'max-lines'} = ($arg) ? $arg: $size{'term-lines'}; } elsif ($arg == -1) { $use{'output-block'} = 1; } elsif ($arg == -2) { $force{'colors'} = 1; } # unset conifiguration set max height else { $size{'max-lines'} = 0; } } else { main::error_handler('bad-arg', $opt, $arg); }}, 'z|filter' => sub { $use{'filter'} = 1;}, 'filter-all|za' => sub { $use{'filter'} = 1; $use{'filter-label'} = 1; $use{'filter-uuid'} = 1; $use{'filter-vulnerabilities'} = 1;}, 'filter-label|zl' => sub { $use{'filter-label'} = 1;}, 'Z|filter-override|no-filter' => sub { $use{'filter-override'} = 1;}, 'filter-uuid|zu' => sub { $use{'filter-uuid'} = 1;}, 'filter-v|filter-vulnerabilities|zv' => sub { $use{'filter-vulnerabilities'} = 1;}, ## Start non data options 'alt:i' => sub { my ($opt,$arg) = @_; if ($arg == 40){ $dl{'tiny'} = 0; $use{'downloader'} = 1;} elsif ($arg == 41){ $dl{'curl'} = 0; $use{'downloader'} = 1;} elsif ($arg == 42){ $dl{'fetch'} = 0; $use{'downloader'} = 1;} elsif ($arg == 43){ $dl{'wget'} = 0; $use{'downloader'} = 1;} elsif ($arg == 44){ $dl{'curl'} = 0; $dl{'fetch'} = 0; $dl{'wget'} = 0; $use{'downloader'} = 1;} else { main::error_handler('bad-arg', $opt, $arg); }}, # set --arm flag separately since android can be on different platforms 'android' => sub { $b_android = 1;}, 'arm' => sub { undef %risc; $risc{'id'} = 'arm'; $risc{'arm'} = 1;}, 'bsd:s' => sub { my ($opt,$arg) = @_; if ($arg =~ /^(darwin|dragonfly|freebsd|openbsd|netbsd)$/i){ $bsd_type = lc($arg); $fake{'bsd'} = 1; } else { main::error_handler('bad-arg', $opt, $arg); } }, 'bt-tool:s' => sub { my ($opt,$arg) = @_; if ($arg =~ /^(bluetoothctl|bt-adapter|btmgmt|hciconfig|rfkill)$/i){ $force{lc($arg)} = 1; } else { main::error_handler('bad-arg', $opt, $arg); } }, 'cygwin' => sub { $windows{'cygwin'} = 1;}, 'dbg:s' => sub { my ($opt,$arg) = @_; if ($arg !~ /^\d+(,\d+)*$/){ main::error_handler('bad-arg', $opt, $arg); } for (split(',',$arg)){ $dbg[$_] = 1; }}, 'debug:i' => sub { my ($opt,$arg) = @_; if ($arg =~ /^[1-3]|1[0-3]|2[0-4]$/){ $debugger{'level'} = $arg; } else { main::error_handler('bad-arg', $opt, $arg); }}, 'debug-arg:s' => sub { my ($opt,$arg) = @_; if ($arg && $arg =~ /^--?[a-z]/ig){ $debugger{'arg'} = $arg; } else { main::error_handler('bad-arg', $opt, $arg); }}, 'debug-arg-use:s' => sub { my ($opt,$arg) = @_; print "$arg\n"; if ($arg && $arg =~ /^--?[a-z]/ig){ $debugger{'arg-use'} = $arg; } else { main::error_handler('bad-arg', $opt, $arg); }}, 'debug-filter|debug-z' => sub { $debugger{'filter'} = 1 }, 'debug-id:s' => sub { my ($opt,$arg) = @_; if ($arg){ $debugger{'id'} = $arg; } else { main::error_handler('bad-arg', $opt, $arg); }}, 'debug-no-eps' => sub { $debugger{'no-exit'} = 1; $debugger{'no-proc'} = 1; $debugger{'sys'} = 0; }, 'debug-no-exit' => sub { $debugger{'no-exit'} = 1 }, 'debug-no-proc' => sub { $debugger{'no-proc'} = 1;}, 'debug-no-sys' => sub { $debugger{'sys'} = 0;}, 'debug-proc' => sub { $debugger{'proc'} = 1;}, 'debug-proc-print' => sub { $debugger{'proc-print'} = 1;}, 'debug-sys-print' => sub { $debugger{'sys-print'} = 1;}, 'debug-test-1' => sub { $debugger{'test-1'} = 1;}, 'debug-width|debug-y:i' => sub { my ($opt,$arg) = @_; $arg ||= 80; if ($arg =~ /^\d+$/ && ($arg == 1 || $arg >= 80)){ $debugger{'width'} = $arg; } else { main::error_handler('bad-arg', $opt, $arg); }}, 'debug-zy|debug-yz:i' => sub { my ($opt,$arg) = @_; $arg ||= 80; if ($arg =~ /^\d+$/ && ($arg == 1 || $arg >= 80)){ $debugger{'width'} = $arg; $debugger{'filter'} = 1; } else { main::error_handler('bad-arg', $opt, $arg); }}, 'dig' => sub { $force{'no-dig'} = 0;}, 'display:s' => sub { my ($opt,$arg) = @_; if ($arg =~ /^:?([0-9\.]+)?$/){ $display=$arg; $display ||= ':0'; $display = ":$display" if $display !~ /^:/; $b_display = ($b_root) ? 0 : 1; $force{'display'} = 1; $display_opt = "-display $display"; } else { main::error_handler('bad-arg', $opt, $arg); }}, 'dmi|dmidecode' => sub { $force{'dmidecode'} = 1;}, 'downloader:s' => sub { my ($opt,$arg) = @_; $arg = lc($arg); if ($arg =~ /^(curl|fetch|ftp|perl|wget)$/){ if ($arg eq 'perl' && (!main::check_perl_module('HTTP::Tiny') || !main::check_perl_module('IO::Socket::SSL'))){ main::error_handler('missing-perl-downloader', $opt, $arg); } elsif (!main::check_program($arg)){ main::error_handler('missing-downloader', $opt, $arg); } else { # this dumps all the other data and resets %dl for only the # desired downloader. $arg = main::set_perl_downloader($arg); %dl = ('dl' => $arg, $arg => 1); $use{'downloader'} = 1; } } else { main::error_handler('bad-arg', $opt, $arg); }}, 'fake:s' => sub { my ($opt,$arg) = @_; if ($arg){ my $wl = 'bluetooth|compiler|cpu|dboot|dmidecode|egl|elbrus|glx|'; $wl .= 'iomem|ip-if|ipmi|logical|lspci|partitions|pciconf|pcictl|pcidump|'; $wl .= 'raid-btrfs|raid-hw|raid-lvm|raid-md|raid-soft|raid-zfs|'; $wl .= 'sensors|sensors-sys|swaymsg|sys-mem|sysctl|uptime|usbconfig|'; $wl .= 'usbdevs|vmstat|vulkan|wl-info|wlr-randr|xdpyinfo|xorg-log|xrandr'; for (split(',',$arg)){ if ($_ =~ /\b($wl)\b/){ $fake{lc($1)} = 1; } else { main::error_handler('bad-arg', $opt, $_); } } } else { main::error_handler('bad-arg', $opt, $arg); }}, 'fake-data-dir:s' => sub { my ($opt,$arg) = @_; if ($arg && -d $arg){ $fake_data_dir = $arg; } else { main::error_handler('dir-not-exist', $opt, $arg); }}, 'force:s' => sub { my ($opt,$arg) = @_; if ($arg){ my $wl = 'bluetoothctl|bt-adapter|btmgmt|colors|cpuinfo|display|dmidecode|'; $wl .= 'hciconfig|hddtemp|ip|ifconfig|lsusb|man|meminfo|'; $wl .= 'no-dig|no-doas|no-html-wan|no-sudo|pkg|rfkill|rpm|sensors-sys|'; $wl .= 'usb-sys|vmstat|wayland|wmctrl'; for (split(',',$arg)){ if ($_ =~ /\b($wl)\b/){ $force{lc($1)} = 1; } else { main::error_handler('bad-arg', $opt, $_); } } } else { main::error_handler('bad-arg', $opt, $arg); }}, 'ftp:s' => sub { my ($opt,$arg) = @_; # pattern: ftp.x.x/x if ($arg =~ /^ftp\..+\..+\/[^\/]+$/){ $ftp_alt = $arg; } else { main::error_handler('bad-arg', $opt, $arg); }}, 'hddtemp' => sub { $force{'hddtemp'} = 1;}, 'host|hostname' => sub { $show{'host'} = 1; $show{'no-host'} = 0;}, 'html-wan' => sub { $force{'no-html-wan'} = 0;}, 'ifconfig' => sub { $force{'ifconfig'} = 1;}, 'indent:i' => sub { my ($opt,$arg) = @_; if ($arg >= 11){ $size{'indent'} = $arg; } else { main::error_handler('bad-arg', $opt, $arg); }}, 'indents:i' => sub { my ($opt,$arg) = @_; if ($arg >= 0 && $arg < 11){ $size{'indents'} = $arg; } else { main::error_handler('bad-arg', $opt, $arg); }}, 'irc' => sub { $b_irc = 1;}, 'man' => sub { $use{'yes-man'} = 1;}, 'max-wrap|wrap-max|indent-min:i' => sub { my ($opt,$arg) = @_; if ($arg >= 0){ $size{'max-wrap'} = $arg; } else { main::error_handler('bad-arg', $opt, $arg); }}, 'mips' => sub { undef %risc; $risc{'id'} = 'mips'; $risc{'mips'} = 1;}, 'no-dig' => sub { $force{'no-dig'} = 1;}, 'no-doas' => sub { $force{'no-doas'} = 1;}, 'no-host|no-hostname' => sub { $show{'host'} = 0; $show{'no-host'} = 1;}, 'no-html-wan' => sub { $force{'no-html-wan'}= 1;}, 'no-man' => sub { $use{'no-man'} = 0;}, 'no-ssl' => sub { $use{'no-ssl'} = 1;}, 'no-sudo' => sub { $force{'no-sudo'} = 1;}, 'output|export:s' => sub { my ($opt,$arg) = @_; if ($arg =~ /^(json|screen|xml)$/){ $output_type = $arg; } else { main::error_handler('bad-arg', $opt, $arg); }}, 'output-file|export-file:s' => sub { my ($opt,$arg) = @_; if ($arg){ if ($arg eq 'print' || main::check_output_path($arg)){ $output_file = $arg; } else { main::error_handler('output-file-bad', $opt, $arg); } } else { main::error_handler('bad-arg', $opt, $arg); }}, 'pkg|rpm' => sub { $force{'pkg'} = 1;}, 'ppc' => sub { undef %risc; $risc{'id'} = 'ppc'; $risc{'ppc'} = 1;}, 'recommends' => sub { $show{'recommends'} = 1;}, 'riscv' => sub { undef %risc; $risc{'id'} = 'riscv'; $risc{'riscv'} = 1;}, 'sensors-default' => sub { $use{'sensors-default'} = 1;}, 'sensors-exclude:s' => sub { my ($opt,$arg) = @_; if ($arg){ @sensors_exclude = split(/\s*,\s*/, $arg); } else { main::error_handler('bad-arg',$opt,$arg); }}, 'sensors-sys' => sub { $force{'sensors-sys'} = 1;}, 'sensors-use:s' => sub { my ($opt,$arg) = @_; if ($arg){ @sensors_use = split(/\s*,\s*/, $arg); } else { main::error_handler('bad-arg',$opt,$arg); }}, 'sparc' => sub { undef %risc; $risc{'id'} = 'sparc'; $risc{'sparc'} = 1;}, 'sys-debug' => sub { $debugger{'sys-force'} = 1;}, 'tty' => sub { # workaround for ansible/scripts running this $b_irc = 0;}, 'U|update:s' => sub { # 1,2,3,4 OR http://myserver/path/inxi my ($opt,$arg) = @_; process_updater($opt,$arg);}, 'usb-sys' => sub { $force{'usb-sys'} = 1;}, 'usb-tool' => sub { $force{'lsusb'} = 1;}, 'wan-ip-url:s' => sub { my ($opt,$arg) = @_; if ($arg && $arg =~ /^(f|ht)tp[s]?:\/\//){ $wan_url = $arg; $force{'no-dig'} = 1; } else { main::error_handler('bad-arg', $opt, $arg); }}, 'wayland|wl' => sub { $force{'wayland'} = 1;}, 'wm|wmctrl' => sub { $force{'wmctrl'} = 1;}, 'wsl' => sub { $windows{'wsl'} = 1;}, '<>' => sub { my ($opt) = @_; main::error_handler('unknown-option', "$opt", "");} ); # or error_handler('unknown-option', "@ARGV", ''); # run all these after so that we can change widths, downloaders, etc # print Data::Dumper::Dumper \%trigger; post_process(); eval $end if $b_log; } sub post_process { # first run all the stuff that exits after running CheckRecommends::run() if $show{'recommends'}; Configs::show() if $show{'configs'}; main::show_options() if $show{'help'}; main::show_version() if ($show{'version'} || $show{'version-short'}); # sets for either config or arg here if ($use{'downloader'} || $wan_url || ($force{'no-dig'} && $show{'ip'})){ main::set_downloader(); } $use{'man'} = 0 if (!$use{'yes-man'} || $use{'no-man'}); main::update_me($self_download,$download_id) if $use{'update-trigger'}; main::set_xorg_log() if $show{'graphic'}; if ($b_pledge){ my $b_update; # if -c 9x, remove in SelectColors::set_selection(), else remove here if (!$colors{'selector'} && $debugger{'level'} < 21){ @pledges = grep {$_ ne 'getpw'} @pledges; $b_update = 1; } if ($debugger{'level'} < 21){ # remove ftp upload @pledges = grep {!/(dns|inet)/} @pledges; $b_update = 1; } # not writing/creating .inxi data dirs colors selector launches set_color() if (!$show{'weather'} && !$colors{'selector'} && $debugger{'level'} < 10 && $output_type eq 'screen'){ @pledges = grep {!/(cpath|wpath)/} @pledges; $b_update = 1; } OpenBSD::Pledge::pledge(@pledges) if $b_update; } if ($output_type){ if ($output_type ne 'screen' && !$output_file){ main::error_handler('bad-arg', '--output', '--output-file not provided'); } } if (($show{'label'} || $show{'uuid'}) && !$show{'partition'} && !$show{'partition-full'} && !$show{'swap'} && !$show{'unmounted'}){ main::error_handler('bad-arg', '-l/-u', 'missing required option(s) -j, -o, -p, -P'); } $extra = 3 if $b_admin; # this turns off basic for F/v graphic output levels. if ($show{'graphic-basic'} && $show{'graphic-full'} && $extra > 1){ $show{'graphic-basic'} = 0; } if ($force{'rpm'}){ $force{'pkg'} = 1; delete $force{'rpm'}; } if ($use{'sensors-default'}){ @sensors_exclude = (); @sensors_use = (); } if ($show{'short'} || $show{'disk'} || $show{'disk-basic'} || $show{'disk-total'} || $show{'logical'} || $show{'partition'} || $show{'partition-full'} || $show{'raid'} || $show{'unmounted'}){ $use{'block-tool'} = 1; } if ($show{'short'} || $show{'raid'} || $show{'disk'} || $show{'disk-total'} || $show{'disk-basic'} || $show{'unmounted'}){ $use{'btrfs'} = 1; $use{'mdadm'} = 1; } if ($b_admin && $show{'disk'}){ $use{'smartctl'} = 1; } # triggers may extend to -D, -pP if ($show{'short'} || $show{'logical'} || $show{'raid'} || $show{'disk'} || $show{'disk-total'} || $show{'disk-basic'} || $show{'unmounted'}){ $use{'logical'} = 1; } main::set_sudo() if ($show{'unmounted'} || ($extra > 0 && $show{'disk'})); if ($use{'filter-override'}){ $use{'filter'} = 0; $use{'filter-label'} = 0; $use{'filter-uuid'} = 0; $use{'filter-vulnerabilities'} = 0; } # override for things like -b or -v2 to -v3 $show{'cpu-basic'} = 0 if $show{'cpu'}; $show{'optical-basic'} = 0 if $show{'optical'}; $show{'partition'} = 0 if $show{'partition-full'}; $show{'host'} = 0 if $show{'no-host'}; $show{'host'} = 1 if ($show{'host'} || (!$use{'filter'} && !$show{'no-host'})); if ($show{'disk'} || $show{'optical'}){ $show{'disk-basic'} = 0; $show{'disk-total'} = 0; } if ($show{'ram'} || $show{'slot'} || ($show{'cpu'} && ($extra > 1 || $bsd_type)) || (($bsd_type || $force{'dmidecode'}) && ($show{'machine'} || $show{'battery'}))){ $use{'dmidecode'} = 1; } if ($show{'audio'} || $show{'bluetooth'} || $show{'graphic'} || $show{'network'} || $show{'raid'}){ $use{'pci'} = 1; } if ($show{'usb'} || $show{'audio'} || $show{'bluetooth'} || $show{'disk'} || $show{'graphic'} || $show{'network'}){ $use{'usb'} = 1; } if ($bsd_type){ if ($show{'audio'}){ $use{'bsd-audio'} = 1;} if ($show{'battery'}){ $use{'bsd-battery'} = 1;} if ($show{'short'} || $show{'cpu-basic'} || $show{'cpu'}){ $use{'bsd-cpu'} = 1; $use{'bsd-sleep'} = 1;} if ($show{'short'} || $show{'disk-basic'} || $show{'disk-total'} || $show{'disk'} || $show{'partition'} || $show{'partition-full'} || $show{'raid'} || $show{'swap'} || $show{'unmounted'}){ $use{'bsd-disk'} = 1; $use{'bsd-partition'} = 1; $use{'bsd-raid'} = 1;} if ($show{'system'}){ $use{'bsd-kernel'} = 1;} if ($show{'machine'}){ $use{'bsd-machine'} = 1;} if ($show{'short'} || $show{'info'} || $show{'ps-mem'} || $show{'ram'}){ $use{'bsd-memory'} = 1;} if ($show{'optical-basic'} || $show{'optical'}){ $use{'bsd-optical'} = 1;} # strictly only used to fill in pci drivers if tool doesn't support that if ($use{'pci'}){ $use{'bsd-pci'} = 1;} if ($show{'raid'}){ $use{'bsd-raid'} = 1;} if ($show{'ram'}){ $use{'bsd-ram'} = 1;} if ($show{'sensor'}){ $use{'bsd-sensor'} = 1;} # always use this, it's too core $use{'sysctl'} = 1; } } sub process_updater { my ($opt,$arg) = @_; $use{'downloader'} = 1; if ($use{'update'}){ $use{'update-trigger'} = 1; if (!$arg){ $use{'man'} = 1; $download_id = "$self_name main branch"; $self_download = main::get_defaults("$self_name-main"); } elsif ($arg && $arg eq '3'){ $use{'man'} = 1; $download_id = 'dev server'; $self_download = main::get_defaults("$self_name-dev"); } elsif ($arg && $arg eq '4'){ $use{'man'} = 1; $use{'ftp-download'} = 1; $download_id = 'dev server ftp'; $self_download = main::get_defaults("$self_name-dev-ftp"); } elsif ($arg =~ /^[12]$/){ if ($self_name eq 'inxi'){ $download_id = "branch $arg"; $self_download = main::get_defaults("inxi-branch-$arg"); } else { main::error_handler('bad-arg', $opt, $arg); } } elsif ($arg =~ /^(ftp|https?):/){ $download_id = 'alt server'; $self_download = $arg; } if ($self_download && $self_name eq 'inxi'){ $use{'man'} = 1; $use{'yes-man'} = 1; } if (!$self_download){ main::error_handler('bad-arg', $opt, $arg); } } else { main::error_handler('distro-block', $opt); } } } sub show_options { error_handler('not-in-irc', 'help') if $b_irc; my $rows = []; my $line = make_line(); my $color_scheme_count = get_color_scheme('count') - 1; my $partition_string='partition'; my $partition_string_u='Partition'; my $flags = (%risc || $bsd_type) ? 'features' : 'flags' ; if ($bsd_type){ $partition_string='slice'; $partition_string_u='Slice'; } # fit the line to the screen! push(@$rows, ['0', '', '', "$self_name supports the following options. For more detailed information, see man^$self_name. If you start $self_name with no arguments, it will display a short system summary."], ['0', '', '', ''], ['0', '', '', "You can use these options alone or together, to show or add the item(s) you want to see: A, B, C, D, E, G, I, J, L, M, N, P, R, S, W, d, f, i, j, l, m, n, o, p, r, s, t, u, w, --edid, --slots. If you use them with -v [level], -b or -F, $self_name will add the requested lines to the output."], ['0', '', '', '' ], ['0', '', '', "Examples:^$self_name^-v4^-c6 OR $self_name^-bDc^6 OR $self_name^-FzjJxy^80"], ['0', '', '', $line ], ['0', '', '', "See Filter Options for output filtering, Output Control Options for colors, sizing, output changes, Extra Data Options to extend Main output, Additional Options and Advanced Options for less common situations."], ['0', '', '', $line ], ['0', '', '', "Main Feature Options:"], ['1', '-A', '--audio', "Audio/sound devices(s), driver; active sound APIs and servers."], ['1', '-b', '--basic', "Basic output, short form. Same as $self_name^-v^2."], ['1', '-B', '--battery', "System battery info, including charge, condition voltage (if critical), plus extra info (if battery present/detected)."], ['1', '-C', '--cpu', "CPU output (if each item available): basic topology, model, type (see man for types), cache, average CPU speed, min/max speeds, per core clock speeds."], ['1', '-d', '--disk-full, --optical', "Optical drive data (and floppy disks, if present). Triggers -D."], ['1', '-D', '--disk', "Hard Disk info, including total storage and details for each disk. Disk total used percentage includes swap ${partition_string} size(s)."], ['1', '-E', '--bluetooth', "Show bluetooth device data and report, if available. Shows state, address, IDs, version info."], ['1', '', '--edid', "Full graphics data, triggers -a, -G. Add monitor chroma, full modelines (if > 2), EDID errors and warnings, if present."], ['1', '-f', '--flags', "All CPU $flags. Triggers -C. Not shown with -F to avoid spamming."], ['1', '-F', '--full', "Full output. Includes all Upper Case line letters (except -J, -W) plus --swap, -s and -n. Does not show extra verbose options such as -d -f -i -J -l -m -o -p -r -t -u -x, unless specified."], ['1', '', '--gpu', "Deprecated. Triggers -Ga."], ['1', '-G', '--graphics', "Graphics info (devices(s), drivers, display protocol (if available), display server/Wayland compositor, resolution, X.org: renderer, basic EGL, OpenGL, Vulkan API data; Xvesa API: VBE info."], ['1', '-i', '--ip', "WAN IP address and local interfaces (requires ifconfig or ip network tool). Triggers -n. Not shown with -F for user security reasons. You shouldn't paste your local/WAN IP."], ['1', '-I', '--info', "General info, including processes, uptime, memory (if -m/-tm not used), IRC client or shell type, $self_name version."], ['1', '-j', '--swap', "Swap in use. Includes ${partition_string}s, zram, file."], ['1', '-J', '--usb', "Show USB data: Hubs and Devices."], ['1', '-l', '--label', "$partition_string_u labels. Use with -j, -o, -p, -P."], ['1', '-L', '--logical', "Logical devices, LVM (VG, LV), LUKS, Crypto, bcache, etc. Shows components/devices, sizes, etc."], ['1', '-m', '--memory', "Memory (RAM) data. Requires root. Numbers of devices (slots) supported and individual memory devices (sticks of memory etc). For devices, shows device locator, type (e.g. DDR3), size, speed. Also shows System RAM report, and removes Memory report from -I or -tm."], ['1', '', '--memory-modules,--mm', "Memory (RAM) data. Exclude empty module slots."], ['1', '', '--memory-short,--ms', "Memory (RAM) data. Show only short Memory RAM report, number of arrays, slots, modules, and RAM type."], ['1', '-M', '--machine', "Machine data. Device type (desktop, server, laptop, VM etc.), motherboard, BIOS and, if present, system builder (e.g. Lenovo). Shows UEFI/BIOS/UEFI [Legacy]. Older systems/kernels without the required /sys data can use dmidecode instead, run as root. Dmidecode can be forced with --dmidecode"], ['1', '-n', '--network-advanced', "Advanced Network device info. Triggers -N. Shows interface, speed, MAC id, state, etc. "], ['1', '-N', '--network', "Network device(s), driver."], ['1', '-o', '--unmounted', "Unmounted $partition_string info (includes UUID and Label if available). Shows file system type if you have lsblk installed (Linux) or, for BSD/GNU Linux, if 'file' installed and you are root or if you have added to /etc/sudoers (sudo v. 1.7 or newer)(or try doas)."], ['1', '', '', "Example: ^^ALL^=^NOPASSWD:^/usr/bin/file^"], ['1', '-p', '--partitions-full', "Full $partition_string information (-P plus all other detected ${partition_string}s)."], ['1', '-P', '--partitions', "Basic $partition_string info. Shows, if detected: / /boot /home /opt /tmp /usr /usr/home /var /var/log /var/tmp. Swap ${partition_string}s show if --swap is not used. Use -p to see all mounted ${partition_string}s."], ['1', '-r', '--repos', "Distro repository data. Supported repo types: APK, APT, CARDS, EOPKG, NETPKG, NIX, PACMAN, PACMAN-G2, PISI, PKG (BSDs), PORTAGE, PORTS (BSDs), SBOPKG, SBOUI, SCRATCHPKG, SLACKPKG, SLAPT_GET, SLPKG, TCE, URPMQ, XBPS, YUM/ZYPP."], ['1', '-R', '--raid', "RAID data. Shows RAID devices, states, levels, array sizes, and components. md-raid: If device is resyncing, also shows resync progress line."], ['1', '-s', '--sensors', "Sensors output (if sensors installed/configured): mobo/CPU/GPU temp; detected fan speeds. Nvidia shows screen number for > 1 screen. IPMI sensors if present."], ['1', '', '--slots', "PCI slots: type, speed, status. Requires root."], ['1', '-S', '--system', "System info: host name, kernel, desktop environment (if in X/Wayland), distro."], ['1', '-t', '--processes', "Processes. Requires extra options: c (CPU), m (memory), cm (CPU+memory). If followed by numbers 1-x, shows that number of processes for each type (default: 5; if in IRC, max: 5). "], ['1', '', '', "Make sure that there is no space between letters and numbers (e.g.^-t^cm10)."], ['1', '-u', '--uuid', "$partition_string_u UUIDs. Use with -j, -o, -p, -P."], ['1', '-v', '--verbosity', "Set $self_name verbosity level (0-8). Should not be used with -b or -F. Example: $self_name^-v^4"], ['2', '0', '', "Same as: $self_name"], ['2', '1', '', "Basic verbose, -S + basic CPU + -G + basic Disk + -I."], ['2', '2', '', "Networking device (-N), Machine (-M), Battery (-B; if present), and, if present, basic RAID (devices only; notes if inactive). Same as $self_name^-b"], ['2', '3', '', "Advanced CPU (-C), battery (-B), network (-n); triggers -x. "], ['2', '4', '', "$partition_string_u size/used data (-P) for (if present) /, /home, /var/, /boot. Shows full disk data (-D). "], ['2', '5', '', "Audio device (-A), sensors (-s), memory/RAM (-m), bluetooth (if present), $partition_string label^(-l), full swap (-j), UUID^(-u), short form of optical drives, RAID data (if present)."], ['2', '6', '', "Full $partition_string (-p), unmounted $partition_string (-o), optical drive (-d), USB (-J), full RAID; triggers -xx."], ['2', '7', '', "Network IP data (-i), bluetooth, logical (-L), RAID forced, full CPU $flags; triggers -xxx."], ['2', '8', '', "Everything available, including advanced gpu EDID (--edid) data, repos (-r), processes (-tcm), PCI slots (--slots); triggers admin (-a)."], ); # if distro maintainers don't want the weather feature disable it if ($use{'weather'}){ push(@$rows, ['1', '-w', '--weather', "Local weather data/time. To check an alternate location, see -W. NO AUTOMATED QUERIES OR EXCESSIVE USE ALLOWED!"], ['1', '-W', '--weather-location', "[location] Supported options for [location]: postal code[,country/country code]; city, state (USA)/country (country/two character country code); latitude, longitude. Only use if you want the weather somewhere other than the machine running $self_name. Use only ASCII characters, replace spaces in city/state/country names with '+'. Example:^$self_name^-W^[new+york,ny^london,gb^madrid,es]"], ['1', '', '--weather-source', "[1-9] Change weather data source. 1-4 generally active, 5-9 check. See man."], ['1', '', '--weather-unit', "Set weather units to metric (m), imperial (i), metric/imperial (mi), or imperial/metric (im)."], ); } push(@$rows, [0, '', '', "$line"], ['0', '', '', "Filter Options:"], ['1', '', '--host', "Turn on hostname for -S. Overrides -z."], ['1', '', '--no-host', "Turn off hostname for -S. Useful if showing output from servers etc. Activated by -z as well."], ['1', '-z', '--filter', "Adds security filters for IP/MAC addresses, serial numbers, location (-w), user home directory name, host name. Default on for IRC clients."], ['1', '', '--za,--filter-all', "Shortcut, triggers -z, --zl, --zu, --zv."], ['1', '', '--zl,--filter-label', "Filters out ${partition_string} labels in -j, -o, -p, -P, -Sa."], ['1', '', '--zu,--filter-uuid', "Filters out ${partition_string} UUIDs in -j, -o, -p, -P, -Sa."], ['1', '', '--zv,--filter-vulnerabilities', "Filters out Vulnerabilities report in -Ca."], ['1', '-Z', '--no-filter', "Disable output filters. Useful for debugging networking issues in IRC, or you needed to use --tty, for example."], [0, '', '', "$line"], ['0', '', '', "Output Control Options:"], ['1', '-c', '--color', "Set color scheme (0-42). For piped or redirected output, you must use an explicit color selector. Example:^$self_name^-c^11"], ['1', '', '', "Color selectors let you set the config file value for the selection (NOTE: IRC and global only show safe color set)"], ['2', '94', '', "Console, out of X"], ['2', '95', '', "Terminal, running in X - like xTerm"], ['2', '96', '', "Gui IRC, running in X - like Xchat, Quassel, Konversation etc."], ['2', '97', '', "Console IRC running in X - like irssi in xTerm"], ['2', '98', '', "Console IRC not in X"], ['2', '99', '', "Global - Overrides/removes all settings. Setting specific removes global."], ['1', '', '--indent', "[11-20] Change default wide mode primary indentation width."], ['1', '', '--indents', "[0-10] Change wrapped mode primary indentation width, and secondary / -y1 indent widths."], ['1', '', '--limit', "[-1; 1-x] Set max output limit of IP addresses for -i (default 10; -1 removes limit)."], ['1', '', '--max-wrap,--wrap-max', "[70-xxx] Set maximum width where $self_name autowraps line starters. Current: $size{'max-wrap'}"], ['1', '', '--output', "[json|screen|xml] Change data output type. Requires --output-file if not screen."], ['1', '', '--output-file', "[Full filepath|print] Output file to be used for --output."], ['1', '', '--partition-sort', "[dev-base|fs|id|label|percent-used|size|uuid|used] Change sort order of ${partition_string} output. See man page for specifics."], ['1', '', '--separator, --sep', "[key:value separator character]. Change separator character(s) for key: value pairs."], ['1', '-y', '--width', "[empty|-1|1|60-xxx] Output line width max. Overrides IRC/Terminal settings or actual widths. If no integer give, defaults to 80. -1 removes line lengths. 1 switches output to 1 key/value pair per line. Example:^inxi^-y^130"], ['1', '-Y', '--height', "[empty|-3-xxx] Output height control. Similar to 'less' command except colors preserved, defaults to console/terminal height. -1 shows 1 primary Item: at a time; -2 retains color on redirect/piping (to less -R); -3 removes configuration value; 0 or -Y sets to detected terminal height. Greater than 0 shows x lines at a time."], ['0', '', '', "$line"], ['0', '', '', "Extra Data Options:"], ['1', '-x', '--extra', "Adds the following extra data (only works with verbose or line output, not short form):"], ['2', '-A', '', "Specific vendor/product information (if relevant); PCI/USB ID of device; Version/port(s)/driver version (if available); inactive sound servers/APIs."], ['2', '-B', '', "Current/minimum voltage, vendor/model, status (if available); attached devices (e.g. wireless mouse, keyboard, if present)."], ['2', '-C', '', "L1/L3 cache (if most Linux, or if root and dmidecode installed); smt if disabled, CPU $flags (short list, use -f to see full list); Highest core speed (if > 1 core); CPU boost (turbo) enabled/disabled, if present; Bogomips on CPU; CPU microarchitecture + revision (if found, or unless --admin, then shows as 'stepping')."], ['2', '-d', '', "Extra optical drive features data; adds rev version to optical drive."], ['2', '-D', '', "HDD temp with disk data. Kernels >= 5.6: enable module drivetemp if not enabled. Older systems require hddtemp, run as as superuser, or as user if you have added hddtemp to /etc/sudoers (sudo v. 1.7 or newer)(or try doas). Example:^^ALL^=^NOPASSWD:^/usr/sbin/hddtemp"], ['2', '-E', '', "PCI/USB Bus ID of device, driver version, LMP version."], ['2', '-G', '', "GPU arch (AMD/Intel/Nvidia only); Specific vendor/product information (if relevant); PCI/USB ID of device; Screen number GPU is running on (Nvidia only); device temp (Linux, if found); APIs: EGL: active/inactive platforms; OpenGL: direct rendering status (in X); Vulkan device counts."], ['2', '-i', '', "For IPv6, show additional scope addresses: Global, Site, Temporary, Unknown. See --limit for large counts of IP addresses."], ['2', '-I', '', "Default system GCC. With -xx, also shows other installed GCC versions. If running in shell, not in IRC client, shows shell version number, if detected. Init/RC type and runlevel/target (if available). Total count of all packages discovered in system (if not -r)."], ['2', '-j', '', "Add mapped: name if partition mapped."], ['2', '-J', '', "For Device: driver; Si speed (base 10, bits/s)."], ['2', '-L', '', "For VG > LV, and other Devices, dm:"], ['2', '-m,--memory-modules', '', "Max memory module size (if available)."], ['2', '-N', '', "Specific vendor/product information (if relevant); PCI/USB ID of device; Version/port(s)/driver version (if available); device temperature (Linux, if found)."], ['2', '-o,-p,-P', '', "Add mapped: name if partition mapped."], ['2', '-r', '', "Packages, see -Ix."], ['2', '-R', '', "md-raid: second RAID Info line with extra data: blocks, chunk size, bitmap (if present). Resync line, shows blocks synced/total blocks. Hardware RAID driver version, bus-ID."], ['2', '-s', '', "Basic voltages (ipmi, lm-sensors if present): 12v, 5v, 3.3v, vbat."], ['2', '-S', '', "Kernel gcc version; system base of distro (if relevant and detected)"], ['2', '', '--slots', "Adds BusID for slot."], ['2', '-t', '', "Adds memory use output to CPU (-xt c), and CPU use to memory (-xt m)."], ); if ($use{'weather'}){ push(@$rows, ['2', '-w,-W', '', "Wind speed and direction, humidity, pressure, and time zone, if available."]); } push(@$rows, ['0', '', '', ''], ['1', '-xx', '--extra 2', "Show extra, extra data (only works with verbose or line output, not short form):"], ['2', '-A', '', "Chip vendor:product ID for each audio device; PCIe speed, lanes (if found); USB rev, speed, lanes (if found); sound server/api helper daemons/plugins."], ['2', '-B', '', "Power used, in watts; serial number."], ['2', '-D', '', "Disk transfer speed; NVMe lanes; USB rev, speed, lanes (if found); Disk serial number; LVM volume group free space (if available); disk duid (some BSDs)."], ['2', '-E', '', "Chip vendor:product ID, LMP subversion; PCIe speed, lanes (if found); USB rev, speed, lanes (if found)."], ['2', '-G', '', "Chip vendor:product ID for each video device; Output ports, used and empty; PCIe speed, lanes (if found); USB rev, speed, lanes (if found); Xorg: Xorg compositor; alternate Xorg drivers (if available. Alternate means driver is on automatic driver check list of Xorg for the device vendor, but is not installed on system); Xorg Screen data: ID, s-res, dpi; Monitors: ID, position (if > 1), resolution, dpi, model, diagonal; APIs: EGL: per platform report; OpenGL: ES version, device-ID, display-ID (if not found in Display line); Vulkan: per device report."], ['2', '-I', '', "Other detected installed gcc versions (if present). System default target/runlevel. Adds parent program (or pty/tty) for shell info if not in IRC. Adds Init version number, RC (if found). Adds per package manager installed package counts (if not -r)."], ['2', '-j,-p,-P', '', "Swap priority."], ['2', '-J', '', "Vendor:chip-ID; lanes (Linux only)."], ['2', '-L', '', "Show internal LVM volumes, like raid image/meta volumes; for LVM RAID, adds RAID report line (if not -R); show all components > devices, number of 'c' or 'p' indicate depth of device."], ['2', '-m,--memory-modules', '', "Manufacturer, part number; single/double bank (if found); memory array voltage (legacy, rare); module voltage (if available)."], ['2', '-M', '', "Chassis info, BIOS ROM size (dmidecode only), if available."], ['2', '-N', '', "Chip vendor:product ID; PCIe speed, lanes (if found); USB rev, speed, lanes (if found)."], ['2', '-r', '', "Packages, see -Ixx."], ['2', '-R', '', "md-raid: Superblock (if present), algorithm. If resync, shows progress bar. Hardware RAID Chip vendor:product ID."], ['2', '-s', '', "DIMM/SOC voltages (ipmi only)."], ['2', '-S', '', "Display manager (dm) in desktop output (e.g. kdm, gdm3, lightdm); active window manager if detected; desktop toolkit, if available (Xfce/KDE/Trinity only)."], ['2', '--slots', '', "Slot length; slot voltage, if available."], ); if ($use{'weather'}){ push(@$rows, ['2', '-w,-W', '', "Snow, rain, precipitation, (last observed hour), cloud cover, wind chill, dew point, heat index, if available."] ); } push(@$rows, ['0', '', '', ''], ['1', '-xxx', '--extra 3', "Show extra, extra, extra data (only works with verbose or line output, not short form):"], ['2', '-A', '', "Serial number, class ID."], ['2', '-B', '', "Chemistry, cycles, location (if available)."], ['2', '-C', '', "CPU voltage, external clock speed (if root and dmidecode installed); smt status, if available."], ['2', '-D', '', "Firmware rev. if available; partition scheme, in some cases; disk type, rotation rpm (if available)."], ['2', '-E', '', "Serial number, class ID, bluetooth device class ID, HCI version and revision."], ['2', '-G', '', "Device serial number, class ID; Xorg Screen size, diag; Monitors: hz, size, modes, serial, scale, modes (max/min); APIs: EGL: hardware driver info; Vulkan: layer count, device hardware vendor."], ['2', '-I', '', "For 'Shell:' adds ([doas|su|sudo|login]) to shell name if present; adds default shell+version if different; for 'running in:' adds (SSH) if SSH session; adds wakeups: (from suspend) to Uptime."], ['2', '-J', '', "If present: Devices: serial number, interface count, max power."], ['2', '-m,--memory-modules', '', "Width of memory bus, data and total (if present and greater than data); Detail for Type, if present; module current, min, max voltages (if present and different from each other); serial number."], ['2', '-N', '', "Serial number, class ID."], ['2', '-R', '', "zfs-raid: portion allocated (used) by RAID devices/arrays. md-raid: system md-raid support types (kernel support, read ahead, RAID events). Hardware RAID rev, ports, specific vendor/product information."], ['2', '-S', '', "Kernel clocksource; Panel/tray/bar/dock info in desktop output, if in X (like lxpanel, xfce4-panel, mate-panel); (if available) dm version number, window manager version number, virtual terminal number."], ); if ($use{'weather'}){ push(@$rows, ['2', '-w,-W', '', "Location (uses -z/irc filter), weather observation time, altitude, sunrise/sunset, if available."] ); } push(@$rows, ['0', '', '', ''], ['1', '-a', '--admin', "Adds advanced sys admin data (only works with verbose or line output, not short form); check man page for explanations!; also sets --extra=3:"], ['2', '-A', '', "If available: list of alternate kernel modules/drivers for device(s); PCIe lanes-max: gen, speed, lanes (if relevant); USB mode (if found); list of installed tools for servers."], ['2', '-C', '', "If available: microarchitecture level (64 bit AMD/Intel only).CPU generation, process node, built years; CPU socket type, base/boost speeds (dmidecode+root/sudo/doas required); Full topology line, with cores, threads, threads per core, granular cache data, smt status; CPU vulnerabilities (bugs); family, model-id, stepping - format: hex (decimal) if greater than 9; microcode format: hex."], ['2', '-d,-D', '', "If available: logical and physical block sizes; drive family; maj:min; USB mode (if found); USB drive specifics; SMART report."], ['2', '-E', '', "PCIe lanes-max: gen, speed, lanes (if relevant); USB mode (if found); If available: in Report:, adds status: discoverable, pairing; adds Info: line: acl-mtu, sco-mtu, link-policy, link-mode, service-classes."], ['2', '-G', '', "GPU process node, built year (AMD/Intel/Nvidia only); non-free driver info (Nvidia only); PCIe lanes-max: gen, speed, lanes (if relevant); USB mode (if found); list of alternate kernel modules/drivers for device(s) (if available); Monitor built year, gamma, screen ratio (if available); APIs: OpenGL: device memory, unified memory status; Vulkan: adds full device report, device name, driver version, surfaces."], ['2', '-I', '', "Adds to Packages total number of lib files found for each package manager and pm tools (if not -r); adds init service tool."], ['2', '-j,-p,-P', '', "For swap (if available): swappiness and vfs cache pressure, and if values are default or not."], ['2', '-j', '', "Linux only: (if available): row one zswap data, and per zram row, active and available zram compressions, max compression streams."], ['2', '-J', '', "Adds USB mode (Linux only); IEC speed (base 2, Bytes/s)."], ['2', '-L', '', "LV, Crypto, devices, components: add maj:min; show full device/components report (speed, mapped names)."], ['2', '-m', '', "Show full volts report, current, min, max, even if identical."], ['2', '-n,-N', '', "If available: list of alternate kernel modules/drivers for device(s); PCIe lanes-max: gen, speed, lanes (if relevant); USB mode (if found)."], ['2', '-o', '', "If available: maj:min of device."], ['2', '-p,-P', '', "If available: raw size of ${partition_string}s, maj:min, percent available for user, block size of file system (root required)."], ['2', '-r', '', "Packages, see -Ia."], ['2', '-R', '', "mdraid: device maj:min; per component: size, maj:min, state."], ['2', '-S', '', "If available: kernel alternate clocksources, boot parameters."], ['2', '', '--slots', "If available: slot bus ID children."], ); push(@$rows, [0, '', '', "$line"], [0, '', '', "Additional Options:"], ['1', '--config', '--configuration', "Show active configurations, by file(s). Last item listed overrides previous."], ['1', '-h', '--help', "This help menu."], ['1', '', '--recommends', "Checks $self_name application dependencies + recommends, and directories, then shows what package(s) you need to install to add support for that feature."], ); if ($use{'update'}){ push(@$rows, ['1', '-U', '--update', "Auto-update $self_name. Will also install/update man page. Note: if you installed as root, you must be root to update, otherwise user is fine. Man page installs require root. No arguments downloads from main $self_name git repo."], ['1', '', '', "Use alternate sources for updating $self_name"], ['3', '3', '', "Get the dev server (smxi.org) version."], ['3', '4', '', "Get the dev server (smxi.org) FTP version. Use if SSL issues and --no-ssl doesn't work."], ['2', '', '', "Get a version of $self_name from your own server. Use the full download path, e.g. ^$self_name^-U ^https://myserver.com/inxi"], ); } push(@$rows, ['1', '-V', '--version', "Prints full $self_name version info then exits."], ['1', '', '--version-short,--vs', "Prints 1 line $self_name version info. Can be used with other line options."], ['0', '', '', "$line"], ['0', '', '', "Advanced Options:"], ['1', '', '--alt', "Trigger for various advanced options:"], ['2', '40', '', "Bypass Perl as a downloader option."], ['2', '41', '', "Bypass Curl as a downloader option."], ['2', '42', '', "Bypass Fetch as a downloader option."], ['2', '43', '', "Bypass Wget as a downloader option."], ['2', '44', '', "Bypass Curl, Fetch, and Wget as downloader options. Forces Perl if HTTP::Tiny present."], ['1', '', '--bt-tool', "[bt-adapter btmgmt hciconfig rfkill] Force use of given tool forbluetooth report. Or use --force [tool]."], ['1', '', '--dig', "Overrides configuration item NO_DIG (resets to default)."], ['1', '', '--display', "[:[0-9]] Try to get display data out of X (default: display 0)."], ['1', '', '--dmidecode', "Force use of dmidecode data instead of /sys where relevant (e.g. -M, -B)."], ['1', '', '--downloader', "Force $self_name to use [curl fetch perl wget] for downloads."], ['1', '', '--force', "[bt-adapter btmgmt dmidecode hciconfig hddtemp ip ifconfig lsusb meminfo rfkill usb-sys vmstat wmctrl]. 1 or more in comma separated list. Force use of item(s). See --hddtemp, --dmidecode, --wm, --usb-tool, --usb-sys."], ['1', '', '--hddtemp', "Force use of hddtemp for disk temps."], ['1', '', '--html-wan', "Overrides configuration item NO_HTML_WAN (resets to default)."], ['1', '', '--ifconfig', "Force use of ifconfig for IF with -i."], ); if ($use{'update'}){ push(@$rows, ['1', '', '--man', "Install correct man version for dev branch (-U 3) or pinxi using -U."], ); } push(@$rows, ['1', '', '--no-dig', "Skip dig for WAN IP checks, use downloader program."], ['1', '', '--no-doas', "Skip internal program use of doas features (not related to starting $self_name with doas)."], ['1', '', '--no-html-wan', "Skip HTML IP sources for WAN IP checks, use dig only, or nothing if --no-dig."], ); if ($use{'update'}){ push(@$rows, ['1', '', '--no-man', "Disable man install for all -U update actions."], ); } push(@$rows, ['1', '', '--no-ssl', "Skip SSL certificate checks for all downloader actions (Wget/Fetch/Curl/Perl-HTTP::Tiny)."], ['1', '', '--no-sudo', "Skip internal program use of sudo features (not related to starting $self_name with sudo)."], ['1', '', '--rpm', "Force use of disabled package manager counts for packages feature with -rx/-Ix. RPM disabled by default due to slow to massive rpm package query times."], ['1', '', '--sensors-default', "Removes configuration item SENSORS_USE and SENSORS_EXCLUDE. Same as default behavior."], ['1', '', '--sensors-exclude', "[sensor[s] name, comma separated] Exclude supplied sensor array[s] for -s output (lm-sensors, /sys. Linux only)."], ['1', '', '--sensors-use', "[sensor[s] name, comma separated] Use only supplied sensor array[s] for -s output (lm-sensors, /sys. Linux only)."], ['1', '', '--sleep', "[0-x.x] Change CPU sleep time, in seconds, for -C (default:^$cpu_sleep). Allows system to catch up and show a more accurate CPU use. Example:^$self_name^-Cxxx^--sleep^0.15"], ['1', '', '--tty', "Forces irc flag to false. Generally useful if $self_name is running inside of another tool like Chef or MOTD and returns corrupted color codes. Please see man page or file an issue if you need to use this flag. Must use -y [width] option if you want a specific output width. Always put this option first in an option list. See -Z for disabling output filters as well."], ['1', '', '--usb-sys', "Force USB data to use only /sys as data source (Linux only)."], ['1', '', '--usb-tool', "Force USB data to use lsusb as data source [default] (Linux only)."], ['1', '', '--wan-ip-url', "[URL] Skips dig, uses supplied URL for WAN IP (-i). URL output must end in the IP address. See man. Example:^$self_name^-i^--wan-ip-url^https://yoursite.com/remote-ip"], ['1', '', '--wm', "Force wm: to use wmctrl as data source. Default uses ps."], ['0', '', '', $line ], ['0', '', '', "Debugging Options:"], ['1', '', '--dbg', "[1-xx[,1-xx]] Comma separated list of debugger numbers. Each triggers specific debugger[s]. See man page or docs."], ['2', '1', '', "Show downloader output. Turns off quiet mode."], ['1', '', '--debug', "[1-3|10|11|20-22] Triggers debugging modes."], ['2', '1-3', '', "On screen debugger output."], ['2', '10', '', "Basic logging."], ['2', '11', '', "Full file/system info logging."], ['1', '', ,'', "The following create a tar.gz file of system data, plus $self_name output. To automatically upload debugger data tar.gz file to ftp.smxi.org: $self_name^--debug^21"], ['2', '20', '', "Full system data collection: /sys; xorg conf and log data, xrandr, xprop, xdpyinfo, glxinfo etc.; data from dev, disks, ${partition_string}s, etc."], ['2', '21', '', "Upload debugger dataset to $self_name debugger server automatically, removes debugger data directory, leaves tar.gz debugger file."], ['2', '22', '', "Upload debugger dataset to $self_name debugger server automatically, removes debugger data directory and debugger tar.gz file."], # ['1', '', '--debug-filter', "Add -z flag to debugger $self_name optiions."], ['1', '', '--debug-id', "[short-string] Add given string to debugger file name. Helps identify source of debugger dataset. Use with --debug 20-22."], ['1', '', '--debug-proc', "Force debugger parsing of /proc as sudo/doas/root."], ['1', '', '--debug-proc-print', "To locate file that /proc debugger hangs on."], ['1', '', '--debug-no-exit', "Skip exit on error to allow completion."], ['1', '', '--debug-no-proc', "Skip /proc debugging in case of a hang."], ['1', '', '--debug-no-sys', "Skip /sys debugging in case of a hang."], ['1', '', '--debug-sys', "Force PowerPC debugger parsing of /sys as sudo/doas/root."], ['1', '', '--debug-sys-print', "To locate file that /sys debugger hangs on."], ['1', '', '--ftp', "Use with --debugger 21 to trigger an alternate FTP server for upload. Format:^[ftp.xx.xx/yy]. Must include a remote directory to upload to. Example:^$self_name^--debug^21^--ftp^ftp.myserver.com/incoming"], ['0', '', '', "$line"], ); print_basic($rows); exit 0; # shell true } sub show_version { # if not in PATH could be either . or directory name, no slash starting my $working_path=$self_path; my ($link,$self_string); my $rows = []; Cwd->import('getcwd'); # no point loading this on top use, we only use getcwd here if ($working_path eq '.'){ $working_path = getcwd(); } elsif ($working_path !~ /^\//){ $working_path = getcwd() . "/$working_path"; } $working_path =~ s%/$%%; # handle if it's a symbolic link, rare, but can happen with directories # in irc clients which would only matter if user starts inxi with -! 30 override # in irc client if (-l "$working_path/$self_name"){ $link="$working_path/$self_name"; $working_path = readlink "$working_path/$self_name"; $working_path =~ s/[^\/]+$//; } # strange output /./ ending, but just trim it off, I don't know how it happens $working_path =~ s%/\./%/%; push(@$rows, [ 0, '', '', "$self_name $self_version-$self_patch ($self_date)"]); if (!$b_irc && !$show{'version-short'}){ push(@$rows, [ 0, '', '', '']); my $year = (split/-/, $self_date)[0]; push(@$rows, [ 0, '', '', "Copyright^(C)^2008-$year^Harald^Hope^aka^h2"], [ 0, '', '', "Forked from Infobash 3.02: Copyright^(C)^2005-2007^Michiel^de^Boer^aka^locsmif." ], [ 0, '', '', "Using Perl version: $]"], [ 0, '', '', "Program Location: $working_path" ], ); if ($link){ push(@$rows, [ 0, '', '', "Started via symbolic link: $link" ]); } push(@$rows, [ 0, '', '', '' ], [ 0, '', '', "Website:^https://codeberg.org/smxi/inxi^or^https://smxi.org/" ], [ 0, '', '', "IRC:^irc.oftc.net channel:^#smxi" ], [ 0, '', '', "Forums:^https://techpatterns.com/forums/forum-33.html" ], [ 0, '', '', '' ], [ 0, '', '', "This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. (https://www.gnu.org/licenses/gpl.html)" ] ); } print_basic($rows); exit 0 if !$show{'version-short'} || $show{'short'}; # shell true } ######################################################################## #### STARTUP DATA ######################################################################## ## StartClient { package StartClient; # use warnings; # use strict; my $pppid = ''; # NOTE: there's no reason to create an object, we can just access # the features statically. # args: none # sub new { # my $class = shift; # my $self = {}; # # print "$f\n"; # # print "$type\n"; # return bless $self, $class; # } sub set { eval $start if $b_log; main::set_ps_aux() if !$loaded{'ps-aux'}; # $b_irc = 1; # for testing, like cli konvi start which shows as tty if (!$b_irc){ # we'll run ShellData::set() for -I, but only then } else { $use{'filter'} = 1; get_client_name(); if ($client{'konvi'} == 1 || $client{'konvi'} == 3){ set_konvi_data(); } } eval $end if $b_log; } sub get_client_name { eval $start if $b_log; my $client_name = ''; # print "$ppid\n"; if ($ppid && -e "/proc/$ppid/exe"){ $client_name = lc(readlink "/proc/$ppid/exe"); $client_name =~ s/^.*\///; if ($client_name =~ /^(bash|csh|dash|fish|sh|python.*|perl.*|zsh)$/){ $pppid = (main::grabber("ps -wwp $ppid -o ppid"))[1]; # my @temp = (main::grabber("ps -wwp $ppid -o ppid 2>/dev/null"))[1]; $pppid =~ s/^\s+|\s+$//g; $client_name =~ s/[0-9\.]+$//; # clean things like python2.7 if ($pppid && -f "/proc/$pppid/exe"){ $client_name = lc(readlink "/proc/$pppid/exe"); $client_name =~ s/^.*\///; $client{'native'} = 0; } } $client{'name'} = $client_name; get_client_version(); # print "c:$client_name p:$pppid\n"; # print "$client{'name-print'}\n"; } else { if (!check_modern_konvi()){ $client_name = (main::grabber("ps -wwp $ppid 2>/dev/null"))[1]; if ($client_name){ my @data = split(/\s+/, $client_name); if ($bsd_type){ $client_name = lc($data[4]); } # gnu/linux uses last value else { $client_name = lc($data[-1]); } $client_name =~ s/.*\|-(|)//; $client_name =~ s/[0-9\.]+$//; # clean things like python2.7 $client{'name'} = $client_name; $client{'native'} = 1; get_client_version(); } else { $client{'name'} = "PPID='$ppid' - Empty?"; } } } if ($b_log){ my $string = "Client: $client{'name'} :: version: $client{'version'} :: konvi: $client{'konvi'} :: PPID: $ppid"; main::log_data('data', $string); } eval $end if $b_log; } sub get_client_version { eval $start if $b_log; @app = main::program_values($client{'name'}); my (@data,@working,$string); if (@app){ $string = ($client{'name'} =~ /^gribble|limnoria|supybot$/) ? 'supybot' : $client{'name'}; $client{'version'} = main::program_version($string,$app[0],$app[1],$app[2],$app[4],$app[5],$app[6]); $client{'name-print'} = $app[3]; $client{'console-irc'} = $app[4]; } if ($client{'name'} =~ /^(bash|csh|fish|dash|sh|zsh)$/){ $client{'name-print'} = 'shell wrapper'; $client{'console-irc'} = 1; } elsif ($client{'name'} eq 'bitchx'){ @data = main::grabber("$client{'name'} -v"); $string = awk(\@data,'Version'); if ($string){ $string =~ s/[()]|bitchx-//g; @data = split(/\s+/, $string); $_=lc for @data; $client{'version'} = ($data[1] eq 'version') ? $data[2] : $data[1]; } } # 'hexchat' => ['',0,'','HexChat',0,0], # special # the hexchat author decided to make --version/-v return a gtk dialogue box, lol... # so we need to read the actual config file for hexchat. Note that older hexchats # used xchat config file, so test first for default, then legacy. Because it's possible # for this file to be user edited, doing some extra checks here. elsif ($client{'name'} eq 'hexchat'){ if (-f '~/.config/hexchat/hexchat.conf'){ @data = main::reader('~/.config/hexchat/hexchat.conf','strip'); } elsif (-f '~/.config/hexchat/xchat.conf'){ @data = main::reader('~/.config/hexchat/xchat.conf','strip'); } if (@data){ $client{'version'} = main::awk(\@data,'version',2,'\s*=\s*'); } # fingers crossed, hexchat won't open gui!! if (!$client{'version'}){ @data = main::grabber("$client{'name'} --version 2>/dev/null"); $client{'version'} = main::awk(\@data,'hexchat',2,'\s+'); } $client{'name-print'} = 'HexChat'; } # note: see legacy inxi konvi logic if we need to restore any of the legacy code. elsif ($client{'name'} eq 'konversation'){ $client{'konvi'} = (!$client{'native'}) ? 2 : 1; } elsif ($client{'name'} =~ /quassel/i){ @data = main::grabber("$client{'name'} -v 2>/dev/null"); foreach (@data){ if ($_ =~ /^Quassel IRC:/){ $client{'version'} = (split(/\s+/, $_))[2]; last; } elsif ($_ =~ /quassel\s[v]?[0-9]/){ $client{'version'} = (split(/\s+/, $_))[1]; last; } } $client{'version'} ||= '(pre v0.4.1)?'; } # then do some perl type searches, do this last since it's a wildcard search elsif ($client{'name'} =~ /^(perl.*|ksirc|dsirc)$/){ my $cmdline = main::get_cmdline(); # Dynamic runpath detection is too complex with KSirc, because KSirc is started from # kdeinit. /proc//exe is a link to /usr/bin/kdeinit # with one parameter which contains parameters separated by spaces(??), first param being KSirc. # Then, KSirc runs dsirc as the perl irc script and wraps around it. When /exec is executed, # dsirc is the program that runs inxi, therefore that is the parent process that we see. # You can imagine how hosed I am if I try to make inxi find out dynamically with which path # KSirc was run by browsing up the process tree in /proc. That alone is straightjacket material. # (KSirc sucks anyway ;) foreach (@$cmdline){ if ($_ =~ /dsirc/){ $client{'version'} = main::program_version('ksirc','KSirc:',2,'-v',0,0); $client{'name'} = 'ksirc'; $client{'name-print'} = 'KSirc'; } } $client{'console-irc'} = 1; perl_python_client(); } elsif ($client{'name'} =~ /python/){ perl_python_client(); } # NOTE: these must be empirically determined, not all events that # show no tty are actually IRC. tmux is not a vt, but runs inside one if (!$client{'name-print'}){ my $wl_terms = 'alacritty|altyo|\bate\b|black-screen|conhost|doas|evilvte|'; $wl_terms .= 'foot|germinal|guake|havoc|hyper|kate|kitty|kmscon|konsole|'; $wl_terms .= 'login|macwise|minicom|putty|rxvt|sakura|securecrt|'; $wl_terms .= 'shellinabox|^st$|sudo|term|tilda|tilix|tmux|tym|wayst|xiki|'; $wl_terms .= 'yaft|yakuake|\bzoc\b'; my $wl_clients = 'ansible|chef|run-parts|slurm|sshd'; my $whitelist = "$wl_terms|$wl_clients"; # print "$client{'name'}\n"; if ($client{'name'} =~ /($whitelist)/i){ if ($client{'name'} =~ /($wl_terms)/i){ ShellData::set(); } else { $client{'name-print'} = $client{'name'}; } $b_irc = 0; $use{'filter'} = 0; } else { $client{'name-print'} = 'Unknown Client: ' . $client{'name'}; } } eval $end if $b_log; } sub get_cmdline { eval $start if $b_log; my @cmdline; my $i = 0; if (! -e "/proc/$ppid/cmdline"){ return 1; } local $\ = ''; open(my $fh, '<', "/proc/$ppid/cmdline") or print_line("Open /proc/$ppid/cmdline failed: $!"); my @rows = <$fh>; close $fh; foreach (@rows){ push(@cmdline, $_); $i++; last if $i > 31; } if ($i == 0){ $cmdline[0] = $rows[0]; $i = ($cmdline[0]) ? 1 : 0; } main::log_data('string',"cmdline: @cmdline count: $i") if $b_log; eval $end if $b_log; return [@cmdline]; } sub perl_python_client { eval $start if $b_log; return 1 if $client{'version'}; # this is a hack to try to show konversation if inxi is running but started via /cmd # OR via program shortcuts, both cases in fact now # main::print_line("konvi: " . scalar grep { $_ =~ /konversation/ } @ps_cmd); if ($b_display && main::check_program('konversation') && (grep { $_ =~ /konversation/ } @ps_cmd)){ @app = main::program_values('konversation'); $client{'version'} = main::program_version('konversation',$app[0],$app[1],$app[2],$app[5],$app[6]); $client{'name'} = 'konversation'; $client{'name-print'} = $app[3]; $client{'console-irc'} = $app[4]; } ## NOTE: supybot only appears in ps aux using 'SHELL' command; the 'CALL' command ## gives the user system irc priority, and you don't see supybot listed, so use SHELL elsif (!$b_display && (main::check_program('supybot') || main::check_program('gribble') || main::check_program('limnoria')) && (grep { $_ =~ /supybot/ } @ps_cmd)){ @app = main::program_values('supybot'); $client{'version'} = main::program_version('supybot',$app[0],$app[1],$app[2],$app[5],$app[6]); if ($client{'version'}){ if (grep { $_ =~ /gribble/ } @ps_cmd){ $client{'name'} = 'gribble'; $client{'name-print'} = 'Gribble'; } if (grep { $_ =~ /limnoria/ } @ps_cmd){ $client{'name'} = 'limnoria'; $client{'name-print'} = 'Limnoria'; } else { $client{'name'} = 'supybot'; $client{'name-print'} = 'Supybot'; } } else { $client{'name'} = 'supybot'; $client{'name-print'} = 'Supybot'; } $client{'console-irc'} = 1; } else { $client{'name-print'} = "Unknown $client{'name'} client"; } if ($b_log){ my $string = "namep: $client{'name-print'} name: $client{'name'} version: $client{'version'}"; main::log_data('data',$string); } eval $end if $b_log; } # Try to infer the use of Konversation >= 1.2, which shows $PPID improperly # no known method of finding Konvi >= 1.2 as parent process, so we look to see if it is running, # and all other irc clients are not running. As of 2014-03-25 this isn't used in my cases sub check_modern_konvi { eval $start if $b_log; return 0 if !$client{'qdbus'}; my ($b_modern_konvi,$konvi,$konvi_version,$pid) = (0,'','',''); # main::log_data('data',"name: $client{'name'} :: qdb: $client{'qdbus'} :: version: $client{'version'} :: konvi: $client{'konvi'} :: PPID: $ppid") if $b_log; # sabayon uses /usr/share/apps/konversation as path # Paths not checked for BSDs to see what they are. if (-d '/usr/share/kde4/apps/konversation' || -d '/usr/share/apps/konversation'){ # much faster test, added 2022, newer konvis support # can also query qdbus to see if it's running, but that's a subshell and grep if ($ENV{'PYTHONPATH'} && $ENV{'PYTHONPATH'} =~ /konversation/i){ $konvi = 'konversation'; } # was -session, then -qwindowtitle; cli start, nothing, just konversation$ elsif ($pid = main::awk(\@ps_aux,'konversation( -|$)',2,'\s+')){ main::log_data('data',"pid: $pid") if $b_log; if (-e "/proc/$pid/exe"){ $konvi = readlink("/proc/$pid/exe"); $konvi =~ s/^.*\///; # basename } } # print "$pid $konvi\n"; if ($konvi){ @app = main::program_values('konversation'); $konvi_version = main::program_version($konvi,$app[0],$app[1],$app[2],$app[5],$app[6]); $client{'console-irc'} = $app[4]; $client{'konvi'} = 3; $client{'name'} = 'konversation'; $client{'name-print'} = $app[3]; $client{'version'} = $konvi_version; # note: we need to change this back to a single dot number, like 1.3, not 1.3.2 my @temp = split('\.', $konvi_version); $konvi_version = $temp[0] . "." . $temp[1]; if ($konvi_version > 1.1){ $b_modern_konvi = 1; } } } main::log_data('data',"name: $client{'name'} name print: $client{'name-print'} qdb: $client{'qdbus'} version: $konvi_version konvi: $konvi PID: $pid") if $b_log; main::log_data('data',"b_is_qt4: $b_modern_konvi") if $b_log; ## for testing this module # my $ppid = getppid(); # system('qdbus org.kde.konversation', '/irc', 'say', $client{'dserver'}, $client{'dtarget'}, # "getpid_dir: verNum: $konvi_version pid: $pid ppid: $ppid"); # print "verNum: $konvi_version pid: $pid ppid: $ppid\n"; eval $end if $b_log; return $b_modern_konvi; } sub set_konvi_data { eval $start if $b_log; # https://userbase.kde.org/Konversation/Scripts/Scripting_guide if ($client{'konvi'} == 3){ $client{'dserver'} = shift @ARGV; $client{'dtarget'} = shift @ARGV; $client{'dobject'} = 'default'; } elsif ($client{'konvi'} == 1){ $client{'dport'} = shift @ARGV; $client{'dserver'} = shift @ARGV; $client{'dtarget'} = shift @ARGV; $client{'dobject'} = 'Konversation'; } # for some reason this logic hiccups on multiple spaces between args @ARGV = grep { $_ ne '' } @ARGV; eval $end if $b_log; } } ######################################################################## #### OUTPUT ######################################################################## #### ------------------------------------------------------------------- #### CLEANERS, FILTERS, AND TOOLS #### ------------------------------------------------------------------- sub clean { my ($item) = @_; return $item if !$item;# handle cases where it was 0 or '' or undefined # note: |nee trips engineering, but I don't know why nee was filtered $item =~ s/chipset|company|components|computing|computer|corporation|communications|electronics?|electric(al)?|group|incorporation|industrial|international|limited|\bnee\b|?|revision|semiconductor|software|technolog(ies|y)|?|ltd\.||\bltd\b|inc\.||\binc\b|intl\.|co\.||corp\.||\(tm\)|\(r\)|®|\(rev ..\)|\'|\"|\?//gi; $item =~ s/,|\*/ /g; $item =~ s/^\s+|\s+$//g; $item =~ s/\s\s+/ /g; return $item; } sub clean_arm { my ($item) = @_; $item =~ s/(\([^\(]*Device Tree[^\)]*\))//gi; $item =~ s/^\s+|\s+$//g; $item =~ s/\s\s+/ /g; return $item; } sub clean_characters { my ($data) = @_; # newline, pipe, brackets, + sign, with space, then clear doubled # spaces and then strip out trailing/leading spaces. # etc/issue often has junk stuff like (\l) \n \l return if !$data; $data =~ s/[:\47]|\\[a-z]|\n|,|\"|\*|\||\+|\[\s\]|n\/a|\s\s+/ /g; $data =~ s/\(\s*\)//; $data =~ s/^\s+|\s+$//g; return $data; } sub clean_disk { my ($item) = @_; return $item if !$item; # ?| $item =~ s/vendor.*|product.*|O\.?E\.?M\.?//gi; $item =~ s/^\s+|\s+$//g; $item =~ s/\s\s+/ /g; return $item; } sub clean_dmi { my ($string) = @_; $string = clean_unset($string,'AssetTagNum|^Base Board .*|^Chassis .*|' . 'Manufacturer.*| Or Motherboard|\bOther\b.*|PartNum.*|SerNum|' . '^System .*|^0x[0]+$'); $string =~ s/\bbios\b|\bacpi\b//gi; $string =~ s/http:\/\/www.abit.com.tw\//Abit/i; $string =~ s/^[\s'"]+|[\s'"]+$//g; $string =~ s/\s\s+/ /g; $string = remove_duplicates($string) if $string; return $string; } sub clean_pci { my ($string,$type) = @_; # print "st1 $type:$string\n"; my $filter = 'and\ssubsidiaries|compatible\scontroller|licensed\sby|'; $filter .= '\b(device|controller|connection|multimedia)\b|\([^)]+\)'; # \[[^\]]+\]$| not trimming off ending [...] initial type filters removes end $filter = '\[[^\]]+\]$|' . $filter if $type eq 'pci'; $string =~ s/($filter)//ig; $string =~ s/^[\s'"]+|[\s'"]+$//g; $string =~ s/\s\s+/ /g; # print "st2 $type:$string\n"; $string = remove_duplicates($string) if $string; return $string; } sub clean_pci_subsystem { my ($string) = @_; # we only need filters for features that might use vendor, -AGN my $filter = 'and\ssubsidiaries|adapter|(hd\s)?audio|definition|desktop|ethernet|'; $filter .= 'gigabit|graphics|hdmi(\/[\S]+)?|high|integrated|licensed\sby|'; $filter .= 'motherboard|network|onboard|raid|pci\s?express'; $string =~ s/\b($filter)\b//ig; $string =~ s/^[\s'"]+|[\s'"]+$//g; $string =~ s/\s\s+/ /g; return $string; } # Use sparingly, but when we need regex type stuff # stripped out for reliable string compares, it's better. # sometimes the pattern comes from unknown strings # which can contain regex characters, get rid of those sub clean_regex { my ($string) = @_; return if !$string; $string =~ s/(\{|\}|\(|\)|\[|\]|\|)/ /g; $string =~ s/^\s+|\s+$//g; $string =~ s/\s\s+/ /g; return $string; } # args: 0: string; 1: optional, if you want to add custom filter to defaults sub clean_unset { my ($string,$extra) = @_; my $cleaner = '^(\.)+$|Bad Index|default string|\[?empty\]?|\bnone\b|N\/A|^not |'; $cleaner .= 'not set|OUT OF SPEC|To be filled|O\.?E\.?M|undefine|unknow|unspecif'; $cleaner .= '|' . $extra if $extra; $string =~ s/.*($cleaner).*//i; return $string; } sub filter { my ($string) = @_; if ($string){ if ($use{'filter'} && $string ne message('root-required')){ $string = $filter_string; } } else { $string = 'N/A'; } return $string; } # Note, let the print logic handle N/A cases sub filter_partition { my ($source,$string,$type) = @_; return $string if !$string || $string eq 'N/A'; if ($source eq 'system'){ my $test = ($type eq 'label') ? '=LABEL=': '=UUID='; $string =~ s/$test[^\s]+/$test$filter_string/g; } else { $string = $filter_string; } return $string; } sub filter_pci_long { my ($string) = @_; if ($string =~ /\[AMD(\/ATI)?\]/){ $string =~ s/Advanced\sMicro\sDevices\s\[AMD(\/ATI)?\]/AMD/; } return $string; } # args: 0: list of values. Return the first one that is defined. sub get_defined { for (@_){ return $_ if defined $_; } return; # don't return undef explicitly, only implicitly! } # args: 0: vendor id; 1: product id. # Returns print ready vendor:chip id string, or na variants sub get_chip_id { my ($vendor,$product)= @_; my $id = 'N/A'; if ($vendor && $product){ $id = "$vendor:$product"; } elsif ($vendor){ $id = "$vendor:n/a"; } elsif ($product){ $id = "n/a:$product"; } return $id; } # args: 0: size in KiB, return KiB, MiB, GiB, TiB, PiB, EiB; 1: 'string'; # 2: default value if null. Assumes KiB input. # Returns string with units or array or size unmodified if not numeric sub get_size { my ($size,$type,$empty) = @_; my (@data); $type ||= ''; $empty ||= ''; return $empty if !defined $size; if (!is_numeric($size)){ $data[0] = $size; $data[1] = ''; } elsif ($size > 1024**5){ $data[0] = sprintf("%.2f",$size/1024**5); $data[1] = 'EiB'; } elsif ($size > 1024**4){ $data[0] = sprintf("%.2f",$size/1024**4); $data[1] = 'PiB'; } elsif ($size > 1024**3){ $data[0] = sprintf("%.2f",$size/1024**3); $data[1] = 'TiB'; } elsif ($size > 1024**2){ $data[0] = sprintf("%.2f",$size/1024**2); $data[1] = 'GiB'; } elsif ($size > 1024){ $data[0] = sprintf("%.1f",$size/1024); $data[1] = 'MiB'; } else { $data[0] = sprintf("%.0f",$size); $data[1] = 'KiB'; } $data[0] += 0 if $data[1]; # trim trailing 0s # note: perl throws strict error if you try to convert string to int # $data[0] = int($data[0]) if $b_int && $data[0]; if ($type eq 'string'){ return ($data[1]) ? join(' ', @data) : $size; } else { return @data; } } # not used, but keeping logic for now sub increment_starters { my ($key,$indexes) = @_; my $result = $key; if (defined $indexes->{$key}){ $indexes->{$key}++; $result = "$key-$indexes->{$key}"; } return $result; } sub make_line { my $line = ''; foreach (0 .. $size{'max-cols-basic'} - 2){ $line .= '-'; } return $line; } # args: 0: type; 1: info [optional]; 2: info [optional] sub message { my ($type,$id,$id2) = @_; $id ||= ''; $id2 ||= ''; my %message = ( 'arm-cpu-f' => 'Use -f option to see features', 'audio-server-on-pipewire-pulse' => 'off (using pipewire-pulse)', 'audio-server-process-on' => 'active (process)', 'audio-server-root-na' => 'n/a (root, process)', 'audio-server-root-on' => 'active (root, process)', 'battery-data' => 'No system battery data found. Is one present?', 'battery-data-bsd' => 'No battery data found. Try with --dmidecode', 'battery-data-sys' => 'No /sys data found.', 'bluetooth-data' => 'No bluetooth data found.', 'bluetooth-down' => "tool can't run", 'cpu-bugs-null' => 'No CPU vulnerability/bugs data available.', 'cpu-model-null' => 'Model N/A', 'cpu-speeds' => 'No per core speed data found.', 'cpu-speeds-bsd' => 'No OS support for core speeds.', 'darwin-feature' => 'Feature not supported iu Darwin/OSX.', 'dev' => 'Feature under development', 'device-data' => 'No device data found.', 'disk-data' => 'No disk data found.', 'disk-data-bsd' => 'No disk data found.', 'disk-size-0' => 'Total N/A', 'display-driver-na' => 'X driver n/a', # legacy, leave for now 'display-driver-na-try-root' => 'X driver n/a, try sudo/root', 'display-server' => 'No display server data found. Headless machine?', 'dmesg-boot-permissions' => 'dmesg.boot permissions', 'dmesg-boot-missing' => 'dmesg.boot not found', 'dmidecode-dev-mem' => 'dmidecode is not allowed to read /dev/mem', 'dmidecode-smbios' => 'No SMBIOS data for dmidecode to process', 'edid-revision' => "invalid EDID revision: $id", 'edid-sync' => "bad sync value: $id", 'edid-version' => "invalid EDID version: $id", 'egl-null' => 'No EGL data available.', 'egl-missing' => 'EGL data requires eglinfo. Check --recommends.', 'file-unreadable' => 'File not readable (permissions?)', 'gfx-api' => 'No display API data available.', 'gfx-api-console' => 'No API data available in console. Headless machine?', 'glx-console-glxinfo-missing' => 'GL data unavailable in console, glxinfo missing.', 'glx-console-root' => 'GL data unavailable in console for root.', 'glx-console-try' => 'GL data unavailable in console. Try -G --display', 'glx-display-root' => 'GL data unavailable for root.', 'glx-egl' => 'incomplete (EGL sourced)', 'glx-egl-console' => 'console (EGL sourced)', 'glx-egl-missing' => 'glxinfo missing (EGL sourced)', 'glx-null' => 'No GL data available.', 'glx-value-empty' => 'Unset. Missing GL driver?', 'glxinfo-missing' => 'Unable to show GL data. glxinfo is missing.', 'IP' => "No $id found. Connected to web? SSL issues?", 'IP-dig' => "No $id found. Connected to web? SSL issues? Try --no-dig", 'IP-no-dig' => "No $id found. Connected to web? SSL issues? Try enabling dig", 'logical-data' => 'No logical block device data found.', 'logical-data-bsd' => "Logical block device feature unsupported in $id.", 'machine-data' => 'No machine data: try newer kernel.', 'machine-data-bsd' => 'No machine data: Is dmidecode installed? Try -M --dmidecode.', 'machine-data-dmidecode' => 'No machine data: try newer kernel. Is dmidecode installed? Try -M --dmidecode.', 'machine-data-force-dmidecode' => 'No machine data: try newer kernel. Is dmidecode installed? Try -M --dmidecode.', 'machine-data-fruid' => 'No machine data: Is fruid_print installed?', 'monitor-console' => 'N/A in console', 'monitor-id' => 'not-matched', 'monitor-na' => 'N/A', 'monitor-wayland' => 'no compositor data', 'note-check' => 'check', 'note-est' => 'est.', 'note-not-reliable' => 'not reliable', 'nv-current' => "current (as of $id)", 'nv-current-eol' => "current (as of $id; EOL~$id2)", 'nv-legacy-active' => "legacy-active (EOL~$id)", 'nv-legacy-eol' => "legacy (EOL~$id)", 'optical-data' => 'No optical or floppy data found.', 'optical-data-bsd' => 'No optical or floppy data found.', 'output-control' => "-:: 'Enter' to continue to next block. Any key + 'Enter' to exit:", 'output-control-exit' => 'Exiting output. Have a nice day.', 'output-limit' => "Output throttled. IPs: $id; Limit: $limit; Override: --limit [1-x;-1 all]", 'package-data' => 'No packages detected. Unsupported package manager?', 'partition-data' => 'No partition data found.', 'partition-hidden' => 'N/A (hidden?)', 'pci-advanced-data' => 'bus/chip ids n/a', 'pci-card-data' => 'No PCI device data found.', 'pci-card-data-root' => 'PCI device data requires root.', 'pci-slot-data' => 'No PCI Slot data found.', 'pm-rpm-disabled' => 'see --rpm', 'ps-data-null' => 'No process data available.', 'raid-data' => 'No RAID data found.', 'ram-data' => 'No RAM data found.', 'ram-data-complete' => 'For complete report, try with --dmidecode', 'ram-data-dmidecode' => 'No RAM data found. Try with --dmidecode', 'recommends' => 'see --recommends', 'repo-data', "No repo data detected. Does $self_name support your package manager?", 'repo-data-bsd', "No repo data detected. Does $self_name support $id?", 'risc-pci' => 'No ' . uc($id) . ' data found for this feature.', 'root-feature' => 'Feature requires superuser permissions.', 'root-item-incomplete' => "Full $id report requires superuser permissions.", 'root-required' => '', 'root-suggested' => 'try sudo/root',# gdm only 'screen-wayland' => 'no compositor data', 'screen-xvesa' => 'no Xvesa data', 'sensor-data-bsd' => "$id sensor data found but not usable.", 'sensor-data-bsd-ok' => 'No sensor data found. Are data sources present?', 'sensor-data-bsd-unsupported' => 'Sensor data not available. Unsupported BSD variant.', 'sensor-data-ipmi' => 'No ipmi sensor data found.', 'sensor-data-ipmi-root' => 'Unable to run ipmi sensors. Root privileges required.', 'sensors-data-linux' => 'No sensor data found. Missing /sys/class/hwmon, lm-sensors.', 'sensor-data-lm-sensors' => 'No sensor data found. Is lm-sensors configured?', 'sensor-data-sys' => 'No sensor data found in /sys/class/hwmon.', 'sensor-data-sys-lm' => 'No sensor data found using /sys/class/hwmon or lm-sensors.', 'smartctl-command' => 'A mandatory SMART command failed. Various possible causes.', 'smartctl-open' => 'Unable to open device. Wrong device ID given?', 'smartctl-udma-crc' => 'Bad cable/connection?', 'smartctl-usb' => 'Unknown USB bridge. Flash drive/Unsupported enclosure?', 'stopped' => 'stopped', 'swap-admin' => 'No admin swap data available.', 'swap-data' => 'No swap data was found.', 'tool-missing-basic' => "", 'tool-missing-incomplete' => "Missing system tool: $id. Output will be incomplete", 'tool-missing-os' => "No OS support. Is a comparable $id tool available?", 'tool-missing-recommends' => "Required tool $id not installed. Check --recommends", 'tool-missing-required' => "Required program $id not available", 'tool-permissions' => "Unable to run $id. Root privileges required.", 'tool-present' => 'Present and working', 'tool-unknown-error' => "Unknown $id error. Unable to generate data.", 'tools-missing' => "This feature requires one of these tools: $id", 'tools-missing-bsd' => "This feature requires one of these tools: $id", 'undefined' => '', 'unmounted-data' => 'No unmounted partitions found.', 'unmounted-data-bsd' => "Unmounted partition feature unsupported in $id.", 'unmounted-file' => 'No /proc/partitions file found.', 'unsupported' => '', 'usb-data' => 'No USB data found. Server?', 'usb-mode-mismatch' => '', 'unknown-cpu-topology' => 'ERR-103', 'unknown-desktop-version' => 'ERR-101', 'unknown-dev' => 'ERR-102', 'unknown-device-id' => 'unknown device ID', 'unknown-shell' => 'ERR-100', 'vulkan-null' => 'No Vulkan data available.', 'weather-error' => "Error: $id", 'weather-null' => "No $id found. Internet connection working?", 'xvesa-null' => 'No Xvesa VBE/GOP data found.', ); return $message{$type}; } # args: 0: string of range types (2-5; 3 4; 3,4,2-12) to generate single regex # string for sub regex_range { return if ! defined $_[0]; my @processed; foreach my $item (split(/[,\s]+/,$_[0])){ if ($item =~ /(\d+)-(\d+)/){ $item = join('|',($1..$2)); } push(@processed,$item); } return join('|',@processed); } # Handles duplicates occuring anywhere in string sub remove_duplicates { my ($string) = @_; return if !$string; my (%holder,@temp); foreach (split(/\s+/, $string)){ if (!$holder{lc($_)}){ push(@temp, $_); $holder{lc($_)} = 1; } } $string = join(' ', @temp); return $string; } # args: 0: string to turn to KiB integer value. # Convert string passed to KB, based on GB/MB/TB id # NOTE: 1 [K 1000; kB: 1000; KB 1024; KiB 1024] bytes # The logic will turn false MB to M for this tool # Hopefully one day sizes will all be in KiB type units sub translate_size { my ($working) = @_; my ($size,$unit) = (0,''); # print ":$working:\n"; return if !defined $working; my $math = ($working =~ /B$/) ? 1000: 1024; if ($working =~ /^([0-9\.]+)\s*([kKMGTPE])i?B?$/i){ $size = $1; $unit = uc($2); } if ($unit eq 'K'){ $size = $1; } elsif ($unit eq 'M'){ $size = $1 * $math; } elsif ($unit eq 'G'){ $size = $1 * $math**2; } elsif ($unit eq 'T'){ $size = $1 * $math**3; } elsif ($unit eq 'P'){ $size = $1 * $math**4; } elsif ($unit eq 'E'){ $size = $1 * $math**5; } $size = int($size) if $size; return $size; } #### ------------------------------------------------------------------- #### GENERATE OUTPUT #### ------------------------------------------------------------------- sub check_output_path { my ($path) = @_; my ($b_good,$dir,$file); $dir = $path; $dir =~ s/([^\/]+)$//; $file = $1; # print "file: $file : dir: $dir\n"; $b_good = 1 if (-d $dir && -w $dir && $dir =~ /^\// && $file); return $b_good; } # Passing along hash ref sub output_handler { my ($data) = @_; # print Dumper \%data; if ($output_type eq 'screen'){ print_data($data); } elsif ($output_type eq 'json'){ generate_json($data); } elsif ($output_type eq 'xml'){ generate_xml($data); } } # Passing along hash ref # NOTE: file has already been set and directory verified sub generate_json { eval $start if $b_log; my ($data) = @_; my ($json); my $b_debug = 0; my ($b_cpanel,$b_valid); error_handler('not-in-irc', 'help') if $b_irc; print Dumper $data if $b_debug; load_json() if !$loaded{'json'}; print Data::Dumper::Dumper $use{'json'} if $b_debug; if ($use{'json'}){ # ${$use{'json'}->{'new'}}->canonical(1); # $json = ${$use{'json'}->{'new'}}->json_encode($data); # ${$use{'json'}->{'new-json'}}->canonical(1); # $json = ${$use{'json'}->{'new-json'}}->encode_json($data); $json = &{$use{'json'}->{'encode'}}($data); } else { error_handler('required-module', 'json', 'JSON::PP, Cpanel::JSON::XS or JSON::XS'); } if ($json){ #$json =~ s/"[0-9]+#/"/g; if ($output_file eq 'print'){ #$json =~ s/\}/}\n/g; print "$json"; } else { print_line("Writing JSON data to: $output_file\n"); open(my $fh, '>', $output_file) or error_handler('open',$output_file,"$!"); print $fh "$json"; close $fh; print_line("Data written successfully.\n"); } } eval $end if $b_log; } # NOTE: So far xml is substantially more difficult than json, so # using a crude dumper rather than making a nice xml file, but at # least xml has some output now. sub generate_xml { eval $start if $b_log; my ($data) = @_; my ($xml); my $b_debug = 0; error_handler('not-in-irc', 'help') if $b_irc; # print Dumper $data if $b_debug; if (check_perl_module('XML::Dumper')){ XML::Dumper->import; $xml = XML::Dumper::pl2xml($data); #$xml =~ s/"[0-9]+#/"/g; if ($output_file eq 'print'){ print "$xml"; } else { print_line("Writing XML data to: $output_file\n"); open(my $fh, '>', $output_file) or error_handler('open',$output_file,"$!"); print $fh "$xml"; close $fh; print_line("Data written successfully.\n"); } } else { error_handler('required-module', 'xml', 'XML::Dumper'); } eval $end if $b_log; } sub key { return sprintf("%03d#%s#%s#%s", $_[0],$_[1],$_[2],$_[3]); } sub output_control { print message('output-control'); chomp(my $response = ); if (!$response){ $size{'lines'} = 1; } else { print message('output-control-exit'), "\n"; exit 0; } } sub print_basic { my ($data) = @_; my $indent = 18; my $indent_static = 18; my $indent1_static = 5; my $indent2_static = 8; my $indent1 = 5; my $indent2 = 8; my $length = @$data; my ($start,$i,$j,$line); my $width = $size{'max-cols-basic'}; if ($width > 110){ $indent_static = 22; } elsif ($width < 90){ $indent_static = 15; } # print $length . "\n"; for my $i (0 .. $#$data){ # print "0: $data->[$i][0]\n"; if ($data->[$i][0] == 0){ $indent = 0; $indent1 = 0; $indent2 = 0; } elsif ($data->[$i][0] == 1){ $indent = $indent_static; $indent1 = $indent1_static; $indent2= $indent2_static; } elsif ($data->[$i][0] == 2){ $indent = ($indent_static + 7); $indent1 = ($indent_static + 5); $indent2 = 0; } $data->[$i][3] =~ s/\n/ /g; $data->[$i][3] =~ s/\s+/ /g; if ($data->[$i][1] && $data->[$i][2]){ $data->[$i][1] = $data->[$i][1] . ', '; } $start = sprintf("%${indent1}s%-${indent2}s",$data->[$i][1],$data->[$i][2]); if ($indent > 1 && (length($start) > ($indent - 1))){ $line = sprintf("%-${indent}s\n", "$start"); print_line($line); $start = ''; # print "1-print.\n"; } if (($indent + length($data->[$i][3])) < $width){ $data->[$i][3] =~ s/\^/ /g; $line = sprintf("%-${indent}s%s\n", "$start", $data->[$i][3]); print_line($line); # print "2-print.\n"; } else { my $holder = ''; my $sep = ' '; # note: special case, split ' ' trims leading, trailing spaces, # then splits like awk, on one or more white spaces. foreach my $word (split(' ', $data->[$i][3])){ # print "$word\n"; if (($indent + length($holder) + length($word)) < $width){ $word =~ s/\^/ /g; $holder .= $word . $sep; # print "3-hold.\n"; } # elsif (($indent + length($holder) + length($word)) >= $width){ else { $line = sprintf("%-${indent}s%s\n", "$start", $holder); print_line($line); $start = ''; $word =~ s/\^/ /g; $holder = $word . $sep; # print "4-print-hold.\n"; } } if ($holder !~ /^[ ]*$/){ $line = sprintf("%-${indent}s%s\n", "$start", $holder); print_line($line); # print "5-print-last.\n"; } } } } # This has to get a hash of hashes, at least for now. Because perl does not # retain insertion order, I use a prefix for each hash key to force sorts. sub print_data { my ($data) = @_; my ($counter,$length,$split_count) = (0,0,0); my ($hash_id,$holder,$holder2,$start,$start2,$start_holder) = ('','','','','',''); my $indent = $size{'indent'}; my (%ids); my ($b_container,$b_ni2,$key,$line,$val2,$val3); # these 2 sets are single logic items my $b_single = ($size{'max-cols'} == 1) ? 1: 0; my ($b_row1,$indent_2,$indent_use,$indentx) = (1,0,0,0); # $size{'max-cols'} = 88; # NOTE: indent < 11 would break the output badly in some cases if ($size{'max-cols'} < $size{'max-wrap'} || $size{'indent'} < 11){ $indent = $size{'indents'}; } foreach my $key1 (sort { substr($a,0,3) <=> substr($b,0,3) } keys %$data){ $key = (split('#', $key1))[3]; $b_row1 = 1; if ($key ne 'SHORT'){ $start = sprintf("$colors{'c1'}%-${indent}s$colors{'cn'}","$key$sep{'s1'}"); if ($use{'output-block'}){ output_control() if $use{'output-block'} > 1; $use{'output-block'}++; } $start_holder = $key; $indent_2 = $indent + $size{'indents'}; $b_ni2 = ($start_holder eq 'Info') ? 1 : 0; if ($indent < 10){ $line = "$start\n"; print_line($line); $start = ''; $line = ''; } } else { $indent = 0; } next if ref($data->{$key1}) ne 'ARRAY'; # Line starters that will be -x incremented always # It's a tiny bit faster manually resetting rather than using for loop %ids = ( 'Array' => 1, # RAM or RAID 'Battery' => 1, 'Card' => 1, 'Device' => 1, 'Floppy' => 1, 'Hardware' => 1, # hardware raid report 'Hub' => 1, 'ID' => 1, 'IF-ID' => 1, 'LV' => 1, 'Monitor' => 1, 'Optical' => 1, 'Screen' => 1, 'Server' => 1, # was 'Sound Server' 'variant' => 1, # arm > 1 cpu type ); foreach my $val1 (@{$data->{$key1}}){ if (ref($val1) eq 'HASH'){ if (!$b_single){ $indent_use = $length = ($b_row1 && $key !~ /^(Features)$/) ? $indent : $indent_2; } ($counter,$b_row1,$split_count) = (0,1,0); foreach my $key2 (sort {substr($a,0,3) <=> substr($b,0,3)} keys %$val1){ ($hash_id,$b_container,$indentx,$key) = (split('#', $key2)); if (!$b_single){ $indent_use = ($b_row1 || $b_ni2) ? $indent: $indent_2; } # print "m-1: r1: $b_row1 iu: $indent_use\n"; if ($start_holder eq 'Graphics' && $key eq 'Screen'){ $ids{'Monitor'} = 1; } elsif ($start_holder eq 'Memory' && $key eq 'Array'){ $ids{'Device'} = 1; } elsif ($start_holder eq 'RAID' && $key eq 'Device'){ $ids{'Array'} = 1; } elsif ($start_holder eq 'USB' && $key eq 'Hub'){ $ids{'Device'} = 1; } elsif ($start_holder eq 'Logical' && $key eq 'Device'){ $ids{'LV'} = 1; } if ($counter == 0 && defined $ids{$key}){ $key .= '-' . $ids{$key}++; } $val2 = $val1->{$key2}; # we have to handle cases where $val2 is 0 if (!$b_single && $val2 || $val2 eq '0'){ $val2 .= " "; } # See: Use of implicit split to @_ is deprecated. Only get this # warning in Perl 5.08 oddly enough. ie, no: scalar (split(...)); my @values = split(/\s+/, $val2); $split_count = scalar @values; # print "sc: $split_count l: " . (length("$key$sep{'s2'} $val2") + $indent_use), " val2: $val2\n"; if (!$b_single && (length("$key$sep{'s2'} $val2") + $length) <= $size{'max-cols'}){ # print "h-1: r1: $b_row1 iu: $indent_use\n"; $length += length("$key$sep{'s2'} $val2"); $holder .= "$colors{'c1'}$key$sep{'s2'}$colors{'c2'} $val2"; } # Handle case where the key/value pair is > max, and where there are # a lot of terms, like cpu flags, raid types supported. Raid can have # the last row have a lot of devices, or many raid types. But we don't # want to wrap things like: 3.45 MiB (6.3%) elsif (!$b_single && $split_count > 2 && length($val2) > 24 && !defined $ids{$key} && (length("$key$sep{'s2'} $val2") + $indent_use + $length) > $size{'max-cols'}){ # print "m-2 r1: $b_row1 iu: $indent_use\n"; $val3 = shift @values; $start2 = "$colors{'c1'}$key$sep{'s2'}$colors{'c2'} $val3 "; # Case where not first item in line, but when key+first word added, # is wider than max width. if ($holder && ($length + length("$key$sep{'s2'} $val3")) > $size{'max-cols'}){ # print "p-1a r1: $b_row1 iu: $indent_use\n"; $holder =~ s/\s+$//; $line = sprintf("%-${indent_use}s%s$colors{'cn'}\n","$start","$holder"); print_line($line); $b_row1 = 0; $start = ''; $holder = ''; $length = $indent_use; } $length += length("$key$sep{'s2'} $val3 "); # print scalar @values,"\n"; foreach (@values){ # my $l = (length("$_ ") + $length); # print "$l\n"; $indent_use = ($b_row1 || $b_ni2) ? $indent : $indent_2; if ((length("$_ ") + $length) < $size{'max-cols'}){ # print "h-2: r1: $b_row1 iu: $indent_use\n"; # print "a\n"; if ($start2){ $holder2 .= "$start2$_ "; $start2 = ''; } else { $holder2 .= "$_ "; } $length += length("$_ "); } else { # print "p-1b: r1: $b_row1 iu: $indent_use\n"; if ($start2){ $holder2 = "$start2$holder2"; } else { $holder2 = "$colors{'c2'}$holder2"; } # print "xx:$holder"; $holder2 =~ s/\s+$//; $line = sprintf("%-${indent_use}s%s$colors{'cn'}\n","$start","$holder$holder2"); print_line($line); # make sure wrapped value is indented correctly! $b_row1 = 0; $indent_use = ($b_row1) ? $indent : $indent_2; $holder = ''; $holder2 = "$_ "; # print "h2: $holder2\n"; $length = length($holder2) + $indent_use; $start2 = ''; $start = ''; } } # We don't want to start a new line, continue until full length. if ($holder2 !~ /^\s*$/){ # print "p-2: r1: $b_row1 iu: $indent_use\n"; $holder2 = "$colors{'c2'}$holder2"; $holder = $holder2; $b_row1 = 0; $holder2 = ''; $start2 = ''; $start = ''; } } # NOTE: only these and the last fallback are used for b_single output else { if ($holder){ # print "p-3: r1: $b_row1 iu: $indent_use\n"; $holder =~ s/\s+$//; $line = sprintf("%-${indent_use}s%s$colors{'cn'}\n",$start,"$holder"); $length = length("$key$sep{'s2'} $val2") + $indent_use; print_line($line); $b_row1 = 0; $start = ''; } else { # print "h-3a: r1: $b_row1 iu: $indent_use\n"; $length = $indent_use; } if ($b_single){ $indent_use = ($indent * $indentx); } else { $indent_use = ($b_row1 || $b_ni2) ? $indent: $indent_2; } $holder = "$colors{'c1'}$key$sep{'s2'}$colors{'c2'} $val2"; # print "h-3b: r1: $b_row1 iu: $indent_use\n"; } $counter++; } if ($holder !~ /^\s*$/){ # print "p-4: r1: $b_row1 iu: $indent_use\n"; $holder =~ s/\s+$//; $line = sprintf("%-${indent_use}s%s$colors{'cn'}\n",$start,"$start2$holder"); print_line($line); $b_row1 = 0; $holder = ''; $length = 0; $start = ''; } } # Only for repos currently elsif (ref($val1) eq 'ARRAY'){ # print "p-5: r1: $b_row1 iu: $indent_use\n"; my $num = 0; my ($l1,$l2); $indent_use = $indent_2; foreach my $item (@$val1){ $num++; if ($size{'max-lines'}){ $l1 = length("$num$sep{'s2'} $item") + $indent_use; # Cut down the line string until it's short enough to fit in term if ($l1 > $size{'term-cols'}){ $l2 = length("$num$sep{'s2'} ") + $indent_use + 6; # print "$l1 $size{'term-cols'} $l2 $num $indent_use\n"; $item = substr($item,0,$size{'term-cols'} - $l2) . '[...]'; } } $line = "$colors{'c1'}$num$sep{'s2'} $colors{'c2'}$item$colors{'cn'}"; $line = sprintf("%-${indent_use}s%s\n","","$line"); print_line($line); } } } # We want a space between data blocks for single print_line("\n") if $b_single; } } sub print_line { my ($line) = @_; if ($b_irc && $client{'test-konvi'}){ $client{'konvi'} = 3; $client{'dobject'} = 'Konversation'; } if ($client{'konvi'} == 1 && $client{'dcop'}){ # konvi doesn't seem to like \n characters, it just prints them literally $line =~ s/\n//g; #qx('dcop "$client{'dport'}" "$client{'dobject'}" say "$client{'dserver'}" "$client{'dtarget'}" "$line 1"); system('dcop', $client{'dport'}, $client{'dobject'}, 'say', $client{'dserver'}, $client{'dtarget'}, "$line 1"); } elsif ($client{'konvi'} == 3 && $client{'qdbus'}){ # print $line; $line =~ s/\n//g; #qx(qdbus org.kde.konversation /irc say "$client{'dserver'}" "$client{'dtarget'}" "$line"); system('qdbus', 'org.kde.konversation', '/irc', 'say', $client{'dserver'}, $client{'dtarget'}, $line); } else { # print "tl: $size{'term-lines'} ml: $size{'max-lines'} l:$size{'lines'}\n"; if ($size{'max-lines'}){ # -y1 + -Y can result in start of output scrolling off screen if terminal # wrapped lines happen. if ((($size{'max-lines'} >= $size{'term-lines'}) && $size{'max-lines'} == $size{'lines'}) || ($size{'max-lines'} < $size{'term-lines'} && $size{'max-lines'} + 1 == $size{'lines'})){ output_control(); } } print $line; $size{'lines'}++ if $size{'max-lines'}; } } ######################################################################## #### ITEM PROCESSORS ######################################################################## #### ------------------------------------------------------------------- #### ITEM GENERATORS #### ------------------------------------------------------------------- ## AudioItem { package AudioItem; sub get { eval $start if $b_log; my $rows = []; my $num = 0; if (%risc && !$use{'soc-audio'} && !$use{'pci-tool'}){ my $key = 'Message'; @$rows = ({ main::key($num++,0,1,$key) => main::message('risc-pci',$risc{'id'}) }); } else { device_output($rows); } if (((%risc && !$use{'soc-audio'} && !$use{'pci-tool'}) || !@$rows) && (my $file = $system_files{'asound-cards'})){ asound_output($rows,$file); } usb_output($rows); # note: for servers often no audio, so we don't care about pci specific if (!@$rows){ my $key = 'Message'; my $type = 'device-data'; if ($pci_tool && $alerts{$pci_tool}->{'action'} eq 'permissions'){ $type = 'pci-card-data-root'; } @$rows = ({main::key($num++,0,1,$key) => main::message($type,'')}); } sound_output($rows); eval $end if $b_log; return $rows; } sub device_output { eval $start if $b_log; return if !$devices{'audio'}; my $rows = $_[0]; my ($j,$num) = (0,1); foreach my $row (@{$devices{'audio'}}){ $num = 1; $j = scalar @$rows; my $driver = $row->[9]; $driver ||= 'N/A'; my $device = $row->[4]; $device = ($device) ? main::clean_pci($device,'output') : 'N/A'; # have seen absurdly verbose card descriptions, with non related data etc if (length($device) > 85 || $size{'max-cols'} < 110){ $device = main::filter_pci_long($device); } push(@$rows, { main::key($num++,1,1,'Device') => $device, }); if ($extra > 0 && $use{'pci-tool'} && $row->[12]){ my $item = main::get_pci_vendor($row->[4],$row->[12]); $rows->[$j]{main::key($num++,0,2,'vendor')} = $item if $item; } $rows->[$j]{main::key($num++,1,2,'driver')} = $driver; if ($extra > 0 && !$bsd_type){ if ($row->[9]){ my $version = main::get_module_version($row->[9]); $rows->[$j]{main::key($num++,0,3,'v')} = $version if $version; } } if ($b_admin && $row->[10]){ $row->[10] = main::get_driver_modules($row->[9],$row->[10]); $rows->[$j]{main::key($num++,0,3,'alternate')} = $row->[10] if $row->[10]; } if ($extra > 0){ my $bus_id = (!$row->[2] && !$row->[3]) ? 'N/A' : "$row->[2].$row->[3]"; if ($extra > 1 && $bus_id ne 'N/A'){ main::get_pcie_data($bus_id,$j,$rows,\$num); } $rows->[$j]{main::key($num++,0,2,'bus-ID')} = $bus_id; } if ($extra > 1){ my $chip_id = main::get_chip_id($row->[5],$row->[6]); $rows->[$j]{main::key($num++,0,2,'chip-ID')} = $chip_id; if ($extra > 2 && $row->[1]){ $rows->[$j]{main::key($num++,0,2,'class-ID')} = $row->[1]; } } # print "$row->[0]\n"; } eval $end if $b_log; } # this handles fringe cases where there is no card on pcibus, # but there is a card present. I don't know the exact architecture # involved but I know this situation exists on at least one old machine. sub asound_output { eval $start if $b_log; my ($file,$rows) = @_; my ($device,$driver,$j,$num) = ('','',0,1); my @asound = main::reader($file); foreach (@asound){ # filtering out modems and usb devices like webcams, this might get a # usb audio card as well, this will take some trial and error if (!/modem|usb/i && /^\s*[0-9]/){ $num = 1; my @working = split(/:\s*/, $_); # now let's get 1 2 $working[1] =~ /(.*)\s+-\s+(.*)/; $device = $2; $driver = $1; if ($device){ $j = scalar @$rows; $driver ||= 'N/A'; push(@$rows, { main::key($num++,1,1,'Device') => $device, main::key($num++,1,2,'driver') => $driver, }); if ($extra > 0){ my $version = main::get_module_version($driver); $rows->[$j]{main::key($num++,0,3,'v')} = $version if $version; $rows->[$j]{main::key($num++,0,2,'message')} = main::message('pci-advanced-data',''); } } } } # print Data::Dumper:Dumper $rows; eval $end if $b_log; } sub usb_output { eval $start if $b_log; my $rows = $_[0]; my (@ids,$path_id,$product,@temp2); my ($j,$num) = (0,1); return if !$usb{'audio'}; foreach my $row (@{$usb{'audio'}}){ $num = 1; $j = scalar @$rows; # make sure to reset, or second device trips last flag ($path_id,$product) = ('',''); $product = main::clean($row->[13]) if $row->[13]; $product ||= 'N/A'; $row->[15] ||= 'N/A'; push(@$rows, { main::key($num++,1,1,'Device') => $product, main::key($num++,0,2,'driver') => $row->[15], main::key($num++,1,2,'type') => 'USB', }); if ($extra > 0){ # print "$j \n"; if ($extra > 1){ $row->[8] ||= 'N/A'; $rows->[$j]{main::key($num++,0,3,'rev')} = $row->[8]; if ($row->[17]){ $rows->[$j]{main::key($num++,0,3,'speed')} = $row->[17]; } if ($row->[24]){ $rows->[$j]{main::key($num++,0,3,'lanes')} = $row->[24]; } if ($b_admin && $row->[22]){ $rows->[$j]{main::key($num++,0,3,'mode')} = $row->[22]; } } $path_id = $row->[2] if $row->[2]; $rows->[$j]{main::key($num++,0,2,'bus-ID')} = "$path_id:$row->[1]"; if ($extra > 1){ $row->[7] ||= 'N/A'; $rows->[$j]{main::key($num++,0,2,'chip-ID')} = $row->[7]; } if ($extra > 2){ if (defined $row->[5] && $row->[5] ne ''){ $rows->[$j]{main::key($num++,0,2,'class-ID')} = "$row->[4]$row->[5]"; } if ($row->[16]){ $rows->[$j]{main::key($num++,0,2,'serial')} = main::filter($row->[16]); } } } } eval $end if $b_log; } sub sound_output { eval $start if $b_log; my $rows = $_[0]; my ($key,$program,$value); my ($j,$num) = (0,0); foreach my $server (@{sound_data()}){ next if $extra < 1 && (!$server->[3] || $server->[3] !~ /^(active|.*api)/); $j = scalar @$rows; $server->[2] ||= 'N/A'; $server->[3] ||= 'N/A'; push(@$rows, { main::key($num++,1,1,$server->[0]) => $server->[1], main::key($num++,0,2,'v') => $server->[2], main::key($num++,0,2,'status') => $server->[3], }); if ($extra > 1 && defined $server->[4] && ref $server->[4] eq 'ARRAY'){ my $b_multi = (scalar @{$server->[4]} > 1) ? 1: 0; my $b_start; my $k = 0; foreach my $item (@{$server->[4]}){ if ($item->[2] eq 'daemon'){ $key = 'status'; $value = $item->[3]; } else { $key = 'type'; $value = $item->[2]; } if (!$b_multi){ $rows->[$j]{main::key($num++,1,2,$item->[0])} = $item->[1]; $rows->[$j]{main::key($num++,0,3,$key)} = $value; } else { $rows->[$j]{main::key($num++,1,2,$item->[0])} = '' if !$b_start; $b_start = 1; $k++; $rows->[$j]{main::key($num++,1,3,$k)} = $item->[1]; $rows->[$j]{main::key($num++,0,4,$key)} = $value; } } } if ($b_admin){ # Let long lines wrap for high tool counts, but best avoid too many tools my $join = (defined $server->[5] && length(join(',',@{$server->[5]})) > 40) ? ', ': ','; my $val = (defined $server->[5]) ? join($join,@{$server->[5]}) : 'N/A'; $rows->[$j]{main::key($num++,0,2,'tools')} = $val; } } eval $end if $b_log; } # see docs/inxi-audio.txt for unused or alternate helpers/tools sub sound_data { eval $start if $b_log; my ($config,$helpers,$name,$program,$status,$test,$tools,$type,$version); my $data = []; ## API Types ## # not yet, user lib: || main::globber('/usr/lib*{,/*}/libasound.so*') # the config test is expensive but will only trigger on servers with no audio # devices. Checks if kernel was compiled with SND_ items, even if no devices. if (!$bsd_type && -r "/boot/config-$uname[2]"){ $config = "/boot/config-$uname[2]"; } if ($system_files{'asound-version'} || ($config && (grep {/^CONFIG_SND_/} @{main::reader($config,'','ref')}))){ $name = 'ALSA'; $type = 'API'; # always true until find better test for inactive API test if ($system_files{'asound-version'}){ # avoid possible second line if compiled by user my $content = main::reader($system_files{'asound-version'},'',0); # we want the string after driver version for old and new ALSA # some alsa strings have the build date in (...) after Version if ($content =~ /Driver Version (\S+)(\s|\.?$)/){ $version = $1; $version =~ s/\.$//; # trim off period } $status = 'kernel-api'; } else { $status = 'inactive'; $version = $uname[2]; $version =~ s/^k//; # avoid double kk possible result $version = 'k' . $version; } if ($extra > 1){ $test = [['osspd','daemon'],['aoss','oss-emulator'], ['apulse','pulse-emulator'],]; $helpers = sound_helpers($test); } if ($b_admin){ $test = [qw(alsactl alsamixer alsamixergui amixer)]; $tools = sound_tools($test); } push(@$data,[$type,$name,$version,$status,$helpers,$tools]); ($status,$version,$helpers,$tools) = ('','',undef,undef); } # sndstat file may be removed in linux oss, but ossinfo part of oss4-base # alsa oss compat driver will create /dev/sndstat in linux however # Note: kernel compile: SOUND_OSS if ((-e '/dev/sndstat' && !$system_files{'asound-version'}) || main::check_program('ossinfo')){ $name = 'OSS'; # not a great test, but ok for now, check on current Linux, seems unlikely # to find OSS on OpenBSD in general. if ($bsd_type){ $status = (-e '/dev/sndstat') ? 'kernel-api' : 'inactive'; } else { $status = (-e '/dev/sndstat') ? 'active' : 'off?'; } $type = 'API'; # not strictly an API on linux, but almost nobody uses it. # not certain to be cross distro, Debian/Ubuntu at least. if (-e '/etc/oss4/version.dat'){ $version = main::reader('/etc/oss4/version.dat','',0); } elsif ($sysctl{'audio'}){ $version = (grep {/^hw.snd.version:/} @{$sysctl{'audio'}})[0]; $version = (split(/:\s*/,$version),1)[1] if $version; $version =~ s|/.*$|| if $version; } if ($extra > 1){ # virtual_oss freebsd, not verified; osspd-alsa/pulseaudio no path exec $test = [['virtual_oss','daemon'],['virtual_equalizer','plugin']]; $helpers = sound_helpers($test); } if ($b_admin){ # *mixer are FreeBSD tools $test = [qw(dsbmixer mixer ossctl ossinfo ossmix ossxmix vmixctl)]; $tools = sound_tools($test); } push(@$data,[$type,$name,$version,$status,$helpers,$tools]); ($status,$version,$helpers,$tools) = ('','',undef,undef); } if ($program = main::check_program('sndiod')){ if ($bsd_type){ push(@$data, ['API','sndio',undef,'sound-api',undef,undef]); } $name = 'sndiod'; # verified: accurate $status = (grep {/sndiod/} @ps_cmd) ? 'active': 'off'; $type = 'Server'; # $version: no known method if ($b_admin){ $test = [qw(aucat midicat mixerctl sndioctl)]; $tools = sound_tools($test); } push(@$data,[$type,$name,$version,$status,$helpers,$tools]); ($status,$version,$helpers,$tools) = ('','',undef,undef); } ## Servers ## if ($program = main::check_program('artsd')){ $name = 'aRts'; $status = (grep {/artsd/} @ps_cmd) ? 'active': 'off'; $type = 'Server'; $version = main::program_version($program,'^artsd',2,'-v',1); if ($extra > 1){ $test = [['artswrapper','daemon'],]; $helpers = sound_helpers($test); } if ($b_admin){ $test = [qw(artsbuilder artsdsp)]; $tools = sound_tools($test); } push(@$data,[$type,$name,$version,$status,$helpers,$tools]); ($status,$version,$helpers,$tools) = ('','',undef,undef); } # pulseaudio-esound-compat has esd pointing to esdcompat if (($program = main::check_program('esd')) && !main::check_program('esdcompat')){ $name = 'EsounD'; $status = (grep {/\besd\b/} @ps_cmd) ? 'active': 'off'; $type = 'Server'; $version = main::program_version($program,'^Esound',3,'--version',1,1); # if ($extra > 1){ # $test = [['','daemon'],]; # $helpers = sound_helpers($test); # } if ($b_admin){ $test = [qw(esdcat esdctl esddsp)]; $tools = sound_tools($test); } push(@$data,[$type,$name,$version,$status,$helpers,$tools]); ($status,$version,$helpers,$tools) = ('','',undef,undef); } if ($program = main::check_program('jackd')){ $name = 'JACK'; $status = jack_status(); $type = 'Server'; $version = main::program_version($program,'^jackd',3,'--version',1); if ($extra > 1){ $test = [['a2jmidid','daemon'],['nsmd','daemon']]; $helpers = sound_helpers($test); } if ($b_admin){ $test = [qw(agordejo cadence jack_control jack_mixer qjackctl)]; $tools = sound_tools($test); } push(@$data,[$type,$name,$version,$status,$helpers,$tools]); ($status,$version,$helpers,$tools) = ('','',undef,undef); } if ($program = main::check_program('nasd')){ $name = 'NAS'; $status = (grep {/(^|\/)nasd/} @ps_cmd) ? 'active': 'off'; $type = 'Server'; $version = main::program_version($program,'^Network Audio',5,'-V',1); if ($extra > 1){ $test = [['audiooss','oss-compat'],]; $helpers = sound_helpers($test); } if ($b_admin){ $test = [qw(auctl auinfo)]; $tools = sound_tools($test); } push(@$data,[$type,$name,$version,$status,$helpers,$tools]); ($status,$version,$helpers,$tools) = ('','',undef,undef); } if ($program = main::check_program('pipewire')){ $name = 'PipeWire'; $status = pipewire_status(); $type = 'Server'; $version = main::program_version($program,'^Compiled with libpipe',4,'--version',1); if ($extra > 1){ # pipewire-alsa is a plugin, but is just some config files $test = [['pipewire-pulse','daemon'],['pipewire-media-session','daemon'], ['wireplumber','daemon'], ['pipewire-alsa','plugin','/etc/alsa/conf.d/*-pipewire-default.conf'], ['pw-jack','plugin']]; $helpers = sound_helpers($test); } if ($b_admin){ $test = [qw(pw-cat pw-cli wpctl)]; # note: pactl can be used w/pipewire-pulse; if (!main::check_program('pulseaudio') && main::check_program('pipewire-pulse')){ splice(@$test,0,0,'pactl'); } $tools = sound_tools($test); } push(@$data,[$type,$name,$version,$status,$helpers,$tools]); ($status,$version,$helpers,$tools) = ('','',undef,undef); } # note: pactl info/list/stat could be used if ($program = main::check_program('pulseaudio')){ $name = 'PulseAudio'; $status = pulse_status($program); $type = 'Server'; $version = main::program_version($program,'^pulseaudio',2,'--version',1); if ($extra > 1){ $test = [['pulseaudio-dlna','daemon'], ['pulseaudio-alsa','plugin','/etc/alsa/conf.d/*-pulseaudio-default.conf'], ['esdcompat','plugin'], ['pulseaudio-jack','module','/usr/lib/pulse*/modules/module-jack-sink.so']]; $helpers = sound_helpers($test); } if ($b_admin){ $test = [qw(pacat pactl paman pamix pamixer pavucontrol pulsemixer)]; $tools = sound_tools($test); } push(@$data,[$type,$name,$version,$status,$helpers,$tools]); ($status,$version,$helpers,$tools) = ('','',undef,undef); } if ($program = main::check_program('roard')){ $name = 'RoarAudio'; $status = (grep {/roard/} @ps_cmd) ? 'active': 'off'; $type = 'Server'; # no version so far if ($extra > 1){ $test = [['roarplaylistd','daemon'],['roarify','pulse/viff-emulation']]; $helpers = sound_helpers($test); } if ($b_admin){ $test = [qw(roarcat roarctl)]; $tools = sound_tools($test); } push(@$data,[$type,$name,$version,$status,$helpers,$tools]); ($status,$version,$helpers,$tools) = ('','',undef,undef); } main::log_data('dump','sound data: @$data',$data) if $b_log; print 'Sound data: ', Data::Dumper::Dumper $data if $dbg[26]; eval $end if $b_log; return $data; } # assume if jackd running we have active jack, update if required sub jack_status { eval $start if $b_log; my $status; if (grep {/jackd/} @ps_cmd){ if (my $program = main::check_program('jack_control')){ system("$program status > /dev/null 2>&1"); # 0 means running, always, else 1. if ($? == 0){ $status = 'active'; } else { $status = ($b_root) ? main::message('audio-server-root-na') : 'off'; } } $status = main::message('audio-server-process-on') if !$status; } else { $status = 'off'; } eval $end if $b_log; return $status; } # pipewire is complicated, it can be there and running without being active server # This is NOT verified as valid true/yes case!! sub pipewire_status { eval $start if $b_log; my ($b_process,$program,$status,@data); if (grep {/(^|\/)pipewire(d|\s|:|$)/} @ps_cmd){ # note: if pipewire was stopped but not masked, pw-cli can start service so # only use if pipewire process already running if ($program = main::check_program('pw-cli')){ @data = qx($program ls 2>/dev/null); main::log_data('dump','pw-cli @data', \@data) if $b_log; print 'pw-cli: ', Data::Dumper::Dumper \@data if $dbg[52]; if (@data){ $status = (grep {/media\.class\s*=\s*"(Audio|Midi)/i} @data) ? 'active' : 'off'; } elsif ($b_root){ $status = main::message('audio-server-root-na'); } } $status = main::message('audio-server-process-on') if !$status; } else { $status = 'off'; } eval $end if $b_log; return $status; } # pulse might be running through pipewire sub pulse_status { eval $start if $b_log; my $program = $_[0]; my ($status,@data); if (grep {/(^|\/)pulseaudiod?\b/} @ps_cmd){ # this is almost certainly not needed, but keep for now system("$program --check > /dev/null 2>&1"); # 0 means running, always, other could be an error. if ($? == 0){ $status = 'active'; } else { $status = ($b_root) ? main::message('audio-server-root-on') : 'off'; } } else { # can't use pactl info test because starts pulseaudio/pipewire if unmasked if (main::check_program('pipewire-pulse') && (grep {/(^|\/)pipewire-pulse/} @ps_cmd)){ $status = main::message('audio-server-on-pipewire-pulse'); } else { $status = 'off'; } } eval $end if $b_log; return $status; } sub sound_helpers { eval $start if $b_log; my $test = $_[0]; my ($helpers,$name,$status,$key); foreach my $item (@$test){ if (main::check_program($item->[0]) || (defined $item->[2] && main::globber($item->[2]))){ $name = $item->[0]; $key = 'with'; # these are active/off daemons unless not a daemon if ($item->[1] eq 'daemon'){ $status = (grep {/$item->[0]/} @ps_cmd) ? 'active':'off' ; } else { $status = $item->[1]; } push(@$helpers,[$key,$name,$item->[1],$status]); } } # push(@$helpers, ['with','pipewire-pulse','daemon','active'],['with','pw-jack','plugin']); # push(@$helpers, ['with','pipewire-pulse','daemon','active']); eval $end if $b_log; # print Data::Dumper::Dumper $helpers; return $helpers; } sub sound_tools { eval $start if $b_log; my $test = $_[0]; my $tools; foreach my $item (@$test){ if (main::check_program($item)){ push(@$tools,$item); } } eval $end if $b_log; # print Data::Dumper::Dumper $tools; return $tools; } } ## BatteryItem { package BatteryItem; my (@upower_items,$b_upower,$upower); sub get { eval $start if $b_log; my ($key1,$val1); my $battery = {}; my $rows = []; my $num = 0; if ($force{'dmidecode'}){ if ($alerts{'dmidecode'}->{'action'} ne 'use'){ $key1 = $alerts{'dmidecode'}->{'action'}; $val1 = $alerts{'dmidecode'}->{'message'}; $key1 = ucfirst($key1); @$rows = ({main::key($num++,0,1,$key1) => $val1}); } else { battery_data_dmi($battery); if (!%$battery){ if ($show{'battery-forced'}){ $key1 = 'Message'; $val1 = main::message('battery-data',''); @$rows = ({main::key($num++,0,1,$key1) => $val1}); } } else { battery_output($rows,$battery); } } } elsif ($bsd_type && ($sysctl{'battery'} || $show{'battery-forced'})){ battery_data_sysctl($battery) if $sysctl{'battery'}; if (!%$battery){ if ($show{'battery-forced'}){ $key1 = 'Message'; $val1 = main::message('battery-data-bsd',''); @$rows = ({main::key($num++,0,1,$key1) => $val1}); } } else { battery_output($rows,$battery); } } elsif (-d '/sys/class/power_supply/'){ battery_data_sys($battery); if (!%$battery){ if ($show{'battery-forced'}){ $key1 = 'Message'; $val1 = main::message('battery-data',''); @$rows = ({main::key($num++,0,1,$key1) => $val1}); } } else { battery_output($rows,$battery); } } else { if ($show{'battery-forced'}){ $key1 = 'Message'; $val1 = (!$bsd_type) ? main::message('battery-data-sys'): main::message('battery-data-bsd'); @$rows = ({main::key($num++,0,1,$key1) => $val1}); } } (@upower_items,$b_upower,$upower) = (); eval $end if $b_log; return $rows; } # alarm capacity capacity_level charge_full charge_full_design charge_now # cycle_count energy_full energy_full_design energy_now location manufacturer model_name # power_now present serial_number status technology type voltage_min_design voltage_now # 0: name - battery id, not used # 1: status # 2: present # 3: technology # 4: cycle_count # 5: voltage_min_design # 6: voltage_now # 7: power_now # 8: energy_full_design # 9: energy_full # 10: energy_now # 11: capacity # 12: capacity_level # 13: of_orig # 14: model_name # 15: manufacturer # 16: serial_number # 17: location sub battery_output { eval $start if $b_log; my ($rows,$battery) = @_; my ($key); my $num = 0; my $j = 0; # print Data::Dumper::Dumper $battery; foreach $key (sort keys %$battery){ $num = 0; my ($charge,$condition,$model,$serial,$status) = ('','','','',''); my ($chemistry,$cycles,$location) = ('','',''); next if !$battery->{$key}{'purpose'} || $battery->{$key}{'purpose'} ne 'primary'; # $battery->{$key}{''}; # we need to handle cases where charge or energy full is 0 if (defined $battery->{$key}{'energy_now'} && $battery->{$key}{'energy_now'} ne ''){ $charge = "$battery->{$key}{'energy_now'} Wh"; if ($battery->{$key}{'energy_full'} && main::is_numeric($battery->{$key}{'energy_full'})){ my $percent = sprintf("%.1f", $battery->{$key}{'energy_now'}/$battery->{$key}{'energy_full'}*100); $charge .= ' (' . $percent . '%)'; } } # better than nothing, shows the charged percent elsif (defined $battery->{$key}{'capacity'} && $battery->{$key}{'capacity'} ne ''){ $charge = $battery->{$key}{'capacity'} . '%' } else { $charge = 'N/A'; } if ($battery->{$key}{'energy_full'} || $battery->{$key}{'energy_full_design'}){ $battery->{$key}{'energy_full_design'} ||= 'N/A'; $battery->{$key}{'energy_full'} = (defined $battery->{$key}{'energy_full'} && $battery->{$key}{'energy_full'} ne '') ? $battery->{$key}{'energy_full'} : 'N/A'; $condition = "$battery->{$key}{'energy_full'}/$battery->{$key}{'energy_full_design'} Wh"; if ($battery->{$key}{'of_orig'}){ $condition .= " ($battery->{$key}{'of_orig'}%)"; } } $condition ||= 'N/A'; $j = scalar @$rows; push(@$rows, { main::key($num++,1,1,'ID') => $key, main::key($num++,0,2,'charge') => $charge, main::key($num++,0,2,'condition') => $condition, }); if ($extra > 2){ if ($battery->{$key}{'power_now'}){ $rows->[$j]{main::key($num++,0,2,'power')} = sprintf('%0.1f W',($battery->{$key}{'power_now'}/10**6)); } } if ($extra > 0 || ($battery->{$key}{'voltage_now'} && $battery->{$key}{'voltage_min_design'} && ($battery->{$key}{'voltage_now'} - $battery->{$key}{'voltage_min_design'}) < 0.5)){ $battery->{$key}{'voltage_now'} ||= 'N/A'; $rows->[$j]{main::key($num++,1,2,'volts')} = $battery->{$key}{'voltage_now'}; if ($battery->{$key}{'voltage_now'} ne 'N/A' || $battery->{$key}{'voltage_min_design'}){ $battery->{$key}{'voltage_min_design'} ||= 'N/A'; $rows->[$j]{main::key($num++,0,3,'min')} = $battery->{$key}{'voltage_min_design'}; } } if ($extra > 0){ if ($battery->{$key}{'manufacturer'} || $battery->{$key}{'model_name'}){ if ($battery->{$key}{'manufacturer'} && $battery->{$key}{'model_name'}){ $model = "$battery->{$key}{'manufacturer'} $battery->{$key}{'model_name'}"; } elsif ($battery->{$key}{'manufacturer'}){ $model = $battery->{$key}{'manufacturer'}; } elsif ($battery->{$key}{'model_name'}){ $model = $battery->{$key}{'model_name'}; } } else { $model = 'N/A'; } $rows->[$j]{main::key($num++,0,2,'model')} = $model; if ($extra > 2){ $chemistry = ($battery->{$key}{'technology'}) ? $battery->{$key}{'technology'}: 'N/A'; $rows->[$j]{main::key($num++,0,2,'type')} = $chemistry; } if ($extra > 1){ $serial = main::filter($battery->{$key}{'serial_number'}); $rows->[$j]{main::key($num++,0,2,'serial')} = $serial; } $status = ($battery->{$key}{'status'}) ? $battery->{$key}{'status'}: 'N/A'; $rows->[$j]{main::key($num++,0,2,'status')} = $status; if ($extra > 2){ if ($battery->{$key}{'cycle_count'}){ $rows->[$j]{main::key($num++,0,2,'cycles')} = $battery->{$key}{'cycle_count'}; } if ($battery->{$key}{'location'}){ $rows->[$j]{main::key($num++,0,2,'location')} = $battery->{$key}{'location'}; } } } $battery->{$key} = undef; } # print Data::Dumper::Dumper \%$battery; # now if there are any devices left, print them out, excluding Mains if ($extra > 0){ $upower = main::check_program('upower'); foreach $key (sort keys %$battery){ $num = 0; next if !defined $battery->{$key} || $battery->{$key}{'purpose'} eq 'mains'; my ($charge,$model,$serial,$percent,$status,$vendor) = ('','','','','',''); $j = scalar @$rows; my $upower_data = ($upower) ? upower_data($key) : {}; if ($upower_data->{'percent'}){ $charge = $upower_data->{'percent'}; } elsif ($battery->{$key}{'capacity_level'} && lc($battery->{$key}{'capacity_level'}) ne 'unknown'){ $charge = $battery->{$key}{'capacity_level'}; } else { $charge = 'N/A'; } $model = $battery->{$key}{'model_name'} if $battery->{$key}{'model_name'}; $vendor = $battery->{$key}{'manufacturer'} if $battery->{$key}{'manufacturer'}; if ($vendor || $model){ if ($vendor && $model){ $model = "$vendor $model"; } elsif ($vendor){ $model = $vendor; } } else { $model = 'N/A'; } push(@$rows, { main::key($num++,1,1,'Device') => $key, main::key($num++,0,2,'model') => $model, },); if ($extra > 1){ $serial = main::filter($battery->{$key}{'serial_number'}); $rows->[$j]{main::key($num++,0,2,'serial')} = $serial; } $rows->[$j]{main::key($num++,0,2,'charge')} = $charge; if ($extra > 2 && $upower_data->{'rechargeable'}){ $rows->[$j]{main::key($num++,0,2,'rechargeable')} = $upower_data->{'rechargeable'}; } $status = ($battery->{$key}{'status'}) ? $battery->{$key}{'status'}: 'N/A' ; $rows->[$j]{main::key($num++,0,2,'status')} = $status; } } eval $end if $b_log; } # charge: mAh energy: Wh sub battery_data_sys { eval $start if $b_log; my $battery = $_[0]; my ($b_ma,$file,$id,$item,$path,$value); my $num = 0; my @batteries = main::globber("/sys/class/power_supply/*"); # note: there is no 'location' file, but dmidecode has it # 'type' is generic, like: Battery, Mains # capacity_level is a string, like: Normal my @items = qw(alarm capacity capacity_level charge_full charge_full_design charge_now constant_charge_current constant_charge_current_max cycle_count energy_full energy_full_design energy_now location manufacturer model_name power_now present scope serial_number status technology type voltage_min_design voltage_now); foreach $item (@batteries){ $b_ma = 0; $id = $item; $id =~ s%/sys/class/power_supply/%%g; foreach $file (@items){ $path = "$item/$file"; # android shows some files only root readable $value = (-r $path) ? main::reader($path,'',0): ''; # mains, plus in psu if ($file eq 'type' && $value && lc($value) ne 'battery'){ $battery->{$id}{'purpose'} = 'mains'; } if ($value){ $value = main::trimmer($value); if ($file eq 'voltage_min_design'){ $value = sprintf("%.1f", $value/1000000); } elsif ($file eq 'voltage_now'){ $value = sprintf("%.1f", $value/1000000); } elsif ($file eq 'energy_full_design'){ $value = $value/1000000; } elsif ($file eq 'energy_full'){ $value = $value/1000000; } elsif ($file eq 'energy_now'){ $value = sprintf("%.1f", $value/1000000); } # note: the following 3 were off, 100000 instead of 1000000 # why this is, I do not know. I did not document any reason for that # so going on assumption it is a mistake. # CHARGE is mAh, which are converted to Wh by: mAh x voltage. # Note: voltage fluctuates so will make results vary slightly. elsif ($file eq 'charge_full_design'){ $value = $value/1000000; $b_ma = 1; } elsif ($file eq 'charge_full'){ $value = $value/1000000; $b_ma = 1; } elsif ($file eq 'charge_now'){ $value = $value/1000000; $b_ma = 1; } elsif ($file eq 'manufacturer'){ $value = main::clean_dmi($value); } elsif ($file eq 'model_name'){ $value = main::clean_dmi($value); } # Valid values: Unknown,Charging,Discharging,Not charging,Full # don't use clean_unset because Not charging is a valid value. elsif ($file eq 'status'){ $value = lc($value); $value =~ s/unknown//; } } elsif ($b_root && -e $path && ! -r $path){ $value = main::message('root-required'); } $battery->{$id}{$file} = $value; # print "$battery->{$id}{$file}\n"; } # note, too few data sets, there could be sbs-charger but not sure if (!$battery->{$id}{'purpose'}){ # NOTE: known ids: BAT[0-9] CMB[0-9]. arm may be like: sbs- sbm- but just check # if the energy/charge values exist for this item, if so, it's a battery, if not, # it's a device. if ($id =~ /^(BAT|CMB).*$/i || ($battery->{$id}{'energy_full'} || $battery->{$id}{'charge_full'} || $battery->{$id}{'energy_now'} || $battery->{$id}{'charge_now'} || $battery->{$id}{'energy_full_design'} || $battery->{$id}{'charge_full_design'}) || $battery->{$id}{'voltage_min_design'} || $battery->{$id}{'voltage_now'}){ $battery->{$id}{'purpose'} = 'primary'; } else { $battery->{$id}{'purpose'} = 'device'; } } # note:voltage_now fluctuates, which will make capacity numbers change a bit # if any of these values failed, the math will be wrong, but no way to fix that # tests show more systems give right capacity/charge with voltage_min_design # than with voltage_now if ($b_ma && $battery->{$id}{'voltage_min_design'}){ if ($battery->{$id}{'charge_now'}){ $battery->{$id}{'energy_now'} = $battery->{$id}{'charge_now'} * $battery->{$id}{'voltage_min_design'}; } if ($battery->{$id}{'charge_full'}){ $battery->{$id}{'energy_full'} = $battery->{$id}{'charge_full'}*$battery->{$id}{'voltage_min_design'}; } if ($battery->{$id}{'charge_full_design'}){ $battery->{$id}{'energy_full_design'} = $battery->{$id}{'charge_full_design'} * $battery->{$id}{'voltage_min_design'}; } } if ($battery->{$id}{'energy_now'} && $battery->{$id}{'energy_full'}){ $battery->{$id}{'capacity'} = 100 * $battery->{$id}{'energy_now'}/$battery->{$id}{'energy_full'}; $battery->{$id}{'capacity'} = sprintf("%.1f", $battery->{$id}{'capacity'}); } if ($battery->{$id}{'energy_full_design'} && $battery->{$id}{'energy_full'}){ $battery->{$id}{'of_orig'} = 100 * $battery->{$id}{'energy_full'}/$battery->{$id}{'energy_full_design'}; $battery->{$id}{'of_orig'} = sprintf("%.1f", $battery->{$id}{'of_orig'}); } if ($battery->{$id}{'energy_now'}){ $battery->{$id}{'energy_now'} = sprintf("%.1f", $battery->{$id}{'energy_now'}); } if ($battery->{$id}{'energy_full_design'}){ $battery->{$id}{'energy_full_design'} = sprintf("%.1f",$battery->{$id}{'energy_full_design'}); } if ($battery->{$id}{'energy_full'}){ $battery->{$id}{'energy_full'} = sprintf("%.1f", $battery->{$id}{'energy_full'}); } } print Data::Dumper::Dumper $battery if $dbg[33]; main::log_data('dump','sys: %$battery',$battery) if $b_log; eval $end if $b_log; } sub battery_data_sysctl { eval $start if $b_log; my $battery = $_[0]; my ($id); for (@{$sysctl{'battery'}}){ if (/^(hw\.sensors\.)acpi([^\.]+)(\.|:)/){ $id = uc($2); } if (/volt[^:]+:([0-9\.]+)\s+VDC\s+\(voltage\)/){ $battery->{$id}{'voltage_min_design'} = $1; } elsif (/volt[^:]+:([0-9\.]+)\s+VDC\s+\(current voltage\)/){ $battery->{$id}{'voltage_now'} = $1; } elsif (/watthour[^:]+:([0-9\.]+)\s+Wh\s+\(design capacity\)/){ $battery->{$id}{'energy_full_design'} = $1; } elsif (/watthour[^:]+:([0-9\.]+)\s+Wh\s+\(last full capacity\)/){ $battery->{$id}{'energy_full'} = $1; } elsif (/watthour[^:]+:([0-9\.]+)\s+Wh\s+\(remaining capacity\)/){ $battery->{$id}{'energy_now'} = $1; } elsif (/amphour[^:]+:([0-9\.]+)\s+Ah\s+\(design capacity\)/){ $battery->{$id}{'charge_full_design'} = $1; } elsif (/amphour[^:]+:([0-9\.]+)\s+Ah\s+\(last full capacity\)/){ $battery->{$id}{'charge_full'} = $1; } elsif (/amphour[^:]+:([0-9\.]+)\s+Ah\s+\(remaining capacity\)/){ $battery->{$id}{'charge_now'} = $1; } elsif (/raw[^:]+:[0-9\.]+\s+\((battery) ([^\)]+)\)/){ $battery->{$id}{'status'} = $2; } elsif (/^acpi[\S]+:at [^:]+:\s*$id\s+/i){ if (/\s+model\s+(.*?)\s*/){ $battery->{$id}{'model_name'} = main::clean_dmi($1); } if (/\s*serial\s+([\S]*?)\s*/){ $battery->{$id}{'serial_number'} = main::clean_unset($1,'^(0x)0+$'); } if (/\s*type\s+(.*?)\s*/){ $battery->{$id}{'technology'} = $1; } if (/\s*oem\s+(.*)/){ $battery->{$id}{'manufacturer'} = main::clean_dmi($1); } } } # then do the condition/charge percent math for my $id (keys %$battery){ $battery->{$id}{'purpose'} = 'primary'; # CHARGE is Ah, which are converted to Wh by: Ah x voltage. if ($battery->{$id}{'voltage_min_design'}){ if ($battery->{$id}{'charge_now'}){ $battery->{$id}{'energy_now'} = $battery->{$id}{'charge_now'} * $battery->{$id}{'voltage_min_design'}; } if ($battery->{$id}{'charge_full'}){ $battery->{$id}{'energy_full'} = $battery->{$id}{'charge_full'}*$battery->{$id}{'voltage_min_design'}; } if ($battery->{$id}{'charge_full_design'}){ $battery->{$id}{'energy_full_design'} = $battery->{$id}{'charge_full_design'} * $battery->{$id}{'voltage_min_design'}; } } if ($battery->{$id}{'energy_full_design'} && $battery->{$id}{'energy_full'}){ $battery->{$id}{'of_orig'} = 100 * $battery->{$id}{'energy_full'}/$battery->{$id}{'energy_full_design'}; $battery->{$id}{'of_orig'} = sprintf("%.1f", $battery->{$id}{'of_orig'}); } if ($battery->{$id}{'energy_now'} && $battery->{$id}{'energy_full'}){ $battery->{$id}{'capacity'} = 100 * $battery->{$id}{'energy_now'}/$battery->{$id}{'energy_full'}; $battery->{$id}{'capacity'} = sprintf("%.1f", $battery->{$id}{'capacity'}); } if ($battery->{$id}{'energy_now'}){ $battery->{$id}{'energy_now'} = sprintf("%.1f", $battery->{$id}{'energy_now'}); } if ($battery->{$id}{'energy_full'}){ $battery->{$id}{'energy_full'} = sprintf("%.1f", $battery->{$id}{'energy_full'}); } if ($battery->{$id}{'energy_full_design'}){ $battery->{$id}{'energy_full_design'} = sprintf("%.1f", $battery->{$id}{'energy_full_design'}); } } print Data::Dumper::Dumper $battery if $dbg[33]; main::log_data('dump','dmi: %$battery',$battery) if $b_log; eval $end if $b_log; } # note, dmidecode does not have charge_now or charge_full sub battery_data_dmi { eval $start if $b_log; my $battery = $_[0]; my ($id); my $i = 0; foreach my $row (@dmi){ # Portable Battery if ($row->[0] == 22){ $id = "BAT$i"; $i++; $battery->{$id}{'purpose'} = 'primary'; # skip first three row, we don't need that data foreach my $item (@$row[3 .. $#$row]){ my @value = split(/:\s+/, $item); next if !$value[0]; if ($value[0] eq 'Location'){ $battery->{$id}{'location'} = $value[1]} elsif ($value[0] eq 'Manufacturer'){ $battery->{$id}{'manufacturer'} = main::clean_dmi($value[1])} elsif ($value[0] =~ /Chemistry/){ $battery->{$id}{'technology'} = $value[1]} elsif ($value[0] =~ /Serial Number/){ $battery->{$id}{'serial_number'} = $value[1]} elsif ($value[0] =~ /^Name/){ $battery->{$id}{'model_name'} = main::clean_dmi($value[1])} elsif ($value[0] eq 'Design Capacity'){ $value[1] =~ s/\s*mwh$//i; $battery->{$id}{'energy_full_design'} = sprintf("%.1f", $value[1]/1000); } elsif ($value[0] eq 'Design Voltage'){ $value[1] =~ s/\s*mv$//i; $battery->{$id}{'voltage_min_design'} = sprintf("%.1f", $value[1]/1000); } } if ($battery->{$id}{'energy_now'} && $battery->{$id}{'energy_full'}){ $battery->{$id}{'capacity'} = 100 * $battery->{$id}{'energy_now'} / $battery->{$id}{'energy_full'}; $battery->{$id}{'capacity'} = sprintf("%.1f%", $battery->{$id}{'capacity'}); } if ($battery->{$id}{'energy_full_design'} && $battery->{$id}{'energy_full'}){ $battery->{$id}{'of_orig'} = 100 * $battery->{$id}{'energy_full'} / $battery->{$id}{'energy_full_design'}; $battery->{$id}{'of_orig'} = sprintf("%.0f%", $battery->{$id}{'of_orig'}); } } elsif ($row->[0] > 22){ last; } } print Data::Dumper::Dumper $battery if $dbg[33]; main::log_data('dump','dmi: %$battery',$battery) if $b_log; eval $end if $b_log; } sub upower_data { my ($id) = @_; eval $start if $b_log; my $data = {}; if (!$b_upower && $upower){ @upower_items = main::grabber("$upower -e",'','strip'); $b_upower = 1; } if ($upower && @upower_items){ foreach (@upower_items){ if ($_ =~ /$id/){ my @working = main::grabber("$upower -i $_",'','strip'); foreach my $row (@working){ my @temp = split(/\s*:\s*/, $row); if ($temp[0] eq 'percentage'){ $data->{'percent'} = $temp[1]; } elsif ($temp[0] eq 'rechargeable'){ $data->{'rechargeable'} = $temp[1]; } } last; } } } main::log_data('dump','upower: %$data',$data) if $b_log; eval $end if $b_log; return $data; } } ## BluetoothItem { package BluetoothItem; my ($b_bluetooth,$b_hci_error,$b_hci,$b_rfk,$b_service); my ($service); my (%hci); sub get { eval $start if $b_log; my $rows = []; my $num = 0; if ($fake{'bluetooth'} || (@ps_cmd && (grep {m|/bluetoothd\b|} @ps_cmd))){ $b_bluetooth = 1; } # note: rapi 4 has pci bus if (%risc && !$use{'soc-bluetooth'} && !$use{'pci-tool'}){ # do nothing, but keep the test conditions to force # the non risc case to always run # my $key = 'Message'; # @$rows = ({ # main::key($num++,0,1,$key) => main::message('risc-pci',$risc{'id'}) # }); } else { device_output($rows); } usb_output($rows); if (!@$rows){ if ($show{'bluetooth-forced'}){ my $key = 'Message'; @$rows = ({main::key($num++,0,1,$key) => main::message('bluetooth-data')}); } } # if there are any unhandled hci items print them out if (%hci){ advanced_output($rows,'check',''); } eval $end if $b_log; return $rows; } sub device_output { eval $start if $b_log; return if !$devices{'bluetooth'}; my $rows = $_[0]; my ($bus_id); my ($j,$num) = (0,1); foreach my $row (@{$devices{'bluetooth'}}){ $num = 1; $bus_id = ''; $j = scalar @$rows; my $driver = ($row->[9]) ? $row->[9] : 'N/A'; my $device = $row->[4]; $device = ($device) ? main::clean_pci($device,'output') : 'N/A'; # have seen absurdly verbose card descriptions, with non related data etc if (length($device) > 85 || $size{'max-cols'} < 110){ $device = main::filter_pci_long($device); } push(@$rows, { main::key($num++,1,1,'Device') => $device, },); if ($extra > 0 && $use{'pci-tool'} && $row->[12]){ my $item = main::get_pci_vendor($row->[4],$row->[12]); $rows->[$j]{main::key($num++,0,2,'vendor')} = $item if $item; } $rows->[$j]{main::key($num++,1,2,'driver')} = $driver; if ($extra > 0 && $row->[9] && !$bsd_type){ my $version = main::get_module_version($row->[9]); $rows->[$j]{main::key($num++,0,3,'v')} = $version if $version; } if ($b_admin && $row->[10]){ $row->[10] = main::get_driver_modules($row->[9],$row->[10]); $rows->[$j]{main::key($num++,0,3,'alternate')} = $row->[10] if $row->[10]; } if ($extra > 0){ $bus_id = (!$row->[2] && !$row->[3]) ? 'N/A' : "$row->[2].$row->[3]"; if ($extra > 1 && $bus_id ne 'N/A'){ main::get_pcie_data($bus_id,$j,$rows,\$num); } $rows->[$j]{main::key($num++,0,2,'bus-ID')} = $bus_id; } if ($extra > 1){ my $chip_id = main::get_chip_id($row->[5],$row->[6]); $rows->[$j]{main::key($num++,0,2,'chip-ID')} = $chip_id; if ($extra > 2 && $row->[1]){ $rows->[$j]{main::key($num++,0,2,'class-ID')} = $row->[1]; } } # weird serial rpi bt if ($use{'soc-bluetooth'}){ # /sys/devices/platform/soc/fe201000.serial/ $bus_id = "$row->[6].$row->[1]" if defined $row->[1] && defined $row->[6]; } else { # only theoretical, never seen one $bus_id = "$row->[2].$row->[3]" if defined $row->[2] && defined $row->[3]; } advanced_output($rows,'pci',$bus_id) if $bus_id; # print "$row->[0]\n"; } eval $end if $b_log; } sub usb_output { eval $start if $b_log; return if !$usb{'bluetooth'}; my $rows = $_[0]; my ($path_id,$product); my ($j,$num) = (0,1); foreach my $row (@{$usb{'bluetooth'}}){ # print Data::Dumper::Dumper $row; $num = 1; $j = scalar @$rows; # makre sure to reset, or second device trips last flag ($path_id,$product) = ('',''); $product = main::clean($row->[13]) if $row->[13]; $product ||= 'N/A'; $row->[15] ||= 'N/A'; $path_id = $row->[2] if $row->[2]; push(@$rows, { main::key($num++,1,1,'Device') => $product, main::key($num++,1,2,'driver') => $row->[15], },); if ($extra > 0 && $row->[15] && !$bsd_type){ my $version = main::get_module_version($row->[15]); $rows->[$j]{main::key($num++,0,3,'v')} = $version if $version; } $rows->[$j]{main::key($num++,1,2,'type')} = 'USB'; if ($extra > 0){ if ($extra > 1){ $row->[8] ||= 'N/A'; $rows->[$j]{main::key($num++,0,3,'rev')} = $row->[8]; if ($row->[17]){ $rows->[$j]{main::key($num++,0,3,'speed')} = $row->[17]; } if ($row->[24]){ $rows->[$j]{main::key($num++,0,3,'lanes')} = $row->[24]; } if ($b_admin && $row->[22]){ $rows->[$j]{main::key($num++,0,3,'mode')} = $row->[22]; } } $rows->[$j]{main::key($num++,0,2,'bus-ID')} = "$path_id:$row->[1]"; if ($extra > 1){ $row->[7] ||= 'N/A'; $rows->[$j]{main::key($num++,0,2,'chip-ID')} = $row->[7]; } if ($extra > 2){ if (defined $row->[5] && $row->[5] ne ''){ $rows->[$j]{main::key($num++,0,2,'class-ID')} = "$row->[4]$row->[5]"; } if ($row->[16]){ $rows->[$j]{main::key($num++,0,2,'serial')} = main::filter($row->[16]); } } } advanced_output($rows,'usb',$path_id) if $path_id; } eval $end if $b_log; } sub advanced_output { eval $start if $b_log; my ($rows,$type,$bus_id) = @_; my (@temp); my ($j,$num,$k,$l,$m,$n,$address,$id,$note,$tool) = (0,1,2,3,4,5,'','','',''); set_bluetooth_data(\$tool); # print "bid: $bus_id\n"; if ($type ne 'check'){ @temp = main::globber('/sys/class/bluetooth/*'); @temp = map {$_ = Cwd::abs_path($_);$_} @temp if @temp; # print Data::Dumper::Dumper \@temp; @temp = grep {/$bus_id/} @temp if @temp; @temp = map {$_ =~ s|^/.*/||;$_;} @temp if @temp; # print Data::Dumper::Dumper \@temp; } elsif ($type eq 'check' && %hci){ @temp = keys %hci; $id = '-ID'; ($k,$l,$m,$n) = (1,2,3,4); } if (@temp && %hci){ if ($hci{'alert'}){ if (keys %hci == 1){ check_service(); # sets $service $j = scalar @$rows; $rows->[$j]{main::key($num++,1,$k,'Report')} = $tool; $rows->[$j]{main::key($num++,0,$l,'bt-service')} = $service; $rows->[$j]{main::key($num++,0,$l,'note')} = $hci{'alert'}; } else { $note = $hci{'alert'}; } delete $hci{'alert'}; } foreach my $item (@temp){ if ($hci{$item}){ $j = scalar @$rows; push(@$rows,{ main::key($num++,1,$k,'Report' . $id) => $tool, },); if ($note){ $rows->[$j]{main::key($num++,0,$l,'note')} = $note; } # synthesize for rfkill if (!$hci{$item}->{'state'}){ $hci{$item}->{'state'} = ($b_bluetooth) ? 'up' : 'down'; } $rows->[$j]{main::key($num++,0,$l,'ID')} = $item; if (defined $hci{$item}->{'rf-index'} && ($extra > 0 || $hci{$item}->{'state'} eq 'down')){ $rows->[$j]{main::key($num++,0,$m,'rfk-id')} = $hci{$item}->{'rf-index'}; } $rows->[$j]{main::key($num++,1,$l,'state')} = $hci{$item}->{'state'}; # this only appears for hciconfig, bt-adapter does not run without bt service if (!$b_bluetooth || $hci{$item}->{'state'} eq 'down'){ if (!$b_bluetooth || $hci{$item}->{'state'} eq 'down'){ check_service(); # sets $service $rows->[$j]{main::key($num++,0,$m,'bt-service')} = $service; } if ($hci{$item}->{'hard-blocked'}){ $rows->[$j]{main::key($num++,1,$m,'rfk-block')} = ''; $rows->[$j]{main::key($num++,0,$n,'hardware')} = $hci{$item}->{'hard-blocked'}; $rows->[$j]{main::key($num++,0,$n,'software')} = $hci{$item}->{'soft-blocked'}; } } if (!$hci{$item}->{'address'} && $tool eq 'rfkill'){ $address = main::message('recommends'); } else { $address = main::filter($hci{$item}->{'address'}); } $rows->[$j]{main::key($num++,0,$l,'address')} = $address; # lmp/hci version only hciconfig if ($hci{$item}->{'bt-version'}){ $rows->[$j]{main::key($num++,0,$l,'bt-v')} = $hci{$item}->{'bt-version'}; } if ($extra > 0 && defined $hci{$item}->{'lmp-version'}){ $rows->[$j]{main::key($num++,0,$l,'lmp-v')} = $hci{$item}->{'lmp-version'}; if ($extra > 1 && $hci{$item}->{'lmp-subversion'}){ $rows->[$j]{main::key($num++,0,$m,'sub-v')} = $hci{$item}->{'lmp-subversion'}; } } if ($extra > 0 && defined $hci{$item}->{'hci-version'} && ($extra > 2 || !$hci{$item}->{'lmp-version'} || ($hci{$item}->{'lmp-version'} && $hci{$item}->{'lmp-version'} ne $hci{$item}->{'hci-version'}))){ $rows->[$j]{main::key($num++,0,$l,'hci-v')} = $hci{$item}->{'hci-version'}; if ($extra > 1 && $hci{$item}->{'hci-revision'}){ $rows->[$j]{main::key($num++,0,$m,'rev')} = $hci{$item}->{'hci-revision'}; } } if ($b_admin && ($hci{$item}->{'discoverable'} || $hci{$item}->{'pairable'})){ $rows->[$j]{main::key($num++,1,$l,'status')} = ''; if ($hci{$item}->{'discoverable'}){ $rows->[$j]{main::key($num++,1,$m,'discoverable')} = $hci{$item}->{'discoverable'}; if ($hci{$item}->{'discovering'}){ $rows->[$j]{main::key($num++,1,$n,'active')} = $hci{$item}->{'discovering'}; } } if ($hci{$item}->{'pairable'}){ $rows->[$j]{main::key($num++,0,$m,'pairing')} = $hci{$item}->{'pairable'}; } } if ($extra > 2 && $hci{$item}->{'class'}){ $rows->[$j]{main::key($num++,0,$l,'class-ID')} = $hci{$item}->{'class'}; } # this data only from hciconfig if ($b_admin && ($hci{$item}->{'acl-mtu'} || $hci{$item}->{'sco-mtu'} || $hci{$item}->{'link-policy'})){ $j = scalar @$rows; push(@$rows,{ main::key($num++,1,$l,'Info') => '', },); if ($hci{$item}->{'acl-mtu'}){ $rows->[$j]{main::key($num++,0,$m,'acl-mtu')} = $hci{$item}->{'acl-mtu'}; } if ($hci{$item}->{'sco-mtu'}){ $rows->[$j]{main::key($num++,0,$m,'sco-mtu')} = $hci{$item}->{'sco-mtu'}; } if ($hci{$item}->{'link-policy'}){ $rows->[$j]{main::key($num++,0,$m,'link-policy')} = $hci{$item}->{'link-policy'}; } if ($hci{$item}->{'link-mode'}){ $rows->[$j]{main::key($num++,0,$m,'link-mode')} = $hci{$item}->{'link-mode'}; } if ($hci{$item}->{'service-classes'}){ $rows->[$j]{main::key($num++,0,$m,'service-classes')} = $hci{$item}->{'service-classes'}; } } delete $hci{$item}; } } } # since $rows is ref, we need to just check if no $j were set. if (!$j && !$b_hci_error && ($alerts{'hciconfig'}->{'action'} ne 'use' && $alerts{'bt-adapter'}->{'action'} ne 'use' && $alerts{'btmgmt'}->{'action'} ne 'use')){ my $key = 'Report'; my $value = ''; if ($alerts{'hciconfig'}->{'action'} eq 'platform' || $alerts{'bt-adapter'}->{'action'} eq 'platform' || $alerts{'btmgmt'}->{'action'} eq 'platform'){ $value = main::message('tool-missing-os','bluetooth'); } else { $value = main::message('tools-missing','hciconfig/bt-adapter'); } push(@$rows,{ main::key($num++,0,1,$key) => $value, },); $b_hci_error = 1; } eval $end if $b_log; } # note: echo 'show' | bluetoothctl outputs everything but hciX ID, and is fast # args: 0: $tool, by ref sub set_bluetooth_data { eval $start if $b_log; if (!$b_hci && !$force{'bt-adapter'} && !$force{'btmgmt'} && !$force{'rfkill'} && ($fake{'bluetooth'} || $alerts{'hciconfig'}->{'action'} eq 'use')){ hciconfig_data(); ${$_[0]} = 'hciconfig'; } elsif (!$b_hci && !$force{'rfkill'} && !$force{'bt-adapter'} && ($fake{'bluetooth'} || $alerts{'btmgmt'}->{'action'} eq 'use')){ btmgmt_data(); ${$_[0]} = 'btmgmt'; } elsif (!$b_hci && !$force{'rfkill'} && ($fake{'bluetooth'} || $alerts{'bt-adapter'}->{'action'} eq 'use')){ bt_adapter_data(); ${$_[0]} = 'bt-adapter'; } if (!$b_rfk && ($fake{'bluetooth'} || -e '/sys/class/bluetooth/')){ rfkill_data(); ${$_[0]} = 'rfkill' if !${$_[0]}; } eval $end if $b_log; } sub bt_adapter_data { eval $start if $b_log; $b_hci = 1; my (@data,$id); if ($fake{'bluetooth'}){ my $file; $file = ""; @data = main::reader($file,'strip'); } else { if ($b_bluetooth){ my $cmd = "$alerts{'bt-adapter'}->{'path'} --info 2>/dev/null"; @data = main::grabber($cmd,'','strip'); } } # print Data::Dumper::Dumper \@data; main::log_data('dump','@data', \@data) if $b_log; foreach (@data){ my @working = split(/:\s*/,$_); # print Data::Dumper::Dumper \@working; next if ! @working; if ($working[0] =~ /^\[([^\]]+)\]/){ $id = $1; } elsif ($working[0] eq 'Address'){ $hci{$id}->{'address'} = join(':',@working[1 .. $#working]); } elsif ($working[0] eq 'Class' && $working[1] =~ /^0x0*(\S+)/){ $hci{$id}->{'class'} = $1; } elsif ($working[0] eq 'Powered'){ $hci{$id}->{'state'} = ($working[1] =~ /^(1|yes)\b/) ? 'up': 'down'; } elsif ($working[0] eq 'Discoverable'){ $hci{$id}->{'discoverable'} = ($working[1] =~ /^(1|yes)\b/) ? 'yes': 'no'; } elsif ($working[0] eq 'Pairable'){ $hci{$id}->{'pairable'} = ($working[1] =~ /^(1|yes)\b/) ? 'yes': 'no'; } elsif ($working[0] eq 'Discovering'){ $hci{$id}->{'discovering'} = ($working[1] =~ /^(1|yes)\b/) ? 'yes': 'no'; } } if (!@data && !$b_bluetooth){ $hci{'alert'} = main::message('bluetooth-down'); } print 'bt-adapter: ', Data::Dumper::Dumper \%hci if $dbg[27]; main::log_data('dump','%hci', \%hci) if $b_log; eval $end if $b_log; } sub btmgmt_data { eval $start if $b_log; $b_hci = 1; my (@data,$id); if ($fake{'bluetooth'}){ my $file; $file = "$ENV{'HOME'}/bin/scripts/inxi/data/bluetooth/btmgmt-2.txt"; @data = main::reader($file,'strip'); } else { if ($b_bluetooth){ my $cmd = "$alerts{'btmgmt'}->{'path'} info 2>/dev/null"; @data = main::grabber($cmd,'', 'strip'); } } # print Data::Dumper::Dumper \@data; main::log_data('dump','@data', \@data) if $b_log; foreach (@data){ next if /^Index list/; if (/^(hci[0-9]+):\s+/){ $id = $1; } # addr 4C:F3:72:9C:B4:D3 version 6 manufacturer 15 class 0x000104 elsif (/^addr\s+([0-9A-F:]+)\s+version\s+([0-9]+)\s/){ $hci{$id}->{'address'} = $1; $hci{$id}->{'lmp-version'} = $2; # assume non hex integer $hci{$id}->{'bt-version'} = bluetooth_version($2); if (/ class\s+0x0*(\S+)\b/){ $hci{$id}->{'class'} = $1; } } elsif (/^current settings:\s+(.*)/){ my $settings = $1; $hci{$id}->{'state'} = ($settings =~ /\bpowered\b/) ? 'up' : 'down'; $hci{$id}->{'discoverable'} = ($settings =~ /\bdiscoverable\b/) ? 'yes' : 'no'; $hci{$id}->{'pairable'} = ($settings =~ /\bconnectable\b/) ? 'yes' : 'no'; } } print 'btmgmt: ', Data::Dumper::Dumper \%hci if $dbg[27]; main::log_data('dump','%hci', \%hci) if $b_log; eval $end if $b_log; } sub hciconfig_data { eval $start if $b_log; $b_hci = 1; my (@data,$id); if ($fake{'bluetooth'}){ my $file; $file = "$ENV{'HOME'}/bin/scripts/inxi/data/bluetooth/hciconfig-a-2.txt"; @data = main::reader($file,'strip'); } else { my $cmd = "$alerts{'hciconfig'}->{'path'} -a 2>/dev/null"; @data = main::grabber($cmd,'', 'strip'); } # print Data::Dumper::Dumper \@data; main::log_data('dump','@data', \@data) if $b_log; foreach (@data){ if (/^(hci[0-9]+):\s+Type:\s+(.*)\s+Bus:\s+([\S]+)/){ $id = $1; $hci{$id} = { 'type'=> $2, 'bus' => $3, }; } elsif (/^BD Address:\s+([0-9A-F:]*)\s+ACL\s+MTU:\s+([0-9:]+)\s+SCO MTU:\s+([0-9:]+)/){ $hci{$id}->{'address'} = $1; $hci{$id}->{'acl-mtu'} = $2; $hci{$id}->{'sco-mtu'} = $3; } elsif (/^(UP|DOWN).*/){ $hci{$id}->{'state'} = lc($1); } elsif (/^Class:\s+0x0*(\S+)/){ $hci{$id}->{'class'} = $1; } # HCI Version: 4.0 (0x6) Revision: 0x1000 # HCI Version: 6.6 Revision: 0x1000 [don't know if this exists] # HCI Version: (0x7) Revision: 0x3101 elsif (/^HCI Version:\s+(([0-9\.]+)\s+)?\(0x([0-9a-f]+)\)\s+Revision:\s+0x([0-9a-f]+)/i){ $hci{$id}->{'hci-revision'} = $4; if (defined $3){ $hci{$id}->{'bt-version'} = bluetooth_version(hex($3)); $hci{$id}->{'hci-version'} = hex($3); $hci{$id}->{'hci-version-hex'} = $3; } } # LMP Version: 4.0 (0x6) Subversion: 0x220e # LMP Version: 6.6 Revision: 0x1000 [don't know if this exists] # LMP Version: (0x7) Subversion: 0x1 elsif (/^LMP Version:\s+(([0-9\.]+)\s+)?\(0x([0-9a-f]+)\)\s+Subversion:\s+0x([0-9a-f]+)/i){ $hci{$id}->{'lmp-subversion'} = $4; $hci{$id}->{'bt-version'} = bluetooth_version(hex($3)); $hci{$id}->{'lmp-version'} = hex($3); $hci{$id}->{'lmp-version-hex'} = $3; } elsif (/^Link policy:\s+(.*)/){ $hci{$id}->{'link-policy'} = lc($1); } elsif (/^Link mode:\s+(.*)/){ $hci{$id}->{'link-mode'} = lc($1); } elsif (/^Service Classes?:\s+(.+)/){ $hci{$id}->{'service-classes'} = main::clean_unset(lc($1)); } } print 'hciconfig: ', Data::Dumper::Dumper \%hci if $dbg[27]; main::log_data('dump','%hci', \%hci) if $b_log; eval $end if $b_log; } sub rfkill_data { eval $start if $b_log; $b_rfk = 1; my (@data,$id,$value); if ($fake{'bluetooth'}){ my $file; $file = ""; @data = main::reader($file,'strip'); } else { # /state is the state of rfkill, NOT bluetooth! @data = main::globber('/sys/class/bluetooth/hci*/rfkill*/{hard,index,soft}'); } # print Data::Dumper::Dumper \@data; main::log_data('dump','@data', \@data) if $b_log; foreach (@data){ $id = (split(/\//,$_))[4]; if (m|/soft$|){ $value = main::reader($_,'strip',0); $hci{$id}->{'soft-blocked'} = ($value) ? 'yes': 'no'; $hci{$id}->{'state'} = 'down' if $hci{$id}->{'soft-blocked'} eq 'yes'; } elsif (m|/hard$|){ $value = main::reader($_,'strip',0); $hci{$id}->{'hard-blocked'} = ($value) ? 'yes': 'no'; $hci{$id}->{'state'} = 'down' if $hci{$id}->{'hard-blocked'} eq 'yes'; } elsif (m|/index$|){ $value = main::reader($_,'strip',0); $hci{$id}->{'rf-index'} = $value; } } print 'rfkill: ', Data::Dumper::Dumper \%hci if $dbg[27]; main::log_data('dump','%hci', \%hci) if $b_log; eval $end if $b_log; } sub check_service { eval $start if $b_log; if (!$b_service){ $service = ServiceData::get('status','bluetooth'); $service ||= 'N/A'; $b_service = 1; } eval $end if $b_log; } # args: 0: lmp versoin - could be hex, but probably decimal, like 6.6 sub bluetooth_version { eval $start if $b_log; my ($lmp) = @_; return if !defined $lmp; return if !main::is_numeric($lmp); $lmp = int($lmp); # Conveniently, LMP starts with 0, so perfect for array indexes. # 6.0 is coming, but might be 5.5 first, nobody knows. my @bt = qw(1.0b 1.1 1.2 2.0 2.1 3.0 4.0 4.1 4.2 5.0 5.1 5.2 5.3 5.4); return $bt[$lmp]; eval $end if $b_log; } } ## CpuItem { package CpuItem; my ($type); sub get { eval $start if $b_log; ($type) = @_; my $rows = []; if ($type eq 'short' || $type eq 'basic'){ # note, for short form, just return the raw data, not the processed output my $cpu = short_data(); if ($type eq 'basic'){ short_output($rows,$cpu); } else { $rows = $cpu; } } else { full_output($rows); } eval $end if $b_log; return $rows; } ## OUTPUT HANDLERS ## sub full_output { eval $start if $b_log; my $rows = $_[0]; my $num = 0; my ($b_speeds,$core_speeds_value,$cpu); my $sleep = $cpu_sleep * 1000000; if (my $file = $system_files{'proc-cpuinfo'}){ $cpu = cpuinfo_data($file); } elsif ($bsd_type){ my ($key1,$val1) = ('',''); if ($alerts{'sysctl'}){ if ($alerts{'sysctl'}->{'action'} eq 'use'){ # $key1 = 'Status'; # $val1 = main::message('dev'); $cpu = sysctl_data(); } else { $key1 = ucfirst($alerts{'sysctl'}->{'action'}); $val1 = $alerts{'sysctl'}->{'message'}; @$rows = ({main::key($num++,0,1,$key1) => $val1}); return; } } } my $properties = cpu_properties($cpu); my $type = ($properties->{'cpu-type'}) ? $properties->{'cpu-type'}: ''; my $j = scalar @$rows; $cpu->{'model_name'} ||= 'N/A'; push(@$rows, { main::key($num++,1,1,'Info') => $properties->{'topology-string'}, main::key($num++,0,2,'model') => $cpu->{'model_name'}, },); if ($cpu->{'system-cpus'}){ my %system_cpus = %{$cpu->{'system-cpus'}}; my $i = 1; my $counter = (%system_cpus && scalar keys %system_cpus > 1) ? '-' : ''; foreach my $key (keys %system_cpus){ $counter = '-' . $i++ if $counter; $rows->[$j]{main::key($num++,0,2,'variant'.$counter)} = $key; } } if ($b_admin && $properties->{'socket'}){ if ($properties->{'upgrade'}){ $rows->[$j]{main::key($num++,1,2,'socket')} = $properties->{'socket'} . ' (' . $properties->{'upgrade'} . ')'; $rows->[$j]{main::key($num++,0,3,'note')} = main::message('note-check'); } else { $rows->[$j]{main::key($num++,0,2,'socket')} = $properties->{'socket'}; } } $properties->{'bits-sys'} ||= 'N/A'; $rows->[$j]{main::key($num++,0,2,'bits')} = $properties->{'bits-sys'}; if ($type){ $rows->[$j]{main::key($num++,0,2,'type')} = $type; if (!$properties->{'topology-full'} && $cpu->{'smt'} && ($extra > 2 || ($extra > 0 && $cpu->{'smt'} eq 'disabled'))){ $rows->[$j]{main::key($num++,0,2,'smt')} = $cpu->{'smt'}; } } if ($extra > 0){ $cpu->{'arch'} ||= 'N/A'; $rows->[$j]{main::key($num++,1,2,'arch')} = $cpu->{'arch'}; if ($cpu->{'arch-note'}){ $rows->[$j]{main::key($num++,0,3,'note')} = $cpu->{'arch-note'}; } if ($b_admin && $cpu->{'gen'}){ $rows->[$j]{main::key($num++,0,3,'gen')} = $cpu->{'gen'}; } if ($b_admin && $properties->{'arch-level'}){ $rows->[$j]{main::key($num++,1,2,'level')} = $properties->{'arch-level'}[0]; if ($properties->{'arch-level'}[1]){ $rows->[$j]{main::key($num++,0,3,'note')} = $properties->{'arch-level'}[1]; } } if ($b_admin){ if ($cpu->{'year'}){ $rows->[$j]{main::key($num++,0,2,'built')} = $cpu->{'year'}; } if ($cpu->{'process'}){ $rows->[$j]{main::key($num++,0,2,'process')} = $cpu->{'process'}; } } # note: had if arch, but stepping can be defined where arch failed, stepping can be 0 if (!$b_admin && (defined $cpu->{'stepping'} || defined $cpu->{'revision'})){ my $rev = main::get_defined($cpu->{'stepping'},$cpu->{'revision'}); $rows->[$j]{main::key($num++,0,2,'rev')} = $rev; } } if ($b_admin){ $rows->[$j]{main::key($num++,0,2,'family')} = hex_and_decimal($cpu->{'family'}); $rows->[$j]{main::key($num++,0,2,'model-id')} = hex_and_decimal($cpu->{'model-id'}); if (defined $cpu->{'stepping'}){ $rows->[$j]{main::key($num++,0,2,'stepping')} = hex_and_decimal($cpu->{'stepping'}); } elsif (defined $cpu->{'revision'}){ $rows->[$j]{main::key($num++,0,2,'rev')} = $cpu->{'revision'}; } if (!%risc && $cpu->{'type'} ne 'elbrus'){ $cpu->{'microcode'} = ($cpu->{'microcode'}) ? '0x' . $cpu->{'microcode'} : 'N/A'; $rows->[$j]{main::key($num++,0,2,'microcode')} = $cpu->{'microcode'}; } } # note, risc cpus are using l1, L2, L3 more often, but if risc and no L2, skip if ($properties->{'topology-string'} && (($extra > 1 && ($properties->{'l1-cache'} || $properties->{'l3-cache'})) || (!%risc || $properties->{'l2-cache'}) || $properties->{'cache'})){ full_output_caches($j,$properties,\$num,$rows); } # all tests already done to load this, admin, etc if ($properties->{'topology-full'}){ $j = scalar @$rows; push(@$rows, { main::key($num++,1,1,'Topology') => '', },); my ($id,$var) = (2,''); if (scalar @{$properties->{'topology-full'}} > 1){ $var = 'variant'; $id = 3; } foreach my $topo (@{$properties->{'topology-full'}}){ if ($var){ $rows->[$j]{main::key($num++,1,2,'variant')} = ''; } my $x = ($size{'max-cols'} == 1 || $output_type ne 'screen') ? '' : 'x'; $rows->[$j]{main::key($num++,0,$id,'cpus')} = $topo->{'cpus'} . $x; $rows->[$j]{main::key($num++,1,$id+1,'cores')} = $topo->{'cores'}; if ($topo->{'cores-mt'} && $topo->{'cores-st'}){ $rows->[$j]{main::key($num++,1,$id+2,'mt')} = $topo->{'cores-mt'}; $rows->[$j]{main::key($num++,0,$id+3,'tpc')} = $topo->{'tpc'}; $rows->[$j]{main::key($num++,0,$id+2,'st')} = $topo->{'cores-st'}; } elsif ($topo->{'cores-mt'}){ $rows->[$j]{main::key($num++,0,$id+2,'tpc')} = $topo->{'tpc'}; } if ($topo->{'max'} || $topo->{'min'}){ my ($freq,$key) = ('',''); if ($topo->{'max'} && $topo->{'min'}){ $key = 'min/max'; $freq = $topo->{'min'} . '/' . $topo->{'max'}; } elsif ($topo->{'max'}){ $key = 'max'; $freq = $topo->{'max'}; } else { $key = 'min'; $freq = $topo->{'min'}; } $rows->[$j]{main::key($num++,0,$id+1,$key)} = $freq; } if ($topo->{'threads'}){ $rows->[$j]{main::key($num++,0,$id+1,'threads')} = $topo->{'threads'}; } if ($topo->{'dies'}){ $rows->[$j]{main::key($num++,0,$id+1,'dies')} = $topo->{'dies'}; } } $cpu->{'smt'} ||= 'N/A'; $rows->[$j]{main::key($num++,0,2,'smt')} = $cpu->{'smt'}; full_output_caches($j,$properties,\$num,$rows); } my $speeds = $cpu->{'processors'}; my $core_key = (defined $speeds && scalar @{$speeds} > 1) ? 'cores' : 'core'; my $speed_key = ($properties->{'speed-key'}) ? $properties->{'speed-key'}: 'Speed'; my $min_max = ($properties->{'min-max'}) ? $properties->{'min-max'}: 'N/A'; my $min_max_key = ($properties->{'min-max-key'}) ? $properties->{'min-max-key'}: 'min/max'; my $speed = ''; if (!$properties->{'avg-speed-key'}){ $speed = (defined $properties->{'speed'}) ? $properties->{'speed'}: 'N/A'; } # Aren't able to get per core speeds in BSDs. Why don't they support this? if (defined $speeds && @$speeds){ # only if defined and not 0 if (grep {$_} @{$speeds}){ $core_speeds_value = ''; $b_speeds = 1; } else { my $id = ($bsd_type) ? 'cpu-speeds-bsd' : 'cpu-speeds'; $core_speeds_value = main::message($id); } } else { $core_speeds_value = main::message('cpu-speeds'); } $j = scalar @$rows; push(@$rows, { main::key($num++,1,1,$speed_key) => $speed, }); if ($properties->{'avg-speed-key'}){ $rows->[$j]{main::key($num++,0,2,$properties->{'avg-speed-key'})} = $properties->{'speed'}; if ($extra > 0 && $properties->{'high-speed-key'}){ $rows->[$j]{main::key($num++,0,2,$properties->{'high-speed-key'})} = $cpu->{'high-freq'}; } } $rows->[$j]{main::key($num++,0,2,$min_max_key)} = $min_max; if ($extra > 0 && defined $cpu->{'boost'}){ $rows->[$j]{main::key($num++,0,2,'boost')} = $cpu->{'boost'}; } if ($b_admin && $properties->{'dmi-speed'} && $properties->{'dmi-max-speed'}){ $rows->[$j]{main::key($num++,0,2,'base/boost')} = $properties->{'dmi-speed'} . '/' . $properties->{'dmi-max-speed'}; } if ($b_admin && ($cpu->{'governor'} || $cpu->{'scaling-driver'})){ $rows->[$j]{main::key($num++,1,2,'scaling')} = ''; $cpu->{'driver'} ||= 'N/A'; $rows->[$j]{main::key($num++,0,3,'driver')} = $cpu->{'scaling-driver'}; $cpu->{'governor'} ||= 'N/A'; $rows->[$j]{main::key($num++,0,3,'governor')} = $cpu->{'governor'}; # only set if different from cpu min/max if ($cpu->{'scaling-min-max'} && $cpu->{'scaling-min-max-key'}){ $rows->[$j]{main::key($num++,0,3,$cpu->{'scaling-min-max-key'})} = $cpu->{'scaling-min-max'}; } } if ($extra > 2){ if ($properties->{'volts'}){ $rows->[$j]{main::key($num++,0,2,'volts')} = $properties->{'volts'} . ' V'; } if ($properties->{'ext-clock'}){ $rows->[$j]{main::key($num++,0,2,'ext-clock')} = $properties->{'ext-clock'}; } } $rows->[$j]{main::key($num++,1,2,$core_key)} = $core_speeds_value; my $i = 1; # if say 96 0 speed cores, no need to print all those 0s if ($b_speeds){ foreach (@{$speeds}){ $rows->[$j]{main::key($num++,0,3,$i++)} = $_; } } if ($extra > 0 && !$bsd_type){ my $bogomips = ($cpu->{'bogomips'} && main::is_numeric($cpu->{'bogomips'})) ? int($cpu->{'bogomips'}) : 'N/A'; $rows->[$j]{main::key($num++,0,2,'bogomips')} = $bogomips; } if (($extra > 0 && !$show{'cpu-flag'}) || $show{'cpu-flag'}){ my @flags = ($cpu->{'flags'}) ? split(/\s+/, $cpu->{'flags'}) : (); my $flag_key = (%risc || $bsd_type) ? 'Features': 'Flags'; my $flag = 'N/A'; if (!$show{'cpu-flag'}){ if (@flags){ # failure to read dmesg.boot: dmesg.boot permissions; then short -Cx list flags @flags = grep {/^(dmesg.boot|permissions|avx[2-9]?|ht|lm|nx|pae|pni|(sss|ss)e([2-9])?([a-z])?(_[0-9])?|svm|vmx)$/} @flags; @flags = map {s/pni/sse3/; $_} @flags if @flags; @flags = sort @flags; } # only ARM has Features, never seen them for MIPS/PPC/SPARC/RISCV, but check if ($risc{'arm'} && $flag eq 'N/A'){ $flag = main::message('arm-cpu-f'); } } if (@flags){ @flags = sort @flags; $flag = join(' ', @flags); } push(@$rows, { main::key($num++,0,1,$flag_key) => $flag, },); } if ($b_admin){ my $value = ''; if (!defined $cpu->{'bugs-hash'}){ if ($cpu->{'bugs-string'}){ my @proc_bugs = split(/\s+/, $cpu->{'bugs-string'}); @proc_bugs = sort @proc_bugs; $value = join(' ', @proc_bugs); } else { $value = main::message('cpu-bugs-null'); } } if ($use{'filter-vulnerabilities'} && (defined $cpu->{'bugs-hash'} || $cpu->{'bugs-string'})){ $value = $filter_string; undef $cpu->{'bugs-hash'}; } push(@$rows, { main::key($num++,1,1,'Vulnerabilities') => $value, },); if (defined $cpu->{'bugs-hash'}){ $j = scalar @$rows; foreach my $key (sort keys %{$cpu->{'bugs-hash'}}){ $rows->[$j]{main::key($num++,1,2,'Type')} = $key; $rows->[$j]{main::key($num++,0,3,$cpu->{'bugs-hash'}->{$key}[0])} = $cpu->{'bugs-hash'}->{$key}[1]; $j++; } } } eval $end if $b_log; } # $num, $rows passed by reference sub full_output_caches { eval $start if $b_log; my ($j,$properties,$num,$rows) = @_; my $value = ''; if (!$properties->{'l1-cache'} && !$properties->{'l2-cache'} && !$properties->{'l3-cache'}){ $value = ($properties->{'cache'}) ? $properties->{'cache'} : 'N/A'; } $rows->[$j]{main::key($$num++,1,2,'cache')} = $value; if ($extra > 0 && $properties->{'l1-cache'}){ $rows->[$j]{main::key($$num++,2,3,'L1')} = $properties->{'l1-cache'}; if ($b_admin && ($properties->{'l1d-desc'} || $properties->{'l1i-desc'})){ my $desc = ''; if ($properties->{'l1d-desc'}){ $desc .= 'd-' . $properties->{'l1d-desc'}; } if ($properties->{'l1i-desc'}){ $desc .= '; ' if $desc; $desc .= 'i-' . $properties->{'l1i-desc'}; } $rows->[$j]{main::key($$num++,0,4,'desc')} = $desc; } } # $rows->[$j]{main::key($$num++,1,$l,$key)} = $support; if (!$value){ $properties->{'l2-cache'} = ($properties->{'l2-cache'}) ? $properties->{'l2-cache'} : 'N/A'; $rows->[$j]{main::key($$num++,1,3,'L2')} = $properties->{'l2-cache'}; if ($b_admin && $properties->{'l2-desc'}){ $rows->[$j]{main::key($$num++,0,4,'desc')} = $properties->{'l2-desc'}; } } if ($extra > 0 && $properties->{'l3-cache'}){ $rows->[$j]{main::key($$num++,1,3,'L3')} = $properties->{'l3-cache'}; if ($b_admin && $properties->{'l3-desc'}){ $rows->[$j]{main::key($$num++,0,4,'desc')} = $properties->{'l3-desc'}; } } if ($properties->{'cache-check'}){ $rows->[$j]{main::key($$num++,0,3,'note')} = $properties->{'cache-check'}; } eval $end if $b_log; } sub short_output { eval $start if $b_log; my ($rows,$cpu) = @_; my $num = 0; $cpu->[1] ||= main::message('cpu-model-null'); $cpu->[2] ||= 'N/A'; push(@$rows,{ main::key($num++,1,1,'Info') => $cpu->[0] . ' ' . $cpu->[1] . ' [' . $cpu->[2] . ']' #main::key($num++,0,2,'type') => $cpu->[2], }); if ($extra > 0){ $rows->[0]{main::key($num++,1,2,'arch')} = $cpu->[8]; if ($cpu->[9]){ $rows->[0]{main::key($num++,0,3,'note')} = $cpu->[9]; } } my $value = ($cpu->[7]) ? '' : $cpu->[4]; $rows->[0]{main::key($num++,1,2,$cpu->[3])} = $value; if ($cpu->[7]){ $rows->[0]{main::key($num++,0,3,$cpu->[7])} = $cpu->[4]; } if ($cpu->[6]){ $rows->[0]{main::key($num++,0,3,$cpu->[5])} = $cpu->[6]; } eval $end if $b_log; } ## SHORT OUTPUT DATA ## sub short_data { eval $start if $b_log; my $num = 0; my ($cpu,$data,%speeds); my $sys = '/sys/devices/system/cpu/cpufreq/policy0'; # NOTE: : Permission denied, ie, this is not always readable # /sys/devices/system/cpu/cpu0/cpufreq/cpuinfo_cur_freq if (my $file = $system_files{'proc-cpuinfo'}){ $cpu = cpuinfo_data($file); } elsif ($bsd_type){ my ($key1,$val1) = ('',''); if ($alerts{'sysctl'}){ if ($alerts{'sysctl'}->{'action'} eq 'use'){ # $key1 = 'Status'; # $val1 = main::message('dev'); $cpu = sysctl_data($type); } else { $key1 = ucfirst($alerts{'sysctl'}->{'action'}); $val1 = $alerts{'sysctl'}->{'message'}; $data = ({main::key($num++,0,1,$key1) => $val1,}); return $data; } } } # $cpu{'cur-freq'} = $cpu[0]->{'core-id'}[0]{'speed'}; $data = prep_short_data($cpu); eval $end if $b_log; return $data; } sub prep_short_data { eval $start if $b_log; my ($cpu_data) = @_; my $properties = cpu_properties($cpu_data); my ($cpu,$speed_key,$speed,$type) = ('','speed',0,''); $cpu = $cpu_data->{'model_name'} if $cpu_data->{'model_name'}; $type = $properties->{'cpu-type'} if $properties->{'cpu-type'}; $speed_key = $properties->{'speed-key'} if $properties->{'speed-key'}; $speed = $properties->{'speed'} if $properties->{'speed'}; my $result = [ $properties->{'topology-string'}, $cpu, $type, $speed_key, $speed, $properties->{'min-max-key'}, $properties->{'min-max'}, $properties->{'avg-speed-key'}, ]; if ($extra > 0){ $cpu_data->{'arch'} ||= 'N/A'; $result->[8] = $cpu_data->{'arch'}; $result->[9] = $cpu_data->{'arch-note'}; } eval $end if $b_log; return $result; } ## PRIMARY DATA GENERATORS ## sub cpuinfo_data { eval $start if $b_log; my ($file)= @_; my ($cpu,$arch,$note,$temp); # has to be set above fake cpu section set_cpu_data(\$cpu); # sleep is also set in front of sysctl_data for BSDs, same idea my $sleep = $cpu_sleep * 1000000; if ($b_hires){ eval 'Time::HiRes::usleep($sleep)'; } else { select(undef, undef, undef, $cpu_sleep); } # Run this logic first to make sure we get the speeds as raw as possible. # Not in function to avoid unnecessary cpu use, we have slept right before. # ARM and legacy systems etc do not always have cpufreq. # note that there can be a definite cost to reading scaling_cur_freq, which # must be generated on the fly based on some time snippet sample. if (-e '/sys/devices/system/cpu/'){ my $glob = '/sys/devices/system/cpu/cpu*/cpufreq/{affected_cpus,'; # reading cpuinfo WAY faster than scaling, but root only if (-r '/sys/devices/system/cpu/cpu0/cpufreq/cpuinfo_cur_freq'){ $glob .= 'cpuinfo_cur_freq}'; } else { $glob .= 'scaling_cur_freq}'; } my ($error,$file,$key,%working,%freq,@value); foreach (main::globber($glob)){ next if ! -r $_; undef $error; # $fh always non null, even on error open(my $fh, '<', $_) or $error = $!; if (!$error){ m%/sys/devices/system/cpu/cpu(\d+)/cpufreq/(affected_cpus|(cpuinfo|scaling)_cur_freq)%; $key = $1; $file = $2; chomp(@value = <$fh>); close $fh; if ($file eq 'affected_cpus'){ # chomp seems to turn undefined into '', not sure why $working{$key}->[0] = $value[0] if $value[0] ne ''; } else { $working{$key}->[1] = clean_speed($value[0],'khz'); } } } if (%working){ foreach (keys %working){ $freq{sprintf("%04d",$_)} = $working{$_}->[1] if defined $working{$_}->[0]; } $cpu->{'sys-freq'} = \%freq if %freq; } } cpuinfo_data_grabber($file,\$cpu->{'type'}) if !$loaded{'cpuinfo'}; $cpu->{'type'} = cpu_vendor($cpu_arch) if $cpu_arch eq 'elbrus'; # already set to lower my ($core_count,$proc_count,$speed) = (0,0,0); my ($b_block_1) = (1); # need to prime for arm cpus, which do not have physical/core ids usually # level 0 is phys id, level 1 is die id, level 2 is core id # note, there con be a lot of processors, 32 core HT would have 64, for example. foreach my $block (@cpuinfo){ # get the repeated data for CPUs, after assign the dynamic per core data next if !$block; if ($b_block_1){ $b_block_1 = 0; # this may also kick in for centaur/via types, but no data available, guess if (!$cpu->{'type'} && $block->{'vendor_id'}){ $cpu->{'type'} = cpu_vendor($block->{'vendor_id'}); } # PPC can use 'cpu', MIPS 'cpu model' $temp = main::get_defined($block->{'model name'},$block->{'cpu'}, $block->{'cpu model'}); if ($temp){ $cpu->{'model_name'} = $temp; $cpu->{'model_name'} = main::clean($cpu->{'model_name'}); $cpu->{'model_name'} = clean_cpu($cpu->{'model_name'}); if ($risc{'arm'} || $cpu->{'model_name'} =~ /ARM|AArch/i){ $cpu->{'type'} = 'arm'; if ($cpu->{'model_name'} =~ /(.*)\srev\s([\S]+)\s(\(([\S]+)\))?/){ $cpu->{'model_name'} = $1; $cpu->{'stepping'} = $2; if ($4){ $cpu->{'arch'} = $4; if ($cpu->{'model_name'} !~ /\Q$cpu->{'arch'}\E/i){ $cpu->{'model_name'} .= ' ' . $cpu->{'arch'}; } } # print "p0:\n"; } } elsif ($risc{'mips'} || $cpu->{'model_name'} =~ /mips/i){ $cpu->{'type'} = 'mips'; } } $temp = main::get_defined($block->{'architecture'}, $block->{'cpu family'},$block->{'cpu architecture'}); if ($temp){ if ($temp =~ /^\d+$/){ # translate integers to hex $cpu->{'family'} = uc(sprintf("%x",$temp)); } elsif ($risc{'arm'}){ $cpu->{'arch'} = $temp; } } # note: stepping and ARM cpu revision are integers $temp = main::get_defined($block->{'stepping'},$block->{'cpu revision'}); # can be 0, but can be 'unknown' if (defined $temp || ($cpu->{'type'} eq 'elbrus' && defined $block->{'revision'})){ $temp = $block->{'revision'} if defined $block->{'revision'}; if ($temp =~ /^\d+$/){ $cpu->{'stepping'} = uc(sprintf("%x",$temp)); } } # PPC revision is a string, but elbrus revision is hex elsif (defined $block->{'revision'}){ $cpu->{'revision'} = $block->{'revision'}; } # this is hex so uc for cpu arch id. raspi 4 has Model rather than Hardware if (defined $block->{'model'}){ # can be 0, but can be 'unknown' $cpu->{'model-id'} = uc(sprintf("%x",$block->{'model'})); } if ($block->{'cpu variant'}){ $cpu->{'model-id'} = uc($block->{'cpu variant'}); $cpu->{'model-id'} =~ s/^0X//; } # this is per cpu, not total if > 1 pys cpus if (!$cpu->{'cores'} && $block->{'cpu cores'}){ $cpu->{'cores'} = $block->{'cpu cores'}; } ## this is only for -C full cpu output if ($type eq 'full'){ # note: in cases where only cache is there, don't guess, it can be L1, # L2, or L3, but never all of them added togehter, so give up. if ($block->{'cache size'} && $block->{'cache size'} =~ /(\d+\s*[KMG])i?B?$/){ $cpu->{'cache'} = main::translate_size($1); } if ($block->{'l1 cache size'} && $block->{'l1 cache size'} =~ /(\d+\s*[KMG])i?B?$/){ $cpu->{'l1-cache'} = main::translate_size($1); } if ($block->{'l2 cache size'} && $block->{'l2 cache size'} =~ /(\d+\s*[KMG])i?B?$/){ $cpu->{'l2-cache'} = main::translate_size($1); } if ($block->{'l3 cache size'} && $block->{'l3 cache size'} =~ /(\d+\s*[KMG])i?B?$/){ $cpu->{'l3-cache'} = main::translate_size($1); } $temp = main::get_defined($block->{'flags'} || $block->{'features'}); if ($temp){ $cpu->{'flags'} = $temp; } if ($b_admin){ # note: not used unless maybe /sys data missing? if ($block->{'bugs'}){ $cpu->{'bugs-string'} = $block->{'bugs'}; } # unlike family and model id, microcode appears to be hex already if ($block->{'microcode'}){ if ($block->{'microcode'} =~ /0x/){ $cpu->{'microcode'} = uc($block->{'microcode'}); $cpu->{'microcode'} =~ s/^0X//; } else { $cpu->{'microcode'} = uc(sprintf("%x",$block->{'microcode'})); } } } } } # These occurs in a separate block with E2C3, last in cpuinfo blocks, # otherwise per block in E8C variants if ($cpu->{'type'} eq 'elbrus' && (!$cpu->{'l1i-cache'} && !$cpu->{'l1d-cache'} && !$cpu->{'l2-cache'} && !$cpu->{'l3-cache'})){ # note: cache0 is L1i and cache1 L1d. cp_caches_fallback handles if ($block->{'cache0'} && $block->{'cache0'} =~ /size\s*=\s*(\d+)K\s/){ $cpu->{'l1i-cache'} = $1; } if ($block->{'cache1'} && $block->{'cache1'} =~ /size\s*=\s*(\d+)K\s/){ $cpu->{'l1d-cache'} = $1; } if ($block->{'cache2'} && $block->{'cache2'} =~ /size\s*=\s*(\d+)(K|M)\s/){ $cpu->{'l2-cache'} = ($2 eq 'M') ? ($1*1024) : $1; } if ($block->{'cache3'} && $block->{'cache3'} =~ /size\s*=\s*(\d+)(K|M)\s/){ $cpu->{'l3-cache'} = ($2 eq 'M') ? ($1*1024) : $1; } } ## Start incrementers $temp = main::get_defined($block->{'cpu mhz'},$block->{'clock'}); if ($temp){ $speed = clean_speed($temp); push(@{$cpu->{'processors'}},$speed); } # new arm shows bad bogomip value, so don't use it, however, ancient # cpus, intel 486, can have super low bogomips, like 33.17 if ($extra > 0 && $block->{'bogomips'} && ((%risc && $block->{'bogomips'} > 50) || !%risc)){ $cpu->{'bogomips'} += $block->{'bogomips'}; } # just to get core counts for ARM/MIPS/PPC systems if (defined $block->{'processor'} && !$temp){ if ($block->{'processor'} =~ /^\d+$/){ push(@{$cpu->{'processors'}},0); } } # note: for alder lake, could vary, depending on if e or p core but we # only care aobut the highest value for crude logic here if ($block->{'siblings'} && (!$cpu->{'siblings'} || $block->{'siblings'} > $cpu->{'siblings'})){ $cpu->{'siblings'} = $block->{'siblings'}; } # Ignoring trying to catch dies with $block->{'physical id'}, # that's too buggy for cpuinfo if (defined $block->{'core id'}){ # https://www.pcworld.com/article/3214635/components-processors/ryzen-threadripper-review-we-test-amds-monster-cpu.html my $phys = (defined $block->{'physical id'}) ? $block->{'physical id'}: 0; my $die_id = 0; if (!grep {$_ eq $block->{'core id'}} @{$cpu->{'ids'}->[$phys][$die_id]}){ push(@{$cpu->{'ids'}->[$phys][$die_id]},$block->{'core id'}); } } } undef @cpuinfo; # we're done with it, dump it undef %cpuinfo_machine; if (%risc){ if (!$cpu->{'type'}){ $cpu->{'type'} = $risc{'id'}; } if (!$bsd_type){ my $system_cpus = system_cpu_name(); $cpu->{'system-cpus'} = $system_cpus if %$system_cpus; } } main::log_data('dump','%$cpu',$cpu) if $b_log; print Data::Dumper::Dumper $cpu if $dbg[8]; eval $end if $b_log; return $cpu; } sub cpuinfo_data_grabber { eval $start if $b_log; my ($file,$cpu_type) = @_; # type by ref $loaded{'cpuinfo'} = 1; # use --arm flag when testing arm cpus, and --fake-cpu to trigger fake data if ($fake{'cpu'}){ ## CPU sys/cpuinfo pairs: # $file = "$fake_data_dir/cpu/sys-ci-pairs/android-pocom3-fake-cpuinfo.txt"; # $file = "$fake_data_dir/cpu/sys-ci-pairs/arm-pine64-cpuinfo-1.txt"; # $file = "$fake_data_dir/cpu/sys-ci-pairs/arm-riscyslack2-cpuinfo-1.txt"; # $file = "$fake_data_dir/cpu/sys-ci-pairs/ppc-stuntkidz~cpuinfo.txt"; # $file = "$fake_data_dir/cpu/sys-ci-pairs/riscv-unmatched-2021~cpuinfo-1.txt"; # $file = "$fake_data_dir/cpu/sys-ci-pairs/x86-brickwizard-atom-n270~cpuinfo-1.txt"; # $file = "$fake_data_dir/cpu/sys-ci-pairs/x86-amd-phenom-chrisretusn-cpuinfo-1.txt"; # $file = "$fake_data_dir/cpu/sys-ci-pairs/x86-drgibbon-intel-i7-cpuinfo.txt"; ## ARM/MIPS # $file = "$fake_data_dir/cpu/arm/arm-4-core-pinebook-1.txt"; # $file = "$fake_data_dir/cpu/arm/armv6-single-core-1.txt"; # $file = "$fake_data_dir/cpu/arm/armv7-dual-core-1.txt"; # $file = "$fake_data_dir/cpu/arm/armv7-new-format-model-name-single-core.txt"; # $file = "$fake_data_dir/cpu/arm/arm-2-die-96-core-rk01.txt"; # $file = "$fake_data_dir/cpu/arm/arm-shevaplug-1.2ghz.txt"; # $file = "$fake_data_dir/cpu/mips/mips-mainusg-cpuinfo.txt"; # $file = "$fake_data_dir/cpu/ppc/ppc-debian-ppc64-cpuinfo.txt"; ## x86 # $file = "$fake_data_dir/cpu/amd/16-core-32-mt-ryzen.txt"; # $file = "$fake_data_dir/cpu/amd/2-16-core-epyc-abucodonosor.txt"; # $file = "$fake_data_dir/cpu/amd/2-core-probook-antix.txt"; # $file = "$fake_data_dir/cpu/amd/4-core-jean-antix.txt"; # $file = "$fake_data_dir/cpu/amd/4-core-althlon-mjro.txt"; # $file = "$fake_data_dir/cpu/amd/4-core-apu-vc-box.txt"; # $file = "$fake_data_dir/cpu/amd/4-core-a10-5800k-1.txt"; # $file = "$fake_data_dir/cpu/intel/1-core-486-fourtysixandtwo.txt"; # $file = "$fake_data_dir/cpu/intel/2-core-ht-atom-bruh.txt"; # $file = "$fake_data_dir/cpu/intel/core-2-i3.txt"; # $file = "$fake_data_dir/cpu/intel/8-core-i7-damentz64.txt"; # $file = "$fake_data_dir/cpu/intel/2-10-core-xeon-ht.txt"; # $file = "$fake_data_dir/cpu/intel/4-core-xeon-fake-dual-die-zyanya.txt"; # $file = "$fake_data_dir/cpu/intel/2-core-i5-fake-dual-die-hek.txt"; # $file = "$fake_data_dir/cpu/intel/2-1-core-xeon-vm-vs2017.txt"; # $file = "$fake_data_dir/cpu/intel/4-1-core-xeon-vps-frodo1.txt"; # $file = "$fake_data_dir/cpu/intel/4-6-core-xeon-no-mt-lathander.txt"; ## Elbrus # $cpu_type = 'elbrus'; # uncomment to test elbrus # $file = "$fake_data_dir/cpu/elbrus/elbrus-2c3/cpuinfo.txt"; # $file = "$fake_data_dir/cpu/elbrus/1xE1C-8.txt"; # $file = "$fake_data_dir/cpu/elbrus/1xE2CDSP-4.txt"; # $file = "$fake_data_dir/cpu/elbrus/1xE2S4-3-monocub.txt"; # $file = "$fake_data_dir/cpu/elbrus/1xMBE8C-7.txt"; # $file = "$fake_data_dir/cpu/elbrus/4xEL2S4-3.txt"; # $file = "$fake_data_dir/cpu/elbrus/4xE8C-7.txt"; # $file = "$fake_data_dir/cpu/elbrus/4xE2CDSP-4.txt"; # $file = "$fake_data_dir/cpu/elbrus/cpuinfo.e8c2.txt"; } my $raw = main::reader($file,'','ref'); @$raw = map {$_ =~ s/^\s*$/~~~/;$_;} @$raw; push(@$raw,'~~~') if @$raw; my ($b_processor,$key,$value); my ($i) = (0); my @key_tests = ('firmware','hardware','mmu','model','motherboard', 'platform','system type','timebase'); foreach my $row (@$raw){ ($key,$value) = split(/\s*:\s*/,$row,2); next if !defined $key; # ARM: 'Hardware' can appear in processor block; system type (mips) # ARM: CPU revision; machine: Revision/PPC: revision (CPU implied) # orangepi3 has Hardware/Processor embedded in processor block if (%risc && ((grep {lc($key) eq $_} @key_tests) || (!$risc{'ppc'} && lc($key) eq 'revision'))){ $b_processor = 0; } else { $b_processor = 1; } if ($b_processor){ if ($key eq '~~~'){ $i++; next; } # A small handful of ARM devices use Processor instead of 'model name' # Processor : AArch64 Processor rev 4 (aarch64) # Processor : Feroceon 88FR131 rev 1 (v5l) $key = ($key eq 'Processor') ? 'model name' : lc($key); $cpuinfo[$i]->{$key} = $value; } else { next if $cpuinfo_machine{lc($key)}; $cpuinfo_machine{lc($key)} = $value; } } if ($b_log){ main::log_data('dump','@cpuinfo',\@cpuinfo); main::log_data('dump','%cpuinfo_machine',\%cpuinfo_machine); } if ($dbg[41]){ print Data::Dumper::Dumper \@cpuinfo; print Data::Dumper::Dumper \%cpuinfo_machine; } eval $end if $b_log; } sub cpu_sys_data { eval $start if $b_log; my $sys_freq = $_[0]; my $cpu_sys = {}; my $working = sys_data_grabber(); return $cpu_sys if !%$working; $cpu_sys->{'data'} = $working->{'data'} if $working->{'data'}; my ($core_id,$fake_core_id,$phys_id,) = (0,0,-1); my (%cache_ids,@ci_freq_max,@ci_freq_min,@sc_freq_max,@sc_freq_min); foreach my $key (sort keys %{$working->{'cpus'}}){ ($core_id,$phys_id) = (0,0); my $cpu_id = $key + 0; my $speed; my $cpu = $working->{'cpus'}{$key}; if (defined $cpu->{'topology'}{'physical_package_id'}){ $phys_id = sprintf("%04d",$cpu->{'topology'}{'physical_package_id'}); } if (defined $cpu->{'topology'}{'core_id'}){ # id is not consistent, seen 5 digit id $core_id = sprintf("%08d",$cpu->{'topology'}{'core_id'}); if ($fake{'cpu'}){ if (defined $cpu->{'cpufreq'}{'scaling_cur_freq'} && $cpu->{'cpufreq'}{'affected_cpus'} && $cpu->{'cpufreq'}{'affected_cpus'} ne 'UNDEFINED'){ $speed = clean_speed($cpu->{'cpufreq'}{'scaling_cur_freq'},'khz'); } } elsif (defined $sys_freq && defined $sys_freq->{$key}){ $speed = $sys_freq->{$key}; } if (defined $speed){ push(@{$cpu_sys->{'cpus'}{$phys_id}{'cores'}{$core_id}},$speed); push(@{$cpu_sys->{'data'}{'speeds'}{'all'}},$speed); } else { push(@{$cpu_sys->{'data'}{'speeds'}{'all'}},0); # seen cases, riscv, where core id, phys id, are all -1 my $id = ($core_id != -1) ? $core_id: $fake_core_id++; push(@{$cpu_sys->{'cpus'}{$phys_id}{'cores'}{$id}},0); } # Only use if topology core-id exists, some virtualized cpus can list # frequency data for the non available cores, but those do not show # topology data. # For max / min, we want to prep for the day 1 pys cpu has > 1 min/max freq if (defined $cpu->{'cpufreq'}{'cpuinfo_max_freq'}){ $cpu->{'cpufreq'}{'cpuinfo_max_freq'} = clean_speed($cpu->{'cpufreq'}{'cpuinfo_max_freq'},'khz'); if (!grep {$_ eq $cpu->{'cpufreq'}{'cpuinfo_max_freq'}} @ci_freq_max){ push(@ci_freq_max,$cpu->{'cpufreq'}{'cpuinfo_max_freq'}); } if (!grep {$_ eq $cpu->{'cpufreq'}{'cpuinfo_max_freq'}} @{$cpu_sys->{'cpus'}{$phys_id}{'max-freq'}}){ push(@{$cpu_sys->{'cpus'}{$phys_id}{'max-freq'}},$cpu->{'cpufreq'}{'cpuinfo_max_freq'}); } } if (defined $cpu->{'cpufreq'}{'cpuinfo_min_freq'}){ $cpu->{'cpufreq'}{'cpuinfo_min_freq'} = clean_speed($cpu->{'cpufreq'}{'cpuinfo_min_freq'},'khz'); if (!grep {$_ eq $cpu->{'cpufreq'}{'cpuinfo_min_freq'}} @ci_freq_min){ push(@ci_freq_min,$cpu->{'cpufreq'}{'cpuinfo_min_freq'}); } if (!grep {$_ eq $cpu->{'cpufreq'}{'cpuinfo_min_freq'}} @{$cpu_sys->{'cpus'}{$phys_id}{'min-freq'}}){ push(@{$cpu_sys->{'cpus'}{$phys_id}{'min-freq'}},$cpu->{'cpufreq'}{'cpuinfo_min_freq'}); } } if (defined $cpu->{'cpufreq'}{'scaling_max_freq'}){ $cpu->{'cpufreq'}{'scaling_max_freq'} = clean_speed($cpu->{'cpufreq'}{'scaling_max_freq'},'khz'); if (!grep {$_ eq $cpu->{'cpufreq'}{'scaling_max_freq'}} @sc_freq_max){ push(@sc_freq_max,$cpu->{'cpufreq'}{'scaling_max_freq'}); } if (!grep {$_ eq $cpu->{'cpufreq'}{'scaling_max_freq'}} @{$cpu_sys->{'cpus'}{$phys_id}{'max-freq'}}){ push(@{$cpu_sys->{'cpus'}{$phys_id}{'max-freq'}},$cpu->{'cpufreq'}{'scaling_max_freq'}); } } if (defined $cpu->{'cpufreq'}{'scaling_min_freq'}){ $cpu->{'cpufreq'}{'scaling_min_freq'} = clean_speed($cpu->{'cpufreq'}{'scaling_min_freq'},'khz'); if (!grep {$_ eq $cpu->{'cpufreq'}{'scaling_min_freq'}} @sc_freq_min){ push(@sc_freq_min,$cpu->{'cpufreq'}{'scaling_min_freq'}); } if (!grep {$_ eq $cpu->{'cpufreq'}{'scaling_min_freq'}} @{$cpu_sys->{'cpus'}{$phys_id}{'min-freq'}}){ push(@{$cpu_sys->{'cpus'}{$phys_id}{'min-freq'}},$cpu->{'cpufreq'}{'scaling_min_freq'}); } } if (defined $cpu->{'cpufreq'}{'scaling_governor'}){ if (!grep {$_ eq $cpu->{'cpufreq'}{'scaling_governor'}} @{$cpu_sys->{'cpus'}{$phys_id}{'governor'}}){ push(@{$cpu_sys->{'cpus'}{$phys_id}{'governor'}},$cpu->{'cpufreq'}{'scaling_governor'}); } } if (defined $cpu->{'cpufreq'}{'scaling_driver'}){ $cpu_sys->{'cpus'}{$phys_id}{'scaling-driver'} = $cpu->{'cpufreq'}{'scaling_driver'}; } } if (!defined $cpu_sys->{'data'}{'cpufreq-boost'} && defined $cpu->{'cpufreq'}{'cpb'}){ $cpu_sys->{'data'}{'cpufreq-boost'} = $cpu->{'cpufreq'}{'cpb'}; } if (defined $cpu->{'topology'}{'core_cpus_list'}){ $cpu->{'topology'}{'thread_siblings_list'} = $cpu->{'topology'}{'core_cpus_list'}; } if (defined $cpu->{'cache'} && keys %{$cpu->{'cache'}} > 0){ foreach my $key2 (sort keys %{$cpu->{'cache'}}){ my $cache = $cpu->{'cache'}{$key2}; my $type = ($cache->{'type'} =~ /^([DI])/i) ? lc($1): ''; my $level = 'l' . $cache->{'level'} . $type; # Very old systems, 2.6.xx do not have shared_cpu_list if (!defined $cache->{'shared_cpu_list'} && defined $cache->{'shared_cpu_map'}){ $cache->{'shared_cpu_list'} = $cache->{'shared_cpu_map'}; } # print Data::Dumper::Dumper $cache; if (defined $cache->{'shared_cpu_list'}){ # not needed, the cpu is always in the range # my $range = main::regex_range($cache->{'shared_cpu_list'}); my $size = main::translate_size($cache->{'size'}); # print "cpuid: $cpu_id phys-core: $phys_id-$core_id level: $level range: $range shared: $cache->{'shared_cpu_list'}\n"; if (!(grep {$_ eq $cache->{'shared_cpu_list'}} @{$cache_ids{$phys_id}->{$level}})){ push(@{$cache_ids{$phys_id}->{$level}},$cache->{'shared_cpu_list'}); push(@{$cpu_sys->{'cpus'}{$phys_id}{'caches'}{$level}},$size); } } } } # die_id is relatively new, core_siblings_list has been around longer if (defined $cpu->{'topology'}{'die_id'} || defined $cpu->{'topology'}{'core_siblings_list'}){ my $die = $cpu->{'topology'}{'die_id'}; $die = $cpu->{'topology'}{'core_siblings_list'} if !defined $die; if (!grep {$_ eq $die} @{$cpu_sys->{'cpus'}{$phys_id}{'dies'}}){ push(@{$cpu_sys->{'cpus'}{$phys_id}{'dies'}},$die); } } } if (defined $cpu_sys->{'data'}{'cpufreq-boost'} && $cpu_sys->{'data'}{'cpufreq-boost'} =~ /^[01]$/){ if ($cpu_sys->{'data'}{'cpufreq-boost'}){ $cpu_sys->{'data'}{'cpufreq-boost'} = 'enabled'; } else { $cpu_sys->{'data'}{'cpufreq-boost'} = 'disabled'; } } # cpuinfo_max_freq:["2000000"] cpuinfo_max_freq:["1500000"] # cpuinfo_min_freq:["200000"] if (@ci_freq_max){ $cpu_sys->{'data'}{'speeds'}{'max-freq'} = join(':',@ci_freq_max); } if (@ci_freq_min){ $cpu_sys->{'data'}{'speeds'}{'min-freq'} = join(':',@ci_freq_min); } # also handle off chance that cpuinfo_min/max not set, but scaling_min/max there if (@sc_freq_max){ $cpu_sys->{'data'}{'speeds'}{'scaling-max-freq'} = join(':',@sc_freq_max); if (!$cpu_sys->{'data'}{'speeds'}{'max-freq'}){ $cpu_sys->{'data'}{'speeds'}{'max-freq'} = $cpu_sys->{'data'}{'speeds'}{'scaling-max-freq'}; } } if (@sc_freq_min){ $cpu_sys->{'data'}{'speeds'}{'scaling-min-freq'} = join(':',@sc_freq_min); if (!$cpu_sys->{'data'}{'speeds'}{'min-freq'}){ $cpu_sys->{'data'}{'speeds'}{'min-freq'} = $cpu_sys->{'data'}{'speeds'}{'scaling-min-freq'}; } } # this corrects a bug we see sometimes in min/max frequencies if ((scalar @ci_freq_max < 2 && scalar @ci_freq_min < 2) && (defined $cpu_sys->{'data'}{'speeds'}{'min-freq'} && defined $cpu_sys->{'data'}{'speeds'}{'max-freq'}) && ($cpu_sys->{'data'}{'speeds'}{'min-freq'} > $cpu_sys->{'data'}{'speeds'}{'max-freq'} || $cpu_sys->{'data'}{'speeds'}{'min-freq'} == $cpu_sys->{'data'}{'speeds'}{'max-freq'})){ $cpu_sys->{'data'}{'speeds'}{'min-freq'} = 0; } main::log_data('dump','%$cpu_sys',$cpu_sys) if $b_log; print Data::Dumper::Dumper $cpu_sys if $dbg[8]; eval $end if $b_log; return $cpu_sys; } sub sys_data_grabber { eval $start if $b_log; my (@files); # this data has to match the data in cpuinfo grabber fake cpu, and remember # to use --arm flag if arm tests if ($fake{'cpu'}){ # my $file; ## CPU sys/cpuinfo pairs: # $file = "$fake_data_dir/cpu/sys-ci-pairs/android-pocom3-fake-sys.txt"; # $file = "$fake_data_dir/cpu/sys-ci-pairs/arm-pine64-sys-1.txt"; # $file = "$fake_data_dir/cpu/sys-ci-pairs/arm-riscyslack2-sys-1.txt"; # $file = "$fake_data_dir/cpu/sys-ci-pairs/ppc-stuntkidz~sys.txt"; # $file = "$fake_data_dir/cpu/sys-ci-pairs/riscv-unmatched-2021~sys-1.txt"; # $file = "$fake_data_dir/cpu/sys-ci-pairs/x86-brickwizard-atom-n270~sys-1.txt"; # $file = "$fake_data_dir/cpu/sys-ci-pairs/x86-amd-phenom-chrisretusn-sys-1.txt"; # $file = "$fake_data_dir/cpu/sys-ci-pairs/x86-drgibbon-intel-i7-sys.txt"; # @files = main::reader($file); } # There's a massive time hit reading full globbed set of files, so grab and # read only what we need. else { my $glob = '/sys/devices/system/cpu/{'; if ($dbg[43]){ $glob .= 'cpufreq,cpu*/topology,cpu*/cpufreq,cpu*/cache/index*,smt,vulnerabilities}/*'; } else { $glob .= 'cpu*/topology/{core_cpus_list,core_id,core_siblings_list,die_id,'; $glob .= 'physical_package_id,thread_siblings_list}'; $glob .= ',cpufreq/{boost,ondemand}'; $glob .= ',cpu*/cpufreq/{cpb,cpuinfo_max_freq,cpuinfo_min_freq,'; $glob .= 'scaling_max_freq,scaling_min_freq'; $glob .= ',scaling_driver,scaling_governor' if $type eq 'full' && $b_admin; $glob .= '}'; if ($type eq 'full'){ $glob .= ',cpu*/cache/index*/{level,shared_cpu_list,shared_cpu_map,size,type}'; } $glob .= ',smt/{active,control}'; $glob .= ',vulnerabilities/*' if $b_admin; $glob .= '}'; } @files = main::globber($glob); } main::log_data('dump','@files',\@files) if $b_log; print Data::Dumper::Dumper \@files if $dbg[40]; my ($b_bug,$b_cache,$b_freq,$b_topo,$b_main); my $working = {}; my ($main_id,$main_key,$holder,$id,$item,$key) = ('','','','','',''); # need to return hash reference on failure or old systems complain return $working if !@files; foreach (sort @files){ if ($fake{'cpu'}){ ($_,$item) = split(/::/,$_,2); } else { next if -d $_ || ! -e $_; undef $item; } $key = $_; $key =~ m|/([^/]+)/([^/]+)$|; my ($key_1,$key_2) = ($1,$2); if (m|/cpu(\d+)/|){ if (!$holder || $1 ne $holder){ $id = sprintf("%04d",$1); $holder = $1; } $b_bug = 0; $b_cache = 0; $b_freq = 0; $b_main = 0; $b_topo = 0; if ($key_1 eq 'cpufreq'){ $b_freq = 1; $main_key = $key_2; $key = $key_1; } elsif ($key_1 eq 'topology'){ $b_topo = 1; $main_key = $key_2; $key = $key_1; } elsif ($key_1 =~ /^index(\d+)$/){ $b_cache = 1; $main_key = $key_2; $main_id = sprintf("%02d",$1); $key = 'cache'; } } elsif ($key_1 eq 'vulnerabilities'){ $id = $key_1; $key = $key_2; $b_bug = 1; $b_cache = 0; $b_main = 0; $b_freq = 0; $b_topo = 0; $main_key = ''; $main_id = ''; } else { $id = $key_1 . '-' . $key_2; $b_bug = 0; $b_cache = 0; $b_main = 1; $b_freq = 0; $b_topo = 0; $main_key = ''; $main_id = ''; } if (!$fake{'cpu'}){ if (-r $_) { my $error; # significantly faster to skip reader() and do it directly # $fh always non null, even on error open(my $fh, '<', $_) or $error = $!; if (!$error){ chomp(my @value = <$fh>); close $fh; $item = $value[0]; } # $item = main::reader($_,'strip',0); } else { $item = main::message('root-required'); } $item = main::message('undefined') if !defined $item; } # print "$key_1 :: $key_2 :: $item\n"; if ($b_main){ $working->{'data'}{$id} = $item; } elsif ($b_bug){ my $type = ($item =~ /^Mitigation:/) ? 'mitigation': 'status'; $item =~ s/Mitigation: //; $working->{'data'}{$id}{$key} = [$type,$item]; } elsif ($b_cache){ $working->{'cpus'}{$id}{$key}{$main_id}{$main_key} = $item; } elsif ($b_freq || $b_topo){ $working->{'cpus'}{$id}{$key}{$main_key} = $item; } } main::log_data('dump','%$working',$working) if $b_log; print Data::Dumper::Dumper $working if $dbg[39]; eval $end if $b_log; return $working; } sub sysctl_data { eval $start if $b_log; my ($cpu,@line,%speeds,@working); my ($sep) = (''); my ($die_holder,$die_id,$phys_holder,$phys_id,$proc_count,$speed) = (0,0,0,0,0,0,0); set_cpu_data(\$cpu); @{$sysctl{'cpu'}} = () if !$sysctl{'cpu'}; # don't want error next! foreach (@{$sysctl{'cpu'}}){ @line = split(/\s*:\s*/, $_); next if !$line[0]; # darwin shows machine, like MacBook7,1, not cpu # machdep.cpu.brand_string: Intel(R) Core(TM)2 Duo CPU P8600 @ 2.40GHz if (($bsd_type ne 'darwin' && $line[0] eq 'hw.model') || $line[0] eq 'machdep.cpu.brand_string'){ # cut L2 cache/cpu max speed out of model string, if available # openbsd 5.6: AMD Sempron(tm) Processor 3400+ ("AuthenticAMD" 686-class, 256KB L2 cache) # openbsd 6.x has Lx cache data in dmesg.boot # freebsd 10: hw.model: AMD Athlon(tm) II X2 245 Processor $line[1] = main::clean($line[1]); $line[1] = clean_cpu($line[1]); if ($line[1] =~ /([0-9]+)[\s-]*([KM]B)\s+L2 cache/i){ my $multiplier = ($2 eq 'MB') ? 1024: 1; $cpu->{'l2-cache'} = $1 * $multiplier; } if ($line[1] =~ /([^0-9\.][0-9\.]+)[\s-]*[MG]Hz/){ $cpu->{'max-freq'} = $1; if ($cpu->{'max-freq'} =~ /MHz/i){ $cpu->{'max-freq'} =~ s/[\s-]*MHz//; $cpu->{'max-freq'} = clean_speed($cpu->{'max-freq'},'mhz'); } elsif ($cpu->{'max-freq'} =~ /GHz/){ $cpu->{'max-freq'} =~ s/[\s-]*GHz//i; $cpu->{'max-freq'} = $cpu->{'max-freq'} / 1000; $cpu->{'max-freq'} = clean_speed($cpu->{'max-freq'},'mhz'); } } if ($line[1] =~ /\)$/){ $line[1] =~ s/\s*\(.*\)$//; } $cpu->{'model_name'} = $line[1]; $cpu->{'type'} = cpu_vendor($line[1]); } # NOTE: hw.l1icachesize: hw.l1dcachesize: ; in bytes, apparently elsif ($line[0] eq 'hw.l1dcachesize'){ $cpu->{'l1d-cache'} = $line[1]/1024; } elsif ($line[0] eq 'hw.l1icachesize'){ $cpu->{'l1i-cache'} = $line[1]/1024; } elsif ($line[0] eq 'hw.l2cachesize'){ $cpu->{'l2-cache'} = $line[1]/1024; } elsif ($line[0] eq 'hw.l3cachesize'){ $cpu->{'l3-cache'} = $line[1]/1024; } # hw.smt: openbsd elsif ($line[0] eq 'hw.smt'){ $cpu->{'smt'} = ($line[1]) ? 'enabled' : 'disabled'; } # htl: maybe freebsd, never seen, 1 is disabled, sigh... elsif ($line[0] eq 'machdep.hlt_logical_cpus'){ $cpu->{'smt'} = ($line[1]) ? 'disabled' : 'enabled'; } # this is in mghz in samples elsif (!$cpu->{'cur-freq'} && ($line[0] eq 'hw.clockrate' || $line[0] eq 'hw.cpuspeed')){ $cpu->{'cur-freq'} = $line[1]; } # these are in hz: 2400000000 elsif ($line[0] eq 'hw.cpufrequency'){ $cpu->{'cur-freq'} = $line[1]/1000000; } elsif ($line[0] eq 'hw.busfrequency_min'){ $cpu->{'min-freq'} = $line[1]/1000000; } elsif ($line[0] eq 'hw.busfrequency_max'){ $cpu->{'max-freq'} = $line[1]/1000000; } # FB seems to call freq something other than clock speed, unreliable # eg: 1500 Mhz real shows as 2400 freq, which is wrong # elsif ($line[0] =~ /^dev\.cpu\.([0-9]+)\.freq$/){ # $speed = clean_speed($line[1]); # $cpu->{'processors'}->[$1] = $speed; # } # weird FB thing, freq can be wrong, so just count the cores and call it # done. elsif ($line[0] =~ /^dev\.cpu\.([0-9]+)\./ && (!$cpu->{'processors'} || !defined $cpu->{'processors'}->[$1])){ $cpu->{'processors'}->[$1] = undef; } elsif ($line[0] eq 'machdep.cpu.vendor'){ $cpu->{'type'} = cpu_vendor($line[1]); } # darwin only? elsif ($line[0] eq 'machdep.cpu.features'){ $cpu->{'flags'} = lc($line[1]); } # is this per phys or total? elsif ($line[0] eq 'hw.ncpu'){ $cpu->{'cores'} = $line[1]; } # Freebsd does some voltage hacking to actually run at lowest listed # frequencies. The cpu does not actually support all the speeds output # here but works in freebsd. Disabled this, the freq appear to refer to # something else, not cpu clock. Remove XXX to enable elsif ($line[0] eq 'dev.cpu.0.freq_levelsXXX'){ $line[1] =~ s/^\s+|\/[0-9]+|\s+$//g; if ($line[1] =~ /[0-9]+\s+[0-9]+/){ # get rid of -1 in FB: 2400/-1 2200/-1 2000/-1 1800/-1 $line[1] =~ s|/-1||g; my @temp = split(/\s+/, $line[1]); $cpu->{'max-freq'} = $temp[0]; $cpu->{'min-freq'} = $temp[-1]; $cpu->{'scalings'} = \@temp; } } # Disabled w/XXX. this is almost certainly bad data, should not be used elsif (!$cpu->{'cur-freq'} && $line[0] eq 'dev.cpu.0.freqXXX'){ $cpu->{'cur-freq'} = $line[1]; } # the following have only been seen in DragonflyBSD data but thumbs up! elsif ($line[0] eq 'hw.cpu_topology.members'){ my @temp = split(/\s+/, $line[1]); my $count = scalar @temp; $count-- if $count > 0; # no way to get per processor speeds yet, so assign 0 to each foreach (0 .. $count){ $cpu->{'processors'}->[$_] = 0; } } elsif ($line[0] eq 'hw.cpu_topology.cpu1.physical_siblings'){ # string, like: cpu0 cpu1 my @temp = split(/\s+/, $line[1]); $cpu->{'siblings'} = scalar @temp; } # increment by 1 for every new physical id we see. These are in almost all # cases separate cpus, not separate dies within a single cpu body. # This needs DATA!! Almost certainly wrong!! elsif ($line[0] eq 'hw.cpu_topology.cpu0.physical_id'){ if ($phys_holder != $line[1]){ $phys_id++; $phys_holder = $line[1]; push(@{$cpu->{'ids'}->[$phys_id][$die_id]},0); } } elsif ($line[0] eq 'hw.cpu_topology.cpu0.core_id'){ $cpu->{'ids'}->[$phys_id][$line[1]] = $speed; } } if (!$cpu->{'flags'} || !$cpu->{'family'}){ my $dmesg_boot = dboot_data(); # this core count may fix failed MT detection. $cpu->{'cores'} = $dmesg_boot->{'cores'} if $dmesg_boot->{'cores'}; $cpu->{'flags'} = $dmesg_boot->{'flags'} if !$cpu->{'flags'}; $cpu->{'family'} = $dmesg_boot->{'family'} if !$cpu->{'family'}; $cpu->{'l1d-cache'} = $dmesg_boot->{'l1d-cache'} if !$cpu->{'l1d-cache'}; $cpu->{'l1i-cache'} = $dmesg_boot->{'l1i-cache'} if !$cpu->{'l1i-cache'}; $cpu->{'l2-cache'} = $dmesg_boot->{'l2-cache'} if !$cpu->{'l2-cache'}; $cpu->{'l3-cache'} = $dmesg_boot->{'l3-cache'} if !$cpu->{'l3-cache'}; $cpu->{'microcode'} = $dmesg_boot->{'microcode'} if !$cpu->{'microcode'}; $cpu->{'model-id'} = $dmesg_boot->{'model-id'} if !$cpu->{'model-id'}; $cpu->{'max-freq'} = $dmesg_boot->{'max-freq'} if !$cpu->{'max-freq'}; $cpu->{'min-freq'} = $dmesg_boot->{'min-freq'} if !$cpu->{'min-freq'}; $cpu->{'scalings'} = $dmesg_boot->{'scalings'} if !$cpu->{'scalings'}; $cpu->{'siblings'} = $dmesg_boot->{'siblings'} if !$cpu->{'siblings'}; $cpu->{'stepping'} = $dmesg_boot->{'stepping'} if !$cpu->{'stepping'}; $cpu->{'type'} = $dmesg_boot->{'type'} if !$cpu->{'type'}; } main::log_data('dump','%$cpu',$cpu) if $b_log; print Data::Dumper::Dumper $cpu if $dbg[8]; eval $end if $b_log; return $cpu; } ## DATA GENERATOR DATA SOURCES ## sub dboot_data { eval $start if $b_log; my ($max_freq,$min_freq,@scalings); my ($family,$flags,$microcode,$model,$sep,$stepping,$type) = ('','','','','','',''); my ($cores,$siblings) = (0,0); my ($l1d,$l1i,$l2,$l3) = (0,0,0,0); # this will be null if it was not readable my $file = $system_files{'dmesg-boot'}; if ($dboot{'cpu'}){ foreach (@{$dboot{'cpu'}}){ # can be ~Features/Features2/AMD Features if (/Features/ || ($bsd_type eq "openbsd" && /^cpu0:\s*[a-z0-9]{2,3}(\s|,)[a-z0-9]{2,3}(\s|,)/i)){ my @line = split(/:\s*/, lc($_)); # free bsd has to have weird syntax: <....,> # Features2=0x1e98220b $line[1] =~ s/^[^<]*<|>[^>]*$//g; # then get rid of stuff $line[1] =~ s/<[^>]+>//g; # handle corner case like ,EL3 32, $line[1] =~ s/ (32|64)/_$1/g; # and replace commas with spaces $line[1] =~ s/,/ /g; $flags .= $sep . $line[1]; $sep = ' '; } # cpu0:AMD E1-1200 APU with Radeon(tm) HD Graphics, 1398.66 MHz, 14-02-00 elsif (/^cpu0:\s*([^,]+),\s+([0-9\.]+\s*MHz),\s+([0-9a-f]+)-([0-9a-f]+)-([0-9a-f]+)/){ $type = cpu_vendor($1); $family = uc($3); $model = uc($4); $stepping = uc($5); $family =~ s/^0//; $model =~ s/^0//; $stepping =~ s/^0//; # can be 00 } # note: cpu cache is in KiB MiB even though they call it KB and MB # cpu31: 32KB 64b/line 8-way I-cache, 32KB 64b/line 8-way D-cache, 512KB 64b/line 8-way L2 cache # 8-way means 1 per core, 16-way means 1/2 per core elsif (/^cpu0:\s*[0-9\.]+[KMG]B\s/){ # cpu0: 32KB 64b/line 4-way L1 VIPT I-cache, 32KB 64b/line 4-way L1 D-cache # cpu0:48KB 64b/line 3-way L1 PIPT I-cache, 32KB 64b/line 2-way L1 D-cache if (/\b([0-9\.]+[KMG])i?B\s\S+\s([0-9]+)-way\sD[\s-]?cache/){ $l1d = main::translate_size($1); } if (/\b([0-9\.]+[KMG])i?B\s\S+\s([0-9]+)-way\s(L1 \S+\s)?I[\s-]?cache/){ $l1i = main::translate_size($1); } if (/\b([0-9\.]+[KMG])i?B\s\S+\s([0-9]+)-way\sL2[\s-]?cache/){ $l2 = main::translate_size($1); } if (/\b([0-9\.]+[KMG])i?B\s\S+\s([0-9]+)-way\sL3[\s-]?cache/){ $l3 = main::translate_size($1); } } elsif (/^~Origin:(.+?)[\s,]+(Id|Family|Model|Stepping)/){ $type = cpu_vendor($1); if (/\bId\s*=\s*(0x)?([0-9a-f]+)\b/){ $microcode = ($1) ? uc($2) : $2; } if (/\bFamily\s*=\s*(0x)?([a-f0-9]+)\b/){ $family = ($1) ? uc($2) : $2; } if (/\bModel\s*=\s*(0x)?([a-f0-9]+)\b/){ $model = ($1) ? uc($2) : $2; } # they don't seem to use hex for steppings, so convert it if (/\bStepping\s*=\s*(0x)?([0-9a-f]+)\b/){ $stepping = (!$1) ? uc(sprintf("%X",$2)) : $2; } } elsif (/^cpu0:.*?[0-9\.]+\s?MHz:\sspeeds:\s(.*?)\s?MHz/){ @scalings = split(/[,\s]+/,$1); $min_freq = $scalings[-1]; $max_freq = $scalings[0]; } # 2 core MT Intel Core/Rzyen similar, use smt 0 as trigger to count: # cpu2:smt 0, core 1, package 0 # cpu3:smt 1, core 1, package 0 ## but: older AMD Athlon 2 core: # cpu0:smt 0, core 0, package 0 # cpu0:smt 0, core 0, package 1 elsif (/cpu([0-9]+):smt\s([0-9]+),\score\s([0-9]+)(,\spackage\s([0-9]+))?/){ $siblings = $1 + 1; $cores += 1 if $2 == 0; } } if ($flags){ $flags =~ s/\s+/ /g; $flags =~ s/^\s+|\s+$//g; } } else { if ($file && ! -r $file){ $flags = main::message('dmesg-boot-permissions'); } } my $values = { 'cores' => $cores, 'family' => $family, 'flags' => $flags, 'l1d-cache' => $l1d, 'l1i-cache' => $l1i, 'l2-cache' => $l2, 'l3-cache' => $l3, 'max-freq' => $max_freq, 'microcode' => $microcode, 'min-freq' => $min_freq, 'model-id' => $model, 'scalings' => \@scalings, 'siblings' => $siblings, 'stepping' => $stepping, 'type' => $type, }; print Data::Dumper::Dumper $values if $dbg[27]; eval $end if $b_log; return $values; } sub dmidecode_data { eval $start if $b_log; my $dmi_data = {'L1' => 0, 'L2' => 0,'L3' => 0, 'phys-cnt' => 0, 'ext-clock' => undef, 'socket' => undef, 'speed' => undef, 'max-speed' => undef, 'upgrade' => undef, 'volts' => undef}; return $dmi_data if !@dmi; my ($id,$amount,$socket,$upgrade); foreach my $item (@dmi){ next if ref $item ne 'ARRAY'; next if ($item->[0] < 4 || $item->[0] == 5 || $item->[0] == 6); last if $item->[0] > 7; if ($item->[0] == 7){ # skip first three rows, we don't need that data # seen very bad data, L2 labeled L3, and random phantom type 7 caches ($id,$amount) = ('',0); # Configuration: Disabled, Not Socketed, Level 2 next if $item->[4] =~ /^Configuration:.*Disabled/i; # labels have to be right before the block, otherwise exiting sub errors DMI: foreach my $value (@$item[3 .. $#$item]){ next if $value =~ /^~/; # variants: L3 - Cache; L3 Cache; L3-cache; L2 CACHE; CPU Internal L1 if ($value =~ /^Socket Designation:.*? (L[1-3])\b/){ $id = lc($1); } # some cpus only show Socket Designation: Internal cache elsif (!$id && $value =~ /^Configuration:.* Level.*?([1-3])\b/){ if ($value !~ /Disabled/i){ $id = "l$1"; } } # NOTE: cache is in KiB or MiB but they call it kB or MB # so we send translate_size k or M which trips KiB/MiB mode # if disabled can be 0. elsif ($id && $value =~ /^Installed Size:\s+(.*?[kKM])i?B$/){ # Config..Disabled test should have gotten this, but just in case 0 size next DMI if !$1; $amount = main::translate_size($1); } if ($id && $amount){ $dmi_data->{$id} = $amount; last; } } } # note: for multi cpu systems, we're hoping that these values are # the same for each cpu, which in most pc situations they will be, # and most ARM etc won't be using dmi data here anyway. # Older dmidecode appear to have unreliable Upgrade outputs elsif ($item->[0] == 4){ # skip first three row,s we don't need that data ($socket,$upgrade) = (); $dmi_data->{'phys-cnt'}++; # try to catch bsds without physical cpu count foreach my $value (@$item[3 .. $#$item]){ next if $value =~ /^~/; # note: on single cpu systems, Socket Designation shows socket type, # but on multi, shows like, CPU1; CPU Socket #2; Socket 0; so check values a bit. # Socket Designation: Intel(R) Core(TM) i5-3470 CPU @ 3.20GHz # Sometimes shows as CPU Socket... if ($value =~ /^Socket Designation:\s*(CPU\s*Socket|Socket)?[\s-]*(.*)$/i){ $upgrade = main::clean_dmi($2) if $2 !~ /(cpu|[mg]hz|onboard|socket|@|^#?[0-9]$)/i; # print "$socket_temp\n"; } # normally we prefer this value, but sometimes it's garbage # older systems often show: Upgrade: ZIF Socket which is a generic term, legacy elsif ($value =~ /^Upgrade:\s*(CPU\s*Socket|Socket)?[\s-]*(.*)$/i){ # print "$2\n"; $socket = main::clean_dmi($2) if $2 !~ /(ZIF|\bslot\b)/i; } # seen: Voltage: 5.0 V 2.9 V elsif ($value =~ /^Voltage:\s*([0-9\.]+)\s*(V|Volts)?\b/i){ $dmi_data->{'volts'} = main::clean_dmi($1); } elsif ($value =~ /^Current Speed:\s*([0-9\.]+)\s*([MGK]Hz)?\b/i){ $dmi_data->{'speed'} = main::clean_dmi($1); } elsif ($value =~ /^Max Speed:\s*([0-9\.]+)\s*([MGK]Hz)?\b/i){ $dmi_data->{'max-speed'} = main::clean_dmi($1); } elsif ($value =~ /^External Clock:\s*([0-9\.]+\s*[MGK]Hz)\b/){ $dmi_data->{'ext-clock'} = main::clean_dmi($1); } } } } # Seen older cases where Upgrade: Other value exists if ($socket || $upgrade){ if ($socket && $upgrade){ undef $upgrade if $socket eq $upgrade; } elsif ($upgrade){ $socket = $upgrade; undef $upgrade; } $dmi_data->{'socket'} = $socket; $dmi_data->{'upgrade'} = $upgrade; } main::log_data('dump','%$dmi_data',$dmi_data) if $b_log; print Data::Dumper::Dumper $dmi_data if $dbg[27]; eval $end if $b_log; return $dmi_data; } ## CPU PROPERTIES MAIN ## sub cpu_properties { my ($cpu) = @_; my ($cpu_sys,$arch_level); my $dmi_data = {}; my $tests = {}; my $caches = { 'cache' => 0, # general, non id'ed from cpuinfo generic cache 'l1' => 0, 'l1d' => 0, 'l1i' => 0, 'l2' => 0, 'l3' => 0, }; my $counts = { 'dies' => 0, 'cpu-cores' => 0, 'cores' => 0, 'cores-multiplier' => 0, 'physical' => 0, 'processors' => 0, }; my ($cache_check) = (''); if (!$bsd_type && -d '/sys/devices' && !$force{'cpuinfo'}){ $cpu_sys = cpu_sys_data($cpu->{'sys-freq'}); } cp_test_types($cpu,$tests) if $cpu->{'type'}; undef $cpu_sys if $dbg[42]; ## START CPU DATA HANDLERS ## if (defined $cpu_sys->{'cpus'}){ cp_data_sys( $cpu, $cpu_sys, $caches, $counts ); } if (!defined $cpu_sys->{'cpus'} || !$counts->{'physical'} || !$counts->{'cpu-cores'}){ cp_data_fallback( $cpu, $caches, \$cache_check, $counts, $tests, ); } # some arm cpus report each core as its own die, but that's wrong if (%risc && $counts->{'dies'} > 1 && $counts->{'cpu-cores'} == $counts->{'dies'}){ $counts->{'dies'} = 1; $cpu->{'dies'} = 1; } if ($type eq 'full' && ($extra > 1 || ($bsd_type && !$cpu->{'l2-cache'}))){ cp_data_dmi( $cpu, $dmi_data, $caches, $counts, # only to set BSD phys cpu counts if not found \$cache_check, ); } ## END CPU DATA HANDLERS ## # print "pc: $counts{'processors'} s: $cpu->{'siblings'} cpuc: $counts{'cpu-cores'} corec: $counts{'cores'}\n"; ## START CACHE PROCESSING ## # Get BSD and legacy linux caches if not already from dmidecode or cpu_sys. if ($type eq 'full' && !$caches->{'l1'} && !$caches->{'l2'} && !$caches->{'l2'}){ cp_caches_fallback( $counts, $cpu, $caches, \$cache_check, ); } # nothing to check! if ($type eq 'full'){ if (!$caches->{'l1'} && !$caches->{'l2'} && !$caches->{'l3'} && !$caches->{'cache'}){ $cache_check = ''; } if ($caches->{'cache'}){ # we don't want any math done on this one, who knows what it is $caches->{'cache'} = cp_cache_processor($caches->{'cache'},1); } if ($caches->{'l1'}){ $caches->{'l1'} = cp_cache_processor($caches->{'l1'},$counts->{'physical'}); } if ($caches->{'l2'}){ $caches->{'l2'} = cp_cache_processor($caches->{'l2'},$counts->{'physical'}); } if ($caches->{'l3'}){ $caches->{'l3'} = cp_cache_processor($caches->{'l3'},$counts->{'physical'}); } } ## END CACHE PROCESSING ## ## START TYPE/LAYOUT/ARCH/BUGS ## my ($cpu_type) = (''); $cpu_type = cp_cpu_type( $counts, $cpu, $tests ); my $topology = {}; cp_cpu_topology($counts,$topology); my $arch = cp_cpu_arch( $cpu->{'type'}, $cpu->{'family'}, $cpu->{'model-id'}, $cpu->{'stepping'}, $cpu->{'model_name'}, ); # arm cpuinfo case only; confirm on bsds, not sure all get family/ids if ($arch->[0] && !$cpu->{'arch'}){ ($cpu->{'arch'},$cpu->{'arch-note'},$cpu->{'process'},$cpu->{'gen'}, $cpu->{'year'}) = @$arch; } # cpu_arch comes from set_os() if (!$cpu->{'arch'} && $cpu_arch && %risc){ $cpu->{'arch'} = $cpu_arch; } if ($b_admin && defined $cpu_sys->{'data'}{'vulnerabilities'}){ $cpu->{'bugs-hash'} = $cpu_sys->{'data'}{'vulnerabilities'}; } ## END TYPE/LAYOUT/ARCH/BUGS ## ## START SPEED/BITS ## my $speed_info = cp_speed_data($cpu,$cpu_sys); # seen case where 64 bit cpu with lm flag shows as i686 (tinycore) if (!%risc && $cpu->{'flags'} && (!$bits_sys || $bits_sys == 32)){ $bits_sys = ($cpu->{'flags'} =~ /\blm\b/) ? 64 : 32; } # must run after to make sure we have cpu bits if ($b_admin && !%risc && $bits_sys && $bits_sys == 64 && $cpu->{'flags'}){ $arch_level = cp_cpu_level( $cpu->{'flags'} ); } ## END SPEED/BITS ## ## LOAD %cpu_properties my $cpu_properties = { 'arch-level' => $arch_level, 'avg-speed-key' => $speed_info->{'avg-speed-key'}, 'bits-sys' => $bits_sys, 'cache' => $caches->{'cache'}, 'cache-check' => $cache_check, 'cpu-type' => $cpu_type, 'dmi-max-speed' => $dmi_data->{'max-speed'}, 'dmi-speed' => $dmi_data->{'speed'}, 'ext-clock' => $dmi_data->{'ext-clock'}, 'high-speed-key' => $speed_info->{'high-speed-key'}, 'l1-cache' => $caches->{'l1'}, 'l1d-desc' => $caches->{'l1d-desc'}, 'l1i-desc' => $caches->{'l1i-desc'}, 'l2-cache' => $caches->{'l2'}, 'l2-desc' => $caches->{'l2-desc'}, 'l3-cache' => $caches->{'l3'}, 'l3-desc' => $caches->{'l3-desc'}, 'min-max-key' => $speed_info->{'min-max-key'}, 'min-max' => $speed_info->{'min-max'}, 'socket' => $dmi_data->{'socket'}, 'scaling-min-max-key' => $speed_info->{'scaling-min-max-key'}, 'scaling-min-max' => $speed_info->{'scaling-min-max'}, 'speed-key' => $speed_info->{'speed-key'}, 'speed' => $speed_info->{'speed'}, 'topology-full' => $topology->{'full'}, 'topology-string' => $topology->{'string'}, 'upgrade' => $dmi_data->{'upgrade'}, 'volts' => $dmi_data->{'volts'}, }; if ($b_log){ main::log_data('dump','%$cpu_properties',$cpu_properties); main::log_data('dump','%$topology',$topology); } # print Data::Dumper::Dumper $cpu; if ($dbg[38]){ print Data::Dumper::Dumper $cpu_properties; print Data::Dumper::Dumper $topology; } # my $dc = scalar @dies; # print 'phys: ' . $pc . ' dies: ' . $dc, "\n"; eval $end if $b_log; return $cpu_properties; } ## CPU DATA ENGINES ## # everything is passed by reference so no need to return anything sub cp_data_dmi { eval $start if $b_log; my ($cpu,$dmi_data,$caches,$counts,$cache_check) = @_; my $cpu_dmi = dmidecode_data(); # fix for bsds that do not show physical cpus, like openbsd if ($cpu_dmi->{'phys-cnt'} && $counts->{'physical'} == 1 && $cpu_dmi->{'phys-cnt'} > 1){ $counts->{'physical'} = $cpu_dmi->{'phys-cnt'}; } # We have to undef all the sys stuff to get back to the true dmidecode results # Too many variants to treat one by one, just clear it out if forced. undef $caches if $force{'dmidecode'}; # We don't want to use dmi L1/L2/L3 at all for non BSD systems unless forced # because have seen totally gibberish dmidecode data for caches. /sys cache # data preferred, more granular and basically consistently right. # Only run for linux if no cache data found, but BSD use to fill in missing # (we don't care about legacy errors for BSD since the data isn't adequate). # legacy dmidecode cache data used the per cache value, NOT the per CPU total # value like it does today. Which makes it impossible to know for sure if the # given value is right (new, or if cache matched cpu total) or inadequate. if ((!$bsd_type && !$caches->{'l1'} && !$caches->{'l2'} && !$caches->{'l3'}) || ($bsd_type && (!$caches->{'l1'} || !$caches->{'l2'} || !$caches->{'l3'}))){ # Newer dmi: cache type total per phys cpu; Legacy: raw cache size only if ($cpu_dmi->{'l1'} && !$caches->{'l1'}){ $caches->{'l1'} = $cpu_dmi->{'l1'}; $$cache_check = main::message('note-check'); } # note: bsds often won't have L2 catch data found yet, but bsd sysctl can # have these values so let's check just in case. OpenBSD does have it often. if ($cpu_dmi->{'l2'} && !$caches->{'l2'}){ $caches->{'l2'} = $cpu_dmi->{'l2'}; $$cache_check = main::message('note-check'); } if ($cpu_dmi->{'l3'} && !$caches->{'l3'}){ $caches->{'l3'} = $cpu_dmi->{'l3'}; $$cache_check = main::message('note-check'); } } $dmi_data->{'max-speed'} = $cpu_dmi->{'max-speed'}; $dmi_data->{'socket'} = $cpu_dmi->{'socket'} if $cpu_dmi->{'socket'}; $dmi_data->{'upgrade'} = $cpu_dmi->{'upgrade'} if $cpu_dmi->{'upgrade'}; $dmi_data->{'speed'} = $cpu_dmi->{'speed'} if $cpu_dmi->{'speed'}; $dmi_data->{'ext-clock'} = $cpu_dmi->{'ext-clock'} if $cpu_dmi->{'ext-clock'}; $dmi_data->{'volts'} = $cpu_dmi->{'volts'} if $cpu_dmi->{'volts'}; eval $end if $b_log; } sub cp_data_fallback { eval $start if $b_log; my ($cpu,$caches,$cache_check,$counts,$tests) = @_; if (!$counts->{'physical'}){ # handle case where cpu reports say, phys id 0, 2, 4, 6 foreach (@{$cpu->{'ids'}}){ $counts->{'physical'}++ if $_; } } # count unique processors ## # note, this fails for intel cpus at times # print ref $cpu->{'processors'}, "\n"; if (!$counts->{'processors'}){ $counts->{'processors'} = scalar @{$cpu->{'processors'}}; } # print "p count:$counts->{'processors'}\n"; # print Data::Dumper::Dumper $cpu->{'processors'}; # $counts->{'cpu-cores'} is per physical cpu # note: elbrus supports turning off cores, so we need to add one for cases # where rounds to 0 or 1 less # print "$cpu{'type'},$cpu{'family'},$cpu{'model-id'},$cpu{'arch'}\n"; if ($tests->{'elbrus'} && $counts->{'processors'}){ my $elbrus = cp_elbrus_data($cpu->{'family'},$cpu->{'model-id'}, $counts->{'processors'},$cpu->{'arch'}); $counts->{'cpu-cores'} = $elbrus->[0]; $counts->{'physical'} = $elbrus->[1]; $cpu->{'arch'} = $elbrus->[2]; # print 'model id: ' . $cpu->{'model-id'} . ' arch: ' . $cpu->{'arch'} . " cpc: $counts->{'cpu-cores'} phyc: $counts->{'physical'} proc: $counts->{'processors'} \n"; } $counts->{'physical'} ||= 1; # assume 1 if no id found, as with ARM foreach my $die_ref (@{$cpu->{'ids'}}){ next if ref $die_ref ne 'ARRAY'; $counts->{'cores'} = 0; $counts->{'dies'} = scalar @$die_ref; #$cpu->{'dies'} = $counts->{'dies'}; foreach my $core_ref (@$die_ref){ next if ref $core_ref ne 'ARRAY'; $counts->{'cores'} = 0;# reset for each die!! # NOTE: the counters can be undefined because the index comes from # core id: which can be 0 skip 1 then 2, which leaves index 1 undefined # risc cpus do not actually show core id so ignore that counter foreach my $id (@$core_ref){ $counts->{'cores'}++ if defined $id && !%risc; } # print 'cores: ' . $counts->{'cores'}, "\n"; } } # this covers potentially cases where ARM cpus have > 1 die # maybe applies to all risc, not sure, but dies is broken anyway for cpuinfo if (!$cpu->{'dies'}){ if ($risc{'arm'} && $counts->{'dies'} <= 1 && $cpu->{'dies'} > 1){ $counts->{'dies'} = $cpu->{'dies'}; } else { $cpu->{'dies'} = $counts->{'dies'}; } } # this is an attempt to fix the amd family 15 bug with reported cores vs actual cores # NOTE: amd A6-4400M APU 2 core reports: cores: 1 siblings: 2 # NOTE: AMD A10-5800K APU 4 core reports: cores: 2 siblings: 4 if (!$counts->{'cpu-cores'}){ if ($cpu->{'cores'} && !$counts->{'cores'} || $cpu->{'cores'} >= $counts->{'cores'}){ $counts->{'cpu-cores'} = $cpu->{'cores'}; } elsif ($counts->{'cores'} > $cpu->{'cores'}){ $counts->{'cpu-cores'} = $counts->{'cores'}; } } # print "cpu-c:$counts->{'cpu-cores'}\n"; # $counts->{'cpu-cores'} = $cpu->{'cores'}; # like, intel core duo # NOTE: sadly, not all core intel are HT/MT, oh well... # xeon may show wrong core / physical id count, if it does, fix it. A xeon # may show a repeated core id : 0 which gives a fake num_of_cores=1 if ($tests->{'intel'}){ if ($cpu->{'siblings'} && $cpu->{'siblings'} > 1 && $cpu->{'cores'} && $cpu->{'cores'} > 1){ if ($cpu->{'siblings'}/$cpu->{'cores'} == 1){ $tests->{'intel'} = 0; $tests->{'ht'} = 0; } else { $counts->{'cpu-cores'} = ($cpu->{'siblings'}/2); $tests->{'ht'} = 1; } } } # ryzen is made out of blocks of 2, 4, or 8 core dies... if ($tests->{'ryzen'}){ $counts->{'cpu-cores'} = $cpu->{'cores'}; # note: posix ceil isn't present in Perl for some reason, deprecated? my $working = $counts->{'cpu-cores'} / 8; my @temp = split('\.', $working); $cpu->{'dies'} = ($temp[1] && $temp[1] > 0) ? $temp[0]++ : $temp[0]; $counts->{'dies'} = $cpu->{'dies'}; } # these always have 4 dies elsif ($tests->{'epyc'}){ $counts->{'cpu-cores'} = $cpu->{'cores'}; $counts->{'dies'} = $cpu->{'dies'} = 4; } # final check, override the num of cores value if it clearly is wrong # and use the raw core count and synthesize the total instead of real count if ($counts->{'cpu-cores'} == 0 && $cpu->{'cores'} * $counts->{'physical'} > 1){ $counts->{'cpu-cores'} = ($cpu->{'cores'} * $counts->{'physical'}); } # last check, seeing some intel cpus and vms with intel cpus that do not show any # core id data at all, or siblings. if ($counts->{'cpu-cores'} == 0 && $counts->{'processors'} > 0){ $counts->{'cpu-cores'} = $counts->{'processors'}; } # this happens with BSDs which have very little cpu data available if ($counts->{'processors'} == 0 && $counts->{'cpu-cores'} > 0){ $counts->{'processors'} = $counts->{'cpu-cores'}; if ($bsd_type && ($tests->{'ht'} || $tests->{'amd-zen'}) && $counts->{'cpu-cores'} > 2){ $counts->{'cpu-cores'} = $counts->{'cpu-cores'}/2;; } my $count = $counts->{'processors'}; $count-- if $count > 0; $cpu->{'processors'}[$count] = 0; # no way to get per processor speeds yet, so assign 0 to each # must be a numeric value. Could use raw speed from core 0, but # that would just be a hack. foreach (0 .. $count){ $cpu->{'processors'}[$_] = 0; } } # so far only OpenBSD has a way to detect MT cpus, but Openbsd has disabled MT if ($bsd_type){ if ($cpu->{'siblings'} && $counts->{'cpu-cores'} && $counts->{'cpu-cores'} > 1){ $counts->{'cores-multiplier'} = $counts->{'cpu-cores'}; } # if no siblings we couldn't get MT status of cpu so can't trust cache else { $$cache_check = main::message('note-check'); } } # only elbrus shows L1 / L3 cache data in cpuinfo, cpu_sys data should show # for newer full linux. elsif ($counts->{'cpu-cores'} && ($tests->{'elbrus'} || $counts->{'cpu-cores'} > 1)) { $counts->{'cores-multiplier'} = $counts->{'cpu-cores'}; } # last test to catch some corner cases # seen a case where a xeon vm in a dual xeon system actually had 2 cores, no MT # so it reported 4 siblings, 2 cores, but actually only had 1 core per virtual cpu # print "prc: $counts->{'processors'} phc: $counts->{'physical'} coc: $counts->{'cores'} cpc: $counts->{'cpu-cores'}\n"; # this test was for arm but I think it applies to all risc, but risc will be sys if (!%risc && $counts->{'processors'} == $counts->{'physical'} * $counts->{'cores'} && $counts->{'cpu-cores'} > $counts->{'cores'}){ $tests->{'ht'} = 0; # $tests->{'xeon'} = 0; $tests->{'intel'} = 0; $counts->{'cpu-cores'} = 1; $counts->{'cores'} = 1; $cpu->{'siblings'} = 1; } eval $end if $b_log; } # all values passed by reference so no need for returns sub cp_data_sys { eval $start if $b_log; my ($cpu,$cpu_sys,$caches,$counts) = @_; my (@keys) = (sort keys %{$cpu_sys->{'cpus'}}); return if !@keys; $counts->{'physical'} = scalar @keys; if ($type eq 'full' && $cpu_sys->{'cpus'}{$keys[0]}{'caches'}){ cp_sys_caches($cpu_sys->{'cpus'}{$keys[0]}{'caches'},$caches,'l1','l1d'); cp_sys_caches($cpu_sys->{'cpus'}{$keys[0]}{'caches'},$caches,'l1','l1i'); cp_sys_caches($cpu_sys->{'cpus'}{$keys[0]}{'caches'},$caches,'l2',''); cp_sys_caches($cpu_sys->{'cpus'}{$keys[0]}{'caches'},$caches,'l3',''); } if ($cpu_sys->{'data'}{'speeds'}{'all'}){ $counts->{'processors'} = scalar @{$cpu_sys->{'data'}{'speeds'}{'all'}}; } if (defined $cpu_sys->{'data'}{'smt-active'}){ if ($cpu_sys->{'data'}{'smt-active'}){ $cpu->{'smt'} = 'enabled'; } # values: on/off/notsupported/notimplemented elsif (defined $cpu_sys->{'data'}{'smt-control'} && $cpu_sys->{'data'}{'smt-control'} =~ /^not/){ $cpu->{'smt'} = main::message('unsupported'); } else { $cpu->{'smt'} = 'disabled'; } } my $i = 0; my (@governor,@max,@min,@phys_cores); foreach my $phys_id (@keys){ if ($cpu_sys->{'cpus'}{$phys_id}{'cores'}){ my ($mt,$st) = (0,0); my (@core_keys) = keys %{$cpu_sys->{'cpus'}{$phys_id}{'cores'}}; $cpu->{'cores'} = $counts->{'cpu-cores'} = scalar @core_keys; $counts->{'cpu-topo'}[$i]{'cores'} = $cpu->{'cores'}; if ($cpu_sys->{'cpus'}{$phys_id}{'dies'}){ $counts->{'cpu-topo'}[$i]{'dies'} = scalar @{$cpu_sys->{'cpus'}{$phys_id}{'dies'}}; $cpu->{'dies'} = $counts->{'cpu-topo'}[$i]{'dies'}; } # If we ever get > 1 min/max speed per phy cpu, we'll need to fix the [0] if ($cpu_sys->{'cpus'}{$phys_id}{'max-freq'}[0]){ if (!grep {$cpu_sys->{'cpus'}{$phys_id}{'max-freq'}[0] eq $_} @max){ push(@max,$cpu_sys->{'cpus'}{$phys_id}{'max-freq'}[0]); } $counts->{'cpu-topo'}[$i]{'max'} = $cpu_sys->{'cpus'}{$phys_id}{'max-freq'}[0]; } if ($cpu_sys->{'cpus'}{$phys_id}{'min-freq'}[0]){ if (!grep {$cpu_sys->{'cpus'}{$phys_id}{'min-freq'}[0] eq $_} @min){ push(@min,$cpu_sys->{'cpus'}{$phys_id}{'min-freq'}[0]); } $counts->{'cpu-topo'}[$i]{'min'} = $cpu_sys->{'cpus'}{$phys_id}{'min-freq'}[0]; } # cheating, this is not a count, but we need the data for topology, must # sort since governors can be in different order if > 1 if ($cpu_sys->{'cpus'}{$phys_id}{'governor'}){ foreach my $gov (@{$cpu_sys->{'cpus'}{$phys_id}{'governor'}}){ push(@governor,$gov) if !grep {$_ eq $gov} @governor; } $cpu->{'governor'} = join(',',@governor); } if ($cpu_sys->{'cpus'}{$phys_id}{'scaling-driver'}){ $cpu->{'scaling-driver'} = $cpu_sys->{'cpus'}{$phys_id}{'scaling-driver'}; } if ($cpu_sys->{'cpus'}{$phys_id}{'scaling-driver'}){ $cpu->{'scaling-driver'} = $cpu_sys->{'cpus'}{$phys_id}{'scaling-driver'}; } if ($cpu_sys->{'cpus'}{$phys_id}{'scaling-max-freq'}){ $cpu->{'scaling-max-freq'} = $cpu_sys->{'cpus'}{$phys_id}{'scaling-max-freq'}; } if ($cpu_sys->{'cpus'}{$phys_id}{'scaling-min-freq'}){ $cpu->{'scaling-min-freq'} = $cpu_sys->{'cpus'}{$phys_id}{'scaling-min-freq'}; } if (!grep {$counts->{'cpu-cores'} eq $_} @phys_cores){ push(@phys_cores,$counts->{'cpu-cores'}); } if ($counts->{'processors'}){ if ($counts->{'processors'} > $counts->{'cpu-cores'}){ for my $key (@core_keys){ if ((my $threads = scalar @{$cpu_sys->{'cpus'}{$phys_id}{'cores'}{$key}}) > 1){ $counts->{'cpu-topo'}[$i]{'cores-mt'}++; $counts->{'cpu-topo'}[$i]{'threads'} += $threads; # note: for mt+st type cpus, we need to handle tpc on output per type $counts->{'cpu-topo'}[$i]{'tpc'} = $threads; $counts->{'struct-mt'} = 1; } else { $counts->{'cpu-topo'}[$i]{'cores-st'}++; $counts->{'cpu-topo'}[$i]{'threads'}++; $counts->{'struct-st'} = 1; } } } } $i++; } } $counts->{'struct-max'} = 1 if scalar @max > 1; $counts->{'struct-min'} = 1 if scalar @min > 1; $counts->{'struct-cores'} = 1 if scalar @phys_cores > 1; if ($b_log){ main::log_data('dump','%cpu_properties',$caches); main::log_data('dump','%cpu_properties',$counts); } # print Data::Dumper::Dumper $caches; # print Data::Dumper::Dumper $counts; eval $end if $b_log; } sub cp_sys_caches { eval $start if $b_log; my ($sys_caches,$caches,$id,$id_di) = @_; my $cache_id = ($id_di) ? $id_di: $id; my %cache_desc; if ($sys_caches->{$cache_id}){ # print Data::Dumper::Dumper $cpu_sys->{'cpus'}; foreach (@{$sys_caches->{$cache_id}}){ # android seen to have cache data without size item next if !defined $_; $caches->{$cache_id} += $_; $cache_desc{$_}++ if $b_admin; } $caches->{$id} += $caches->{$id_di} if $id_di; $caches->{$cache_id . '-desc'} = cp_cache_desc(\%cache_desc) if $b_admin; } eval $end if $b_log; } ## CPU PROPERTIES TOOLS ## sub cp_cache_desc { my ($cache_desc) = @_; my ($desc,$sep) = ('',''); foreach (sort keys %{$cache_desc}){ $desc .= $sep . $cache_desc->{$_} . 'x' . main::get_size($_,'string'); $sep = ', '; } undef $cache_desc; return $desc; } # args: 0: $caches passed by reference sub cp_cache_processor { my ($cache,$count) = @_; my $output; if ($count > 1){ $output = $count . 'x ' . main::get_size($cache,'string'); $output .= ' (' . main::get_size($cache * $count,'string') . ')'; } else { $output = main::get_size($cache,'string'); } # print "$cache :: $count :: $output\n"; return $output; } sub cp_caches_fallback { eval $start if $b_log; my ($counts,$cpu,$caches,$cache_check) = @_; # L1 Cache if ($cpu->{'l1-cache'}){ $caches->{'l1'} = $cpu->{'l1-cache'} * $counts->{'cores-multiplier'}; } else { if ($cpu->{'l1d-cache'}){ $caches->{'l1d-desc'} = $counts->{'cores-multiplier'} . 'x'; $caches->{'l1d-desc'} .= main::get_size($cpu->{'l1d-cache'},'string'); $caches->{'l1'} += $cpu->{'l1d-cache'} * $counts->{'cores-multiplier'}; } if ($cpu->{'l1i-cache'}){ $caches->{'l1i-desc'} = $counts->{'cores-multiplier'} . 'x'; $caches->{'l1i-desc'} .= main::get_size($cpu->{'l1i-cache'},'string'); $caches->{'l1'} += $cpu->{'l1i-cache'} * $counts->{'cores-multiplier'}; } } # L2 Cache # If summed by dmidecode or from cpu_sys don't use this if ($cpu->{'l2-cache'}){ # the only possible change for bsds is if dmidecode method gives phy counts # Looks like Intel on bsd shows L2 per core, not total. Note: Pentium N3540 # uses 2(not 4)xL2 cache size for 4 cores, sigh... you just can't win... if ($bsd_type){ $caches->{'l2'} = $cpu->{'l2-cache'} * $counts->{'cores-multiplier'}; } # AMD SOS chips appear to report full L2 cache per cpu elsif ($cpu->{'type'} eq 'amd' && ($cpu->{'family'} eq '14' || $cpu->{'family'} eq '15' || $cpu->{'family'} eq '16')){ $caches->{'l2'} = $cpu->{'l2-cache'}; } elsif ($cpu->{'type'} ne 'intel'){ $caches->{'l2'} = $cpu->{'l2-cache'} * $counts->{'cpu-cores'}; } # note: this handles how intel reports L2, total instead of per core like # AMD does when cpuinfo sourced, when caches sourced, is per core as expected else { $caches->{'l2'} = $cpu->{'l2-cache'}; } } # l3 Cache - usually per physical cpu, but some rzyen will have per ccx. if ($cpu->{'l3-cache'}){ $caches->{'l3'} = $cpu->{'l3-cache'}; } # don't do anything with it, we have no ideaw if it's L1, L2, or L3, generic # cpuinfo fallback, it's junk data essentially, and will show as cache: # only use this fallback if no cache data was found if ($cpu->{'cache'} && !$caches->{'l1'} && !$caches->{'l2'} && !$caches->{'l3'}){ $caches->{'cache'} = $cpu->{'cache'}; $$cache_check = main::message('note-check'); } eval $end if $b_log; } ## START CPU ARCH ## sub cp_cpu_arch { eval $start if $b_log; my ($type,$family,$model,$stepping,$name) = @_; # we can get various random strings for rev/stepping, particularly for arm,ppc # but we want stepping to be integer for math comparisons, so convert, or set # to 0 so it won't break anything. if (defined $stepping && $stepping =~ /^[A-F0-9]{1,3}$/i){ $stepping = hex($stepping); } else { $stepping = 0 } $family ||= ''; $model = '' if !defined $model; # model can be 0 my ($arch,$gen,$note,$process,$year); my $check = main::message('note-check'); # See: docs/inxi-cpu.txt # print "type:$type fam:$family model:$model step:$stepping\n"; # Note: AMD family is not Ext fam . fam but rather Ext-fam + fam. # But model is Ext model . model... if ($type eq 'amd'){ if ($family eq '3'){ $arch = 'Am386'; $process = 'AMD 900-1500nm'; $year = '1991-92'; } elsif ($family eq '4'){ if ($model =~ /^(3|7|8|9|A)$/){ $arch = 'Am486'; $process = 'AMD 350-700nm'; $year = '1993-95';} elsif ($model =~ /^(E|F)$/){ $arch = 'Am5x86'; $process = 'AMD 350nm'; $year = '1995-99';} } elsif ($family eq '5'){ ## verified if ($model =~ /^(0|1|2|3)$/){ $arch = 'K5'; $process = 'AMD 350nm'; $year = '1996-97';} elsif ($model =~ /^(6)$/){ $arch = 'K6'; $process = 'AMD 350nm'; $year = '1997-98';} elsif ($model =~ /^(7)$/){ $arch = 'K6'; $process = 'AMD 250nm'; $year = '1997-98';} elsif ($model =~ /^(8)$/){ $arch = 'K6-2'; $process = 'AMD 250nm'; $year = '1998-2003';} elsif ($model =~ /^(9)$/){ $arch = 'K6-3'; $process = 'AMD 250nm'; $year = '1999-2003';} elsif ($model =~ /^(D)$/){ $arch = 'K6-3'; $process = 'AMD 180nm'; $year = '1999-2003';} ## unverified elsif ($model =~ /^(A)$/){ $arch = 'K6 Geode'; $process = 'AMD 150-350nm'; $year = '1999';} # dates uncertain, 1999 start ## fallback else { $arch = 'K6'; $process = 'AMD 250-350nm'; $year = '1999-2003';} } elsif ($family eq '6'){ ## verified if ($model =~ /^(1)$/){ $arch = 'K7'; # 1:2:argon $process = 'AMD 250nm'; $year = '1999-2001';} elsif ($model =~ /^(2|3|4|6)$/){ # 3:0:duron;3:1:spitfire;4:2,4:thunderbird; 6:2:Palomino, duron; 2:1:Pluto $arch = 'K7'; $process = 'AMD 180nm'; $year = '2000-01';} elsif ($model =~ /^(7|8|A)$/){ $arch = 'K7'; # 7:0,1:Morgan;8:1:thoroughbred,duron-applebred; A:0:barton $process = 'AMD 130nm'; $year = '2002-04';} ## fallback else { $arch = 'K7'; $process = 'AMD 130-180nm'; $year = '2003-14';} } # note: family F K8 needs granular breakdowns, was a long lived family elsif ($family eq 'F'){ ## verified # check: B|E|F if ($model =~ /^(4|5|7|8|B|C|E|F)$/){ # 4:0:clawhammer;5:8:sledgehammer;8:2,4:8:dubin;7:A;C:0:NewCastle; $arch = 'K8'; $process = 'AMD 130nm'; $year = '2004-05';} # check: 14|17|18|1B|25|48|4B|5D elsif ($model =~ /^(14|15|17|18|1B|1C|1F|21|23|24|25|27|28|2C|2F|37|3F|41|43|48|4B|4C|4F|5D|5F|C1)$/){ # 1C:0,2C:2:Palermo;21:0,2,23:2:denmark;1F:0:winchester;2F:2:Venice; # 27:1,37:2:san diego;28:1,3F:2:Manchester;23:2:Toledo;$F:2,5F:2,3:Orleans; # 5F:2:Manila?;37:2;C1:3:windsor fx;43:2,3:santa ana;41:2:santa rosa; # 4C:2:Keene;2C:2:roma;24:2:newark $arch = 'K8'; $process = 'AMD 90nm'; $year = '2004-06';} elsif ($model =~ /^(68|6B|6C|6F|7C|7F)$/){ $arch = 'K8'; # 7F:1,2:Lima; 68:1,6B:1,2:Brisbane;6F:2:conesus;7C:2:sherman $process = 'AMD 65nm'; $year = '2005-08';} ## fallback else { $arch = 'K8'; $process = 'AMD 65-130nm'; $year = '2004-2008';} } # K9 was planned but skipped elsif ($family eq '10'){ # 1F ## verified if ($model =~ /^(2)$/){ $arch = 'K10'; # 2:2:budapest;2:1,3:barcelona $process = 'AMD 65nm'; $year = '2007-08';} elsif ($model =~ /^(4|5|6|8|9|A)$/){ # 4:2:Suzuka;5:2,3:propus;6:2:Regor;8:0:Istanbul;9:1:maranello $arch = 'K10'; $process = 'AMD 45nm'; $year = '2009-13';} ## fallback else { $arch = 'K10'; $process = 'AMD 45-65nm'; $year = '2007-13';} } # very loose, all stepping 1: covers athlon x2, sempron, turion x2 # years unclear, could be 2005 start, or 2008 elsif ($family eq '11'){ # 2F if ($model =~ /^(3)$/){ $arch = 'K11 Turion X2'; # mix of K8/K10 $note = $check; $process = 'AMD 65-90nm'; $year = ''; } } # might also need cache handling like 14/16 elsif ($family eq '12'){ # 3F if ($model =~ /^(1)$/){ $arch = 'K12 Fusion'; # K10 based apu, llano $process = 'GF 32nm'; $year = '2011';} # check years else { $arch = 'K12 Fusion'; $process = 'GF 32nm'; $year = '2011';} # check years } # SOC, apu elsif ($family eq '14'){ # 5F if ($model =~ /^(1|2)$/){ $arch = 'Bobcat'; $process = 'GF 40nm'; $year = '2011-13';} else { $arch = 'Bobcat'; $process = 'GF 40nm'; $year = '2011-13';} } elsif ($family eq '15'){ # 6F # note: only model 1 confirmd if ($model =~ /^(0|1|3|4|5|6|7|8|9|A|B|C|D|E|F)$/){ $arch = 'Bulldozer'; $process = 'GF 32nm'; $year = '2011';} # note: only 2,10,13 confirmed elsif ($model =~ /^(2|10|11|12|13|14|15|16|17|18|19|1A|1B|1C|1D|1E|1F)$/){ $arch = 'Piledriver'; $process = 'GF 32nm'; $year = '2012-13';} # note: only 30,38 confirmed elsif ($model =~ /^(30|31|32|33|34|35|36|37|38|39|3A|3B|3C|3D|3E|3F)$/){ $arch = 'Steamroller'; $process = 'GF 28nm'; $year = '2014';} # note; only 60,65,70 confirmed elsif ($model =~ /^(60|61|62|63|64|65|66|67|68|69|6A|6B|6C|6D|6E|6F|70|71|72|73|74|75|76|77|78|79|7A|7B|7C|7D|7E|7F)$/){ $arch = 'Excavator'; $process = 'GF 28nm'; $year = '2015';} else { $arch = 'Bulldozer'; $process = 'GF 32nm'; $year = '2011-12';} } # SOC, apu elsif ($family eq '16'){ # 7F if ($model =~ /^(0|1|2|3|4|5|6|7|8|9|A|B|C|D|E|F)$/){ $arch = 'Jaguar'; $process = 'GF 28nm'; $year = '2013-14';} elsif ($model =~ /^(30|31|32|33|34|35|36|37|38|39|3A|3B|3C|3D|3E|3F)$/){ $arch = 'Puma'; $process = 'GF 28nm'; $year = '2014-15';} else { $arch = 'Jaguar'; $process = 'GF 28nm'; $year = '2013-14';} } elsif ($family eq '17'){ # 8F # can't find stepping/model for no ht 2x2 core/die models, only first ones if ($model =~ /^(1|11|20)$/){ $arch = 'Zen'; $process = 'GF 14nm'; $year = '2017-19';} # Seen: stepping 1 is Zen+ Ryzen 7 3750H. But stepping 1 Zen is: Ryzen 3 3200U # AMD Ryzen 3 3200G is stepping 1, Zen+ # Unknown if stepping 0 is Zen or either. elsif ($model =~ /^(18)$/){ $arch = 'Zen/Zen+'; $gen = '1'; $process = 'GF 12nm'; $note = $check; $year = '2019';} # shares model 8 with zen, stepping unknown elsif ($model =~ /^(8)$/){ $arch = 'Zen+'; $gen = '2'; $process = 'GF 12nm'; $year = '2018-21';} # used this but it didn't age well: ^(2[0123456789ABCDEF]| elsif ($model =~ /^(3.|4.|5.|6.|7.|8.|9.|A.)$/){ $arch = 'Zen 2'; $gen = '3'; $process = 'TSMC n7 (7nm)'; # some consumer maybe GF 14nm $year = '2020-22';} else { $arch = 'Zen'; $note = $check; $process = '7-14nm'; $year = '';} } # Joint venture between AMD and Chinese companies. Type amd? or hygon? elsif ($family eq '18'){ # 9F # model 0, zen 1 $arch = 'Zen (Hygon Dhyana)'; $gen = '1'; $process = 'GF 14nm'; $year = '';} elsif ($family eq '19'){ # AF # zen 4 raphael, phoenix 1 use n5 I believe # Epyc Bergamo zen4c 4nm, only few full model IDs, update when appear # zen4c is for cloud hyperscale if ($model =~ /^(78)$/){ $arch = 'Zen 4c'; $gen = '5'; $process = 'TSMC n4 (4nm)'; $year = '2023+';} # ext model 6,7, base models trickling in # 10 engineering sample elsif ($model =~ /^(1.|6.|7.|A.)$/){ $arch = 'Zen 4'; $gen = '5'; $process = 'TSMC n5 (5nm)'; $year = '2022+';} # double check 40, 44; 21 confirmed elsif ($model =~ /^(21|4.)$/){ $arch = 'Zen 3+'; $gen = '4'; $process = 'TSMC n6 (7nm)'; $year = '2022';} # 21, 50: step 0; known: 21, 3x, 50 elsif ($model =~ /^(0|1|8|2.|3.|5.)$/){ $arch = 'Zen 3'; $gen = '4'; $process = 'TSMC n7 (7nm)'; $year = '2021-22';} else { $arch = 'Zen 3/4'; $note = $check; $process = 'TSMC n5 (5nm)'; $year = '2021-22';} } # Zen 5: TSMC n3/n4, epyc turin / granite ridge? / turin dense zen 5c 3nm elsif ($family eq '20'){ # BF if ($model =~ /^(0)$/){ $arch = 'Zen 5'; $gen = '5'; $process = 'TSMC n3 (3nm)'; # turin could be 4nm, need more data $year = '2023+';} elsif ($model =~ /^(20|40)$/){ $arch = 'Zen 5'; $gen = '5'; $process = 'TSMC n3 (3nm)'; # desktop, granite ridge, confirm 2024 $year = '2024+';} else { $arch = 'Zen 5'; $note = $check; $process = 'TSMC n3/n4 (3,4nm)'; $year = '2024+';} } # Roadmap: check to verify, AMD is usually closer to target than Intel # Epyc 4 genoa: zen 4, nm, 2022+ (dec 2022), cxl-1.1,pcie-5, ddr-5 } # we have no advanced data for ARM cpus, this is an area that could be improved? elsif ($type eq 'arm'){ if ($family ne ''){ $arch="ARMv$family";} else { $arch='ARM';} } # elsif ($type eq 'ppc'){ # $arch='PPC'; # } # aka VIA elsif ($type eq 'centaur'){ if ($family eq '5'){ if ($model =~ /^(4)$/){ $arch = 'WinChip C6'; $process = '250nm'; $year = '';} elsif ($model =~ /^(8)$/){ $arch = 'WinChip 2'; $process = '250nm'; $year = '';} elsif ($model =~ /^(9)$/){ $arch = 'WinChip 3'; $process = '250nm'; $year = '';} } elsif ($family eq '6'){ if ($model =~ /^(6)$/){ $arch = 'Via Cyrix III (WinChip 5)'; $process = '150nm'; # guess $year = '';} elsif ($model =~ /^(7|8)$/){ $arch = 'Via C3'; $process = '150nm'; $year = '';} elsif ($model =~ /^(9)$/){ $arch = 'Via C3-2'; $process = '130nm'; $year = '';} elsif ($model =~ /^(A|D)$/){ $arch = 'Via C7'; $process = '90nm'; $year = '';} elsif ($model =~ /^(F)$/){ if ($stepping <= 1){ $arch = 'Via CN Nano (Isaah)';} elsif ($stepping <= 2){ $arch = 'Via Nano (Isaah)';} elsif ($stepping <= 10){ $arch = 'Via Nano (Isaah)';} elsif ($stepping <= 12){ $arch = 'Via Isaah';} elsif ($stepping <= 13){ $arch = 'Via Eden';} elsif ($stepping <= 14){ $arch = 'Zhaoxin ZX';} $process = '90nm'; # guess $year = '';} } elsif ($family eq '7'){ if ($model =~ /^(1.|3.)$/){ $arch = 'Zhaoxin ZX'; $process = '90nm'; # guess $year = ''; } } } # note, to test uncoment $cpu{'type'} = Elbrus in proc/cpuinfo logic # ExpLicit Basic Resources Utilization Scheduling elsif ($type eq 'elbrus'){ # E8CB if ($family eq '4'){ if ($model eq '1'){ $arch = 'Elbrus 2000 (gen-1)'; $process = 'Mikron 130nm'; $year = '2005';} elsif ($model eq '2'){ $arch = 'Elbrus-S (gen-2)'; $process = 'Mikron 90nm'; $year = '2010';} elsif ($model eq '3'){ $arch = 'Elbrus-4C (gen-3)'; $process = 'TSMC 65nm'; $year = '2014';} elsif ($model eq '4'){ $arch = 'Elbrus-2C+ (gen-2)'; $process = 'Mikron 90nm'; $year = '2011';} elsif ($model eq '6'){ $arch = 'Elbrus-2CM (gen-2)'; $note = $check; $process = 'Mikron 90nm'; $year = '2011 (?)';} elsif ($model eq '7'){ if ($stepping >= 2){ $arch = 'Elbrus-8C1 (gen-4)'; $process = 'TSMC 28nm'; $year = '2016';} else { $arch = 'Elbrus-8C (gen-4)'; $process = 'TSMC 28nm'; $year = '2016';} } # note: stepping > 1 may be 8C1 elsif ($model eq '8'){ $arch = 'Elbrus-1C+ (gen-4)'; $process = 'TSMC 40nm'; $year = '2016';} # 8C2 morphed out of E8CV, but the two were the same die elsif ($model eq '9'){ $arch = 'Elbrus-8CV/8C2 (gen-4/5)'; $process = 'TSMC 28nm'; $note = $check; $year = '2016/2020';} elsif ($model eq 'A'){ $arch = 'Elbrus-12C (gen-6)'; $process = 'TSMC 16nm'; $year = '2021+';} elsif ($model eq 'B'){ $arch = 'Elbrus-16C (gen-6)'; $process = 'TSMC 16nm'; $year = '2021+';} elsif ($model eq 'C'){ $arch = 'Elbrus-2C3 (gen-6)'; $process = 'TSMC 16nm'; $year = '2021+';} else { $arch = 'Elbrus-??';; $note = $check; $year = '';} } elsif ($family eq '5'){ if ($model eq '9'){ $arch = 'Elbrus-8C2 (gen-4)'; $process = 'TSMC 28nm'; $year = '2020';} else { $arch = 'Elbrus-??'; $note = $check; $process = ''; $year = '';} } elsif ($family eq '6'){ if ($model eq 'A'){ $arch = 'Elbrus-12C (gen-6)'; $process = 'TSMC 16nm'; $year = '2021+';} elsif ($model eq 'B'){ $arch = 'Elbrus-16C (gen-6)'; $process = 'TSMC 16nm'; $year = '2021+';} elsif ($model eq 'C'){ $arch = 'Elbrus-2C3 (gen-6)'; $process = 'TSMC 16nm'; $year = '2021+';} # elsif ($model eq '??'){ # $arch = 'Elbrus-32C (gen-7)'; # $process = '?? 7nm'; # $year = '2025';} else { $arch = 'Elbrus-??'; $note = $check; $process = ''; $year = '';} } else { $arch = 'Elbrus-??'; $note = $check; } } elsif ($type eq 'intel'){ if ($family eq '4'){ if ($model =~ /^(0|1|2)$/){ $arch = 'i486'; $process = '1000nm'; # 33mhz $year = '1989-98';} elsif ($model =~ /^(3)$/){ $arch = 'i486'; $process = '800nm'; # 66mhz $year = '1992-98';} elsif ($model =~ /^(4|5|6|7|8|9)$/){ $arch = 'i486'; $process = '600nm'; # 100mhz $year = '1993-98';} else { $arch = 'i486'; $process = '600-1000nm'; $year = '1989-98';} } # 1993-2000 elsif ($family eq '5'){ # verified if ($model =~ /^(1)$/){ $arch = 'P5'; $process = 'Intel 800nm'; # 1:3,5,7:800 $year = '1993-94';} elsif ($model =~ /^(2)$/){ $arch = 'P5'; # 2:5:MMX # 2:C:350[or 600]; 2:1,4,5,6:600;but: if ($stepping > 9){ $process = 'Intel 350nm'; $year = '1996-2000';} else { $process = 'Intel 600nm'; $year = '1993-95';} } elsif ($model =~ /^(4)$/){ $arch = 'P5'; $process = 'Intel 350nm'; # MMX. 4:3:P55C $year = '1997';} # unverified elsif ($model =~ /^(3|7)$/){ $arch = 'P5'; # 7:0:MMX $process = 'Intel 350-600nm'; $year = '';} elsif ($model =~ /^(8)$/){ $arch = 'P5'; $process = 'Intel 350-600nm'; # MMX $year = '';} elsif ($model =~ /^(9|A)$/){ $arch = 'Lakemont'; $process = 'Intel 350nm'; $year = '';} # fallback else { $arch = 'P5'; $process = 'Intel 350-600nm'; # MMX $year = '1994-2000';} } elsif ($family eq '6'){ if ($model =~ /^(1)$/){ $arch = 'P6 Pro'; $process = 'Intel 350nm'; $year = '';} elsif ($model =~ /^(3)$/){ $arch = 'P6 II Klamath'; $process = 'Intel 350nm'; $year = '';} elsif ($model =~ /^(5)$/){ $arch = 'P6 II Deschutes'; $process = 'Intel 250nm'; $year = '';} elsif ($model =~ /^(6)$/){ $arch = 'P6 II Mendocino'; $process = 'Intel 250nm'; # 6:5:P6II-celeron-mendo $year = '1999';} elsif ($model =~ /^(7)$/){ $arch = 'P6 III Katmai'; $process = 'Intel 250nm'; $year = '1999';} elsif ($model =~ /^(8)$/){ $arch = 'P6 III Coppermine'; $process = 'Intel 180nm'; $year = '1999';} elsif ($model =~ /^(9)$/){ $arch = 'M Banias'; # Pentium M $process = 'Intel 130nm'; $year = '2003';} elsif ($model =~ /^(A)$/){ $arch = 'P6 III Xeon'; $process = 'Intel 180-250nm'; $year = '1999';} elsif ($model =~ /^(B)$/){ $arch = 'P6 III Tualitin'; # 6:B:1,4 $process = 'Intel 130nm'; $year = '2001';} elsif ($model =~ /^(D)$/){ $arch = 'M Dothan'; # Pentium M $process = 'Intel 90nm'; $year = '2003-05';} elsif ($model =~ /^(E)$/){ $arch = 'M Yonah'; $process = 'Intel 65nm'; $year = '2006-08';} elsif ($model =~ /^(F|16)$/){ $arch = 'Core2 Merom'; # 16:1:conroe-l[65nm] $process = 'Intel 65nm'; $year = '2006-09';} elsif ($model =~ /^(15)$/){ $arch = 'M Tolapai'; # pentium M system on chip $process = 'Intel 90nm'; $year = '2008';} elsif ($model =~ /^(17)$/){ $arch = 'Penryn'; # 17:A:Core 2,Celeron-wolfdale,yorkfield $process = 'Intel 45nm'; $year = '2008';} # had 25 also, but that's westmere, at least for stepping 2 elsif ($model =~ /^(1A|1E|1F|2C|2E|2F)$/){ $arch = 'Nehalem'; $process = 'Intel 45nm'; $year = '2008-10';} elsif ($model =~ /^(1C|26)$/){ $arch = 'Bonnell'; $process = 'Intel 45nm'; $year = '2008-13';} # atom Bonnell? 27? elsif ($model =~ /^(1D)$/){ $arch = 'Penryn'; $process = 'Intel 45nm'; $year = '2007-08';} # 25 may be nahelem in a stepping, check. Stepping 2 is westmere elsif ($model =~ /^(25|2C|2F)$/){ $arch = 'Westmere'; # die shrink of nehalem $process = 'Intel 32nm'; $year = '2010-11';} elsif ($model =~ /^(27|35|36)$/){ $arch = 'Saltwell'; $process = 'Intel 32nm'; $year = '2011-13';} elsif ($model =~ /^(2A|2D)$/){ $arch = 'Sandy Bridge'; $process = 'Intel 32nm'; $year = '2010-12';} elsif ($model =~ /^(37|4A|4D|5A|5D)$/){ $arch = 'Silvermont'; $process = 'Intel 22nm'; $year = '2013-15';} elsif ($model =~ /^(3A|3E)$/){ $arch = 'Ivy Bridge'; $process = 'Intel 22nm'; $year = '2012-15';} elsif ($model =~ /^(3C|3F|45|46)$/){ $arch = 'Haswell'; $process = 'Intel 22nm'; $year = '2013-15';} elsif ($model =~ /^(3D|47|4F|56)$/){ $arch = 'Broadwell'; $process = 'Intel 14nm'; $year = '2015-18';} elsif ($model =~ /^(4C)$/){ $arch = 'Airmont'; $process = 'Intel 14nm'; $year = '2015-17';} elsif ($model =~ /^(4E)$/){ $arch = 'Skylake'; $process = 'Intel 14nm'; $year = '2015';} # need to find stepping for these, guessing stepping 4 is last for SL elsif ($model =~ /^(55)$/){ if ($stepping >= 5 && $stepping <= 7){ $arch = 'Cascade Lake'; $process = 'Intel 14nm'; $year = '2019';} elsif ($stepping >= 8){ $arch = 'Cooper Lake'; # 55:A:14nm $process = 'Intel 14nm'; $year = '2020';} else { $arch = 'Skylake'; $process = 'Intel 14nm'; $year = '';}} elsif ($model =~ /^(57)$/){ $arch = 'Knights Landing'; $process = 'Intel 14nm'; $year = '2016+';} elsif ($model =~ /^(5C|5F)$/){ $arch = 'Goldmont'; $process = 'Intel 14nm'; $year = '2016';} elsif ($model =~ /^(5E)$/){ $arch = 'Skylake-S'; $process = 'Intel 14nm'; $year = '2015';} elsif ($model =~ /^(66|67)$/){ $arch = 'Cannon Lake'; $process = 'Intel 10nm'; $year = '2018';} # 6 are servers, 7 not elsif ($model =~ /^(6A|6C|7D|7E|9F)$/){ $arch = 'Ice Lake'; $process = 'Intel 10nm'; $year = '2019-21';} elsif ($model =~ /^(7A)$/){ $arch = 'Goldmont Plus'; $process = 'Intel 14nm'; $year = '2017';} elsif ($model =~ /^(85)$/){ $arch = 'Knights Mill'; $process = 'Intel 14nm'; $year = '2017-19';} elsif ($model =~ /^(86)$/){ $arch = 'Tremont Snow Ridge'; # embedded $process = 'Intel 10nm'; $year = '2020';} elsif ($model =~ /^(87)$/){ $arch = 'Tremont Parker Ridge'; # embedded $process = 'Intel 10nm'; $year = '2022';} elsif ($model =~ /^(8A)$/){ $arch = 'Tremont Lakefield'; $process = 'Intel 10nm'; $year = '2020';} # ? elsif ($model =~ /^(96)$/){ $arch = 'Tremont Elkhart Lake'; $process = 'Intel 10nm'; $year = '2020';} # ? elsif ($model =~ /^(8C|8D)$/){ $arch = 'Tiger Lake'; $process = 'Intel 10nm'; $year = '2020';} elsif ($model =~ /^(8E)$/){ # can be AmberL or KabyL if ($stepping == 9){ $arch = 'Amber/Kaby Lake'; $note = $check; $process = 'Intel 14nm'; $year = '2017';} elsif ($stepping == 10){ $arch = 'Coffee Lake'; $process = 'Intel 14nm'; $year = '2017';} elsif ($stepping == 11){ $arch = 'Whiskey Lake'; $process = 'Intel 14nm'; $year = '2018';} # can be WhiskeyL or CometL elsif ($stepping == 12){ $arch = 'Comet/Whiskey Lake'; $note = $check; $process = 'Intel 14nm'; $year = '2018';} # note: had it as > 13, but 0xC seems to be CL elsif ($stepping >= 13){ $arch = 'Comet Lake'; # 10 gen $process = 'Intel 14nm'; $year = '2019-20';} # NOTE: not enough info to lock this down else { $arch = 'Kaby Lake'; $note = $check; $process = 'Intel 14nm'; $year = '~2018-20';} } elsif ($model =~ /^(8F)$/){ $arch = 'Sapphire Rapids'; $process = 'Intel 7 (10nm ESF)'; $year = '2023+';} # server elsif ($model =~ /^(97|9A|9C|BE)$/){ $arch = 'Alder Lake'; # socket LG 1700 $process = 'Intel 7 (10nm ESF)'; $year = '2021+';} elsif ($model =~ /^(9E)$/){ if ($stepping == 9){ $arch = 'Kaby Lake'; $process = 'Intel 14nm'; $year = '2018';} elsif ($stepping >= 10 && $stepping <= 13){ $arch = 'Coffee Lake'; # 9E:A,B,C,D $process = 'Intel 14nm'; $year = '2018';} else { $arch = 'Kaby Lake'; $note = $check; $process = 'Intel 14nm'; $year = '2018';} } elsif ($model =~ /^(A5|A6)$/){ $arch = 'Comet Lake'; # 10 gen; stepping 0-5 $process = 'Intel 14nm'; $year = '2020';} elsif ($model =~ /^(A7|A8)$/){ $arch = 'Rocket Lake'; # 11 gen; stepping 1 $process = 'Intel 14nm'; $year = '2021+';} # More info: comet: shares family/model, need to find stepping numbers # Coming: meteor lake; granite rapids; emerald rapids, diamond rapids ## IDS UNKNOWN, release late 2022 elsif ($model =~ /^(AA|AB|AC|B5)$/){ $arch = 'Meteor Lake'; # 14 gen $process = 'Intel 4 (7nm)'; $year = '2023+';} elsif ($model =~ /^(AD|AE)$/){ $arch = 'Granite Rapids'; # ? $process = 'Intel 3 (7nm+)'; # confirm $year = '2024+';} elsif ($model =~ /^(B6)$/){ $arch = 'Grand Ridge'; # 14 gen $process = 'Intel 4 (7nm)'; # confirm $year = '2023+';} elsif ($model =~ /^(B7|BA|BF)$/){ $arch = 'Raptor Lake'; # 13 gen, socket LG 1700,1800 $process = 'Intel 7 (10nm)'; $year = '2022+';} elsif ($model =~ /^(BC|BD)$/){ $arch = 'Lunar Lake'; # 15 gn $process = 'Intel 18a (1.8nm)'; $year = '2024+';} # check when actually in production # Meteor Lake-S maybe cancelled, replaced by arrow elsif ($model =~ /^(C5|C6)$/){ $arch = 'Arrow Lake'; # 14 gn # gfx tile is TSMC 3nm $process = 'Intel 20a (2nm)';# TSMC 3nm (corei3-5)/Intel 20A 2nm (core i5-9) $year = '2024+';} # check when actually in production elsif ($model =~ /^(CF)$/){ $arch = 'Emerald Rapids'; # 5th gen xeon $process = 'Intel 7 (10nm)'; $year = '2023+';} ## roadmaps: check and update, since Intel misses their targets often # Sapphire Rapids: 13 gen (?), Intel 7 (10nm), 2023 # Emerald Rapids: Intel 7 (10nm), 2023 # Granite Rapids: Intel 3 (7nm+), 2024 # Diamond Rapids: Intel 3 (7nm+), 2025 # Raptor Lake: 13 gen, Intel 7 (10nm), 2022 # Meteor Lake: 14 gen, Intel 4 (7nm+) # Arrow Lake - 14 gen, TSMC 3nm (corei3-5)/Intel 20A 2nm (core i5-9), 2024 # Lunar Lake - 15 gen, Intel 18A (1.8nm), 2024-5 # Panther Lake - 15 gen, ?, late 2025, cougar cove Xe3 Celestial GPU architecture # Beast Lake - 16 gen, ?, 2026? # Nova Lake - 16 gen, Intel 18A (1.8nm), 2026 } # itanium 1 family 7 all recalled elsif ($family eq 'B'){ if ($model =~ /^(0)$/){ $arch = 'Knights Ferry'; $process = 'Intel 45nm'; $year = '2010-11';} if ($model =~ /^(1)$/){ $arch = 'Knights Corner'; $process = 'Intel 22nm'; $year = '2012-13';} } # pentium 4 elsif ($family eq 'F'){ if ($model =~ /^(0|1)$/){ $arch = 'Netburst Willamette'; $process = 'Intel 180nm'; $year = '2000-01';} elsif ($model =~ /^(2)$/){ if ($stepping <= 4 || $stepping > 6){ $arch = 'Netburst Northwood';} elsif ($stepping == 5){ $arch = 'Netburst Gallatin';} else { $arch = 'Netburst';} $process = 'Intel 130nm'; $year = '2002-03';} elsif ($model =~ /^(3)$/){ $arch = 'Netburst Prescott'; $process = 'Intel 90nm'; $year = '2004-06';} # 6? Nocona elsif ($model =~ /^(4)$/){ # these are vague, and same stepping can have > 1 core names if ($stepping < 10){ $arch = 'Netburst Prescott'; # 4:1,9:prescott $process = 'Intel 90nm'; $year = '2004-06';} else { $arch = 'Netburst Smithfield'; $process = 'Intel 90nm'; $year = '2005-06';} # 6? Nocona } elsif ($model =~ /^(6)$/){ $arch = 'Netburst Presler'; # 6:2,4,5:presler $process = 'Intel 65nm'; $year = '2006';} else { $arch = 'Netburst'; $process = 'Intel 90-180nm'; $year = '2000-06';} } # this is not going to e accurate, WhiskyL or Kaby L can ID as Skylake # but if it's a new cpu microarch not handled yet, it may give better # than nothing result. This is intel only # This is probably the gcc/clang -march/-mtune value, which is not # necessarily the same as actual microarch, and varies between gcc/clang versions if (!$arch){ my $file = '/sys/devices/cpu/caps/pmu_name'; $arch = main::reader($file,'strip',0) if -r $file; $note = $check if $arch; } # gen 1 had no gen, only 3 digits: Core i5-661 Core i5-655K; Core i5 M 520 # EXCEPT gen 1: Core i7-720QM Core i7-740QM Core i7-840QM # 2nd: Core i5-2390T Core i7-11700F Core i5-8400 # 2nd variants: Core i7-1165G7 if ($name){ if ($name =~ /\bi[357][\s-]([A-Z][\s-]?)?(\d{3}([^\d]|\b)|[78][24]00M)/){ $gen = ($gen) ? "$gen (core 1)": 'core 1'; } elsif ($name =~ /\bi[3579][\s-]([A-Z][\s-]?)?([2-9]|1[0-4])(\d{3}|\d{2}[A-Z]\d)/){ $gen = ($gen) ? "$gen (core $2)" : "core $2"; } } } eval $end if $b_log; return [$arch,$note,$process,$gen,$year]; } ## END CPU ARCH ## # Only AMD/Intel 64 bit cpus sub cp_cpu_level { eval $start if $b_log; my %flags = map {$_ =>1} split(/\s+/,$_[0]); my ($level,$note,@found); # note, each later cpu level must contain all subsequent cpu flags # baseline: all x86_64 cpus lm cmov cx8 fpu fxsr mmx syscall sse2 my @l1 = qw(cmov cx8 fpu fxsr lm mmx syscall sse2); my @l2 = qw(cx16 lahf_lm popcnt sse4_1 sse4_2 ssse3); my @l3 = qw(abm avx avx2 bmi1 bmi2 f16c fma movbe xsave); my @l4 = qw(avx512f avx512bw avx512cd avx512dq avx512vl); if ((@found = grep {$flags{$_}} @l1) && scalar(@found) == scalar(@l1)){ $level = 'v1'; # print 'v1: ', Data::Dumper::Dumper \@found; if ((@found = grep {$flags{$_}} @l2) && scalar(@found) == scalar(@l2)){ $level = 'v2'; # print 'v2: ', Data::Dumper::Dumper \@found; # It's not 100% certain that if flags exist v3/v4 supported. flags don't # give full possible outcomes in these cases. See: docs/inxi-cpu.txt if ((@found = grep {$flags{$_}} @l3) && scalar(@found) == scalar(@l3)){ $level = 'v3'; # print 'v3: ', Data::Dumper::Dumper \@found; $note = main::message('note-check'); if ((@found = grep {$flags{$_}} @l4) && scalar(@found) == scalar(@l4)){ $level = 'v4'; # print 'v4: ', Data::Dumper::Dumper \@found; } } } } $level = [$level,$note] if $level; eval $end if $b_log; return $level; } sub cp_cpu_topology { my ($counts,$topology) = @_; my @alpha = qw(Single Dual Triple Quad); my ($sep) = (''); my (%keys,%done); my @tests = ('x'); # prefill [0] because iterator runs before 'next' test. if ($counts->{'cpu-topo'}){ # first we want to find out how many of each physical variant there are foreach my $topo (@{$counts->{'cpu-topo'}}){ # turn sorted hash into string my $test = join('::', map{$_ . ':' . $topo->{$_}} sort keys %$topo); if ($keys{$test}){ $keys{$test}++; } else { $keys{$test} = 1; } push(@tests,$test); } my ($i,$j) = (0,0); # then we build up the topology data per variant foreach my $topo (@{$counts->{'cpu-topo'}}){ my $key = ''; $i++; next if $done{$tests[$i]}; $done{$tests[$i]} = 1; if ($b_admin && $type eq 'full'){ $topology->{'full'}[$j]{'cpus'} = $keys{$tests[$i]}; $topology->{'full'}[$j]{'cores'} = $topo->{'cores'}; if ($topo->{'threads'} && $topo->{'cores'} != $topo->{'threads'}){ $topology->{'full'}[$j]{'threads'} = $topo->{'threads'}; } if ($topo->{'dies'} && $topo->{'dies'} > 1){ $topology->{'full'}[$j]{'dies'} = $topo->{'dies'}; } if ($counts->{'struct-mt'}){ $topology->{'full'}[$j]{'cores-mt'} = $topo->{'cores-mt'}; } if ($counts->{'struct-st'}){ $topology->{'full'}[$j]{'cores-st'} = $topo->{'cores-st'}; } if ($counts->{'struct-max'} || $counts->{'struct-min'}){ $topology->{'full'}[$j]{'max'} = $topo->{'max'}; $topology->{'full'}[$j]{'min'} = $topo->{'min'}; } if ($topo->{'smt'}){ $topology->{'full'}[$j]{'smt'} = $topo->{'smt'}; } if ($topo->{'tpc'}){ $topology->{'full'}[$j]{'tpc'} = $topo->{'tpc'}; } $j++; } else { # start building string $topology->{'string'} .= $sep; $sep = ','; if ($counts->{'physical'} > 1) { my $phys = ($topology->{'struct-cores'}) ? $keys{$tests[$i]} : $counts->{'physical'}; $topology->{'string'} .= $phys . 'x '; $topology->{'string'} .= $topo->{'cores'} . '-core'; } else { $topology->{'string'} .= cp_cpu_alpha($topo->{'cores'}); } # alder lake type cpu if ($topo->{'cores-st'} && $topo->{'cores-mt'}){ $topology->{'string'} .= ' (' . $topo->{'cores-mt'} . '-mt/'; $topology->{'string'} .= $topo->{'cores-st'} . '-st)'; } # we only want to show > 1 phys short form basic if cpus have different # core counts, not different min/max frequencies last if !$topology->{'struct-cores'}; } } } else { if ($counts->{'physical'} > 1) { $topology->{'string'} = $counts->{'physical'} . 'x '; $topology->{'string'} .= $counts->{'cpu-cores'} . '-core'; } else { $topology->{'string'} = cp_cpu_alpha($counts->{'cpu-cores'}); } } $topology->{'string'} ||= ''; } sub cp_cpu_alpha { my $cores = $_[0]; my $string = ''; if ($cores > 4){ $string = $cores . '-core'; } elsif ($cores == 0){ $string = main::message('unknown-cpu-topology'); } else { my @alpha = qw(single dual triple quad); $string = $alpha[$cores-1] . ' core'; } return $string; } # Logic: # if > 1 processor && processor id (physical id) == core id then Multi threaded (MT) # if siblings > 1 && siblings == 2 * num_of_cores ($cpu->{'cores'}) then Multi threaded (MT) # if > 1 processor && processor id (physical id) != core id then Multi-Core Processors (MCP) # if > 1 processor && processor ids (physical id) > 1 then Symmetric Multi Processing (SMP) # if = 1 processor then single core/processor Uni-Processor (UP) sub cp_cpu_type { eval $start if $b_log; my ($counts,$cpu,$tests) = @_; my $cpu_type = ''; if ($counts->{'processors'} > 1 || (defined $tests->{'intel'} && $tests->{'intel'} && $cpu->{'siblings'} > 0)){ # cpu_sys detected MT if ($counts->{'struct-mt'}){ if ($counts->{'struct-mt'} && $counts->{'struct-st'}){ $cpu_type .= 'MST'; } else { $cpu_type .= 'MT'; } } # handle case of OpenBSD that has hw.smt but no other meaningful topology elsif ($cpu->{'smt'}){ $cpu_type .= 'MT' if $cpu->{'smt'} eq 'enabled'; } # non-multicore MT, with 2 or more threads per core elsif ($counts->{'processors'} && $counts->{'physical'} && $counts->{'cpu-cores'} && $counts->{'processors'}/($counts->{'physical'} * $counts->{'cpu-cores'}) >= 2){ # print "mt:1\n"; $cpu_type .= 'MT'; } # 2 or more siblings per cpu real core elsif ($cpu->{'siblings'} > 1 && $cpu->{'siblings'}/$counts->{'cpu-cores'} >= 2){ # print "mt:3\n"; $cpu_type .= 'MT'; } # non-MT multi-core or MT multi-core if ($counts->{'cpu-cores'} > 1){ if ($counts->{'struct-mt'} && $counts->{'struct-st'}){ $cpu_type .= ' AMCP'; } else { $cpu_type .= ' MCP'; } } # only solidly known > 1 die cpus will use this if ($cpu->{'dies'} > 1){ $cpu_type .= ' MCM'; } # >1 cpu sockets active: Symetric Multi Processing if ($counts->{'physical'} > 1){ if ($counts->{'struct-cores'} || $counts->{'struct-max'} || $counts->{'struct-min'}){ $cpu_type .= ' AMP'; } else { $cpu_type .= ' SMP'; } } $cpu_type =~ s/^\s+//; } else { $cpu_type = 'UP'; } eval $end if $b_log; return $cpu_type; } # Legacy: this data should be comfing from the /sys tool now. # Was needed because no physical_id in cpuinfo, but > 1 cpu systems exist # returns: 0: per cpu cores; 1: phys cpu count; 2: override model defaul names sub cp_elbrus_data { eval $start if $b_log; my ($family_id,$model_id,$count,$arch) = @_; # 0: cores my $return = [0,1,$arch]; my %cores = ( # key=family id + model id '41' => 1, '42' => 1, '43' => 4, '44' => 2, '46' => 1, '47' => 8, '48' => 1, '49' => 8, '59' => 8, '4A' => 12, '4B' => 16, '4C' => 2, '6A' => 12, '6B' => 16, '6C' => 2, ); $return->[0] = $cores{$family_id . $model_id} if $cores{$family_id . $model_id}; if ($return->[0]){ $return->[1] = ($count % $return->[0]) ? int($count/$return->[0]) + 1 : $count/$return->[0]; } eval $end if $b_log; return $return; } sub cp_speed_data { eval $start if $b_log; my ($cpu,$cpu_sys) = @_; my $info = {}; if (defined $cpu_sys->{'data'}){ if (defined $cpu_sys->{'data'}{'speeds'}{'min-freq'}){ $cpu->{'min-freq'} = $cpu_sys->{'data'}{'speeds'}{'min-freq'}; } if (defined $cpu_sys->{'data'}{'speeds'}{'max-freq'}){ $cpu->{'max-freq'} = $cpu_sys->{'data'}{'speeds'}{'max-freq'}; } if (defined $cpu_sys->{'data'}{'speeds'}{'scaling-min-freq'}){ $cpu->{'scaling-min-freq'} = $cpu_sys->{'data'}{'speeds'}{'scaling-min-freq'}; } if (defined $cpu_sys->{'data'}{'speeds'}{'scaling-max-freq'}){ $cpu->{'scaling-max-freq'} = $cpu_sys->{'data'}{'speeds'}{'scaling-max-freq'}; } # we don't need to see these if they are the same if ($cpu->{'min-freq'} && $cpu->{'max-freq'} && $cpu->{'scaling-min-freq'} && $cpu->{'scaling-max-freq'} && $cpu->{'min-freq'} eq $cpu->{'scaling-min-freq'} && $cpu->{'max-freq'} eq $cpu->{'scaling-max-freq'}){ undef $cpu->{'scaling-min-freq'}; undef $cpu->{'scaling-max-freq'}; } if (defined $cpu_sys->{'data'}{'speeds'}{'all'}){ # only replace if we got actual speed values from cpufreq, or if no legacy # sourced processors data. Handles fake syz core speeds for counts. if ((grep {$_} @{$cpu_sys->{'data'}{'speeds'}{'all'}}) || !@{$cpu->{'processors'}}){ $cpu->{'processors'} = $cpu_sys->{'data'}{'speeds'}{'all'}; } } if (defined $cpu_sys->{'data'}{'cpufreq-boost'}){ $cpu->{'boost'} = $cpu_sys->{'data'}{'cpufreq-boost'}; } } if (defined $cpu->{'processors'}){ if (scalar @{$cpu->{'processors'}} > 1){ my ($agg,$high) = (0,0); for (@{$cpu->{'processors'}}){ next if !$_; # bsds might have 0 or undef value, that's junk $agg += $_; $high = $_ if $_ > $high; } if ($agg){ $cpu->{'avg-freq'} = int($agg/scalar @{$cpu->{'processors'}}); $cpu->{'cur-freq'} = $high; $info->{'avg-speed-key'} = 'avg'; $info->{'speed'} = $cpu->{'avg-freq'}; if ($high > $cpu->{'avg-freq'}){ $cpu->{'high-freq'} = $high; $info->{'high-speed-key'} = 'high'; } } } elsif ($cpu->{'processors'}[0]) { $cpu->{'cur-freq'} = $cpu->{'processors'}[0]; $info->{'speed'} = $cpu->{'cur-freq'}; } } # BSDs generally will have processors count, but not per core speeds if ($cpu->{'cur-freq'} && !$info->{'speed'}){ $info->{'speed'} = $cpu->{'cur-freq'}; } if ($cpu->{'min-freq'} || $cpu->{'max-freq'}){ ($info->{'min-max'},$info->{'min-max-key'}) = cp_speed_min_max( $cpu->{'min-freq'}, $cpu->{'max-freq'}); } if ($cpu->{'scaling-min-freq'} || $cpu->{'scaling-max-freq'}){ ($info->{'scaling-min-max'},$info->{'scaling-min-max-key'}) = cp_speed_min_max( $cpu->{'scaling-min-freq'}, $cpu->{'scaling-max-freq'}, 'sc'); } if ($cpu->{'cur-freq'}){ if ($show{'short'}){ $info->{'speed-key'} = 'speed'; } elsif ($show{'cpu-basic'}){ $info->{'speed-key'} = 'speed (MHz)'; } else { $info->{'speed-key'} = 'Speed (MHz)'; } } eval $end if $b_log; return $info; } sub cp_speed_min_max { my ($min,$max,$type) = @_; my ($min_max,$key); if ($min && $max){ $min_max = "$min/$max"; $key = "min/max"; } elsif ($max){ $min_max = $max; $key = "max"; } elsif ($min){ $min_max = $min; $key = "min"; } $key = $type . '-' . $key if $type && $key; return ($min_max,$key); } # args: 0: cpu, by ref; 1: update $tests by reference sub cp_test_types { my ($cpu,$tests) = @_; if ($cpu->{'type'} eq 'intel'){ $$tests{'intel'} = 1; $$tests{'xeon'} = 1 if $cpu->{'model_name'} =~ /Xeon/i; } elsif ($cpu->{'type'} eq 'amd'){ if ($cpu->{'family'} && $cpu->{'family'} eq '17'){ $$tests{'amd-zen'} = 1; if ($cpu->{'model_name'}){ if ($cpu->{'model_name'} =~ /Ryzen/i){ $$tests{'ryzen'} = 1; } elsif ($cpu->{'model_name'} =~ /EPYC/i){ $$tests{'epyc'} = 1; } } } } elsif ($cpu->{'type'} eq 'elbrus'){ $$tests{'elbrus'} = 1; } } ## CPU UTILITIES ## # only elbrus ID is actually used live sub cpu_vendor { eval $start if $b_log; my ($string) = @_; my ($vendor) = (''); $string = lc($string); if ($string =~ /intel/){ $vendor = "intel"; } elsif ($string =~ /amd/){ $vendor = "amd"; } # via/centaur/zhaoxin branding elsif ($string =~ /centaur|zhaoxin/){ $vendor = "centaur"; } elsif ($string eq 'elbrus'){ $vendor = "elbrus"; } eval $end if $b_log; return $vendor; } # do not define model-id, stepping, or revision, those can be 0 valid value sub set_cpu_data { ${$_[0]} = { 'arch' => '', 'avg-freq' => 0, # MHz 'bogomips' => 0, 'cores' => 0, 'cur-freq' => 0, # MHz 'dies' => 0, 'family' => '', 'flags' => '', 'ids' => [], 'l1-cache' => 0, # store in KB 'l2-cache' => 0, # store in KB 'l3-cache' => 0, # store in KB 'max-freq' => 0, # MHz 'min-freq' => 0, # MHz 'model_name' => '', 'processors' => [], 'scalings' => [], 'siblings' => 0, 'type' => '', }; } sub system_cpu_name { eval $start if $b_log; my ($compat,@working); my $cpus = {}; if (@working = main::globber('/sys/firmware/devicetree/base/cpus/cpu@*/compatible')){ foreach my $file (@working){ $compat = main::reader($file,'',0); next if $compat =~ /timer/; # seen on android # these can have non printing ascii... why? As long as we only have the # splits for: null 00/start header 01/start text 02/end text 03 $compat = (split(/\x01|\x02|\x03|\x00/, $compat))[0] if $compat; $compat = (split(/,\s*/, $compat))[-1] if $compat; $cpus->{$compat} = ($cpus->{$compat}) ? ++$cpus->{$compat}: 1; } } # synthesize it, [4] will be like: cortex-a15-timer; sunxi-timer # so far all with this directory show soc name, not cpu name for timer elsif (! -d '/sys/firmware/devicetree/base' && $devices{'timer'}){ foreach my $working (@{$devices{'timer'}}){ next if $working->[0] ne 'timer' || !$working->[4] || $working->[4] =~ /timer-mem$/; $working->[4] =~ s/(-system)?-timer$//; $compat = $working->[4]; $cpus->{$compat} = ($cpus->{$compat}) ? ++$cpus->{$compat}: 1; } } main::log_data('dump','%$cpus',$cpus) if $b_log; eval $end if $b_log; return $cpus; } ## CLEANERS/OUTPUT HANDLERS ## # MHZ - cell cpus sub clean_speed { my ($speed,$opt) = @_; # eq '0' might be for string typing; value can be: return if !$speed || $speed eq '0' || $speed =~ /^\D/; $speed =~ s/[GMK]HZ$//gi; $speed = ($speed/1000) if $opt && $opt eq 'khz'; $speed = sprintf("%.0f", $speed); return $speed; } sub clean_cpu { my ($cpu) = @_; return if !$cpu; my $filters = '@|cpu |cpu deca|([0-9]+|single|dual|two|triple|three|tri|quad|four|'; $filters .= 'penta|five|hepta|six|hexa|seven|octa|eight|multi)[ -]core|'; $filters .= 'ennea|genuine|multi|processor|single|triple|[0-9\.]+ *[MmGg][Hh][Zz]'; $cpu =~ s/$filters//ig; $cpu =~ s/\s\s+/ /g; $cpu =~ s/^\s+|\s+$//g; return $cpu; } sub hex_and_decimal { my ($data) = @_; $data = '' if !defined $data; if ($data =~ /\S/){ # only handle if a short hex number!! No need to prepend 0x to 0-9 if ($data =~ /^[0-9a-f]{1,3}$/i && hex($data) ne $data){ $data .= ' (' . hex($data) . ')'; $data = '0x' . $data; } } else { $data = 'N/A'; } return $data; } } ## DriveItem { package DriveItem; my ($b_hddtemp,$b_nvme,$smartctl_missing,$vendors); my ($hddtemp,$nvme) = ('',''); my (@by_id,@by_path); my ($debugger_dir); # main::writer("$debugger_dir/system-repo-data-urpmq.txt",\@data2) if $debugger_dir; sub get { eval $start if $b_log; my ($type) = @_; $type ||= 'standard'; my ($key1,$val1); my $rows = []; my $num = 0; my $data = drive_data($type); # NOTE: if (@$data){ if ($type eq 'standard'){ storage_output($rows,$data); drive_output($rows,$data) if $show{'disk'}; if ($bsd_type && !$dboot{'disk'} && $type eq 'standard' && $show{'disk'}){ $key1 = 'Drive Report'; my $file = $system_files{'dmesg-boot'}; if ($file && ! -r $file){ $val1 = main::message('dmesg-boot-permissions'); } elsif (!$file){ $val1 = main::message('dmesg-boot-missing'); } else { $val1 = main::message('disk-data-bsd'); } push(@$rows,{main::key($num++,0,1,$key1) => $val1,}); } } # used by short form, raw data returned else { $rows = $data; # print Data::Dumper::Dumper $rows; } } else { $key1 = 'Message'; $val1 = main::message('disk-data'); @$rows = ({main::key($num++,0,1,$key1) => $val1}); } if (!@$rows){ $key1 = 'Message'; $val1 = main::message('disk-data'); @$rows = ({main::key($num++,0,1,$key1) => $val1}); } # push(@rows,@data); if ($show{'optical'} || $show{'optical-basic'}){ OpticalItem::get($rows); } ($b_hddtemp,$b_nvme,$hddtemp,$nvme,$vendors) = (); (@by_id,@by_path) = (); eval $end if $b_log; return $rows; } sub storage_output { eval $start if $b_log; my ($rows,$disks) = @_; my ($num,$j) = (0,0); my ($size,$size_value,$used) = ('','',''); push(@$rows, { main::key($num++,1,1,'Local Storage') => '', }); # print Data::Dumper::Dumper $disks; $size = main::get_size($disks->[0]{'size'},'string','N/A'); if ($disks->[0]{'logical-size'}){ $rows->[$j]{main::key($num++,1,2,'total')} = ''; $rows->[$j]{main::key($num++,0,3,'raw')} = $size; $size = main::get_size($disks->[0]{'logical-size'},'string'); $size_value = $disks->[0]{'logical-size'}; # print Data::Dumper::Dumper $disks; $rows->[$j]{main::key($num++,1,3,'usable')} = $size; } else { $size_value = $disks->[0]{'size'} if $disks->[0]{'size'}; $rows->[$j]{main::key($num++,0,2,'total')} = $size; } $used = main::get_size($disks->[0]{'used'},'string','N/A'); if ($extra > 0 && $disks->[0]{'logical-free'}){ $size = main::get_size($disks->[0]{'logical-free'},'string'); $rows->[$j]{main::key($num++,0,4,'lvm-free')} = $size; } if (($size_value && $size_value =~ /^[0-9]/) && ($used && $disks->[0]{'used'} =~ /^[0-9]/)){ $used = $used . ' (' . sprintf("%0.1f", $disks->[0]{'used'}/$size_value*100) . '%)'; } $rows->[$j]{main::key($num++,0,2,'used')} = $used; shift @$disks; eval $end if $b_log; } sub drive_output { eval $start if $b_log; my ($rows,$disks) = @_; # print Data::Dumper::Dumper $disks; my ($b_smart_permissions,$block,$smart_age,$smart_basic,$smart_fail); my ($num,$j) = (0,0); my ($id,$model,$size) = ('','',''); # note: specific smartctl non-missing errors handled inside loop if ($smartctl_missing){ $j = scalar @$rows; $rows->[$j]{main::key($num++,0,1,'SMART Message')} = $smartctl_missing; } elsif ($b_admin){ my $result = smartctl_fields(); ($smart_age,$smart_basic,$smart_fail) = @$result; } foreach my $row (sort { $a->{'id'} cmp $b->{'id'} } @$disks){ ($id,$model,$size) = ('','',''); $num = 1; $model = ($row->{'model'}) ? $row->{'model'}: 'N/A'; $id = ($row->{'id'}) ? "/dev/$row->{'id'}":'N/A'; $size = ($row->{'size'}) ? main::get_size($row->{'size'},'string') : 'N/A'; # print Data::Dumper::Dumper $disks; $j = scalar @$rows; if (!$b_smart_permissions && $row->{'smart-permissions'}){ $b_smart_permissions = 1; $rows->[$j]{main::key($num++,0,1,'SMART Message')} = $row->{'smart-permissions'}; $j = scalar @$rows; } push(@$rows, { main::key($num++,1,1,'ID') => $id, }); if ($b_admin && $row->{'maj-min'}){ $rows->[$j]{main::key($num++,0,2,'maj-min')} = $row->{'maj-min'}; } if ($row->{'vendor'}){ $rows->[$j]{main::key($num++,0,2,'vendor')} = $row->{'vendor'}; } $rows->[$j]{main::key($num++,0,2,'model')} = $model; if ($row->{'drive-vendor'}){ $rows->[$j]{main::key($num++,0,2,'drive vendor')} = $row->{'drive-vendor'}; } if ($row->{'drive-model'}){ $rows->[$j]{main::key($num++,0,2,'drive model')} = $row->{'drive-model'}; } if ($row->{'family'}){ $rows->[$j]{main::key($num++,0,2,'family')} = $row->{'family'}; } $rows->[$j]{main::key($num++,0,2,'size')} = $size; if ($b_admin && $row->{'block-physical'}){ $rows->[$j]{main::key($num++,1,2,'block-size')} = ''; $rows->[$j]{main::key($num++,0,3,'physical')} = "$row->{'block-physical'} B"; $block = ($row->{'block-logical'}) ? "$row->{'block-logical'} B" : 'N/A'; $rows->[$j]{main::key($num++,0,3,'logical')} = $block; } if ($row->{'type'}){ $rows->[$j]{main::key($num++,1,2,'type')} = $row->{'type'}; if ($extra > 1 && $row->{'type'} eq 'USB' && $row->{'abs-path'} && $usb{'disk'}){ foreach my $device (@{$usb{'disk'}}){ if ($device->[8] && $device->[26] && $row->{'abs-path'} =~ /^$device->[26]/){ $rows->[$j]{main::key($num++,0,3,'rev')} = $device->[8]; if ($device->[17]){ $rows->[$j]{main::key($num++,0,3,'spd')} = $device->[17]; } if ($device->[24]){ $rows->[$j]{main::key($num++,0,3,'lanes')} = $device->[24]; } if ($b_admin && $device->[22]){ $rows->[$j]{main::key($num++,0,3,'mode')} = $device->[22]; } last; } } } } if ($extra > 1 && $row->{'speed'}){ if ($row->{'sata'}){ $rows->[$j]{main::key($num++,0,2,'sata')} = $row->{'sata'}; } $rows->[$j]{main::key($num++,0,2,'speed')} = $row->{'speed'}; $rows->[$j]{main::key($num++,0,2,'lanes')} = $row->{'lanes'} if $row->{'lanes'}; } if ($extra > 2){ $row->{'tech'} ||= 'N/A'; $rows->[$j]{main::key($num++,1,2,'tech')} = $row->{'tech'}; if ($row->{'rotation'}){ $rows->[$j]{main::key($num++,0,2,'rpm')} = $row->{'rotation'}; } } if ($extra > 1){ if (!$row->{'serial'} && $alerts{'bioctl'} && $alerts{'bioctl'}->{'action'} eq 'permissions'){ $row->{'serial'} = main::message('root-required'); } else { $row->{'serial'} = main::filter($row->{'serial'}); } $rows->[$j]{main::key($num++,0,2,'serial')} = $row->{'serial'}; if ($row->{'drive-serial'}){ $rows->[$j]{main::key($num++,0,2,'drive serial')} = main::filter($row->{'drive-serial'}); } if ($row->{'firmware'}){ $rows->[$j]{main::key($num++,0,2,'fw-rev')} = $row->{'firmware'}; } if ($row->{'drive-firmware'}){ $rows->[$j]{main::key($num++,0,2,'drive-rev')} = $row->{'drive-firmware'}; } } if ($extra > 0 && $row->{'temp'}){ $rows->[$j]{main::key($num++,0,2,'temp')} = $row->{'temp'} . ' C'; } if ($extra > 1 && $alerts{'bioctl'}){ if (!$row->{'duid'} && $alerts{'bioctl'}->{'action'} eq 'permissions'){ $rows->[$j]{main::key($num++,0,2,'duid')} = main::message('root-required'); } elsif ($row->{'duid'}){ $rows->[$j]{main::key($num++,0,2,'duid')} = main::filter($row->{'duid'}); } } # Extra level tests already done if (defined $row->{'partition-table'}){ $rows->[$j]{main::key($num++,0,2,'scheme')} = $row->{'partition-table'}; } if ($row->{'smart'} || $row->{'smart-error'}){ $j = scalar @$rows; ## Basic SMART and drive info ## smart_output('basic',$smart_basic,$row,$j,\$num,$rows); ## Old-Age errors ## smart_output('age',$smart_age,$row,$j,\$num,$rows); ## Pre-Fail errors ## smart_output('fail',$smart_fail,$row,$j,\$num,$rows); } } eval $end if $b_log; } # args: $num and $rows passed by reference sub smart_output { eval $start if $b_log; my ($type,$smart_data,$row,$j,$num,$rows) = @_; my ($b_found); my ($l,$m,$p) = ($type eq 'basic') ? (2,3,0) : (3,4,0); my ($m_h,$p_h) = ($m,$p); for (my $i = 0; $i < scalar @$smart_data;$i++){ if ($row->{$smart_data->[$i][0]}){ if (!$b_found){ my ($key,$support) = ('',''); if ($type eq 'basic'){ $support = ($row->{'smart'}) ? $row->{'smart'}: $row->{'smart-error'}; $key = $smart_data->[$i][1]; } elsif ($type eq 'age'){$key = 'Old-Age';} elsif ($type eq 'fail'){$key = 'Pre-Fail';} $rows->[$j]{main::key($$num++,1,$l,$key)} = $support; $b_found = 1; next if $type eq 'basic'; } if ($type ne 'basic'){ if ($smart_data->[$i][0] =~ /-a[vr]?$/){ ($p,$m) = (1,$m_h); } elsif ($smart_data->[$i][0] =~ /-[ftvw]$/){ ($p,$m) = (0,5); } else { ($p,$m) = ($p_h,$m_h); } } $rows->[$j]{main::key($$num++,$p,$m,$smart_data->[$i][1])} = $row->{$smart_data->[$i][0]}; } } eval $end if $b_log; } sub drive_data { eval $start if $b_log; my ($type) = @_; my ($data,@devs); my $num = 0; my ($used) = (0); PartitionItem::set_partitions() if !$loaded{'set-partitions'}; RaidItem::raid_data() if !$loaded{'raid'}; # see docs/inxi-partitions.txt > FILE SYSTEMS for more on remote/fuse fs my $fs_skip = PartitionItem::get_filters('fs-exclude'); foreach my $row (@partitions){ # don't count remote/distributed/union type fs towards used next if ($row->{'fs'} && $row->{'fs'} =~ /^$fs_skip$/); # don't count non partition swap next if ($row->{'swap-type'} && $row->{'swap-type'} ne 'partition'); # in some cases, like redhat, mounted cdrom/dvds show up in partition data next if ($row->{'dev-base'} && $row->{'dev-base'} =~ /^sr[0-9]+$/); # this is used for specific cases where bind, or incorrect multiple mounts # to same partitions, or btrfs sub volume mounts, is present. The value is # searched for an earlier appearance of that partition and if it is present, # the data is not added into the partition used size. if ($row->{'dev-base'} !~ /^(\/\/|:\/)/ && !(grep {/$row->{'dev-base'}/} @devs)){ $used += $row->{'used'} if $row->{'used'}; push(@devs, $row->{'dev-base'}); } } if (!$bsd_type){ $data = proc_data($used); } else { $data = bsd_data($used); } if ($b_admin){ if ($alerts{'smartctl'} && $alerts{'smartctl'}->{'action'} eq 'use'){ smartctl_data($data); } else { $smartctl_missing = $alerts{'smartctl'}->{'message'}; } } print Data::Dumper::Dumper $data if $dbg[13]; main::log_data('data',"used: $used") if $b_log; eval $end if $b_log; return $data; } sub proc_data { eval $start if $b_log; my ($used) = @_; my (@drives); my ($b_hdx,$logical_size,$size) = (0,0,0); PartitionData::set() if !$bsd_type && !$loaded{'partition-data'}; foreach my $row (@proc_partitions){ if ($row->[-1] =~ /^(fio[a-z]+|[hsv]d[a-z]+|(ada|mmcblk|n[b]?d|nvme[0-9]+n)[0-9]+)$/){ $b_hdx = 1 if $row->[-1] =~ /^hd[a-z]/; push(@drives, { 'firmware' => '', 'id' => $row->[-1], 'maj-min' => $row->[0] . ':' . $row->[1], 'model' => '', 'serial' => '', 'size' => $row->[2], 'spec' => '', 'speed' => '', 'temp' => '', 'type' => '', 'vendor' => '', }); } # See http://lanana.org/docs/device-list/devices-2.6+.txt for major numbers used below # See https://www.mjmwired.net/kernel/Documentation/devices.txt for kernel 4.x device numbers # if ($row->[0] =~ /^(3|22|33|8)$/ && $row->[1] % 16 == 0) { # $size += $row->[2]; # } # special case from this data: 8 0 156290904 sda # 43 0 48828124 nbd0 # note: known starters: vm: 252/253/254; grsec: 202; nvme: 259 mmcblk: 179 # Note: with > 1 nvme drives, the minor number no longer passes the modulus tests, # It appears to just increase randomly from the first 0 minor of the first nvme to # nvme partitions to next nvme, so it only passes the test for the first nvme drive. # note: 66 16 9766436864 sdah ; 65 240 9766436864 sdaf[maybe special case when double letters? # Check /proc/devices for major number matches if ($row->[0] =~ /^(3|8|22|33|43|6[5-9]|7[12]|12[89]|13[0-5]|179|202|252|253|254|259)$/ && $row->[-1] =~ /(mmcblk[0-9]+|n[b]?d[0-9]+|nvme[0-9]+n[0-9]+|fio[a-z]+|[hsv]d[a-z]+)$/ && ($row->[1] % 16 == 0 || $row->[1] % 16 == 8 || $row->[-1] =~ /(nvme[0-9]+n[0-9]+)$/)){ $size += $row->[2]; } } # raw_logical[0] is total of all logical raid/lvm found # raw_logical[1] is total of all components found. If this totally fails, # and we end up with raw logical less than used, give up if (@raw_logical && $raw_logical[0] && (!$used || $raw_logical[0] > $used)){ $logical_size = ($size - $raw_logical[1] + $raw_logical[0]); } # print Data::Dumper::Dumper \@drives; main::log_data('data',"size: $size") if $b_log; my $result = [{ 'logical-size' => $logical_size, 'logical-free' => $raw_logical[2], 'size' => $size, 'used' => $used, }]; # print Data::Dumper::Dumper \@data; if ($show{'disk'}){ unshift(@drives,@$result); # print 'drives:', Data::Dumper::Dumper \@drives; $result = proc_data_advanced($b_hdx,\@drives); } main::log_data('dump','@$result',$result) if $b_log; print Data::Dumper::Dumper $result if $dbg[24]; eval $end if $b_log; return $result; } sub proc_data_advanced { eval $start if $b_log; my ($b_hdx,$drives) = @_; my ($i) = (0); my ($disk_data,$scsi,@temp,@working); my ($pt_cmd) = ('unset'); my ($block_type,$file,$firmware,$model,$path, $partition_scheme,$serial,$vendor,$working_path); @by_id = main::globber('/dev/disk/by-id/*'); # these do not contain any useful data, no serial or model name # wwn-0x50014ee25fb50fc1 and nvme-eui.0025385b71b07e2e # scsi-SATA_ST980815A_ simply repeats ata-ST980815A_; same with scsi-0ATA_WDC_WD5000L31X # we also don't need the partition items my $pattern = '^\/dev\/disk\/by-id\/(md-|lvm-|dm-|wwn-|nvme-eui|raid-|scsi-([0-9]ATA|SATA))|-part[0-9]+$'; @by_id = grep {!/$pattern/} @by_id if @by_id; # print join("\n", @by_id), "\n"; @by_path = main::globber('/dev/disk/by-path/*'); ## check for all ide type drives, non libata, only do it if hdx is in array ## this is now being updated for new /sys type paths, this may handle that ok too ## skip the first rows in the loops since that's the basic size/used data if ($b_hdx){ for ($i = 1; $i < scalar @$drives; $i++){ $file = "/proc/ide/$drives->[$i]{'id'}/model"; if ($drives->[$i]{'id'} =~ /^hd[a-z]/ && -e $file){ $model = main::reader($file,'strip',0); $drives->[$i]{'model'} = $model; } } } # scsi stuff if ($file = $system_files{'proc-scsi'}){ $scsi = scsi_data($file); } # print 'drives:', Data::Dumper::Dumper $drives; for ($i = 1; $i < scalar @$drives; $i++){ #next if $drives->[$i]{'id'} =~ /^hd[a-z]/; ($block_type,$firmware,$model,$partition_scheme, $serial,$vendor,$working_path) = ('','','','','','',''); # print "$drives->[$i]{'id'}\n"; $disk_data = disk_data_by_id("/dev/$drives->[$i]{'id'}"); main::log_data('dump','@$disk_data', $disk_data) if $b_log; if ($drives->[$i]{'id'} =~ /[sv]d[a-z]/){ $block_type = 'sdx'; $working_path = "/sys/block/$drives->[$i]{'id'}/device/"; } elsif ($drives->[$i]{'id'} =~ /mmcblk/){ $block_type = 'mmc'; $working_path = "/sys/block/$drives->[$i]{'id'}/device/"; } elsif ($drives->[$i]{'id'} =~ /nvme/){ $block_type = 'nvme'; # this results in: # /sys/devices/pci0000:00/0000:00:03.2/0000:06:00.0/nvme/nvme0/nvme0n1 # but we want to go one level down so slice off trailing nvme0n1 $working_path = Cwd::abs_path("/sys/block/$drives->[$i]{'id'}"); $working_path =~ s/nvme[^\/]*$//; } if ($working_path){ $drives->[$i]{'abs-path'} = Cwd::abs_path($working_path); } main::log_data('data',"working path: $working_path") if $b_log; if ($b_admin && -e "/sys/block/"){ ($drives->[$i]{'block-logical'},$drives->[$i]{'block-physical'}) = @{block_data($drives->[$i]{'id'})}; } if ($block_type && $scsi && @$scsi && @by_id && ! -e "${working_path}model" && ! -e "${working_path}name"){ ## ok, ok, it's incomprehensible, search /dev/disk/by-id for a line that contains the # discovered disk name AND ends with the correct identifier, sdx # get rid of whitespace for some drive names and ids, and extra data after - in name SCSI: foreach my $row (@$scsi){ if ($row->{'model'}){ $row->{'model'} = (split(/\s*-\s*/,$row->{'model'}))[0]; foreach my $id (@by_id){ if ($id =~ /$row->{'model'}/ && "/dev/$drives->[$i]{'id'}" eq Cwd::abs_path($id)){ $drives->[$i]{'firmware'} = $row->{'firmware'}; $drives->[$i]{'model'} = $row->{'model'}; $drives->[$i]{'vendor'} = $row->{'vendor'}; last SCSI; } } } } } # note: an entire class of model names gets truncated by /sys so that should be the last # in priority re tests. elsif ((!@$disk_data || !$disk_data->[0]) && $block_type){ # NOTE: while path ${working_path}vendor exists, it contains junk value, like: ATA $path = "${working_path}model"; if (-r $path){ $model = main::reader($path,'strip',0); $drives->[$i]{'model'} = $model if $model; } elsif ($block_type eq 'mmc' && -r "${working_path}name"){ $path = "${working_path}name"; $model = main::reader($path,'strip',0); $drives->[$i]{'model'} = $model if $model; } } if (!$drives->[$i]{'model'} && @$disk_data){ $drives->[$i]{'model'} = $disk_data->[0] if $disk_data->[0]; $drives->[$i]{'vendor'} = $disk_data->[1] if $disk_data->[1]; } # maybe rework logic if find good scsi data example, but for now use this elsif ($drives->[$i]{'model'} && !$drives->[$i]{'vendor'}){ $drives->[$i]{'model'} = main::clean_disk($drives->[$i]{'model'}); my $result = disk_vendor($drives->[$i]{'model'},''); $drives->[$i]{'model'} = $result->[1] if $result->[1]; $drives->[$i]{'vendor'} = $result->[0] if $result->[0]; } if ($working_path){ $path = "${working_path}removable"; if (-r $path && main::reader($path,'strip',0)){ $drives->[$i]{'type'} = 'Removable' ; # 0/1 value } } my $peripheral = peripheral_data($drives->[$i]{'id'}); # note: we only want to update type if we found a peripheral, otherwise preserve value $drives->[$i]{'type'} = $peripheral if $peripheral; # print "type:$drives->[$i]{'type'}\n"; if ($extra > 0){ $drives->[$i]{'temp'} = hdd_temp("$drives->[$i]{'id'}"); if ($extra > 1){ my $speed_data = drive_speed($drives->[$i]{'id'}); # only assign if defined / not 0 $drives->[$i]{'speed'} = $speed_data->[0] if $speed_data->[0]; $drives->[$i]{'lanes'} = $speed_data->[1] if $speed_data->[1]; if (@$disk_data && $disk_data->[2]){ $drives->[$i]{'serial'} = $disk_data->[2]; } else { $path = "${working_path}serial"; if (-r $path){ $serial = main::reader($path,'strip',0); $drives->[$i]{'serial'} = $serial if $serial; } } if ($extra > 2 && !$drives->[$i]{'firmware'}){ my @fm = ('rev','fmrev','firmware_rev'); # 0 ~ default; 1 ~ mmc; 2 ~ nvme foreach my $firmware (@fm){ $path = "${working_path}$firmware"; if (-r $path){ $drives->[$i]{'firmware'} = main::reader($path,'strip',0); last; } } } } } if ($extra > 2){ my $result = disk_data_advanced($pt_cmd,$drives->[$i]{'id'}); $pt_cmd = $result->[0]; $drives->[$i]{'partition-table'} = uc($result->[1]) if $result->[1]; if ($result->[2]){ $drives->[$i]{'rotation'} = $result->[2]; $drives->[$i]{'tech'} = 'HDD'; } elsif (($block_type && $block_type ne 'sdx') || # note: this case could conceivabley be wrong for a spun down HDD (defined $result->[2] && $result->[2] eq '0') || ($drives->[$i]{'model'} && $drives->[$i]{'model'} =~ /(flash|mmc|msata|\bm[\.-]?2\b|nvme|ssd|solid\s?state)/i)){ $drives->[$i]{'tech'} = 'SSD'; } } } main::log_data('dump','$drives',$drives) if $b_log; print Data::Dumper::Dumper $drives if $dbg[24]; eval $end if $b_log; return $drives; } # camcontrol identify |grep ^serial (this might be (S)ATA specific) # smartcl -i |grep ^Serial # see smartctl; camcontrol devlist; gptid status; sub bsd_data { eval $start if $b_log; my ($used) = @_; my (@drives,@softraid,@temp); my ($i,$logical_size,$size,$working) = (0,0,0,0); my $file = $system_files{'dmesg-boot'}; DiskDataBSD::set() if !$loaded{'disk-data-bsd'}; # we don't want non dboot disk data from gpart or disklabel if ($file && ! -r $file){ $size = main::message('dmesg-boot-permissions'); } elsif (!$file){ $size = main::message('dmesg-boot-missing'); } elsif (%disks_bsd){ if ($sysctl{'softraid'}){ @softraid = map {$_ =~ s/.*\(([^\)]+)\).*/$1/;$_} @{$sysctl{'softraid'}}; } foreach my $id (sort keys %disks_bsd){ next if !$disks_bsd{$id} || !$disks_bsd{$id}->{'size'}; $drives[$i]->{'id'} = $id; $drives[$i]->{'firmware'} = ''; $drives[$i]->{'temp'} = ''; $drives[$i]->{'type'} = ''; $drives[$i]->{'vendor'} = ''; $drives[$i]->{'block-logical'} = $disks_bsd{$id}->{'block-logical'}; $drives[$i]->{'block-physical'} = $disks_bsd{$id}->{'block-physical'}; $drives[$i]->{'partition-table'} = $disks_bsd{$id}->{'scheme'}; $drives[$i]->{'serial'} = $disks_bsd{$id}->{'serial'}; $drives[$i]->{'size'} = $disks_bsd{$id}->{'size'}; # don't count OpenBSD RAID/CRYPTO virtual disks! if ($drives[$i]->{'size'} && (!@softraid || !(grep {$id eq $_} @softraid))){ $size += $drives[$i]->{'size'} if $drives[$i]->{'size'}; } $drives[$i]->{'spec'} = $disks_bsd{$id}->{'spec'}; $drives[$i]->{'speed'} = $disks_bsd{$id}->{'speed'}; $drives[$i]->{'type'} = $disks_bsd{$id}->{'type'}; # generate the synthetic model/vendor data $drives[$i]->{'model'} = $disks_bsd{$id}->{'model'}; if ($drives[$i]->{'model'}){ my $result = disk_vendor($drives[$i]->{'model'},''); $drives[$i]->{'vendor'} = $result->[0] if $result->[0]; $drives[$i]->{'model'} = $result->[1] if $result->[1]; } if ($disks_bsd{$id}->{'duid'}){ $drives[$i]->{'duid'} = $disks_bsd{$id}->{'duid'}; } if ($disks_bsd{$id}->{'partition-table'}){ $drives[$i]->{'partition-table'} = $disks_bsd{$id}->{'partition-table'}; } $i++; } # raw_logical[0] is total of all logical raid/lvm found # raw_logical[1] is total of all components found. If this totally fails, # and we end up with raw logical less than used, give up if (@raw_logical && $size && $raw_logical[0] && (!$used || $raw_logical[0] > $used)){ $logical_size = ($size - $raw_logical[1] + $raw_logical[0]); } if (!$size){ $size = main::message('data-bsd'); } } my $result = [{ 'logical-size' => $logical_size, 'logical-free' => $raw_logical[2], 'size' => $size, 'used' => $used, }]; #main::log_data('dump','$data',\@data) if $b_log; if ($show{'disk'}){ push(@$result,@drives); # print 'data:', Data::Dumper::Dumper \@data; } main::log_data('dump','$result',$result) if $b_log; print Data::Dumper::Dumper $result if $dbg[24]; eval $end if $b_log; return $result; } # return indexes: 0 - age; 1 - basic; 2 - fail # make sure to update if fields added in smartctl_data() sub smartctl_fields { eval $start if $b_log; my $data = [ [ # age ['smart-gsense-error-rate-ar','g-sense error rate'], ['smart-media-wearout-a','media wearout'], ['smart-media-wearout-t','threshold'], ['smart-media-wearout-f','alert'], ['smart-multizone-errors-av','write error rate'], ['smart-multizone-errors-t','threshold'], ['smart-udma-crc-errors-ar','UDMA CRC errors'], ['smart-udma-crc-errors-f','alert'], ], [ # basic ['smart','SMART'], ['smart-error','SMART Message'], ['smart-support','state'], ['smart-status','health'], ['smart-power-on-hours','on'], ['smart-cycles','cycles'], ['smart-units-read','read-units'], ['smart-units-written','written-units'], ['smart-read','read'], ['smart-written','written'], ], [ # fail ['smart-end-to-end-av','end-to-end'], ['smart-end-to-end-t','threshold'], ['smart-end-to-end-f','alert'], ['smart-raw-read-error-rate-av','read error rate'], ['smart-raw-read-error-rate-t','threshold'], ['smart-raw-read-error-rate-f','alert'], ['smart-reallocated-sectors-av','reallocated sector'], ['smart-reallocated-sectors-t','threshold'], ['smart-reallocated-sectors-f','alert'], ['smart-retired-blocks-av','retired block'], ['smart-retired-blocks-t','threshold'], ['smart-retired-blocks-f','alert'], ['smart-runtime-bad-block-av','runtime bad block'], ['smart-runtime-bad-block-t','threshold'], ['smart-runtime-bad-block-f','alert'], ['smart-seek-error-rate-av', 'seek error rate'], ['smart-seek-error-rate-t', 'threshold'], ['smart-seek-error-rate-f', 'alert'], ['smart-spinup-time-av','spin-up time'], ['smart-spinup-time-t','threshold'], ['smart-spinup-time-f','alert'], ['smart-ssd-life-left-av','life left'], ['smart-ssd-life-left-t','threshold'], ['smart-ssd-life-left-f','alert'], ['smart-unused-reserve-block-av','unused reserve block'], ['smart-unused-reserve-block-t','threshold'], ['smart-unused-reserve-block-f','alert'], ['smart-used-reserve-block-av','used reserve block'], ['smart-used-reserve-block-t','threshold'], ['smart-used-reserve-block-f','alert'], ['smart-unknown-1-a','attribute'], ['smart-unknown-1-v','value'], ['smart-unknown-1-w','worst'], ['smart-unknown-1-t','threshold'], ['smart-unknown-1-f','alert'], ['smart-unknown-2-a','attribute'], ['smart-unknown-2-v','value'], ['smart-unknown-2-w','worst'], ['smart-unknown-2-t','threshold'], ['smart-unknown-2-f','alert'], ['smart-unknown-3-a','attribute'], ['smart-unknown-3-v','value'], ['smart-unknown-3-w','worst'], ['smart-unknown-3-t','threshold'], ['smart-unknown-4-f','alert'], ['smart-unknown-4-a','attribute'], ['smart-unknown-4-v','value'], ['smart-unknown-4-w','worst'], ['smart-unknown-4-t','threshold'], ['smart-unknown-4-f','alert'], ['smart-unknown-5-f','alert'], ['smart-unknown-5-a','attribute'], ['smart-unknown-5-v','value'], ['smart-unknown-5-w','worst'], ['smart-unknown-5-t','threshold'], ['smart-unknown-5-f','alert'], ] ]; eval $end if $b_log; return $data; } sub smartctl_data { eval $start if $b_log; my ($data) = @_; my ($b_attributes,$b_intel,$b_kingston,$cmd,%holder,$id,@working,@result,@split); my ($splitter,$num,$a,$f,$r,$t,$v,$w,$y) = (':\s*',0,0,8,1,5,3,4,6); # $y is type, $t threshold, etc for (my $i = 0; $i < scalar @$data; $i++){ next if !$data->[$i]{'id'}; ($b_attributes,$b_intel,$b_kingston,$splitter,$num,$a,$r) = (0,0,0,':\s*',0,0,1); %holder = (); # print $data->[$i]{'id'},"\n"; # m2 nvme failed on nvme0n1 drive id: $id = $data->[$i]{'id'}; $id =~ s/n[0-9]+$// if $id =~ /^nvme/; # openbsd needs the 'c' partition, which is the entire disk $id .= 'c' if $bsd_type && $bsd_type eq 'openbsd'; $cmd = $alerts{'smartctl'}->{'path'} . " -AHi /dev/" . $id . ' 2>/dev/null'; @result = main::grabber("$cmd", '', 'strip'); main::log_data('dump','@result', \@result) if $b_log; # log before cleanup @result = grep {!/^(smartctl|Copyright|==)/} @result; print 'Drive:/dev/' . $id . ":\n", Data::Dumper::Dumper\@result if $dbg[12]; if (scalar @result < 5){ if (grep {/failed: permission denied/i} @result){ $data->[$i]{'smart-permissions'} = main::message('tool-permissions','smartctl'); } elsif (grep {/unknown usb bridge/i} @result){ $data->[$i]{'smart-error'} = main::message('smartctl-usb'); } # can come later in output too elsif (grep {/A mandatory SMART command failed/i} @result){ $data->[$i]{'smart-error'} = main::message('smartctl-command'); } elsif (grep {/open device.*Operation not supported by device/i} @result){ $data->[$i]{'smart-error'} = main::message('smartctl-open'); } else { $data->[$i]{'smart-error'} = main::message('tool-unknown-error','smartctl'); } next; } else { foreach my $row (@result){ if ($row =~ /^ID#/){ $splitter = '\s+'; $b_attributes = 1; $a = 1; $r = 9; next; } @split = split(/$splitter/, $row); next if !$b_attributes && ! defined $split[$r]; # some cases where drive not in db threshhold will be: --- # value is usually 0 padded which confuses perl. However this will # make subsequent tests easier, and will strip off leading 0s if ($b_attributes){ $split[$t] = (main::is_numeric($split[$t])) ? int($split[$t]) : 0; $split[$v] = (main::is_numeric($split[$v])) ? int($split[$v]) : 0; } # can occur later in output so retest it here if ($split[$a] =~ /A mandatory SMART command failed/i){ $data->[$i]{'smart-error'} = main::message('smartctl-command'); } ## DEVICE INFO ## if ($split[$a] eq 'Device Model'){ $b_intel = 1 if $split[$r] =~/\bintel\b/i; $b_kingston = 1 if $split[$r] =~/kingston/i; # usb/firewire/thunderbolt enclosure id method if ($data->[$i]{'type'}){ my $result = disk_vendor("$split[$r]"); if ($data->[$i]{'model'} && $data->[$i]{'model'} ne $result->[1]){ $data->[$i]{'drive-model'} = $result->[1]; } if ($data->[$i]{'vendor'} && $data->[$i]{'vendor'} ne $result->[0]){ $data->[$i]{'drive-vendor'} = $result->[0]; } } # fallback for very corner cases where primary model id failed if (!$data->[$i]{'model'} && $split[$r]){ my $result = disk_vendor("$split[$r]"); $data->[$i]{'model'} = $result->[1] if $result->[1]; $data->[$i]{'vendor'} = $result->[0] if $result->[0] && !$data->[$i]{'vendor'}; } } elsif ($split[$a] eq 'Model Family'){ my $result = disk_vendor("$split[$r]"); $data->[$i]{'family'} = $result->[1] if $result->[1]; # $data->[$i]{'family'} =~ s/$data->[$i]{'vendor'}\s*// if $data->[$i]{'vendor'}; } elsif ($split[$a] eq 'Firmware Version'){ # 01.01A01 vs 1A01 if ($data->[$i]{'firmware'} && $split[$r] !~ /$data->[$i]{'firmware'}/){ $data->[$i]{'drive-firmware'} = $split[$r]; } elsif (!$data->[$i]{'firmware'}){ $data->[$i]{'firmware'} = $split[$r]; } } elsif ($split[$a] eq 'Rotation Rate'){ if ($split[$r] !~ /^Solid/){ $data->[$i]{'rotation'} = $split[$r]; $data->[$i]{'rotation'} =~ s/\s*rpm$//i; $data->[$i]{'tech'} = 'HDD'; } else { $data->[$i]{'tech'} = 'SSD'; } } elsif ($split[$a] eq 'Serial Number'){ if (!$data->[$i]{'serial'}){ $data->[$i]{'serial'} = $split[$r]; } elsif ($data->[$i]{'type'} && $split[$r] ne $data->[$i]{'serial'}){ $data->[$i]{'drive-serial'} = $split[$r]; } } elsif ($split[$a] eq 'SATA Version is'){ if ($split[$r] =~ /SATA ([0-9.]+), ([0-9.]+ [^\s]+)(\(current: ([1-9.]+ [^\s]+)\))?/){ $data->[$i]{'sata'} = $1; $data->[$i]{'speed'} = $2 if !$data->[$i]{'speed'}; } } # seen both Size and Sizes. Linux will usually have both, BSDs not physical elsif ($split[$a] =~ /^Sector Sizes?$/){ if ($data->[$i]{'type'} || !$data->[$i]{'block-logical'} || !$data->[$i]{'block-physical'}){ if ($split[$r] =~ m|^([0-9]+) bytes logical/physical|){ $data->[$i]{'block-logical'} = $1; $data->[$i]{'block-physical'} = $1; } # 512 bytes logical, 4096 bytes physical elsif ($split[$r] =~ m|^([0-9]+) bytes logical, ([0-9]+) bytes physical|){ $data->[$i]{'block-logical'} = $1; $data->[$i]{'block-physical'} = $2; } } } ## SMART STATUS/HEALTH ## elsif ($split[$a] eq 'SMART support is'){ if ($split[$r] =~ /^(Available|Unavailable) /){ $data->[$i]{'smart'} = $1; $data->[$i]{'smart'} = ($data->[$i]{'smart'} eq 'Unavailable') ? 'no' : 'yes'; } elsif ($split[$r] =~ /^(Enabled|Disabled)/){ $data->[$i]{'smart-support'} = lc($1); } } elsif ($split[$a] eq 'SMART overall-health self-assessment test result'){ $data->[$i]{'smart-status'} = $split[$r]; # seen nvme that only report smart health, not smart support $data->[$i]{'smart'} = 'yes' if !$data->[$i]{'smart'}; } ## DEVICE CONDITION: temp/read/write/power on/cycles ## # Attributes data fields, sometimes are same syntax as info block:... elsif ($split[$a] eq 'Power_Cycle_Count' || $split[$a] eq 'Power Cycles'){ $data->[$i]{'smart-cycles'} = $split[$r] if $split[$r]; } elsif ($split[$a] eq 'Power_On_Hours' || $split[$a] eq 'Power On Hours' || $split[$a] eq 'Power_On_Hours_and_Msec'){ if ($split[$r]){ $split[$r] =~ s/,//; # trim off: h+0m+00.000s which is useless and at times empty anyway $split[$r] =~ s/h\+.*$// if $split[$a] eq 'Power_On_Hours_and_Msec'; # $split[$r] = 43; if ($split[$r] =~ /^([0-9]+)$/){ if ($1 > 9000){ $data->[$i]{'smart-power-on-hours'} = int($1/(24*365)) . 'y ' . int($1/24)%365 . 'd ' . $1%24 . 'h'; } elsif ($1 > 100){ $data->[$i]{'smart-power-on-hours'} = int($1/24) . 'd ' . $1%24 . 'h'; } else { $data->[$i]{'smart-power-on-hours'} = $split[$r] . ' hrs'; } } else { $data->[$i]{'smart-power-on-hours'} = $split[$r]; } } } # 'Airflow_Temperature_Cel' like: 29 (Min/Max 14/43) so can't use -1 index # Temperature like 29 Celsisu elsif ($split[$a] eq 'Temperature_Celsius' || $split[$a] eq 'Temperature' || $split[$a] eq 'Airflow_Temperature_Cel'){ if (!$data->[$i]{'temp'} && $split[$r]){ $data->[$i]{'temp'} = $split[$r]; } } ## DEVICE USE: Reads/Writes ## elsif ($split[$a] eq 'Data Units Read'){ $data->[$i]{'smart-units-read'} = $split[$r]; } elsif ($split[$a] eq 'Data Units Written'){ $data->[$i]{'smart-units-written'} = $split[$r]; } elsif ($split[$a] eq 'Host_Reads_32MiB'){ $split[$r] = $split[$r] * 32 * 1024; $data->[$i]{'smart-read'} = main::get_size($split[$r],'string'); } elsif ($split[$a] eq 'Host_Writes_32MiB'){ $split[$r] = $split[$r] * 32 * 1024; $data->[$i]{'smart-written'} = main::get_size($split[$r],'string'); } elsif ($split[$a] eq 'Lifetime_Reads_GiB'){ $data->[$i]{'smart-read'} = $split[$r] . ' GiB'; } elsif ($split[$a] eq 'Lifetime_Writes_GiB'){ $data->[$i]{'smart-written'} = $split[$r] . ' GiB'; } elsif ($split[$a] eq 'Total_LBAs_Read'){ if (main::is_numeric($split[$r])){ # blocks in bytes, so convert to KiB, the internal unit here # reports in 32MiB units, sigh if ($b_intel){ $split[$r] = $split[$r] * 32 * 1024; } # reports in 1 GiB units, sigh elsif ($b_kingston){ $split[$r] = $split[$r] * 1024 * 1024; } # rare fringe cases, cygwin run as user, block size will not be found # this is what it's supposed to refer to elsif ($data->[$i]{'block-logical'}) { $split[$r] = int($data->[$i]{'block-logical'} * $split[$r] / 1024); } if ($b_intel || $b_kingston || $data->[$i]{'block-logical'}){ $data->[$i]{'smart-read'} = main::get_size($split[$r],'string'); } } } elsif ($split[$a] eq 'Total_LBAs_Written'){ if (main::is_numeric($split[$r]) && $data->[$i]{'block-logical'}){ # blocks in bytes, so convert to KiB, the internal unit here # reports in 32MiB units, sigh if ($b_intel){ $split[$r] = $split[$r] * 32 * 1024; } # reports in 1 GiB units, sigh elsif ($b_kingston){ $split[$r] = $split[$r] * 1024 * 1024; } # rare fringe cases, cygwin run as user, block size will not be found # this is what it's supposed to refer to, in byte blocks elsif ($data->[$i]{'block-logical'}) { $split[$r] = int($data->[$i]{'block-logical'} * $split[$r] / 1024); } if ($b_intel || $b_kingston || $data->[$i]{'block-logical'}){ $data->[$i]{'smart-written'} = main::get_size($split[$r],'string'); } } } ## DEVICE OLD AGE ## # 191 G-Sense_Error_Rate 0x0032 001 001 000 Old_age Always - 291 elsif ($split[$a] eq 'G-Sense_Error_Rate'){ # $data->[$i]{'smart-media-wearout'} = $split[$r]; if ($b_attributes && $split[$r] > 100){ $data->[$i]{'smart-gsense-error-rate-ar'} = $split[$r]; } } elsif ($split[$a] eq 'Media_Wearout_Indicator'){ # $data->[$i]{'smart-media-wearout'} = $split[$r]; # seen case where they used hex numbers because values # were in 47 billion range in hex. You can't hand perl an unquoted # hex number that is > 2^32 without tripping a perl warning if ($b_attributes && $split[$r] && !main::is_hex("$split[$r]") && $split[$r] > 0){ $data->[$i]{'smart-media-wearout-av'} = $split[$v]; $data->[$i]{'smart-media-wearout-t'} = $split[$t]; $data->[$i]{'smart-media-wearout-f'} = $split[$f] if $split[$f] ne '-'; } } elsif ($split[$a] eq 'Multi_Zone_Error_Rate'){ # note: all t values are 0 that I have seen if (($split[$v] - $split[$t]) < 50){ $data->[$i]{'smart-multizone-errors-av'} = $split[$v]; $data->[$i]{'smart-multizone-errors-t'} = $split[$v]; } } elsif ($split[$a] eq 'UDMA_CRC_Error_Count'){ if (main::is_numeric($split[$r]) && $split[$r] > 50){ $data->[$i]{'smart-udma-crc-errors-ar'} = $split[$r]; $data->[$i]{'smart-udma-crc-errors-f'} = main::message('smartctl-udma-crc') if $split[$r] > 500; } } ## DEVICE PRE-FAIL ## elsif ($split[$a] eq 'Available_Reservd_Space'){ # $data->[$i]{'smart-available-reserved-space'} = $split[$r]; if ($b_attributes && $split[$v] && $split[$t] && $split[$t]/$split[$v] > 0.92){ $data->[$i]{'smart-available-reserved-space-av'} = $split[$v]; $data->[$i]{'smart-available-reserved-space-t'} = $split[$t]; $data->[$i]{'smart-available-reserved-space-f'} = $split[$f] if $split[$f] ne '-'; } } ## nvme splits these into two field/value sets elsif ($split[$a] eq 'Available Spare'){ $split[$r] =~ s/%$//; $holder{'spare'} = int($split[$r]) if main::is_numeric($split[$r]); } elsif ($split[$a] eq 'Available Spare Threshold'){ $split[$r] =~ s/%$//; if ($holder{'spare'} && main::is_numeric($split[$r]) && $split[$r]/$holder{'spare'} > 0.92){ $data->[$i]{'smart-available-reserved-space-ar'} = $holder{'spare'}; $data->[$i]{'smart-available-reserved-space-t'} = int($split[$r]); } } elsif ($split[$a] eq 'End-to-End_Error'){ if ($b_attributes && int($split[$r]) > 0 && $split[$t]){ $data->[$i]{'smart-end-to-end-av'} = $split[$v]; $data->[$i]{'smart-end-to-end-t'} = $split[$t]; $data->[$i]{'smart-end-to-end-f'} = $split[$f] if $split[$f] ne '-'; } } # seen raw value: 0/8415644 elsif ($split[$a] eq 'Raw_Read_Error_Rate'){ if ($b_attributes && $split[$v] && $split[$t] && $split[$t]/$split[$v] > 0.92){ $data->[$i]{'smart-raw-read-error-rate-av'} = $split[$v]; $data->[$i]{'smart-raw-read-error-rate-t'} = $split[$t]; $data->[$i]{'smart-raw-read-error-rate-f'} = $split[$f] if $split[$f] ne '-'; } } elsif ($split[$a] eq 'Reallocated_Sector_Ct'){ if ($b_attributes && int($split[$r]) > 0 && $split[$t]){ $data->[$i]{'smart-reallocated-sectors-av'} = $split[$v]; $data->[$i]{'smart-reallocated-sectors-t'} = $split[$t]; $data->[$i]{'smart-reallocated-sectors-f'} = $split[$f] if $split[$f] ne '-'; } } elsif ($split[$a] eq 'Retired_Block_Count'){ if ($b_attributes && int($split[$r]) > 0 && $split[$t]){ $data->[$i]{'smart-retired-blocks-av'} = $split[$v]; $data->[$i]{'smart-retired-blocks-t'} = $split[$t]; $data->[$i]{'smart-retired-blocks-f'} = $split[$f] if $split[$f] ne '-'; } } elsif ($split[$a] eq 'Runtime_Bad_Block'){ if ($b_attributes && $split[$v] && $split[$t] && $split[$t]/$split[$v] > 0.92){ $data->[$i]{'smart-runtime-bad-block-av'} = $split[$v]; $data->[$i]{'smart-runtime-bad-block-t'} = $split[$t]; $data->[$i]{'smart-runtime-bad-block-f'} = $split[$f] if $split[$f] ne '-'; } } elsif ($split[$a] eq 'Seek_Error_Rate'){ # value 72; threshold either 000 or 30 if ($b_attributes && $split[$v] && $split[$t] && $split[$t]/$split[$v] > 0.92){ $data->[$i]{'smart-seek-error-rate-av'} = $split[$v]; $data->[$i]{'smart-seek-error-rate-t'} = $split[$t]; $data->[$i]{'smart-seek-error-rate-f'} = $split[$f] if $split[$f] ne '-'; } } elsif ($split[$a] eq 'Spin_Up_Time'){ # raw will always be > 0 on spinning disks if ($b_attributes && $split[$v] && $split[$t] && $split[$t]/$split[$v] > 0.92){ $data->[$i]{'smart-spinup-time-av'} = $split[$v]; $data->[$i]{'smart-spinup-time-t'} = $split[$t]; $data->[$i]{'smart-spinup-time-f'} = $split[$f] if $split[$f] ne '-'; } } elsif ($split[$a] eq 'SSD_Life_Left'){ # raw will always be > 0 on spinning disks if ($b_attributes && $split[$v] && $split[$t] && $split[$t]/$split[$v] > 0.92){ $data->[$i]{'smart-ssd-life-left-av'} = $split[$v]; $data->[$i]{'smart-ssd-life-left-t'} = $split[$t]; $data->[$i]{'smart-ssd-life-left-f'} = $split[$f] if $split[$f] ne '-'; } } elsif ($split[$a] eq 'Unused_Rsvd_Blk_Cnt_Tot'){ # raw will always be > 0 on spinning disks if ($b_attributes && $split[$v] && $split[$t] && $split[$t]/$split[$v] > 0.92){ $data->[$i]{'smart-unused-reserve-block-av'} = $split[$v]; $data->[$i]{'smart-unused-reserve-block-t'} = $split[$t]; $data->[$i]{'smart-unused-reserve-block-f'} = $split[$f] if $split[$f] ne '-'; } } elsif ($split[$a] eq 'Used_Rsvd_Blk_Cnt_Tot'){ # raw will always be > 0 on spinning disks if ($b_attributes && $split[$v] && $split[$t] && $split[$t]/$split[$v] > 0.92){ $data->[$i]{'smart-used-reserve-block-av'} = $split[$v]; $data->[$i]{'smart-used-reserve-block-t'} = $split[$t]; $data->[$i]{'smart-used-reserve-block-f'} = $split[$f] if $split[$f] ne '-'; } } elsif ($b_attributes){ if ($split[$y] eq 'Pre-fail' && ($split[$f] ne '-' || ($split[$t] && $split[$v] && $split[$t]/$split[$v] > 0.92))){ $num++; $data->[$i]{'smart-unknown-' . $num . '-a'} = $split[$a]; $data->[$i]{'smart-unknown-' . $num . '-v'} = $split[$v]; $data->[$i]{'smart-unknown-' . $num . '-w'} = $split[$v]; $data->[$i]{'smart-unknown-' . $num . '-t'} = $split[$t]; $data->[$i]{'smart-unknown-' . $num . '-f'} = $split[$f] if $split[$f] ne '-'; } } } } } print Data::Dumper::Dumper $data if $dbg[19]; eval $end if $b_log; } # check for usb/firewire/[and thunderbolt when data found] sub peripheral_data { eval $start if $b_log; my ($id) = @_; my ($type) = (''); # print "$id here\n"; if (@by_id){ foreach (@by_id){ if ("/dev/$id" eq Cwd::abs_path($_)){ # print "$id here\n"; if (/usb-/i){ $type = 'USB'; } elsif (/ieee1394-/i){ $type = 'FireWire'; } last; } } } # note: sometimes with wwn- numbering usb does not appear in by-id but it does in by-path if (!$type && @by_path){ foreach (@by_path){ if ("/dev/$id" eq Cwd::abs_path($_)){ if (/usb-/i){ $type = 'USB'; } elsif (/ieee1394--/i){ $type = 'FireWire'; } last; } } } eval $end if $b_log; return $type; } sub disk_data_advanced { eval $start if $b_log; my ($set_cmd,$id) = @_; my ($cmd,$pt,$program,@data); my $advanced = []; if ($set_cmd ne 'unset'){ $advanced->[0] = $set_cmd; } else { # runs as user, but is SLOW: udisksctl info -b /dev/sda # line: org.freedesktop.UDisks2.PartitionTable: # Type: dos if ($program = main::check_program('udevadm')){ $advanced->[0] = "$program info -q property -n "; } elsif ($b_root && -e "/lib/udev/udisks-part-id"){ $advanced->[0] = "/lib/udev/udisks-part-id /dev/"; } elsif ($b_root && ($program = main::check_program('fdisk'))){ $advanced->[0] = "$program -l /dev/"; } if (!$advanced->[0]){ $advanced->[0] = 'na' } } if ($advanced->[0] ne 'na'){ $cmd = "$advanced->[0]$id 2>&1"; main::log_data('cmd',$cmd) if $b_log; @data = main::grabber($cmd); # for pre ~ 2.30 fdisk did not show gpt, but did show gpt scheme error, so # if no gpt match, it's dos = mbr if ($cmd =~ /fdisk/){ foreach (@data){ if (/^WARNING:\s+GPT/){ $advanced->[1] = 'gpt'; last; } elsif (/^Disklabel\stype:\s*(.+)/i){ $advanced->[1] = $1; last; } } $advanced->[1] = 'dos' if !$advanced->[1]; } else { foreach (@data){ if (/^(UDISKS_PARTITION_TABLE_SCHEME|ID_PART_TABLE_TYPE)/){ my @working = split('=', $_); $advanced->[1] = $working[1]; } elsif (/^ID_ATA_ROTATION_RATE_RPM/){ my @working = split('=', $_); $advanced->[2] = $working[1]; } last if defined $advanced->[1] && defined $advanced->[2]; } } $advanced->[1] = 'mbr' if $advanced->[1] && lc($advanced->[1]) eq 'dos'; } eval $end if $b_log; return $advanced; } sub scsi_data { eval $start if $b_log; my ($file) = @_; my @temp = main::reader($file); my $scsi = []; my ($firmware,$model,$vendor) = ('','',''); foreach (@temp){ if (/Vendor:\s*(.*)\s+Model:\s*(.*)\s+Rev:\s*(.*)/i){ $vendor = $1; $model = $2; $firmware = $3; } if (/Type:/i){ if (/Type:\s*Direct-Access/i){ push(@$scsi, { 'vendor' => $vendor, 'model' => $model, 'firmware' => $firmware, }); } else { ($firmware,$model,$vendor) = ('','',''); } } } main::log_data('dump','@$scsi', $scsi) if $b_log; eval $end if $b_log; return $scsi; } # @b_id has already been cleaned of partitions, wwn-, nvme-eui sub disk_data_by_id { eval $start if $b_log; my ($device) = @_; my ($model,$serial,$vendor) = ('','',''); my $disk_data = []; foreach (@by_id){ if ($device eq Cwd::abs_path($_)){ my @data = split('_', $_); last if scalar @data < 2; # scsi-3600508e000000000876995df43efa500 $serial = pop @data if @data; # usb-PNY_USB_3.0_FD_3715202280-0:0 $serial =~ s/-[0-9]+:[0-9]+$//; $model = join(' ', @data); # get rid of the ata-|nvme-|mmc- etc $model =~ s/^\/dev\/disk\/by-id\/([^-]+-)?//; $model = main::clean_disk($model); my $result = disk_vendor($model,$serial); $vendor = $result->[0] if $result->[0]; $model = $result->[1] if $result->[1]; # print $device, '::', Cwd::abs_path($_),'::', $model, '::', $vendor, '::', $serial, "\n"; @$disk_data = ($model,$vendor,$serial); last; } } eval $end if $b_log; return $disk_data; } ## START DISK VENDOR BLOCK ## # 0 - match pattern; 1 - replace pattern; 2 - vendor print; 3 - serial pattern sub set_disk_vendors { eval $start if $b_log; $vendors = [ ## MOST LIKELY/COMMON MATCHES ## ['(Crucial|^(C[34]00$|(C300-)?CTF|(FC)?CT|DDAC|M4(\b|SSD))|-CT|Gizmo!)','Crucial','Crucial',''], # H10 HBRPEKNX0202A NVMe INTEL 512GB ['(\bINTEL\b|^(SSD(PAM|SA2)|HBR|(MEM|SSD)PEB?K|SSD(MCE|S[AC])))','\bINTEL\b','Intel',''], # note: S[AV][1-9]\d can trigger false positives ['(K(ING)?STON|^(OM8P|RBU|S[AV][1234]00|S[HMN]S|SK[CY]|SQ5|SS200|SVP|SS0|SUV|SNV|T52|T[AB]29|Ultimate CF)|V100|DataTraveler|DT\s?(DUO|Microduo|101)|HyperX|13fe\b)','(KINGSTON|13fe)','Kingston',''], # maybe SHS: SHSS37A SKC SUV # must come before samsung MU. NOTE: toshiba can have: TOSHIBA_MK6475GSX: mush: MKNSSDCR120GB_ ['(^MKN|Mushkin)','Mushkin','Mushkin',''], # MKNS # MU = Multiple_Flash_Reader too risky: |M[UZ][^L] HD103SI HD start risky # HM320II HM320II HM ['(SAMSUNG|^(AWMB|[BC]DS20|[BC]WB|BJ[NT]|[BC]GND|CJ[NT]|CKT|CUT|[DG]3 Station|DUO\b|DUT|EB\dMW|GE4S5|[GS]2 Portable|GN|HD\d{3}[A-Z]{2}$|(HM|SP)\d{2}|HS\d|M[AB]G\d[FG]|MCC|MCBOE|MCG\d+GC|[CD]JN|MZ|^G[CD][1-9][QS]|P[BM]\d|(SSD\s?)?SM\s?841)|^SSD\s?[89]\d{2}\s(DCT|PRO|QVD|\d+[GT]B)|\bEVO\b|SV\d|[BE][A-Z][1-9]QT|YP\b|[CH]N-M|MMC[QR]E)','SAMSUNG','Samsung',''], # maybe ^SM, ^HM # Android UMS Composite?U1 ['(SanDisk|0781|^(A[BCD]LC[DE]|AFGCE|D[AB]4|DX[1-9]|Extreme|Firebird|S[CD]\d{2}G|SD(S[S]?[ADQ]|SL\d+G|SU\d|\sUltra)|SDW[1-9]|SE\d{2}|SEM[1-9]|\d[STU]|U(3\b|1\d0))|Clip Sport|Cruzer|iXpand|SN(\d+G|128|256)|SSD (Plus|U1[01]0) [1-9]|ULTRA\s(FIT|trek|II)|X[1-6]\d{2})','(SanDisk|0781)','SanDisk',''], # these are HP/Sandisk cobranded. DX110064A5xnNMRI ids as HP and Sandisc ['(^DX[1-9])','^(HP\b|SANDDISK)','Sandisk/HP',''], # ssd drive, must come before seagate ST test # real, SSEAGATE Backup+; XP1600HE30002 | 024 HN (spinpoint) ; possible usb: 24AS # ST[numbers] excludes other ST starting devices ['([S]?SEAGATE|^((Barra|Fire)Cuda|BUP|EM\d{3}|Expansion|(ATA\s|HDD\s)?ST\d{2}|5AS|X[AFP])|Backup(\+|\s?Plus)\s?(Hub)?|DS2\d|Expansion Desk|FreeAgent|GoFlex|INIC|IronWolf|OneTouch|Slim\s?BK)','[S]?SEAGATE','Seagate',''], ['^(WD|WL[0]9]|Western Digital|My (Book|Passport)|\d*LPCX|Elements|easystore|EA[A-Z]S|EARX|EFRX|EZRX|\d*EAVS|G[\s-]Drive|i HTS|0JD|JP[CV]|MD0|M000|\d+(BEV|(00)?AAK|AAV|AZL|EA[CD]S)|PC\sSN|SN530|SPZX|3200[AB]|2500[BJ]|20G2|5000[AB]|6400[AB]|7500[AB]|00[ABL][A-Z]{2}|SSC\b)','(^WDC|Western\s?Digital)','Western Digital',''], # rare cases WDC is in middle of string ['(\bWDC\b|1002FAEX)','','Western Digital',''], ## THEN BETTER KNOWN ONES ## ['^Acer','^Acer','Acer',''], # A-Data can be in middle of string ['^(.*\bA-?DATA|ASP\d|AX[MN]|CH11|FX63|HV[1-9]|IM2|HD[1-9]|HDD\s?CH|IUM|SX\d|Swordfish)','A-?DATA','A-Data',''], ['^(ASUS|ROG)','^ASUS','ASUS',''], # ROG ESD-S1C # ATCS05 can be hitachi travelstar but not sure ['^ATP','^ATP\b','ATP',''], # Force MP500 ['^(Corsair|Force\s|(Flash\s*)?(Survivor|Voyager)|Neutron|Padlock)','^Corsair','Corsair',''], ['^(FUJITSU|MJA|MH[RTVWYZ]\d|MP|MAP\d|F\d00s?-)','^FUJITSU','Fujitsu',''], # MAB3045SP shows as HP or Fujitsu, probably HP branded fujitsu ['^(MAB\d)','^(HP\b|FUJITSU)','Fujitsu/HP',''], # note: 2012: wdc bought hgst ['^(DKR|HGST|Touro|54[15]0|7250|HC[CT]\d)','^HGST','HGST (Hitachi)',''], # HGST HUA ['^((ATA\s)?Hitachi|HCS|HD[PST]|DK\d|IC|(HDD\s)?HT|HU|HMS|HDE|0G\d|IHAT)','Hitachi','Hitachi',''], # vb: VB0250EAVER but clashes with vbox; HP_SSD_S700_120G ;GB0500EAFYL GB starter too generic? ['^(HP\b|c350|DF\d|EG0\d{3}|EX9\d\d|G[BJ]\d|F[BK]|0-9]|HC[CPY]\d|MM\d{4}|[MV]B[0-6]|PSS|VO0|VK0|v\d{3}[bgorw]$|x\d{3}[w]$|XR\d{4})','^HP','HP',''], ['^(Lexar|LSD|JumpDrive|JD\s?Firefly|LX\d|WorkFlow)','^Lexar','Lexar',''], # mmc-LEXAR_0xb016546c; JD Firefly; # these must come before maxtor because STM ['^STmagic','^STmagic','STmagic',''], ['^(STMicro|SMI|CBA)','^(STMicroelectronics|SMI)','SMI (STMicroelectronics)',''], # note M2 M3 is usually maxtor, but can be samsung. Can conflict with Team: TM\d{4}| ['^(MAXTOR|Atlas|4R\d{2}|E0\d0L|L(250|500)|[KL]0[1-9]|Y\d{3}[A-Z]|STM\d|F\d{3}L)','^MAXTOR','Maxtor',''], # OCZSSD2-2VTXE120G is OCZ-VERTEX2_3.5 ['^(OCZ|Agility|APOC|D2|DEN|DEN|DRSAK|EC188|FTNC|GFGC|MANG|MMOC|NIMC|NIMR|PSIR|RALLY2|TALOS2|TMSC|TRSAK|VERTEX|Trion|Onyx|Vector[\s-]?15)','^OCZ[\s-]','OCZ',''], ['^(OWC|Aura|Mercury[\s-]?(Electra|Extreme))','^OWC\b','OWC',''], ['^(Philips|GoGear)','^Philips','Philips',''], ['^PIONEER','^PIONEER','Pioneer',''], ['^(PNY|Hook\s?Attache|SSD2SC|(SSD7?)?EP7|CS\d{3}|Elite\s?P)','^PNY\s','PNY','','^PNY'], # note: get rid of: M[DGK] becasue mushkin starts with MK # note: seen: KXG50ZNV512G NVMe TOSHIBA 512GB | THNSN51T02DUK NVMe TOSHIBA 1024GB ['(TOSHIBA|TransMemory|KBG4|^((A\s)?DT01A|M[GKQ]\d|HDW|SA\d{2}G$|(008|016|032|064|128)G[379E][0-9A]$|[S]?TOS|THN)|0930|KSG\d)','S?(TOSHIBA|0930)','Toshiba',''], # scsi-STOSHIBA_STOR.E_EDITION_ ## LAST: THEY ARE SHORT AND COULD LEAD TO FALSE ID, OR ARE UNLIKELY ## # unknown: AL25744_12345678; ADP may be usb 2.5" adapter; udisk unknown: Z1E6FTKJ 00AAKS # SSD2SC240G726A10 MRS020A128GTS25C EHSAJM0016GB ['^2[\s-]?Power','^2[\s-]?Power','2-Power',''], ['^(3ware|9650SE)','^3ware','3ware (controller)',''], ['^5ACE','^5ACE','5ACE',''], # could be seagate: ST316021 5ACE ['^(Aar(vex)?|AX\d{2})','^AARVEX','AARVEX',''], ['^(AbonMax|ASU\d)','^AbonMax','AbonMax',''], ['^Acasis','^Acasis','Acasis (hub)',''], ['^Acclamator','^Acclamator','Acclamator',''], ['^(Actions|HS USB Flash|10d6)','^(Actions|10d6)','Actions',''], ['^(A-?DATA|ED\d{3}|NH01|Swordfish|SU\d{3}|SX\d{3}|XM\d{2})','^A-?DATA','ADATA',''], ['^Addlink','^Addlink','Addlink',''], ['^(ADplus|SuperVer\b)','^ADplus','ADplus',''], ['^ADTRON','^ADTRON','Adtron',''], ['^(Advantech|SQF)','^Advantech','Advantech',''], ['^AEGO','^AEGO','AEGO',''], ['^AFOX','^AFOX','AFOX',''], ['^AFTERSHOCK','^AFTERSHOCK','AFTERSHOCK',''], ['^(Agile|AGI)','^(AGI|Agile\s?Gear\s?Int[a-z]*)','AGI',''], ['^Aigo','^Aigo','Aigo',''], ['^AirDisk','^AirDisk','AirDisk',''], ['^Aireye','^Aireye','Aireye',''], ['^Alcatel','^Alcatel','Alcatel',''], ['^(Alcor(\s?Micro)?|058F)','^(Alcor(\s?Micro)?|058F)','Alcor Micro',''], ['^Alfawise','^Alfawise','Alfawise',''], ['(^ALKETRON|FireWizard)','^ALKETRON','ALKETRON',''], ['^Android','^Android','Android',''], ['^ANACOMDA','^ANACOMDA','ANACOMDA',''], ['^Ant[\s_-]?Esports','^Ant[\s_-]?Esports','Ant Esports',''], ['^Anucell','^Anucell','Anucell',''], ['^Apotop','^Apotop','Apotop',''], # must come before AP|Apacer ['^(APPLE|iPod|SSD\sSM\d+[CEGT])','^APPLE','Apple',''], ['^(AP|Apacer)','^Apacer','Apacer',''], ['^(Apricom|SATAWire)','^Apricom','Apricom',''], ['^(A-?RAM|ARSSD)','^A-?RAM','A-RAM',''], ['^Arch','^Arch(\s*Memory)?','Arch Memory',''], ['^(Asenno|AS[1-9])','^Asenno','Asenno',''], ['^Asgard','^Asgard','Asgard',''], ['^(ASM|2115)','^ASM','ASMedia',''],#asm1153e ['^ASolid','^ASolid','ASolid',''], # ASTC (Advanced Storage Technology Consortium) ['^(AVEXIR|AVSSD)','^AVEXIR','Avexir',''], ['^Axiom','^Axiom','Axiom',''], ['^(Baititon|BT\d)','^Baititon','Baititon',''], ['^Bamba','^Bamba','Bamba',''], ['^(Beckhoff)','^Beckhoff','Beckhoff',''], ['^Bell\b','^Bell','Packard Bell',''], ['^(BelovedkaiAE|GhostPen)','^BelovedkaiAE','BelovedkaiAE',''], ['^(BHT|WR20)','^BHT','BHT',''], ['^(Big\s?Reservoir|B[RG][_\s-])','^Big\s?Reservoir','Big Reservoir',''], ['^BIOSTAR','^BIOSTAR','Biostar',''], ['^BIWIN','^BIWIN','BIWIN',''], ['^Blackpcs','^Blackpcs','Blackpcs',''], ['^(BlitzWolf|BW-?PSSD)','^BlitzWolf','BlitzWolf',''], ['^(BlueRay|SDM\d)','^BlueRay','BlueRay',''], ['^Bory','^Bory','Bory',''], ['^Braveeagle','^Braveeagle','BraveEagle',''], ['^(BUFFALO|BSC)','^BUFFALO','Buffalo',''], # usb: BSCR05TU2 ['^Bugatek','^Bugatek','Bugatek',''], ['^Bulldozer','^Bulldozer','Bulldozer',''], ['^BUSlink','^BUSlink','BUSlink',''], ['^(Canon|MP49)','^Canon','Canon',''], ['^Centerm','^Centerm','Centerm',''], ['^(Centon|DS pro)','^Centon','Centon',''], ['^(CFD|CSSD)','^CFD','CFD',''], ['^CHIPAL','^CHIPAL','CHIPAL',''], ['^(Chipsbank|CHIPSBNK)','^Chipsbank','Chipsbank',''], ['^(Chipfancie)','^Chipfancier','Chipfancier',''], ['^Clover','^Clover','Clover',''], ['^CODi','^CODi','CODi',''], ['^Colorful\b','^Colorful','Colorful',''], ['^CONSISTENT','^CONSISTENT','Consistent',''], # note: www.cornbuy.com is both a brand and also sells other brands, like newegg # addlink; colorful; goldenfir; kodkak; maxson; netac; teclast; vaseky ['^Corn','^Corn','Corn',''], ['^CnMemory|Spaceloop','^CnMemory','CnMemory',''], ['^(Creative|(Nomad\s?)?MuVo)','^Creative','Creative',''], ['^CSD','^CSD','CSD',''], ['^CYX\b','^CYX','CYX',''], ['^(Dane-?Elec|Z Mate)','^Dane-?Elec','DaneElec',''], ['^DATABAR','^DATABAR','DataBar',''], # Daplink vfs is an ARM software thing ['^(Data\s?Memory\s?Systems|DMS)','^Data\s?Memory\s?Systems','Data Memory Systems',''], ['^Dataram','^Dataram','Dataram',''], ['^DELAIHE','^DELAIHE','DELAIHE',''], # DataStation can be Trekstore or I/O gear ['^Dell\b','^Dell','Dell',''], ['^DeLOCK','^Delock(\s?products)?','Delock',''], ['^Derler','^Derler','Derler',''], ['^detech','^detech','DETech',''], ['^DEXP','^DEXP','DEXP',''], ['^DGM','^DGM\b','DGM',''], ['^(DICOM|MAESTRO)','^DICOM','DICOM',''], ['^Digifast','^Digifast','Digifast',''], ['^DIGITAL\s?FILM','DIGITAL\s?FILM','Digital Film',''], ['^(Digma|Run(\sY2)?\b)','^Digma','Digma',''], ['^Dikom','^Dikom','Dikom',''], ['^DINGGE','^DINGGE','DINGGE',''], ['^Disain','^Disain','Disain',''], ['^(Disco|Go-Infinity)','^Disco','Disco',''], ['^(Disney|PIX[\s]?JR)','^Disney','Disney',''], ['^(Doggo|DQ-|Sendisk|Shenchu)','^(doggo|Sendisk(.?Shenchu)?|Shenchu(.?Sendisk)?)','Doggo (SENDISK/Shenchu)',''], ['^(Dogfish|M\.2 2242|Shark)','^Dogfish(\s*Technology)?','Dogfish Technology',''], ['^DragonDiamond','^DragonDiamond','DragonDiamond',''], ['^(DREVO\b|X1\s\d+[GT])','^DREVO','Drevo',''], ['^DSS','^DSS DAHUA','DSS DAHUA',''], ['^(Duex|DX\b)','^Duex','Duex',''], # DX\d may be starter for sandisk string ['^(Dynabook|AE[1-3]00)','^Dynabook','Dynabook',''], # DX1100 is probably sandisk, but could be HP, or it could be hp branded sandisk ['^(Eaget|V8$)','^Eaget','Eaget',''], ['^(Easy[\s-]?Memory)','^Easy[\s-]?Memory','Easy Memory',''], ['^EDGE','^EDGE','EDGE Tech',''], ['^Elecom','^Elecom','Elecom',''], ['^Eluktro','^Eluktronics','Eluktronics',''], ['^Emperor','^Emperor','Emperor',''], ['^Emtec','^Emtec','Emtec',''], ['^ENE\b','^ENE','ENE',''], ['^Energy','^Energy','Energy',''], ['^eNova','^eNOVA','eNOVA',''], ['^Epson','^Epson','Epson',''], ['^(Etelcom|SSD051)','^Etelcom','Etelcom',''], ['^(Shenzhen\s)?Etopso(\sTechnology)?','^(Shenzhen\s)?Etopso(\sTechnology)?','Etopso',''], ['^EURS','^EURS','EURS',''], ['^eVAULT','^eVAULT','eVAULT',''], ['^EVM','^EVM','EVM',''], ['^eVtran','^eVtran','eVtran',''], # NOTE: ESA3... may be IBM PCIe SAD card/drives ['^(EXCELSTOR|r technology)','^EXCELSTOR( TECHNO(LOGY)?)?','ExcelStor',''], ['^EXRAM','^EXRAM','EXRAM',''], ['^EYOTA','^EYOTA','EYOTA',''], ['^EZCOOL','^EZCOOL','EZCOOL',''], ['^EZLINK','^EZLINK','EZLINK',''], ['^Fantom','^Fantom( Drive[s]?)?','Fantom Drives',''], ['^Fanxiang','^Fanxiang','Fanxiang',''], ['^(Faspeed|K3[\s-])','^Faspeed','Faspeed',''], ['^FASTDISK','^FASTDISK','FASTDISK',''], ['^Festtive','^Festtive','Festtive',''], ['^FiiO','^FiiO','FiiO',''], ['^(FIKWOT|FS\d{3})','^FIKWOT','Kikwot',''], ['^Fordisk','^Fordisk','Fordisk',''], # FK0032CAAZP/FB160C4081 FK or FV can be HP but can be other things ['^(FORESEE|B[123]0)|P900F|S900M','^FORESEE','Foresee',''], ['^Founder','^Founder','Founder',''], ['^(FOXLINE|FLD)','^FOXLINE','Foxline',''], # russian vendor? ['^(GALAX\b|Gamer\s?L|TA\dD|Gamer[\s-]?V)','^GALAX','GALAX',''], ['^Freecom','^Freecom(\sFreecom)?','Freecom',''], ['^(FronTech)','^FronTech','Frontech',''], ['^(Fuhler|FL-D\d{3})','^Fuhler','Fuhler',''], ['^Gaiver','^Gaiver','Gaiver',''], ['^Galaxy\b','^Galaxy','Galaxy',''], ['^Gamer[_\s-]?Black','^Gamer[_\s-]?Black','Gamer Black',''], ['^(Garmin|Fenix|Nuvi|Zumo)','^Garmin','Garmin',''], ['^Geil','^Geil','Geil',''], ['^GelL','^GelL','GelL',''], # typo for Geil? GelL ZENITH R3 120GB ['^(Generic|A3A|G1J3|M0S00|SCA\d{2}|SCY|SLD|S0J\d|UY[567])','^Generic','Generic',''], ['^(Genesis(\s?Logic)?|05e3)','(Genesis(\s?Logic)?|05e3)','Genesis Logic',''], ['^Geonix','^Geonix','Geonix',''], ['^Getrich','^Getrich','Getrich',''], ['^(Gigabyte|GP-G)','^Gigabyte','Gigabyte',''], # SSD ['^Gigastone','^Gigastone','Gigastone',''], ['^Gigaware','^Gigaware','Gigaware',''], ['^GJN','^GJN\b','GJN',''], ['^(Gloway|FER\d)','^Gloway','Gloway',''], ['^GLOWY','^GLOWY','Glowy',''], ['^Goldendisk','^Goldendisk','Goldendisk',''], ['^Goldenfir','^Goldenfir','Goldenfir',''], ['^(Goldkey|GKH\d)','^Goldkey','Goldkey',''], ['^Golden[\s_-]?Memory','^Golden[\s_-]?Memory','Golden Memory',''], ['^(Goldkey|GKP)','^Goldkey','GoldKey',''], ['^(Goline)','^Goline','Goline',''], # Wilk Elektronik SA, poland ['^(Wilk\s*)?(GOODRAM|GOODDRIVE|IR[\s-]?SSD|IRP|SSDPR|Iridium)','^GOODRAM','GOODRAM',''], ['^(GreatWall|GW\d{3})','^GreatWall','GreatWall',''], ['^(GreenHouse|GH\b)','^GreenHouse','GreenHouse',''], ['^Gritronix','^Gritronixx?','Gritronix',''], # supertalent also has FM: |FM ['^(G[\.]?SKILL)','^G[\.]?SKILL','G.SKILL',''], ['^G[\s-]*Tech','^G[\s-]*Tech(nology)?','G-Technology',''], ['^(Gudga|GIM\d+|GVR\d)','^Gudga','Gudga',''], ['^(Hajaan|HS[1-9])','^Haajan','Haajan',''], ['^Haizhide','^Haizhide','Haizhide',''], ['^(Hama|FlashPen\s?Fancy)','^Hama','Hama',''], ['^(Hanye|Q60)','^Hanye','Hanye',''], ['^HDC','^HDC\b','HDC',''], ['^Hectron','^Hectron','Hectron',''], ['^HEMA','^HEMA','HEMA',''], ['(HEORIADY|^HX-0)','^HEORIADY','HEORIADY',''], ['^(Hikvision|HKVSN|HS-SSD)','^Hikvision','Hikvision',''], ['^Hi[\s-]?Level ','^Hi[\s-]?Level ','Hi-Level',''], # ^HI\b with no Level? ['^(Hisense|H8G)','^Hisense','Hisense',''], ['^Hoodisk','^Hoodisk','Hoodisk',''], ['^HUAWEI','^HUAWEI','Huawei',''], ['^Hypertec','^Hypertec','Hypertec',''], ['^HyperX','^HyperX','HyperX',''], ['^(HYSSD|HY-)','^HYSSD','HYSSD',''], ['^(Hyundai|C2S\d|Sapphire)','^Hyundai','Hyundai',''], ['^(IBM|DT|ESA[1-9]|ServeRaid)','^IBM','IBM',''], # M5110 too common ['^IEI Tech','^IEI Tech(\.|nology)?( Corp(\.|oration)?)?','IEI Technology',''], ['^(IGEL|UD Pocket)','^IGEL','IGEL',''], ['^(Imation|Nano\s?Pro|HQT)','^Imation(\sImation)?','Imation',''], # Imation_ImationFlashDrive; TF20 is imation/tdk ['^(IMC|Kanguru)','^IMC\b','IMC',''], ['^(Inateck|FE20)','^Inateck','Inateck',''], ['^(Inca\b|Npenterprise)','^Inca','Inca',''], ['^(Indilinx|IND-)','^Indilinx','Indilinx',''], ['^INDMEM','^INDMEM','INDMEM',''], ['^(Infokit)','^Infokit','Infokit',''], # note: Initio default controller, means master/slave jumper is off/wrong, not a vendor ['^Inland','^Inland','Inland',''], ['^(InnoDisk|DEM\d|Innolite|SATA\s?Slim|DRPS)','^InnoDisk( Corp.)?','InnoDisk',''], ['(Innostor|1f75)','(Innostor|1f75)','Innostor',''], ['(^Innovation|Innovation\s?IT)','Innovation(\s*IT)?','Innovation IT',''], ['^Innovera','^Innovera','Innovera',''], ['^(I\.?norys|INO-?IH])','^I\.?norys','I.norys',''], ['^Intaiel','^Intaiel','Intaiel',''], ['^(INM|Integral|V\s?Series)','^Integral(\s?Memory)?','Integral Memory',''], ['^(lntenso|Intenso|(Alu|Basic|Business|Micro|c?Mobile|Premium|Rainbow|Slim|Speed|Twister|Ultra) Line|Rainbow)','^Intenso','Intenso',''], ['^(I-?O Data|HDCL)','^I-?O Data','I-O Data',''], ['^(INO-|i\.?norys)','^i\.?norys','i.norys',''], ['^(Integrated[\s-]?Technology|IT\d+)','^Integrated[\s-]?Technology','Integrated Technology',''], ['^(Iomega|ZIP\b|Clik!)','^Iomega','Iomega',''], ['^(i[\s_-]?portable\b|ATCS)','^i[\s_-]?portable','i-Portable',''], ['^ISOCOM','^ISOCOM','ISOCOM (Shenzhen Longsys Electronics)',''], ['^iTE[\s-]*Tech','^iTE[\s-]*Tech(nology)?','iTE Tech',''], ['^(James[\s-]?Donkey|JD\d)','^James[\s-]?Donkey','James Donkey',''], ['^(Jaster|JS\d)','^Jaster','Jaster',''], ['^JingX','^JingX','JingX',''], #JingX 120G SSD - not confirmed, but guessing ['^Jingyi','^Jingyi','Jingyi',''], # NOTE: ITY2 120GB hard to find ['^JMicron','^JMicron(\s?Tech(nology)?)?','JMicron Tech',''], #JMicron H/W raid ['^JSYERA','^JSYERA','Jsyera',''], ['^(Jual|RX7)','^Jual','Jual',''], ['^(J\.?ZAO|JZ)','^J\.?ZAO','J.ZAO',''], ['^Kazuk','^Kazuk','Kazuk',''], ['(\bKDI\b|^OM3P)','\bKDI\b','KDI',''], ['^KEEPDATA','^KEEPDATA','KeepData',''], ['^KLLISRE','^KLLISRE','KLLISRE',''], ['^KimMIDI','^KimMIDI','KimMIDI',''], ['^Kimtigo','^Kimtigo','Kimtigo',''], ['^Kingbank','^Kingbank','Kingbank',''], ['^(KingCell|KC\b)','^KingCell','KingCell',''], ['^Kingchux[\s-]?ing','^Kingchux[\s-]?ing','Kingchuxing',''], ['^KINGCOMP','^KINGCOMP','KingComp',''], ['(KingDian|^NGF|S(280|400))','KingDian','KingDian',''], ['^(Kingfast|TYFS)','^Kingfast','Kingfast',''], ['^KingMAX','^KingMAX','KingMAX',''], ['^Kingrich','^Kingrich','Kingrich',''], ['^Kingsand','^Kingsand','Kingsand',''], ['KING\s?SHA\s?RE','KING\s?SHA\s?RE','KingShare',''], ['^(KingSpec|ACSC|C3000|KS[DQ]|MSH|N[ET]-\d|P3$|P4\b|PA[_-]?(18|25)|Q-180|T-(3260|64|128)|Z(\d\s|F\d))','^KingSpec','KingSpec',''], ['^KingSSD','^KingSSD','KingSSD',''], # kingwin docking, not actual drive ['^(EZD|EZ-Dock)','','Kingwin Docking Station',''], ['^Kingwin','^Kingwin','Kingwin',''], ['^KLLISRE','^KLLISRE','KLLISRE',''], ['(KIOXIA|^K[BX]G\d)','KIOXIA','KIOXIA',''], # company name comes after product ID ['^(KLEVV|NEO\sN|CRAS)','^KLEVV','KLEVV',''], ['^(Kodak|Memory\s?Saver)','^Kodak','Kodak',''], ['^(KOOTION)','^KOOTION','KOOTION',''], ['^(KUAIKAI|MSAM)','^KUAIKAI','KuaKai',''], ['(KUIJIA|DAHUA)','^KUIJIA','KUIJIA',''], ['^KUNUP','^KUNUP','KUNUP',''], ['^KUU','^KUU\b','KUU',''], # KUU-128GB ['^(Lacie|P92|itsaKey|iamaKey)','^Lacie','LaCie',''], ['^LANBO','^LANBO','LANBO',''], ['^LANTIC','^LANTIC','Lantic',''], ['^Lapcare','^Lapcare','Lapcare',''], ['^(Lazos|L-?ISS)','^Lazos','Lazos',''], ['^LDLC','^LDLC','LDLC',''], # LENSE30512GMSP34MEAT3TA / UMIS RPITJ256PED2MWX ['^(LEN|UMIS|Think)','^Lenovo','Lenovo',''], ['^RPFT','','Lenovo O.E.M.',''], # JAJS300M120C JAJM600M256C JAJS600M1024C JAJS600M256C JAJMS600M128G ['^(Leven|JAJ[MS])','^Leven','Leven',''], ['^(LEQIXIANG)','^LEQIXIANG','Leqixiang',''], ['^(LG\b|Xtick)','^LG','LG',''], ['(LITE[-\s]?ON[\s-]?IT)','LITE[-]?ON[\s-]?IT','LITE-ON IT',''], # LITEONIT_LSS-24L6G # PH6-CE240-L; CL1-3D256-Q11 NVMe LITEON 256GB ['(LITE[-\s]?ON|^PH[1-9]|^DMT|^CV\d-|L(8[HT]|AT|C[HST]|JH|M[HST]|S[ST])-|^S900)','LITE[-]?ON','LITE-ON',''], ['^LONDISK','^LONDISK','LONDISK',''], ['^Longline','^Longline','Longline',''], ['^LuminouTek','^LuminouTek','LuminouTek',''], ['^(LSI|MegaRAID)','^LSI\b','LSI',''], ['^(M-Systems|DiskOnKey)','^M-Systems','M-Systems',''], ['^(Mach\s*Xtreme|MXSSD|MXU|MX[\s-])','^Mach\s*Xtreme','Mach Xtreme',''], ['^(MacroVIP|MV(\d|GLD))','^MacroVIP','MacroVIP',''], # maybe MV alone ['^Mainic','^Mainic','Mainic',''], ['^(MARSHAL\b|MAL\d)','^MARSHAL','Marshal',''], ['^Maxell','^Maxell','Maxell',''], ['^Maximus','^Maximus','Maximus',''], ['^MAXIO','^MAXIO','Maxio',''], ['^Maxone','^Maxone','Maxone',''], ['^MARVELL','^MARVELL','Marvell',''], ['^Maxsun','^Maxsun','Maxsun',''], ['^MDT\b','^MDT','MDT (rebuilt WD/Seagate)',''], # mdt rebuilds wd/seagate hdd # MD1TBLSSHD, careful with this MD starter!! ['^MD[1-9]','^Max\s*Digital','MaxDigital',''], ['^Medion','^Medion','Medion',''], ['^(MEDIAMAX|WL\d{2})','^MEDIAMAX','MediaMax',''], ['^(Memorex|TravelDrive|TD\s?Classic)','^Memorex','Memorex',''], ['^Mengmi','^Mengmi','Mengmi',''], ['^MicroFrom','^MicroFrom','MicroFrom',''], ['^MGTEC','^MGTEC','MGTEC',''], # must come before micron ['^(Mtron|MSP)','^Mtron','Mtron',''], # note: C300/400 can be either micron or crucial, but C400 is M4 from crucial ['(^(Micron|2200[SV]|MT|M5|(\d+|[CM]\d+)\sMTF)|00-MT)','^Micron','Micron',''],# C400-MTFDDAK128MAM ['^(Microsoft|S31)','^Microsoft','Microsoft',''], ['^MidasForce','^MidasForce','MidasForce',''], ['^Milan','^Milan','Milan',''], ['^(Mimoco|Mimobot)','^Mimoco','Mimoco',''], ['^MINIX','^MINIX','MINIX',''], ['^Miracle','^Miracle','Miracle',''], ['^MLLSE','^MLLSE','MLLSE',''], ['^Moba','^Moba','Moba',''], # Monster MONSTER DIGITAL ['^(Monster\s)+(Digital)?|OD[\s-]?ADVANCE','^(Monster\s)+(Digital)?','Monster Digital',''], ['^Morebeck','^Morebeck','Morebeck',''], ['^(Moser\s?Bear|MBIL)','^Moser\s?Bear','Moser Bear',''], ['^(Motile|SSM\d)','^Motile','Motile',''], ['^(Motorola|XT\d{4}|Moto[\s-]?[EG])','^Motorola','Motorola',''], ['^Moweek','^Moweek','Moweek',''], ['^Move[\s-]?Speed','^Move[\s-]?Speed','Move Speed',''], #MRMAD4B128GC9M2C ['^(MRMA|Memoright)','^Memoright','Memoright',''], ['^MSI\b','^MSI\b','MSI',''], ['^MTASE','^MTASE','MTASE',''], ['^MTRON','^MTRON','MTRON',''], ['^(MyDigitalSSD|BP[4X])','^MyDigitalSSD','MyDigitalSSD',''], # BP4 = BulletProof4 ['^(Myson)','^Myson([\s-]?Century)?([\s-]?Inc\.?)?','Myson Century',''], ['^(Natusun|i-flashdisk)','^Natusun','Natusun',''], ['^(Neo\s*Forza|NFS\d)','^Neo\s*Forza','Neo Forza',''], ['^(Netac|NS\d{3}|OnlyDisk|S535N)','^Netac','Netac',''], ['^Newsmy','^Newsmy','Newsmy',''], ['^NFHK','^NFHK','NFHK',''], # NGFF is a type, like msata, sata ['^Nik','^Nikimi','Nikimi',''], ['^NOREL','^NOREL(SYS)?','NorelSys',''], ['^(N[\s-]?Tech|NT\d)','^N[\s-]?Tec','N Tech',''], # coudl be ^NT alone ['^ODYS','^ODYS','ODYS',''], ['^Olympus','^Olympus','Olympus',''], ['^Orico','^Orico','Orico',''], ['^Ortial','^Ortial','Ortial',''], ['^OSC','^OSC\b','OSC',''], ['^(Ovation)','^Ovation','Ovation',''], ['^oyunkey','^oyunkey','Oyunkey',''], ['^PALIT','PALIT','Palit',''], # ssd ['^Panram','^Panram','Panram',''], # ssd ['^(Parker|TP00)','^Parker','Parker',''], ['^(Pasoul|OASD)','^Pasoul','Pasoul',''], ['^(Patriot|PS[8F]|P2\d{2}|PBT|VPN|Viper|Burst|Blast|Blaze|Pyro|Ignite)','^Patriot([-\s]?Memory)?','Patriot',''],#Viper M.2 VPN100 ['^PERC\b','','Dell PowerEdge RAID Card',''], # ssd ['(PHISON[\s-]?|ESR\d)','PHISON[\s-]?','Phison',''],# E12-256G-PHISON-SSD-B3-BB1 ['^(Pichau[\s-]?Gaming|PG\d{2})','^Pichau[\s-]?Gaming','Pichau Gaming',''], ['^Pioneer','Pioneer','Pioneer',''], ['^Platinet','Platinet','Platinet',''], ['^(PLEXTOR|PX-)','^PLEXTOR','Plextor',''], ['^(Polion)','^Polion','Polion',''], ['^(PQI|Intelligent\s?Stick|Cool\s?Drive)','^PQI','PQI',''], ['^(Premiertek|QSSD|Quaroni)','^Premiertek','Premiertek',''], ['^(-?Pretec|UltimateGuard)','-?Pretec','Pretec',''], ['^(Prolific)','^Prolific( Technolgy Inc\.)?','Prolific',''], # PS3109S9 is the result of an error condition with ssd controller: Phison PS3109 ['^PUSKILL','^PUSKILL','Puskill',''], ['QEMU','^\d*QEMU( QEMU)?','QEMU',''], # 0QUEMU QEMU HARDDISK ['(^Quantum|Fireball)','^Quantum','Quantum',''], ['(^QOOTEC|QMT)','^QOOTEC','QOOTEC',''], ['^(QUMO|Q\dDT)','^QUMO','Qumo',''], ['^QOPP','^QOPP','Qopp',''], ['^Qunion','^Qunion','Qunion',''], ['^(R[3-9]|AMD\s?(RADEON)?|Radeon)','AMD\s?(RADEON)?','AMD Radeon',''], # ssd ['^(Ramaxel|RT|RM|RPF|RDM)','^Ramaxel','Ramaxel',''], ['^RAMOS','^RAMOS','RAmos',''], ['^(Ramsta|R[1-9])','^Ramsta','Ramsta',''], ['^RCESSD','^RCESSD','RCESSD',''], ['^(Realtek|RTL)','^Realtek','Realtek',''], ['^(Reletech)','^Reletech','Reletech',''], # id: P400 but that's too short ['^RENICE','^RENICE','Renice',''], ['^RevuAhn','^RevuAhn','RevuAhn',''], ['^(Ricoh|R5)','^Ricoh','Ricoh',''], ['^RIM[\s]','^RIM','RIM',''], ['^(Rococo|ITE\b|IT\d{4})','^Rococo','Rococo',''], #RTDMA008RAV2BWL comes with lenovo but don't know brand ['^Runcore','^Runcore','Runcore',''], ['^Rundisk','^Rundisk','RunDisk',''], ['^RZX','^RZX\b','RZX',''], ['^(S3Plus|S3\s?SSD)','^S3Plus','S3Plus',''], ['^(Sabrent|Rocket)','^Sabrent','Sabrent',''], ['^Sage','^Sage(\s?Micro)?','Sage Micro',''], ['^SAMSWEET','^SAMSWEET','Samsweet',''], ['^SandForce','^SandForce','SandForce',''], ['^Sannobel','^Sannobel','Sannobel',''], ['^(Sansa|fuse\b)','^Sansa','Sansa',''], # SATADOM can be innodisk or supermirco: dom == disk on module # SATAFIRM is an ssd failure message ['^(Sea\s?Tech|Transformer)','^Sea\s?Tech','Sea Tech',''], ['^SigmaTel','^SigmaTel','SigmaTel',''], # DIAMOND_040_GB ['^(SILICON\s?MOTION|SM\d|090c)','^(SILICON\s?MOTION|090c)','Silicon Motion',''], ['(Silicon[\s-]?Power|^SP[CP]C|^Silicon|^Diamond|^HasTopSunlightpeed)','Silicon[\s-]?Power','Silicon Power',''], # simple drive could also maybe be hgst ['^(Simple\s?Tech|Simple[\s-]?Drive)','^Simple\s?Tech','SimpleTech',''], ['^(Simmtronics?|S[79]\d{2}|ZipX)','^Simmtronics?','Simmtronics',''], ['^SINTECHI?','^SINTECHI?','SinTech (adapter)',''], ['^SiS\b','^SiS','SiS',''], ['Smartbuy','\s?Smartbuy','Smartbuy',''], # SSD Smartbuy 60GB; mSata Smartbuy 3 # HFS128G39TND-N210A; seen nvme with name in middle ['(SK\s?HYNIX|^HF[MS]|^H[BC]G|^BC\d{3}|^SC[234]\d\d\sm?SATA)','\s?SK\s?HYNIX','SK Hynix',''], ['(hynix|^HAG\d|h[BC]8aP|PC\d{3})','hynix','Hynix',''],# nvme middle of string, must be after sk hynix ['^SH','','Smart Modular Tech.',''], ['^Skill','^Skill','Skill',''], ['^(SMART( Storage Systems)?|TX)','^(SMART( Storage Systems)?)','Smart Storage Systems',''], ['^Sobetter','^Sobetter','Sobetter',''], ['^Solidata','^Solidata','Solidata',''], ['^(SOLIDIGM|SSDPFK)','^SOLIDIGM\b','solidgm',''], ['^(Sony|IM9|Microvalut|S[FR]-)','^Sony','Sony',''], ['^(SSSTC|CL1-)','^SSSTC','SSSTC',''], ['^(SST|SG[AN])','^SST\b','SST',''], ['^STE[CK]','^STE[CK]','sTec',''], # wd bought this one ['^STORFLY','^STORFLY','StorFly',''], ['\dSUN\d','^SUN(\sMicrosystems)?','Sun Microsystems',''], ['^Sundisk','^Sundisk','Sundisk',''], ['^SUNEAST','^SUNEAST','SunEast',''], ['^SuperMicro','^SuperMicro','SuperMicro',''], ['^Supersonic','^Supersonic','Supersonic',''], ['^SuperSSpeed','^SuperSSpeed','SuperSSpeed',''], # NOTE: F[MNETU] not reliable, g.skill starts with FM too: # Seagate ST skips STT. ['^(Super\s*Talent|STT|F[HTZ]M\d|PicoDrive|Teranova)','','Super Talent',''], ['^(SF|Swissbit)','^Swissbit','Swissbit',''], # ['^(SUPERSPEED)','^SUPERSPEED','SuperSpeed',''], # superspeed is a generic term ['^(SXMicro|NF8)','^SXMicro','SXMicro',''], ['^Taisu','^Taisu','Taisu',''], ['^(TakeMS|ColorLine)','^TakeMS','TakeMS',''], ['^Tammuz','^Tammuz','Tammuz',''], ['^TANDBERG','^TANDBERG','Tanberg',''], ['^(TC[\s-]*SUNBOW|X3\s\d+[GT])','^TC[\s-]*SUNBOW','TCSunBow',''], ['^(TDK|TF[1-9]\d|LoR)','^TDK','TDK',''], ['^TEAC','^TEAC','TEAC',''], ['^(TEAM|T[\s-]?Create|CX[12]\b|L\d\s?Lite|T\d{3,}[A-Z]|TM\d|(Dark\s?)?L3\b|T[\s-]?Force)','^TEAM(\s*Group)?','TeamGroup',''], ['^(Teclast|CoolFlash)','^Teclast','Teclast',''], ['^(tecmiyo)','^tecmiyo','TECMIYO',''], ['^Teelkoou','^Teelkoou','Teelkoou',''], ['^Tele2','^Tele2','Tele2',''], ['^Teleplan','^Teleplan','Teleplan',''], ['^TEUTONS','^TEUTONS','TEUTONS',''], ['^(Textorm)','^Textorm','Textorm',''], # B5 too short ['^(T(&|\s?and\s?)?G\d{3})','^T&G\b','T&G',''], ['^THU','^THU','THU',''], ['^Tiger[\s_-]?Jet','^Tiger[\s_-]?Jet','TigerJet',''], ['^Tigo','^Tigo','Tigo',''], ['^(Timetec|35TT)','^Timetec','Timetec',''], ['^TKD','^TKD','TKD',''], ['^TopSunligt','^TopSunligt','TopSunligt',''], # is this a typo? hard to know ['^TopSunlight','^TopSunlight','TopSunlight',''], ['^TOROSUS','^TOROSUS','Torosus',''], ['(Transcend|^((SSD\s|F)?TS|EZEX|USDU)|1307|JetDrive|JetFlash)','\b(Transcend|1307)\b','Transcend',''], ['^(TrekStor|DS (maxi|pocket)|DataStation)','^TrekStor','TrekStor',''], ['^Turbox','^Turbox','Turbox',''], ['^(TwinMOS|TW\d)','^TwinMOS','TwinMOS',''], # note: udisk means usb disk, it's not a vendor ID ['^UDinfo','^UDinfo','UDinfo',''], ['^UMAX','^UMAX','UMAX',''], ['^(UMIS|RP[IJ]TJ)','^UMIS','UMIS',''], ['^USBTech','^USBTech','USBTech',''], ['^(UNIC2)','^UNIC2','UNIC2',''], ['^(UG|Unigen)','^Unigen','Unigen',''], ['^(UNITEK)','^UNITEK','UNITEK',''], ['^(USBest|UT16)','^USBest','USBest',''], ['^(OOS[1-9]|Utania)','Utania','Utania',''], ['^U-TECH','U-TECH','U-Tech',''], ['^(Value\s?Tech|VTP\d)','^Value\s?Tech','ValueTech',''], ['^VBOX','','VirtualBox',''], ['^(Veno|Scorp)','^Veno','Veno',''], ['^(Verbatim|STORE\s?\'?N\'?\s?(FLIP|GO)|Vi[1-9]|OTG\s?Tiny)','^Verbatim','Verbatim',''], ['^V-GEN','^V-GEN','V-Gen',''], ['^V[\s-]?(7|Seven)','^V[\s-]?(7|Seven)\b','VSeven',''], ['^(Victorinox|Swissflash)','^Victorinox','Victorinox',''], ['^(Visipro|SDVP)','^Visipro','Visipro',''], ['^VISIONTEK','^VISIONTEK','VisionTek',''], ['^VMware','^VMware','VMware',''], ['^(Vseky|Vaseky|V8\d{2})','^Vaseky','Vaseky',''], # ata-Vseky_V880_350G_ ['^(Walgreen|Infinitive)','^Walgreen','Walgreen',''], ['^Walram','^Walram','WALRAM',''], ['^Walton','^Walton','Walton',''], ['^(Wearable|Air-?Stash)','^Wearable','Wearable',''], ['^Wellcomm','^Wellcomm','Wellcomm',''], ['^(wicgtyp|N[V]?900)','^wicgtyp','wicgtyp',''], ['^Wilk','^Wilk','Wilk',''], ['^(WinMemory|SWG\d)','^WinMemory','WinMemory',''], ['^(Winton|WT\d{2})','^Winton','Winton',''], ['^(WISE)','^WISE','WISE',''], ['^WPC','^WPC','WPC',''], # WPC-240GB ['^(Wortmann(\sAG)?|Terra\s?US)','^Wortmann(\sAG)?','Wortmann AG',''], ['^(XDisk|X9\b)','^XDisk','XDisk',''], ['^(XinTop|XT-)','^XinTop','XinTop',''], ['^Xintor','^Xintor','Xintor',''], ['^XPG','^XPG','XPG',''], ['^XrayDisk','^XrayDisk','XrayDisk',''], ['^Xstar','^Xstar','Xstar',''], ['^(Xtigo)','^Xtigo','Xtigo',''], ['^(XUM|HX\d)','^XUM','XUM',''], ['^XUNZHE','^XUNZHE','XUNZHE',''], ['^(Yangtze|ZhiTai|PC00[5-9]|SC00[1-9])','^Yangtze(\s*Memory)?','Yangtze Memory',''], ['^(Yeyian|valk)','^Yeyian','Yeyian',''], ['^(YingChu|YGC)','^YingChu','YingChu',''], ['^(YUCUN|R880)','^YUCUN','YUCUN',''], ['^(ZALMAN|ZM\b)','^ZALMAN','Zalman',''], # Zao/J.Zau: marvell ssd controller ['^ZXIC','^ZXIC','ZXIC',''], ['^(Zebronics|ZEB)','^Zebronics','Zebronics',''], ['^Zenfast','^Zenfast','Zenfast',''], ['^Zenith','^Zenith','Zenith',''], ['^ZEUSLAP','^ZEUSLAP','ZEUSLAP',''], ['^ZEUSS','^ZEUSS','Zeuss',''], ['^(Zheino|CHN|CNM)','^Zheino','Zheino',''], ['^(Zotac|ZTSSD)','^Zotac','Zotac',''], ['^ZSPEED','^ZSPEED','ZSpeed',''], ['^ZTC','^ZTC','ZTC',''], ['^ZTE','^ZTE','ZTE',''], ['^(ZY|ZhanYao)','^ZhanYao([\s-]?data)','ZhanYao',''], ['^(ASMT|2115)','^ASMT','ASMT (case)',''], ]; eval $end if $b_log; } ## END DISK VENDOR BLOCK ## # receives space separated string that may or may not contain vendor data sub disk_vendor { eval $start if $b_log; my ($model,$serial) = @_; my ($vendor) = (''); return if !$model; # 0 - match pattern; 1 - replace pattern; 2 - vendor print; 3 - serial pattern # Data URLs: inxi-resources.txt Section: DriveItem device_vendor() # $model = 'H10 HBRPEKNX0202A NVMe INTEL 512GB'; # $model = 'SD Ultra 3D 1TB'; set_disk_vendors() if !$vendors; # prefilter this one, some usb enclosurs and wrong master/slave hdd show default $model =~ s/^Initio[\s_]//i; foreach my $row (@$vendors){ if ($model =~ /$row->[0]/i || ($row->[3] && $serial && $serial =~ /$row->[3]/)){ $vendor = $row->[2]; # Usually we want to assign N/A at output phase, maybe do this logic there? if ($row->[1]){ if ($model !~ m/$row->[1]$/i){ $model =~ s/$row->[1]//i; } else { $model = 'N/A'; } } $model =~ s/^[\/\[\s_-]+|[\/\s_-]+$//g; $model =~ s/\s\s/ /g; last; } } eval $end if $b_log; return [$vendor,$model]; } # Normally hddtemp requires root, but you can set user rights in /etc/sudoers. # args: 0: /dev/ to be tested for sub hdd_temp { eval $start if $b_log; my ($device) = @_; my ($path) = (''); my (@data,$hdd_temp); $hdd_temp = hdd_temp_sys($device) if !$force{'hddtemp'} && -e "/sys/block/$device"; if (!$hdd_temp){ $device = "/dev/$device"; if ($device =~ /nvme/i){ if (!$b_nvme){ $b_nvme = 1; if ($path = main::check_program('nvme')){ $nvme = $path; } } if ($nvme){ $device =~ s/n[0-9]//; @data = main::grabber("$sudoas$nvme smart-log $device 2>/dev/null"); foreach (@data){ my @row = split(/\s*:\s*/, $_); next if !$row[0]; # other rows may have: Temperature sensor 1 : if ($row[0] eq 'temperature'){ $row[1] =~ s/\s*C//; $hdd_temp = $row[1]; last; } } } } else { if (!$b_hddtemp){ $b_hddtemp = 1; if ($path = main::check_program('hddtemp')){ $hddtemp = $path; } } if ($hddtemp){ $hdd_temp = (main::grabber("$sudoas$hddtemp -nq -u C $device 2>/dev/null"))[0]; } } $hdd_temp =~ s/\s?(Celsius|C)$// if $hdd_temp; } eval $end if $b_log; return $hdd_temp; } sub hdd_temp_sys { eval $start if $b_log; my ($device) = @_; my ($hdd_temp,$hdd_temp_alt,%sensors,@data,@working); my ($holder,$index) = ('',''); my $path = "/sys/block/$device/device"; my $path_trimmed = Cwd::abs_path("/sys/block/$device"); # slice out the part of path that gives us hwmon in earlier kernel drivetemp $path_trimmed =~ s%/(block|nvme)/.*$%% if $path_trimmed; print "device: $device path: $path\n path_trimmed: $path_trimmed\n" if $dbg[21]; return if ! -e $path && (!$path_trimmed || ! -e "$path_trimmed/hwmon"); # first type, trimmed block,nvme (ata and nvme), 5.9 kernel: # /sys/devices/pci0000:10/0000:10:08.1/0000:16:00.2/ata8/host7/target7:0:0/7:0:0:0/hwmon/hwmon5/ # /sys/devices/pci0000:10/0000:10:01.2/0000:13:00.0/hwmon/hwmon0/ < nvme # /sys/devices/pci0000:00/0000:00:01.3/0000:01:00.1/ata2/host1/target1:0:0/1:0:0:0/hwmon/hwmon3/ # second type, 5.10+ kernel: # /sys/devices/pci0000:20/0000:20:03.1/0000:21:00.0/nvme/nvme0/nvme0n1/device/hwmon1 # /sys/devices/pci0000:00/0000:00:08.1/0000:0b:00.2/ata12/host11/target11:0:0/11:0:0:0/block/sdd/device/hwmon/hwmon1 # we don't want these items: crit|max|min|lowest|highest # original kernel 5.8/9 match for nvme and sd, 5.10+ match for sd if (-e "$path_trimmed/hwmon/"){ @data = main::globber("$path_trimmed/hwmon/hwmon*/temp*_{input,label}"); } # this case only happens if path_trimmed case isn't there, but leave in case elsif (-e "$path/hwmon/"){ @data = main::globber("$path/hwmon/hwmon*/temp*_{input,label}"); } # current match for nvme, but fails for 5.8/9 kernel nvme else { @data = main::globber("$path/hwmon*/temp*_{input,label}"); } # seeing long lag to read temp input files for some reason foreach (sort @data){ # print "file: $_\n"; # print(main::reader($_,'',0),"\n"); $path = $_; # cleanup everything in front of temp, the path $path =~ s/^.*\///; @working = split('_', $path); if ($holder ne $working[0]){ $holder = $working[0]; } $sensors{$holder}->{$working[1]} = main::reader($_,'strip',0); } return if !%sensors; if (keys %sensors == 1){ if ($sensors{$holder}->{'input'} && main::is_numeric($sensors{$holder}->{'input'})){ $hdd_temp = $sensors{$holder}->{'input'}; } } else { # nvme drives can have > 1 temp types, but composite is the one we want if there foreach (keys %sensors){ next if !$sensors{$_}->{'input'} || !main::is_numeric($sensors{$_}->{'input'}); if ($sensors{$_}->{'label'} && $sensors{$_}->{'label'} eq 'Composite'){ $hdd_temp = $sensors{$_}->{'input'}; last; } else{ $hdd_temp_alt = $sensors{$_}->{'input'}; } } $hdd_temp = $hdd_temp_alt if !defined $hdd_temp && defined $hdd_temp_alt; } $hdd_temp = sprintf("%.1f", $hdd_temp/1000) if $hdd_temp; main::log_data('data',"device: $device temp: $hdd_temp") if $b_log; main::log_data('dump','%sensors',\%sensors) if $b_log; print Data::Dumper::Dumper \%sensors if $dbg[21]; eval $end if $b_log; return $hdd_temp; } # args: 0: block id sub block_data { eval $start if $b_log; my ($id) = @_; # 0: logical block size 1: disk physical block size/partition block size; my ($block_log,$block_size) = (0,0); # my $path_size = "/sys/block/$id/size"; my $path_log_block = "/sys/block/$id/queue/logical_block_size"; my $path_phy_block = "/sys/block/$id/queue/physical_block_size"; # legacy system path if (! -e $path_phy_block && -e "/sys/block/$id/queue/hw_sector_size"){ $path_phy_block = "/sys/block/$id/queue/hw_sector_size"; } $block_log = main::reader($path_log_block,'',0) if -r $path_log_block; $block_size = main::reader($path_phy_block,'',0) if -r $path_phy_block; # print "l-b: $block_log p-b: $block_size raw: $size_raw\n"; my $blocks = [$block_log,$block_size]; main::log_data('dump','@blocks',$blocks) if $b_log; eval $end if $b_log; return $blocks; } sub drive_speed { eval $start if $b_log; my ($device) = @_; my ($b_nvme,$lanes,$speed); my $working = Cwd::abs_path("/sys/class/block/$device"); # print "$working\n"; if ($working){ my ($id); # slice out the ata id: # /sys/devices/pci0000:00:11.0/ata1/host0/target0: if ($working =~ /^.*\/ata([0-9]+)\/.*/){ $id = $1; } # /sys/devices/pci0000:00/0000:00:05.0/virtio1/block/vda elsif ($working =~ /^.*\/virtio([0-9]+)\/.*/){ $id = $1; } # /sys/devices/pci0000:10/0000:10:01.2/0000:13:00.0/nvme/nvme0/nvme0n1 elsif ($working =~ /^.*\/(nvme[0-9]+)\/.*/){ $id = $1; $b_nvme = 1; } # do host last because the strings above might have host as well as their search item # 0000:00:1f.2/host3/target3: increment by 1 sine ata starts at 1, but host at 0 elsif ($working =~ /^.*\/host([0-9]+)\/.*/){ $id = $1 + 1 if defined $1; } # print "$working $id\n"; if (defined $id){ if ($b_nvme){ $working = "/sys/class/nvme/$id/device/max_link_speed"; $speed = main::reader($working,'',0) if -r $working; if (defined $speed && $speed =~ /([0-9\.]+)\sGT\/s/){ $speed = $1; # pcie1: 2.5 GT/s; pcie2: 5.0 GT/s; pci3: 8 GT/s # NOTE: PCIe 3 stopped using the 8b/10b encoding but a sample pcie3 nvme has # rated speed of GT/s * .8 anyway. GT/s * (128b/130b) $speed = ($speed <= 5) ? $speed * .8 : $speed * 128/130; $speed = sprintf("%.1f",$speed) if $speed; $working = "/sys/class/nvme/$id/device/max_link_width"; $lanes = main::reader($working,'',0) if -r $working; $lanes ||= 1; # https://www.edn.com/electronics-news/4380071/What-does-GT-s-mean-anyway- # https://www.anandtech.com/show/2412/2 # http://www.tested.com/tech/457440-theoretical-vs-actual-bandwidth-pci-express-and-thunderbolt/ # PCIe 1,2 use “8b/10b” encoding: eight bits are encoded into a 10-bit symbol # PCIe 3,4,5 use "128b/130b" encoding: 128 bits are encoded into a 130 bit symbol $speed = ($speed * $lanes) . " Gb/s"; } } else { $working = "/sys/class/ata_link/link$id/sata_spd"; $speed = main::reader($working,'',0) if -r $working; $speed = main::clean_disk($speed) if $speed; $speed =~ s/Gbps/Gb\/s/ if $speed; } } } # print "$working $speed\n"; eval $end if $b_log; return [$speed,$lanes]; } } ## GraphicItem { package GraphicItem; my ($b_primary,$b_wayland_data,%graphics,%mesa_drivers, $monitor_ids,$monitor_map); my ($gpu_amd,$gpu_intel,$gpu_nv); sub get { eval $start if $b_log; my $rows = []; my $num = 0; if (%risc && !$use{'soc-gfx'} && !$use{'pci-tool'}){ my $key = 'Message'; @$rows = ({ main::key($num++,0,1,$key) => main::message('risc-pci',$risc{'id'}) }); } else { device_output($rows); ($gpu_amd,$gpu_intel,$gpu_nv) = (); if (!@$rows){ my $key = 'Message'; my $message = ''; my $type = 'pci-card-data'; if ($pci_tool && $alerts{$pci_tool}->{'action'} eq 'permissions'){ $type = 'pci-card-data-root'; } elsif (!$bsd_type && !%risc && !$pci_tool && $alerts{'lspci'}->{'action'} && $alerts{'lspci'}->{'action'} eq 'missing'){ $message = $alerts{'lspci'}->{'message'}; } $message = main::message($type,'') if !$message; @$rows = ({ main::key($num++,0,1,$key) => $message }); } } # note: not perfect, but we need usb gfx to show for all types, soc, pci, etc usb_output($rows); display_output($rows); display_api($rows); (%graphics,$monitor_ids,$monitor_map) = (); eval $end if $b_log; return $rows; } ## DEVICE OUTPUT ## sub device_output { eval $start if $b_log; return if !$devices{'graphics'}; my $rows = $_[0]; my ($j,$num) = (0,1); my ($bus_id); set_monitors_sys() if !$monitor_ids && -e '/sys/class/drm'; foreach my $row (@{$devices{'graphics'}}){ $num = 1; # print "$row->[0] $row->[3]\n"; # not using 3D controller yet, needs research: |3D controller |display controller # note: this is strange, but all of these can be either a separate or the same # card. However, by comparing bus id, say: 00:02.0 we can determine that the # cards are either the same or different. We want only the .0 version as a valid # card. .1 would be for example: Display Adapter with bus id x:xx.1, not the right one next if $row->[3] != 0; # print "$row->[0] $row->[3]\n"; $j = scalar @$rows; my $device = main::trimmer($row->[4]); ($bus_id) = (); $device = ($device) ? main::clean_pci($device,'output') : 'N/A'; # have seen absurdly verbose card descriptions, with non related data etc if (length($device) > 85 || $size{'max-cols'} < 110){ $device = main::filter_pci_long($device); } push(@$rows, { main::key($num++,1,1,'Device') => $device, },); if ($extra > 0 && $use{'pci-tool'} && $row->[12]){ my $item = main::get_pci_vendor($row->[4],$row->[12]); $rows->[$j]{main::key($num++,0,2,'vendor')} = $item if $item; } push(@{$graphics{'gpu-drivers'}},$row->[9]) if $row->[9]; my $driver = ($row->[9]) ? $row->[9]:'N/A'; $rows->[$j]{main::key($num++,1,2,'driver')} = $driver; if ($row->[9] && !$bsd_type){ my $version = main::get_module_version($row->[9]); $version ||= 'N/A'; $rows->[$j]{main::key($num++,0,3,'v')} = $version; } if ($b_admin && $row->[10]){ $row->[10] = main::get_driver_modules($row->[9],$row->[10]); $rows->[$j]{main::key($num++,0,3,'alternate')} = $row->[10] if $row->[10]; } if ($extra > 0 && $row->[5] && $row->[6] && $row->[5] =~ /^(1002|10de|12d2|8086)$/){ # legacy: 1180 0df7 0029 current: 13bc 1c8d 24b1 regex: H100, RTX 4000 # ($row->[5],$row->[6],$row->[4]) = ('12de','0029',''); my ($gpu_data,$b_nv) = gpu_data($row->[5],$row->[6],$row->[4]); if (!$bsd_type && $b_nv && $b_admin){ if ($gpu_data->{'legacy'}){ $rows->[$j]{main::key($num++,1,3,'non-free')} = ''; $rows->[$j]{main::key($num++,0,4,'series')} = $gpu_data->{'series'}; $rows->[$j]{main::key($num++,0,4,'status')} = $gpu_data->{'status'}; if ($gpu_data->{'xorg'}){ $rows->[$j]{main::key($num++,1,4,'last')} = ''; $rows->[$j]{main::key($num++,0,5,'release')} = $gpu_data->{'release'}; $rows->[$j]{main::key($num++,0,5,'kernel')} = $gpu_data->{'kernel'}; $rows->[$j]{main::key($num++,0,5,'xorg')} = $gpu_data->{'xorg'}; } } else { $gpu_data->{'series'} ||= 'N/A'; $rows->[$j]{main::key($num++,1,3,'non-free')} = $gpu_data->{'series'}; $rows->[$j]{main::key($num++,0,4,'status')} = $gpu_data->{'status'}; } } if ($gpu_data->{'arch'}){ $rows->[$j]{main::key($num++,1,2,'arch')} = $gpu_data->{'arch'}; # we don't need to see repeated values here, but usually code is different. if ($b_admin && $gpu_data->{'code'} && $gpu_data->{'code'} ne $gpu_data->{'arch'}){ $rows->[$j]{main::key($num++,0,3,'code')} = $gpu_data->{'code'}; } if ($b_admin && $gpu_data->{'process'}){ $rows->[$j]{main::key($num++,0,3,'process')} = $gpu_data->{'process'}; } if ($b_admin && $gpu_data->{'years'}){ $rows->[$j]{main::key($num++,0,3,'built')} = $gpu_data->{'years'}; } } } if ($extra > 0){ $bus_id = (!$row->[2] && !$row->[3]) ? 'N/A' : "$row->[2].$row->[3]"; if ($extra > 1 && $bus_id ne 'N/A'){ main::get_pcie_data($bus_id,$j,$rows,\$num,'gpu'); } if ($extra > 1 && $monitor_ids){ port_output($bus_id,$j,$rows,\$num); } $rows->[$j]{main::key($num++,0,2,'bus-ID')} = $bus_id; } if ($extra > 1){ my $chip_id = main::get_chip_id($row->[5],$row->[6]); $rows->[$j]{main::key($num++,0,2,'chip-ID')} = $chip_id; } if ($extra > 2 && $row->[1]){ $rows->[$j]{main::key($num++,0,2,'class-ID')} = $row->[1]; } if (!$bsd_type && $extra > 0 && $bus_id ne 'N/A' && $bus_id =~ /\.0$/){ my $temp = main::get_device_temp($bus_id); if ($temp){ $rows->[$j]{main::key($num++,0,2,'temp')} = $temp . ' C'; } } # print "$row->[0]\n"; } eval $end if $b_log; } sub usb_output { eval $start if $b_log; my $rows = $_[0]; my (@ids,$driver,$path_id,$product,@temp2); my ($j,$num) = (0,1); return if !$usb{'graphics'}; foreach my $row (@{$usb{'graphics'}}){ # these tests only work for /sys based usb data for now $num = 1; $j = scalar @$rows; # make sure to reset, or second device trips last flag ($driver,$path_id,$product) = ('','',''); $product = main::clean($row->[13]) if $row->[13]; $driver = $row->[15] if $row->[15]; $path_id = $row->[2] if $row->[2]; $product ||= 'N/A'; # note: for real usb video out, no generic drivers? webcams may have one though if (!$driver){ if ($row->[14] eq 'audio-video'){ $driver = 'N/A'; } else { $driver = 'N/A'; } } push(@$rows, { main::key($num++,1,1,'Device') => $product, main::key($num++,0,2,'driver') => $driver, main::key($num++,1,2,'type') => 'USB', },); if ($extra > 0){ if ($extra > 1){ $row->[8] ||= 'N/A'; $rows->[$j]{main::key($num++,0,3,'rev')} = $row->[8]; if ($row->[17]){ $rows->[$j]{main::key($num++,0,3,'speed')} = $row->[17]; } if ($row->[24]){ $rows->[$j]{main::key($num++,0,3,'lanes')} = $row->[24]; } if ($b_admin && $row->[22]){ $rows->[$j]{main::key($num++,0,3,'mode')} = $row->[22]; } } my $bus_id = "$path_id:$row->[1]"; if ($monitor_ids){ port_output($bus_id,$j,$rows,\$num); } $rows->[$j]{main::key($num++,0,2,'bus-ID')} = $bus_id; if ($extra > 1){ $row->[7] ||= 'N/A'; $rows->[$j]{main::key($num++,0,2,'chip-ID')} = $row->[7]; } if ($extra > 2){ if (defined $row->[5] && $row->[5] ne ''){ $rows->[$j]{main::key($num++,0,2,'class-ID')} = "$row->[4]$row->[5]"; } if ($row->[16]){ $rows->[$j]{main::key($num++,0,2,'serial')} = main::filter($row->[16]); } } } } eval $end if $b_log; } # args: $rows, $num by ref sub port_output { my ($bus_id,$j,$rows,$num) = @_; my (@connected,@disabled,@empty); foreach my $id (keys %$monitor_ids){ next if !$monitor_ids->{$id}{'status'}; if ($monitor_ids->{$id}{'path'} =~ m|\Q$bus_id/drm/\E|){ # status can be: connected|disconnected|unknown if ($monitor_ids->{$id}{'status'} eq 'connected'){ if ($monitor_ids->{$id}{'enabled'} eq 'enabled'){ push(@connected,$id); } else { push(@disabled,$id); } } else { push(@empty,$id); } } } if (@connected || @empty || @disabled){ my ($off,$active,$unused); my $split = ','; # add space if many to allow for wrapping $rows->[$j]{main::key($$num++,1,2,'ports')} = ''; $split = ', ' if scalar @connected > 3; $active = (@connected) ? join($split,sort @connected) : 'none'; $rows->[$j]{main::key($$num++,0,3,'active')} = $active; if (@disabled){ $split = (scalar @disabled > 3) ? ', ' : ','; $off = join($split,sort @disabled); $rows->[$j]{main::key($$num++,0,3,'off')} = $off; } $split = (scalar @empty > 3) ? ', ' : ','; $unused = (@empty) ? join($split,sort @empty) : 'none'; $rows->[$j]{main::key($$num++,0,3,'empty')} = $unused; } } ## DISPLAY OUTPUT ## sub display_output(){ eval $start if $b_log; my $rows = $_[0]; my ($num,$j) = (0,scalar @$rows); # note: these may not always be set, they won't be out of X, for example display_protocol(); # get rid of all inactive or disabled monitor port ids set_active_monitors() if $monitor_ids; $graphics{'protocol'} = 'wayland' if $force{'wayland'}; # note, since the compositor is the server with wayland, always show it if ($extra > 1 || $graphics{'protocol'} eq 'wayland'){ set_compositor_data(); } if ($b_display){ # Add compositors as data sources found if ($graphics{'protocol'} eq 'wayland'){ display_data_wayland(); } if (!$b_wayland_data){ display_data_x() if !$force{'wayland'}; } } else { $graphics{'tty'} = tty_data(); } # no xdpyinfo installed # undef $graphics{'x-server'}; # Completes X server data if no previous detections, tests/adds xwayland display_server_data(); if (!defined $graphics{'display-id'} && defined $ENV{'DISPLAY'}){ $graphics{'display-id'} = $ENV{'DISPLAY'}; } # print Data::Dumper::Dumper $graphics{'x-server'}; # print Data::Dumper::Dumper \%graphics; if (%graphics){ my ($driver_note,$resolution,$server_string) = ('','',''); my ($b_screen_monitors,$x_drivers); $x_drivers = display_drivers_x() if !$force{'wayland'}; # print 'result: ', Data::Dumper::Dumper $x_drivers; # print "$graphics{'x-server'} $graphics{'x-version'} $graphics{'x-vendor-release'}","\n"; if ($graphics{'x-server'}){ $server_string = $graphics{'x-server'}->[0][0]; # print "$server_string\n"; } if (!$graphics{'protocol'} && !$server_string && !$graphics{'x-server'} && !@$x_drivers){ $server_string = main::message('display-server'); push(@$rows,{ main::key($num++,1,1,'Display') => '', main::key($num++,0,2,'server') => $server_string, }); } else { $server_string ||= 'N/A'; push(@$rows, { main::key($num++,1,1,'Display') => $graphics{'protocol'}, main::key($num++,1,2,'server') => $server_string, }); if ($graphics{'x-server'} && $graphics{'x-server'}->[0][1]){ $rows->[$j]{main::key($num++,0,3,'v')} = $graphics{'x-server'}->[0][1]; } if ($graphics{'x-server'} && $graphics{'x-server'}->[1][0]){ $rows->[$j]{main::key($num++,1,3,'with')} = $graphics{'x-server'}->[1][0]; if ($graphics{'x-server'}->[1][1]){ $rows->[$j]{main::key($num++,0,4,'v')} = $graphics{'x-server'}->[1][1]; } } if ($graphics{'compositors'}){ if (scalar @{$graphics{'compositors'}} == 1){ $rows->[$j]{main::key($num++,1,2,'compositor')} = $graphics{'compositors'}->[0][0]; if ($graphics{'compositors'}->[0][1]){ $rows->[$j]{main::key($num++,0,3,'v')} = $graphics{'compositors'}->[0][1]; } } else { my $i =1; $rows->[$j]{main::key($num++,1,2,'compositors')} = ''; foreach (@{$graphics{'compositors'}}){ $rows->[$j]{main::key($num++,1,3,$i)} = $_->[0]; if ($_->[1]){ $rows->[$j]{main::key($num++,0,4,'v')} = $_->[1]; } $i++; } } } # note: if no xorg log, and if wayland, there will be no xorg drivers, # obviously, so we use the driver(s) found in the card section. # Those come from lspci kernel drivers so should be no xorg/wayland issues. if (!@$x_drivers || !$x_drivers->[0]){ # Fallback: specific case: in Arch/Manjaro gdm run systems, Xorg.0.log is # located inside this directory, which is not readable unless you are root # Normally Arch gdm log is here: ~/.local/share/xorg/Xorg.1.log if (!$graphics{'protocol'} || $graphics{'protocol'} ne 'wayland'){ # Problem: as root, wayland has no info anyway, including wayland detection. if (-e '/var/lib/gdm' && !$b_root){ if ($graphics{'gpu-drivers'}){ $driver_note = main::message('display-driver-na-try-root'); } else { $driver_note = main::message('root-suggested'); } } } } # if xvesa, will always have display-driver set if ($graphics{'xvesa'} && $graphics{'display-driver'}){ $rows->[$j]{main::key($num++,0,2,'driver')} = join(',',@{$graphics{'display-driver'}}); } else { my $gpu_drivers = gpu_drivers_sys('all'); my $note_indent = 4; if (@$gpu_drivers || $graphics{'dri-drivers'} || @$x_drivers){ $rows->[$j]{main::key($num++,1,2,'driver')} = ''; # The only wayland setups with x drivers have xorg, transitional that is. if (@$x_drivers){ $rows->[$j]{main::key($num++,1,3,'X')} = ''; my $driver = ($x_drivers->[0]) ? join(',',@{$x_drivers->[0]}) : 'N/A'; $rows->[$j]{main::key($num++,1,4,'loaded')} = $driver; if ($x_drivers->[1]){ $rows->[$j]{main::key($num++,0,4,'unloaded')} = join(',',@{$x_drivers->[1]}); } if ($x_drivers->[2]){ $rows->[$j]{main::key($num++,0,4,'failed')} = join(',',@{$x_drivers->[2]}); } if ($extra > 1 && $x_drivers->[3]){ $rows->[$j]{main::key($num++,0,4,'alternate')} = join(',',@{$x_drivers->[3]}); } } if ($graphics{'dri-drivers'}){ # note: if want to exclude if matches gpu/x driver, loop through and test. # Here using all dri drivers found. $rows->[$j]{main::key($num++,1,3,'dri')} = join(',',@{$graphics{'dri-drivers'}}); } my $drivers; if (@$gpu_drivers){ $drivers = join(',',@$gpu_drivers); } else { $drivers = ($graphics{'gpu-drivers'}) ? join(',',@{$graphics{'gpu-drivers'}}): 'N/A'; } $rows->[$j]{main::key($num++,1,3,'gpu')} = $drivers; } else { $note_indent = 3; $rows->[$j]{main::key($num++,1,2,'driver')} = 'N/A'; } if ($driver_note){ $rows->[$j]{main::key($num++,0,$note_indent,'note')} = $driver_note; } } } if (!$show{'graphic-basic'} && $extra > 1 && $graphics{'display-rect'}){ $rows->[$j]{main::key($num++,0,2,'d-rect')} = $graphics{'display-rect'}; } if (!$show{'graphic-basic'} && $extra > 1){ if (defined $graphics{'display-id'}){ $rows->[$j]{main::key($num++,0,2,'display-ID')} = $graphics{'display-id'}; } if (defined $graphics{'display-screens'}){ $rows->[$j]{main::key($num++,0,2,'screens')} = $graphics{'display-screens'}; } if (defined $graphics{'display-default-screen'} && $graphics{'display-screens'} && $graphics{'display-screens'} > 1){ $rows->[$j]{main::key($num++,0,2,'default screen')} = $graphics{'display-default-screen'}; } } if ($graphics{'no-screens'}){ my $res = (!$show{'graphic-basic'} && $extra > 1 && !$graphics{'xvesa'}) ? 'note' : 'resolution'; $rows->[$j]{main::key($num++,0,2,$res)} = $graphics{'no-screens'}; } elsif ($graphics{'screens'}){ my ($diag,$dpi,$hz,$size); my ($m_count,$basic_count,$screen_count) = (0,0,0); my $s_count = ($graphics{'screens'}) ? scalar @{$graphics{'screens'}}: 0; foreach my $main (@{$graphics{'screens'}}){ $m_count = scalar keys %{$main->{'monitors'}} if $main->{'monitors'}; $screen_count++; ($diag,$dpi,$hz,$resolution,$size) = (); $j++ if !$show{'graphic-basic'}; if (!$show{'graphic-basic'} || $m_count == 0){ if (!$show{'graphic-basic'} && defined $main->{'screen'}){ $rows->[$j]{main::key($num++,1,2,'Screen')} = $main->{'screen'}; } if ($main->{'res-x'} && $main->{'res-y'}){ $resolution = $main->{'res-x'} . 'x' . $main->{'res-y'}; if ($main->{'hz'} && $show{'graphic-basic'}){ $resolution .= '~' . $main->{'hz'} . 'Hz'; } } $resolution ||= 'N/A'; if ($s_count == 1 || !$show{'graphic-basic'}){ $rows->[$j]{main::key($num++,0,3,'s-res')} = $resolution; } elsif ($show{'graphic-basic'}){ $rows->[$j]{main::key($num++,0,3,'s-res')} = '' if $screen_count == 1; $rows->[$j]{main::key($num++,0,3,$screen_count)} = $resolution; } if ($main->{'s-dpi'} && (!$show{'graphic-basic'} && $extra > 1)){ $rows->[$j]{main::key($num++,0,3,'s-dpi')} = $main->{'s-dpi'}; } if (!$show{'graphic-basic'} && $extra > 2){ if ($main->{'size-missing'}){ $rows->[$j]{main::key($num++,0,3,'s-size')} = $main->{'size-missing'}; } else { if ($main->{'size-x'} && $main->{'size-y'}){ $size = $main->{'size-x'} . 'x' . $main->{'size-y'} . 'mm ('. $main->{'size-x-i'} . 'x' . $main->{'size-y-i'} . '")'; $rows->[$j]{main::key($num++,0,3,'s-size')} = $size; } if ($main->{'diagonal'}){ $diag = $main->{'diagonal-m'} . 'mm ('. $main->{'diagonal'} . '")'; $rows->[$j]{main::key($num++,0,3,'s-diag')} = $diag; } } } } if ($main->{'monitors'}){ # print $basic_count . '::' . $m_count, "\n"; $b_screen_monitors = 1; if ($show{'graphic-basic'}){ monitors_output_basic('screen',$main->{'monitors'}, $main->{'s-dpi'},$j,$rows,\$num); } else { monitors_output_full('screen',$main->{'monitors'}, \$j,$rows,\$num); } } elsif (!$show{'graphic-basic'} && $graphics{'no-monitors'}){ $rows->[$j]{main::key($num++,0,4,'monitors')} = $graphics{'no-monitors'}; } } } elsif (!$b_display){ $graphics{'tty'} ||= 'N/A'; $rows->[$j]{main::key($num++,0,2,'tty')} = $graphics{'tty'}; } # fallback, if no xrandr/xdpyinfo, if wayland, if console. Note we've # deleted each key used in advanced_monitor_data() so those won't show again if (!$b_screen_monitors && $monitor_ids && %$monitor_ids){ if ($show{'graphic-basic'}){ monitors_output_basic('monitor',$monitor_ids,'',$j,$rows,\$num); } else { monitors_output_full('monitor',$monitor_ids,\$j,$rows,\$num); } } } eval $end if $b_log; } sub monitors_output_basic { eval $start if $b_log; my ($type,$monitors,$s_dpi,$j,$row,$num) = @_; my ($dpi,$resolution); my ($basic_count,$m_count) = (0,scalar keys %{$monitors}); foreach my $key (sort keys %{$monitors}){ if ($type eq 'monitor' && (!$monitors->{$key}{'res-x'} || !$monitors->{$key}{'res-y'})){ next; } ($dpi,$resolution) = (); $basic_count++; if ($monitors->{$key}{'res-x'} && $monitors->{$key}{'res-y'}){ $resolution = $monitors->{$key}{'res-x'} . 'x' . $monitors->{$key}{'res-y'}; } # using main, not monitor, dpi because we want xorg dpi, not physical screen dpi $dpi = $s_dpi if $resolution && $extra > 1 && $s_dpi; if ($monitors->{$key}{'hz'} && $resolution){ $resolution .= '~' . $monitors->{$key}{'hz'} . 'Hz'; } $resolution ||= 'N/A'; if ($basic_count == 1 && $m_count == 1){ $row->[$j]{main::key($$num++,0,2,'resolution')} = $resolution; } else { if ($basic_count == 1){ $row->[$j]{main::key($$num++,1,2,'resolution')} = ''; } $row->[$j]{main::key($$num++,0,3,$basic_count)} = $resolution; } if (!$show{'graphic-basic'} && $m_count == $basic_count && $dpi){ $row->[$j]{main::key($$num++,0,2,'s-dpi')} = $dpi; } } eval $end if $b_log; } # args: $j, $row, $num passed by ref sub monitors_output_full { eval $start if $b_log; my ($type,$monitors,$j,$rows,$num) = @_; my ($b_no_size,$resolution); my ($m1,$m2,$m3,$m4) = ($type eq 'screen') ? (3,4,5,6) : (2,3,4,5); # note: in case where mapped id != sys id, the key will not match 'monitor' foreach my $key (sort keys %{$monitors}){ $$j++; $rows->[$$j]{main::key($$num++,1,$m1,'Monitor')} = $monitors->{$key}{'monitor'}; if ($monitors->{$key}{'monitor-mapped'}){ $rows->[$$j]{main::key($$num++,0,$m2,'mapped')} = $monitors->{$key}{'monitor-mapped'}; } if ($monitors->{$key}{'disabled'}){ $rows->[$$j]{main::key($$num++,0,$m2,'note')} = $monitors->{$key}{'disabled'}; } if ($monitors->{$key}{'position'}){ $rows->[$$j]{main::key($$num++,0,$m2,'pos')} = $monitors->{$key}{'position'}; } if ($monitors->{$key}{'model'}){ $rows->[$$j]{main::key($$num++,0,$m2,'model')} = $monitors->{$key}{'model'}; } elsif ($monitors->{$key}{'model-id'}){ $rows->[$$j]{main::key($$num++,0,$m2,'model-id')} = $monitors->{$key}{'model-id'}; } if ($extra > 2 && $monitors->{$key}{'serial'}){ $rows->[$$j]{main::key($$num++,0,$m2,'serial')} = main::filter($monitors->{$key}{'serial'}); } if ($b_admin && $monitors->{$key}{'build-date'}){ $rows->[$$j]{main::key($$num++,0,$m2,'built')} = $monitors->{$key}{'build-date'}; } if ($monitors->{$key}{'res-x'} || $monitors->{$key}{'res-y'} || $monitors->{$key}{'hz'} || $monitors->{$key}{'size-x'} || $monitors->{$key}{'size-y'}){ if ($monitors->{$key}{'res-x'} && $monitors->{$key}{'res-y'}){ $resolution = $monitors->{$key}{'res-x'} . 'x' . $monitors->{$key}{'res-y'}; } $resolution ||= 'N/A'; $rows->[$$j]{main::key($$num++,0,$m2,'res')} = $resolution; } else { if ($b_display){ $resolution = main::message('monitor-na'); } else { $resolution = main::message('monitor-console'); } $b_no_size = 1; $rows->[$$j]{main::key($$num++,0,$m2,'size-res')} = $resolution; } if ($extra > 2 && $monitors->{$key}{'hz'}){ $rows->[$$j]{main::key($$num++,0,$m2,'hz')} = $monitors->{$key}{'hz'}; } if ($monitors->{$key}{'dpi'}){ $rows->[$$j]{main::key($$num++,0,$m2,'dpi')} = $monitors->{$key}{'dpi'}; } if ($b_admin && $monitors->{$key}{'gamma'}){ $rows->[$$j]{main::key($$num++,0,$m2,'gamma')} = $monitors->{$key}{'gamma'}; } if ($show{'edid'} && $monitors->{$key}{'colors'}){ $rows->[$$j]{main::key($$num++,1,$m2,'chroma')} = ''; $rows->[$$j]{main::key($$num++,1,$m3,'red')} = ''; $rows->[$$j]{main::key($$num++,0,$m4,'x')} = $monitors->{$key}{'colors'}{'red_x'}; $rows->[$$j]{main::key($$num++,0,$m4,'y')} = $monitors->{$key}{'colors'}{'red_y'}; $rows->[$$j]{main::key($$num++,1,$m3,'green')} = ''; $rows->[$$j]{main::key($$num++,0,$m4,'x')} = $monitors->{$key}{'colors'}{'green_x'}; $rows->[$$j]{main::key($$num++,0,$m4,'y')} = $monitors->{$key}{'colors'}{'green_y'}; $rows->[$$j]{main::key($$num++,1,$m3,'blue')} = ''; $rows->[$$j]{main::key($$num++,0,$m4,'x')} = $monitors->{$key}{'colors'}{'blue_x'}; $rows->[$$j]{main::key($$num++,0,$m4,'y')} = $monitors->{$key}{'colors'}{'blue_y'}; $rows->[$$j]{main::key($$num++,1,$m3,'white')} = ''; $rows->[$$j]{main::key($$num++,0,$m4,'x')} = $monitors->{$key}{'colors'}{'white_x'}; $rows->[$$j]{main::key($$num++,0,$m4,'y')} = $monitors->{$key}{'colors'}{'white_y'}; } if ($extra > 2 && $monitors->{$key}{'scale'}){ $rows->[$$j]{main::key($$num++,0,$m2,'scale')} = $monitors->{$key}{'scale'}; } if ($extra > 2 && $monitors->{$key}{'size-x'} && $monitors->{$key}{'size-y'}){ my $size = $monitors->{$key}{'size-x'} . 'x' . $monitors->{$key}{'size-y'} . 'mm ('. $monitors->{$key}{'size-x-i'} . 'x' . $monitors->{$key}{'size-y-i'} . '")'; $rows->[$$j]{main::key($$num++,0,$m2,'size')} = $size; } if ($monitors->{$key}{'diagonal'}){ my $diag = $monitors->{$key}{'diagonal-m'} . 'mm ('. $monitors->{$key}{'diagonal'} . '")'; $rows->[$$j]{main::key($$num++,0,$m2,'diag')} = $diag; } elsif ($b_display && !$b_no_size && !$monitors->{$key}{'size-x'} && !$monitors->{$key}{'size-y'}){ $rows->[$$j]{main::key($$num++,0,$m2,'size')} = main::message('monitor-na');; } if ($b_admin && $monitors->{$key}{'ratio'}){ $rows->[$$j]{main::key($$num++,0,$m2,'ratio')} = $monitors->{$key}{'ratio'}; } if ($extra > 2){ if (!$monitors->{$key}{'modes'} || !@{$monitors->{$key}{'modes'}}){ $monitors->{$key}{'modes'} = ['N/A']; } my $cnt = scalar @{$monitors->{$key}{'modes'}}; if ($cnt == 1 || ($cnt > 2 && $show{'edid'})){ $rows->[$$j]{main::key($$num++,0,$m2,'modes')} = join(', ', @{$monitors->{$key}{'modes'}}); } else { $rows->[$$j]{main::key($$num++,1,$m2,'modes')} = ''; $rows->[$$j]{main::key($$num++,0,$m3,'max')} = ${$monitors->{$key}{'modes'}}[0]; $rows->[$$j]{main::key($$num++,0,$m3,'min')} = ${$monitors->{$key}{'modes'}}[-1]; } } if ($show{'edid'}){ if ($monitors->{$key}{'edid-errors'}){ $$j++; my $cnt = 1; $rows->[$$j]{main::key($$num++,1,$m2,'EDID-Errors')} = ''; foreach my $err (@{$monitors->{$key}{'edid-errors'}}){ $rows->[$$j]{main::key($$num++,0,$m3,$cnt)} = $err; $cnt++; } } if ($monitors->{$key}{'edid-warnings'}){ $$j++; my $cnt = 1; $rows->[$$j]{main::key($$num++,1,$m2,'EDID-Warnings')} = ''; foreach my $warn (@{$monitors->{$key}{'edid-warnings'}}){ $rows->[$$j]{main::key($$num++,0,$m3,$cnt)} = $warn; $cnt++; } } } } # we only want to see gpu drivers for wayland since otherwise it's x drivers. # if ($b_display && $b_admin && $graphics{'protocol'} && # $graphics{'protocol'} eq 'wayland' && $monitors->{$key}{'drivers'}){ # $driver = join(',',@{$monitors->{$key}{'drivers'}}); # $rows->[$j]{main::key($$num++,0,$m2,'driver')} = $driver; # } eval $end if $b_log; } ## DISPLAY API ## # API Output # # GLX/OpenGL EGL Vulkan XVesa sub display_api { eval $start if $b_log; my $rows = $_[0]; # print ("$b_display : $b_root\n"); # xvesa is absolute, if it's there, it works in or out of display if ($graphics{'xvesa'}){ xvesa_output($rows); return; } my ($b_egl,$b_egl_print,$b_glx,$b_glx_print,$b_vulkan,$api,$program,$type); my $gl = {}; if ($fake{'egl'} || ($program = main::check_program('eglinfo'))){ gl_data('egl',$program,$rows,$gl); $b_egl = 1; } if ($fake{'glx'} || ($program = main::check_program('glxinfo'))){ gl_data('glx',$program,$rows,$gl) if $b_display; $b_glx = 1; } # Note: we let gl/egl output handle null or root null data issues if ($gl->{'glx'}){ process_glx_data($gl->{'glx'},$b_glx); } # egl/vulkan give data out of display, and for root # if ($b_egl}){ if ($b_egl && ($show{'graphic-full'} || !$gl->{'glx'})){ egl_output($rows,$gl); $b_egl_print = 1; } # fill in whatever was missing from eglinfo, or if legacy system/no eglinfo # if ($b_glx || $gl->{'glx'}){ if (($show{'graphic-full'} && ($b_glx || $gl->{'glx'})) || (!$show{'graphic-full'} && !$b_egl_print && ($b_glx || $gl->{'glx'}))){ opengl_output($rows,$gl); $b_glx = 1; $b_glx_print = 1; } # if ($fake{'vulkan'} || ($program = main::check_program('vulkaninfo'))){ if (($fake{'vulkan'} || ($program = main::check_program('vulkaninfo'))) && ($show{'graphic-full'} || (!$b_egl_print && !$b_glx_print))){ vulkan_output($program,$rows); $b_vulkan = 1; } if ($show{'graphic-full'} || (!$b_egl_print && !$b_glx_print)){ # remember, sudo/root usually has empty $DISPLAY as well if ($b_display){ # first do positive tests, won't be set for sudo/root if (!$b_glx && $graphics{'protocol'} eq 'x11'){ $api = 'OpenGL'; $type = 'glxinfo-missing'; } elsif (!$b_egl && $graphics{'protocol'} eq 'wayland'){ $api = 'EGL'; # /GBM $type = 'egl-missing'; } elsif (!$b_glx && (main::check_program('X') || main::check_program('Xorg'))){ $api = 'OpenGL'; $type = 'glxinfo-missing'; } elsif (!$b_egl && main::check_program('Xwayland')){ $api = 'EGL'; $type = 'egl-missing'; } elsif (!$b_egl && !$b_glx && !$b_vulkan) { $api = 'N/A'; $type = 'gfx-api'; } } else { if (!$b_glx && (main::check_program('X') || main::check_program('Xorg'))){ $api = 'OpenGL'; $type = 'glx-console-glxinfo-missing'; } elsif (!$b_egl && main::check_program('Xwayland')){ $api = 'EGL'; $type = 'egl-console-missing'; } # we don't know what it is, headless system, non xwayland wayland elsif (!$b_egl && !$b_glx && !$b_vulkan) { $api = 'N/A'; $type = 'gfx-api-console'; } } no_data_output($api,$type,$rows) if $type; } eval $end if $b_log; } sub no_data_output { eval $start if $b_log; my ($api,$type,$rows) = @_; my $num = 0; push(@$rows, { main::key($num++,1,1,'API') => $api, main::key($num++,0,2,'Message') => main::message($type) }); eval $end if $b_log; } sub egl_output { eval $start if $b_log; my ($rows,$gl) = @_; if (!$gl->{'egl'}){ my $api = 'EGL'; my $type = 'egl-null'; no_data_output($api,$type,$rows); return 0; } my ($i,$j,$num) = (0,scalar @$rows,0); my ($value); my $ref; my $data = $gl->{'egl'}{'data'}; my $plat = $gl->{'egl'}{'platforms'}; push(@$rows, { main::key($num++,1,1,'API') => 'EGL', }); if ($extra < 2){ $value = ($data->{'versions'}) ? join(',',sort keys %{$data->{'versions'}}): 'N/A'; } else { $value = ($data->{'version'}) ? $data->{'version'}: 'N/A'; } $rows->[$j]{main::key($num++,0,2,'v')} = $value; if ($extra < 2){ $value = ($data->{'drivers'}) ? join(',',sort keys %{$data->{'drivers'}}): 'N/A'; $rows->[$j]{main::key($num++,0,2,'drivers')} = $value; $value = ($data->{'platforms'}{'active'}) ? join(',',@{$data->{'platforms'}{'active'}}) : 'N/A'; if ($extra < 1){ $rows->[$j]{main::key($num++,0,2,'platforms')} = $value; } else { $rows->[$j]{main::key($num++,1,2,'platforms')} = ''; $rows->[$j]{main::key($num++,0,3,'active')} = $value; $value = ($data->{'platforms'}{'inactive'}) ? join(',',@{$data->{'platforms'}{'inactive'}}) : 'N/A'; $rows->[$j]{main::key($num++,0,3,'inactive')} = $value; } } else { if ($extra > 2 && $data->{'hw'}){ $i = 0; $rows->[$j]{main::key($num++,1,2,'hw')} = ''; foreach my $key (sort keys %{$data->{'hw'}}){ $value = ($key ne $data->{'hw'}{$key}) ? $data->{'hw'}{$key} . ' ' . $key: $key; $rows->[$j]{main::key($num++,0,3,'drv')} = $value; } } $rows->[$j]{main::key($num++,1,2,'platforms')} = ''; $data->{'version'} ||= 0; $i = 0; foreach my $key (sort keys %$plat){ next if !$plat->{$key}{'status'} || $plat->{$key}{'status'} eq 'inactive'; if ($key eq 'device'){ foreach my $id (sort keys %{$plat->{$key}}){ next if ref $plat->{$key}{$id} ne 'HASH'; $rows->[$j]{main::key($num++,1,3,$key)} = $id; $ref = $plat->{$key}{$id}{'egl'}; egl_advanced_output($rows,$ref,\$num,$j,4,$data->{'version'}); } } else { $rows->[$j]{main::key($num++,1,3,$key)} = ''; $ref = $plat->{$key}{'egl'}; egl_advanced_output($rows,$ref,\$num,$j,4,$data->{'version'}); } } if (!$data->{'platforms'}{'active'}){ $rows->[$j]{main::key($num++,0,3,'active')} = 'N/A'; } if ($data->{'platforms'}{'inactive'}){ $rows->[$j]{main::key($num++,0,3,'inactive')} = join(',',@{$data->{'platforms'}{'inactive'}}); } } eval $end if $b_log; } # args: 0: $rows; 1: data ref; 2: \$num; 3: $j; 4: indent; 5: $b_plat_v sub egl_advanced_output { my ($rows,$ref,$num,$j,$ind,$version) = @_; my $value; # version is set to 0 for math if ($version && (!$ref->{'version'} || $version != $ref->{'version'})){ $value = ($ref->{'version'}) ? $ref->{'version'} : 'N/A'; $rows->[$j]{main::key($$num++,0,$ind,'egl')} = $value; undef $value; } if ($ref->{'driver'}){ $value = $ref->{'driver'}; } else { if ($ref->{'vendor'} && $ref->{'vendor'} ne 'mesa'){ $value = $ref->{'vendor'}; } $value ||= 'N/A'; } $rows->[$j]{main::key($$num++,0,$ind,'drv')} = $value; } sub opengl_output { eval $start if $b_log; my ($rows,$gl) = @_; # egl will have set $glx if present if (!$gl->{'glx'}){ my $api = 'OpenGL'; my $type; if ($b_display){ $type = ($b_root) ? 'glx-display-root': 'glx-null'; } else { $type = ($b_root) ? 'glx-console-root' : 'glx-console-try'; } no_data_output($api,$type,$rows); return 0; } my ($j,$num) = (scalar @$rows,0); my $value; # print join("\n", %$gl),"\n"; my $glx = $gl->{'glx'}; $glx->{'opengl'}{'version'} ||= 'N/A'; push(@$rows, { main::key($num++,1,1,'API') => 'OpenGL', main::key($num++,0,2,'v') => $glx->{'opengl'}{'version'}, }); if ($glx->{'opengl'}{'compatibility'}{'version'}){ $rows->[$j]{main::key($num++,0,2,'compat-v')} = $glx->{'opengl'}{'compatibility'}{'version'}; } if ($glx->{'opengl'}{'vendor'}){ $rows->[$j]{main::key($num++,1,2,'vendor')} = $glx->{'opengl'}{'vendor'}; $glx->{'opengl'}{'driver'}{'version'} ||= 'N/A'; $rows->[$j]{main::key($num++,0,3,'v')} = $glx->{'opengl'}{'driver'}{'version'}; } if ($extra > 0 && $glx->{'glx-version'}){ $rows->[$j]{main::key($num++,0,2,'glx-v')} = $glx->{'glx-version'}; } if ($extra > 1 && $glx->{'es'}{'version'}){ $rows->[$j]{main::key($num++,0,2,'es-v')} = $glx->{'es'}{'version'};; } if ($glx->{'note'}){ $rows->[$j]{main::key($num++,0,2,'note')} = $glx->{'note'}; } if ($extra > 0 && (!$glx->{'note'} || $glx->{'direct-render'})){ $glx->{'direct-render'} ||= 'N/A'; $rows->[$j]{main::key($num++,0,2,'direct-render')} = $glx->{'direct-render'}; } if (!$glx->{'note'} || $glx->{'opengl'}{'renderer'}){ $glx->{'opengl'}{'renderer'} ||= 'N/A'; $rows->[$j]{main::key($num++,0,2,'renderer')} = $glx->{'opengl'}{'renderer'}; } if ($extra > 1 && $glx->{'info'}){ if ($glx->{'info'}{'vendor-id'} && $glx->{'info'}{'device-id'}){ $value = $glx->{'info'}{'vendor-id'} . ':' . $glx->{'info'}{'device-id'}; $rows->[$j]{main::key($num++,0,2,'device-ID')} = $value; } if ($b_admin && $glx->{'info'}{'device-memory'}){ $rows->[$j]{main::key($num++,1,2,'memory')} = $glx->{'info'}{'device-memory'}; if ($glx->{'info'}{'unified-memory'}){ $rows->[$j]{main::key($num++,0,3,'unified')} = $glx->{'info'}{'unified-memory'}; } } # display id depends on xdpyinfo in Display line, which may not be present, if (!$graphics{'display-id'} && $glx->{'display-id'} && $extra > 1){ $rows->[$j]{main::key($num++,0,2,'display-ID')} = $glx->{'display-id'}; } } eval $end if $b_log; } sub vulkan_output { eval $start if $b_log; my ($program,$rows) = @_; my $vulkan = {}; vulkan_data($program,$vulkan); if (!%$vulkan){ my $api = 'Vulkan'; my $type = 'vulkan-null'; no_data_output($api,$type,$rows); return 0; } my $num = 0; my $j = scalar @$rows; my ($value); my $data = $vulkan->{'data'}; my $devices = $vulkan->{'devices'}; $data->{'version'} ||= 'N/A'; push(@$rows,{ main::key($num++,1,1,'API') => 'Vulkan', main::key($num++,0,2,'v') => $data->{'version'}, }); # this will be expanded with -a to a full device report if ($extra < 2){ $value = ($data->{'drivers'}) ? join(',',@{$data->{'drivers'}}): 'N/A'; $rows->[$j]{main::key($num++,0,2,'drivers')} = $value; } if ($extra > 2){ $data->{'layers'} ||= 'N/A'; $rows->[$j]{main::key($num++,0,2,'layers')} = $data->{'layers'}; } if (!$b_admin){ $value = ($data->{'surfaces'}) ? join(',',@{$data->{'surfaces'}}) : 'N/A'; $rows->[$j]{main::key($num++,0,2,'surfaces')} = $value; } if ($extra > 0){ if (!$devices){ $rows->[$j]{main::key($num++,0,2,'devices')} = 'N/A'; } else { if ($extra < 2){ $value = scalar keys %{$devices}; $rows->[$j]{main::key($num++,0,2,'devices')} = $value; } else { foreach my $id (sort keys %$devices){ $rows->[$j]{main::key($num++,1,2,'device')} = $id; $devices->{$id}{'device-type'} ||= 'N/A'; $rows->[$j]{main::key($num++,0,3,'type')} = $devices->{$id}{'device-type'}; if ((($extra == 3 && !$b_admin) || ($extra > 2 && !$devices->{$id}{'device-name'})) && $devices->{$id}{'hw'} && $devices->{$id}{'hw'} ne 'nvidia'){ $rows->[$j]{main::key($num++,0,3,'hw')} = $devices->{$id}{'hw'}; } if ($b_admin){ $value = ($devices->{$id}{'device-name'}) ? $devices->{$id}{'device-name'}: 'N/A'; $rows->[$j]{main::key($num++,0,3,'name')} = $value; } if ($extra > 1){ if ($devices->{$id}{'driver-name'}){ $value = $devices->{$id}{'driver-name'}; if ($devices->{$id}{'mesa'} && $value ne 'mesa'){ $value = 'mesa ' . $value; } $rows->[$j]{main::key($num++,1,3,'driver')} = $value; if ($b_admin && $devices->{$id}{'driver-info'}){ $rows->[$j]{main::key($num++,0,4,'v')} = $devices->{$id}{'driver-info'}; } } else { $rows->[$j]{main::key($num++,0,3,'driver')} = 'N/A'; } $value = ($devices->{$id}{'device-id'} && $devices->{$id}{'vendor-id'}) ? $devices->{$id}{'vendor-id'} . ':' . $devices->{$id}{'device-id'} : 'N/A'; $rows->[$j]{main::key($num++,0,3,'device-ID')} = $value; if ($b_admin){ $value = ($devices->{$id}{'surfaces'}) ? join(',',@{$devices->{$id}{'surfaces'}}): 'N/A'; $rows->[$j]{main::key($num++,0,3,'surfaces')} = $value; } } } } } } eval $end if $b_log; } sub xvesa_output { eval $start if $b_log; my ($rows) = @_; my ($controller,$dac,$interface,$ram,$source,$version); # note: goes to stderr, not stdout my @data = main::grabber($graphics{'xvesa'} . ' -listmodes 2>&1'); my $j = scalar @$rows; my $num = 0; # gop replaced uga, both for uefi # WARNING! Never seen a GOP type UEFI, needs more data if ($data[0] && $data[0] =~ /^(VBE|GOP|UGA)\s+version\s+(\S+)\s\(([^)]+)\)/i){ $interface = $1; $version = $2; $source = $3; } if ($data[1] && $data[1] =~ /^DAC is ([^,]+), controller is ([^,]+)/i){ $dac = $1; $controller = $2; } if ($data[2] && $data[2] =~ /^Total memory:\s+(\d+)\s/i){ $ram = $1; $ram = main::get_size($ram,'string'); } if (!$interface){ $rows->[$j]{main::key($num++,1,1,'API')} = 'VBE/GOP'; $rows->[$j]{main::key($num++,0,2,'Message')} = main::message('xvesa-null'); } else { $rows->[$j]{main::key($num++,1,1,'API')} = $interface; $rows->[$j]{main::key($num++,0,2,'v')} = ($version) ? $version : 'N/A'; $rows->[$j]{main::key($num++,0,2,'source')} = ($source) ? $source : 'N/A'; if ($dac){ $rows->[$j]{main::key($num++,0,2,'dac')} = $dac; $rows->[$j]{main::key($num++,0,2,'controller')} = $controller; } if ($ram){ $rows->[$j]{main::key($num++,0,2,'ram')} = $ram; } } eval $end if $b_log; } # API Data # sub gl_data { eval $start if $b_log; my ($source,$program,$rows,$gl) = @_; my ($b_opengl,$msg); my ($gl_data,$results) = ([],[]); # only check these if no eglinfo or eglinfo had no opengl data $b_opengl = 1 if ($source eq 'egl' || !$gl->{'glx'}); # NOTE: glxinfo -B is not always available, unfortunately if ($dbg[56] || $b_log){ $msg = "${line1}GL Source: $source\n${line3}"; print $msg if $dbg[56]; push(@$results,$msg) if $b_log; } if ($source eq 'glx'){ if (!$fake{'glx'}){ $gl_data = main::grabber("$program $display_opt 2>/dev/null",'','','ref'); } else { my $file; # $file = "$fake_data_dir/graphics/glxinfo/glxinfo-2012-nvidia-glx1.4.txt"; # $file = "$fake_data_dir/graphics/glxinfo/glxinfo-ssh-centos.txt"; # $file = "$fake_data_dir/graphics/glxinfo/glxiinfo-t420-intel-1.txt"; # $file = "$fake_data_dir/graphics/glxinfo/glxinfo-mali-allwinner-lima-1.txt"; # $file = "$fake_data_dir/graphics/glxinfo/glxinfo-partial-intel-5500-1.txt"; # $file = "$fake_data_dir/graphics/glxinfo/glxinfo-vbox-debian-etch-1.txt"; $file = "$fake_data_dir/graphics/glxinfo/glxinfo-x11-neomagic-lenny-1.txt"; # $file = "$fake_data_dir/graphics/glxinfo/glxinfo-nvidia-gl4.6-chr.txt"; # $file = "$fake_data_dir/graphics/glxinfo/glxinfo-intel-atom-dell_studio-bm.txt"; # $file = "$fake_data_dir/graphics/glxinfo/glxinfo-asus_1025c-atom-bm.txt"; # $file = "$fake_data_dir/graphics/glxinfo/glxinfo-2011-nvidia-glx1.4.txt"; $gl_data= main::reader($file,'','ref'); } } else { if (!$fake{'egl'}){ $gl_data = main::grabber("$program 2>/dev/null",'','','ref'); } else { my $file; $file = "$fake_data_dir/graphics/egl-es/eglinfo-x11-3.txt"; # $file = "$fake_data_dir/graphics/egl-es/eglinfo-wayland-intel-c30.txt"; # $file = "$fake_data_dir/grapOhics/egl-es/eglinfo-2022-x11-nvidia-egl1.5.txt"; # $file = "$fake_data_dir/graphics/egl-es/eglinfo-wayland-intel-nvidia-radu.txt"; $file = "$fake_data_dir/graphics/egl-es/eglinfo-intel-atom-dell_studio-bm.txt"; $file = "$fake_data_dir/graphics/egl-es/eglinfo-asus_1025c-atom-bm.txt"; $gl_data = main::reader($file,'','ref'); } } # print join("\n", @$gl_data),"\n"; if (!$gl_data || !@$gl_data){ if ($dbg[56] || $b_log){ $msg = "No data found for GL Source: $source" if $dbg[56]; print "$msg\n" if $dbg[56]; push(@$results,$msg) if $b_log; } return 0; } # some error cases have only a few top value but not empty elsif ($source eq 'glx' && scalar @$gl_data > 5){ $gl->{'glx'}{'source'} = $source; } set_mesa_drivers() if $source eq 'egl' && !%mesa_drivers; my ($b_device,$b_platform,$b_mem_info,$b_rend_info,$device,$platform, $value,$value2,@working); foreach my $line (@$gl_data){ next if (!$b_rend_info && !$b_mem_info) && $line =~ /^(\s|0x)/; if (($b_rend_info || $b_mem_info) && $line =~ /^\S/){ ($b_mem_info,$b_rend_info) = (); } @working = split(/\s*:\s*/,$line,2); next if !@working; if ($dbg[56] || $b_log){ $msg = $line; print "$msg\n" if $dbg[56]; push(@$results,$msg) if $b_log; } if ($source eq 'egl'){ # eglinfo: eglInitialize failed # This is first line after platform fail for devices, but for Device # it would be the second or later line. The Device platform can fail, or # specific device can fail if ($b_platform){ $value = ($line =~ /Initialize failed/) ? 'inactive': 'active'; push(@{$gl->{'egl'}{'data'}{'platforms'}{$value}},$platform); $gl->{'egl'}{'platforms'}{$platform}{'status'} = $value; $b_platform = 0; } # note: can be sub item: Platform Device platform:; Platform Device: elsif ($working[0] =~ /^(\S+) platform/i){ $platform = lc($1); undef $device; $b_platform = 1; } if ($platform && defined $device && $working[0] eq 'eglinfo'){ push(@{$gl->{'egl'}{'data'}{'platforms'}{'inactive'}},"$platform-$device"); undef $device; } if ($platform && $platform eq 'device' && $working[0] =~ /^Device #(\d+)/){ $device = $1; } if ($working[0] eq 'EGL API version'){ if (!defined $platform){ $gl->{'egl'}{'data'}{'api-version'} = $working[1]; } elsif (defined $device){ $gl->{'egl'}{'platforms'}{$platform}{$device}{'egl'}{'api-version'} = $working[1]; } else { $gl->{'egl'}{'platforms'}{$platform}{'egl'}{'api-version'} = $working[1]; } } elsif ($working[0] eq 'EGL version string'){ if (!defined $platform){ $gl->{'egl'}{'data'}{'version'} = $working[1]; } elsif (defined $device){ $gl->{'egl'}{'platforms'}{$platform}{$device}{'egl'}{'version'} = $working[1]; } else { $gl->{'egl'}{'platforms'}{$platform}{'egl'}{'version'} = $working[1]; } $value = (defined $device) ? "$platform-$device": $platform; push(@{$gl->{'egl'}{'data'}{'versions'}{$working[1]}},$value); if (!$gl->{'egl'}{'data'}{'version'} || $working[1] > $gl->{'egl'}{'data'}{'version'}){ $gl->{'egl'}{'data'}{'version'} = $working[1]; } } elsif ($working[0] eq 'EGL vendor string'){ $working[1] = lc($working[1]); $working[1] =~ s/^(\S+)(\s.+|$)/$1/; if (!defined $platform){ $gl->{'egl'}{'data'}{'vendor'} = $working[1]; } elsif (defined $device){ $gl->{'egl'}{'platforms'}{$platform}{$device}{'egl'}{'vendor'} = $working[1]; if ($working[1] eq 'nvidia'){ $gl->{'egl'}{'platforms'}{$platform}{$device}{'egl'}{'driver'} = $working[1]; } } else { $gl->{'egl'}{'platforms'}{$platform}{'egl'}{'vendor'} = $working[1]; if ($working[1] eq 'nvidia'){ $gl->{'egl'}{'platforms'}{$platform}{'egl'}{'driver'} = $working[1]; } } push(@{$gl->{'egl'}{'data'}{'vendors'}},$working[1]); if ($working[1] eq 'nvidia'){ $value = (defined $device) ? "$platform-$device": $platform; push(@{$gl->{'egl'}{'data'}{'drivers'}{$working[1]}},$value); $gl->{'egl'}{'data'}{'hw'}{$working[1]} = $working[1]; } } elsif ($working[0] eq 'EGL driver name'){ if (!defined $device){ $gl->{'egl'}{'platforms'}{$platform}{'egl'}{'driver'} = $working[1]; if ($mesa_drivers{$working[1]}){ $gl->{'egl'}{'platforms'}{$platform}{'egl'}{'hw'} = $mesa_drivers{$working[1]}; } } else { $gl->{'egl'}{'platforms'}{$platform}{$device}{'egl'}{'driver'} = $working[1]; if ($mesa_drivers{$working[1]}){ $gl->{'egl'}{'platforms'}{$platform}{$device}{'egl'}{'hw'} = $mesa_drivers{$working[1]}; } } $value = (defined $device) ? "$platform-$device": $platform; push(@{$gl->{'egl'}{'data'}{'drivers'}{$working[1]}},$value); if ($mesa_drivers{$working[1]}){ $gl->{'egl'}{'data'}{'hw'}{$working[1]} = $mesa_drivers{$working[1]}; } } if ($working[0] eq 'EGL client APIs'){ if (defined $device){ $gl->{'egl'}{'platforms'}{$platform}{$device}{'egl'}{'client-apis'} = [split(/\s+/,$working[1])]; } else { $gl->{'egl'}{'platforms'}{$platform}{'egl'}{'client-apis'} = [split(/\s+/,$working[1])]; } } } # glx specific values, only found in glxinfo else { if (lc($working[0]) eq 'direct rendering'){ $working[1] = lc($working[1]); if (!$gl->{'glx'}{'direct-renderers'} || !(grep {$_ eq $working[1]} @{$gl->{'glx'}{'direct-renders'}})){ push(@{$gl->{'glx'}{'direct-renders'}}, $working[1]); } } # name of display: does not always list the screen number elsif (lc($working[0]) eq 'display'){ if ($working[1] =~ /^(:\d+)\s+screen:\s+(\d+)/){ $gl->{'glx'}{'display-id'} = $1 . '.' . $2; } } elsif (lc($working[0]) eq 'glx version'){ if (!$gl->{'glx'}{'glx-version'}){ $gl->{'glx'}{'glx-version'} = $working[1]; } } elsif (!$b_rend_info && $working[0] =~ /^Extended renderer info/i){ $b_rend_info = 1; } # only check Memory info if no prior device memory found elsif (!$b_mem_info && $working[0] =~ /^Memory info/i){ $b_mem_info = (!$gl->{'glx'}{'info'} || !$gl->{'glx'}{'info'}{'device-memory'}) ? 1 : 0; } elsif ($b_rend_info){ if ($line =~ /^\s+Vendor:\s+.*?\(0x([\da-f]+)\)$/){ $gl->{'glx'}{'info'}{'vendor-id'} = sprintf("%04s",$1); } elsif ($line =~ /^\s+Device:\s+.*?\(0x([\da-f]+)\)$/){ $gl->{'glx'}{'info'}{'device-id'} = sprintf("%04s",$1); } elsif ($line =~ /^\s+Video memory:\s+(\d+\s?[MG]B)$/){ my $size = main::translate_size($1); $gl->{'glx'}{'info'}{'device-memory'} = main::get_size($size,'string'); } elsif ($line =~ /^\s+Unified memory:\s+(\S+)$/){ $gl->{'glx'}{'info'}{'unified-memory'} = lc($1); } } elsif ($b_mem_info){ # fallback, nvidia does not seem to have Extended renderer info if ($line =~ /^\s+Dedicated video memory:\s+(\d+\s?[MG]B)$/){ my $size = main::translate_size($1); $gl->{'glx'}{'info'}{'device-memory'} = main::get_size($size,'string'); $b_mem_info = 0; } # we're in the wrong memory block! elsif ($line =~ /^\s+(VBO|Texture)/){ $b_mem_info = 0; } } elsif (lc($working[0]) eq 'opengl vendor string'){ if ($working[1] =~ /^([^\s]+)(\s+\S+)?/){ my $vendor = lc($1); $vendor =~ s/(^mesa\/|[\.,]$)//; # Seen Mesa/X.org if (!$gl->{'glx'}{'opengl'}{'vendor'}){ $gl->{'glx'}{'opengl'}{'vendor'} = $vendor; } } } elsif (lc($working[0]) eq 'opengl renderer string'){ if ($working[1]){ $working[1] = main::clean($working[1]); } # note: seen cases where gl drivers are missing, with empty field value. else { $gl->{'glx'}{'no-gl'} = 1; $working[1] = main::message('glx-value-empty'); } if (!$gl->{'glx'}{'opengl'}{'renderers'} || !(grep {$_ eq $working[1]} @{$gl->{'glx'}{'opengl'}{'renderers'}})){ push(@{$gl->{'glx'}{'opengl'}{'renderers'}}, $working[1]) ; } } # Dropping all conditions from this test to just show full mesa information # there is a user case where not f and mesa apply, atom mobo # This can be the compatibility version, or just the version the hardware # supports. Core version will override always if present. elsif (lc($working[0]) eq 'opengl version string'){ if ($working[1]){ # first grab the actual gl version # non free drivers like nvidia may only show their driver version info if ($working[1] =~ /^(\S+)(\s|$)/){ push(@{$gl->{'glx'}{'opengl'}{'versions'}}, $1); } # handle legacy format: 1.2 (1.5 Mesa 6.5.1) as well as more current: # 4.5 (Compatibility Profile) Mesa 22.3.6 # Note: legacy: fglrx starting adding compat strings but they don't # change this result: # 4.5 Compatibility Profile Context Mesa 15.3.6 if ($working[1] =~ /(Mesa|NVIDIA)\s(\S+?)\)?$/i){ if ($1 && $2 && !$gl->{'glx'}{'opengl'}{'driver'}){ $gl->{'glx'}{'opengl'}{'driver'}{'vendor'} = lc($1); $gl->{'glx'}{'opengl'}{'driver'}{'version'} = $2; } } } elsif (!$gl->{'glx'}{'no-gl'}){ $gl->{'glx'}{'no-gl'} = 1; push(@{$gl->{'glx'}{'opengl'}{'versions'}},main::message('glx-value-empty')); } } # if -B was always available, we could skip this, but it is not elsif ($line =~ /GLX Visuals/){ last; } } # eglinfo/glxinfo share these if ($b_opengl){ if ($working[0] =~ /^OpenGL (compatibility|core) profile version( string)?$/){ $value = lc($1); # note: no need to apply empty message here since we don't have the data # anyway if ($working[1]){ # non free drivers like nvidia only show their driver version info if ($working[1] =~ /^(\S+)(\s|$)/){ push(@{$gl->{'glx'}{'opengl'}{$value}{'versions'}}, $1); } # fglrx started appearing with this extra string, does not appear # to communicate anything of value if ($working[1] =~ /\s+(Mesa|NVIDIA)\s+(\S+)$/){ if ($1 && $2 && !$gl->{'glx'}{'opengl'}{$value}{'vendor'}){ $gl->{'glx'}{'opengl'}{$value}{'driver'}{'vendor'} = lc($1); $gl->{'glx'}{'opengl'}{$value}{'driver'}{'version'} = $2; } if ($source eq 'egl' && $platform){ if (defined $device){ $gl->{'egl'}{'platforms'}{$platform}{$device}{'opengl'}{$value}{'vendor'} = lc($1); $gl->{'egl'}{'platforms'}{$platform}{$device}{'opengl'}{$value}{'version'} = $2; } else { $gl->{'egl'}{'platforms'}{$platform}{'opengl'}{$value}{'vendor'} = lc($1); $gl->{'egl'}{'platforms'}{$platform}{'opengl'}{$value}{'version'} = $2; } } } } } elsif ($working[0] =~ /^OpenGL (compatibility|core) profile renderer?$/){ $value = lc($1); if ($working[1]){ $working[1] = main::clean($working[1]); } # note: seen cases where gl drivers are missing, with empty field value. else { $gl->{'glx'}{'no-gl'} = 1; $working[1] = main::message('glx-value-empty'); } if (!$gl->{'glx'}{'opengl'}{$value}{'renderers'} || !(grep {$_ eq $working[1]} @{$gl->{'glx'}{'opengl'}{$value}{'renderers'}})){ push(@{$gl->{'glx'}{'opengl'}{$value}{'renderers'}}, $working[1]) ; } if ($source eq 'egl' && $platform){ if ($value eq 'core'){ $value2 = (defined $device) ? "$platform-$device": $platform; push(@{$gl->{'egl'}{'data'}{'renderers'}{$working[1]}},$value2); } if (defined $device){ $gl->{'egl'}{'platforms'}{$platform}{$device}{'opengl'}{$value}{'renderer'} = $working[1]; } else { $gl->{'egl'}{'platforms'}{$platform}{'opengl'}{$value}{'renderer'} = $working[1]; } } } elsif ($working[0] =~ /^OpenGL (compatibility|core) profile vendor$/){ $value = lc($1); if (!$gl->{'glx'}{'opengl'}{$value}{'vendors'} || !(grep {$_ eq $working[1]} @{$gl->{'glx'}{'opengl'}{$value}{'vendors'}})){ push(@{$gl->{'glx'}{'opengl'}{$value}{'vendors'}}, $working[1]) ; } if ($source eq 'egl' && $platform){ if (defined $device){ $gl->{'egl'}{'platforms'}{$platform}{$device}{'opengl'}{$value}{'vendor'} = $working[1]; } else { $gl->{'egl'}{'platforms'}{$platform}{'opengl'}{$value}{'vendor'} = $working[1]; } } } elsif (lc($working[0]) eq 'opengl es profile version string'){ if ($working[1] && !$gl->{'glx'}{'es-version'}){ # OpenGL ES 3.2 Mesa 23.0.3 if ($working[1] =~ /^OpenGL ES (\S+) Mesa (\S+)/){ $gl->{'glx'}{'es'}{'version'} = $1; if ($2 && !$gl->{'glx'}{'es'}{'mesa-version'}){ $gl->{'glx'}{'es'}{'mesa-version'} = $2; } if ($source eq 'egl' && $platform){ if (defined $device){ $gl->{'egl'}{'platforms'}{$platform}{$device}{'opengl'}{'es'}{'vendor'} = 'mesa'; $gl->{'egl'}{'platforms'}{$platform}{$device}{'opengl'}{'es'}{'version'} = $working[1]; } else { $gl->{'egl'}{'platforms'}{$platform}{'opengl'}{'es'}{'vendor'} = 'mesa'; $gl->{'egl'}{'platforms'}{$platform}{'opengl'}{'es'}{'version'} = $working[1]; } } } } } } } main::log_data('dump',"$source \$results",$results) if $b_log; if ($source eq 'egl'){ print "GL Data: $source: ", Data::Dumper::Dumper $gl if $dbg[57]; main::log_data('dump',"GL data: $source:",$gl) if $b_log; } else { print "GL Data: $source: ", Data::Dumper::Dumper $gl->{'glx'} if $dbg[57]; main::log_data('dump',"GLX data: $source:",$gl->{'glx'}) if $b_log; } eval $end if $b_log; } sub process_glx_data { eval $start if $b_log; my ($glx,$b_glx) = @_; my $value; # Remember: if you test for a hash ref hash ref, you create the first hash ref! if ($glx->{'direct-renders'}){ $glx->{'direct-render'} = join(', ', @{$glx->{'direct-renders'}}); } if (!$glx->{'opengl'}{'renderers'} && $glx->{'opengl'}{'compatibility'} && $glx->{'opengl'}{'compatibility'}{'renderers'}){ $glx->{'opengl'}{'renderers'} = $glx->{'opengl'}{'compatibility'}{'renderers'}; } # This is tricky, GLX OpenGL version string can be compatibility version, # but usually they are the same. Just in case, try this. Note these are # x.y.z type numbering formats generally so use string compare if ($glx->{'opengl'}{'core'} && $glx->{'opengl'}{'core'}{'versions'}){ $glx->{'opengl'}{'version'} = (sort @{$glx->{'opengl'}{'core'}{'versions'}})[-1]; } elsif ($glx->{'opengl'}{'versions'}){ $glx->{'opengl'}{'version'} = (sort @{$glx->{'opengl'}{'versions'}})[-1]; } if ($glx->{'opengl'}{'version'} && ($glx->{'opengl'}{'compatibility'} || $glx->{'opengl'}{'versions'})){ # print "v: $glx->{'opengl'}{'version'}\n"; # print Data::Dumper::Dumper $glx->{'opengl'}{'versions'}; # print 'v1: ', (sort @{$glx->{'opengl'}{'versions'}})[0], "\n"; # here we look for different versions, and determine most likely compat one if ($glx->{'opengl'}{'compatibility'} && $glx->{'opengl'}{'compatibility'}{'versions'} && (sort @{$glx->{'opengl'}{'compatibility'}{'versions'}})[0] ne $glx->{'opengl'}{'version'}){ $value = (sort @{$glx->{'opengl'}{'compatibility'}{'versions'}})[0]; $glx->{'opengl'}{'compatibility'}{'version'} = $value; } elsif ($glx->{'opengl'}{'versions'} && (sort @{$glx->{'opengl'}{'versions'}})[0] ne $glx->{'opengl'}{'version'}){ $value = (sort @{$glx->{'opengl'}{'versions'}})[0]; $glx->{'opengl'}{'compatibility'}{'version'} = $value; } } if ($glx->{'opengl'}{'renderers'}){ $glx->{'opengl'}{'renderer'} = join(', ', @{$glx->{'opengl'}{'renderers'}}); } # likely eglinfo or advanced glxinfo if ($glx->{'opengl'}{'vendor'} && $glx->{'opengl'}{'core'} && $glx->{'opengl'}{'core'}{'driver'} && $glx->{'opengl'}{'core'}{'driver'}{'vendor'} && $glx->{'opengl'}{'core'}{'driver'}{'vendor'} eq 'mesa' && $glx->{'opengl'}{'vendor'} ne $glx->{'opengl'}{'core'}{'driver'}{'vendor'}){ $value = $glx->{'opengl'}{'vendor'} . ' '; $value .= $glx->{'opengl'}{'core'}{'driver'}{'vendor'}; $glx->{'opengl'}{'vendor'} = $value; } # this can be glxinfo only case, no eglinfo elsif ($glx->{'opengl'}{'vendor'} && $glx->{'opengl'}{'driver'} && $glx->{'opengl'}{'driver'}{'vendor'} && $glx->{'opengl'}{'driver'}{'vendor'} eq 'mesa' && $glx->{'opengl'}{'vendor'} ne $glx->{'opengl'}{'driver'}{'vendor'}){ $value = $glx->{'opengl'}{'vendor'} . ' '; $value .= $glx->{'opengl'}{'driver'}{'vendor'}; $glx->{'opengl'}{'vendor'} = $value; } elsif (!$glx->{'opengl'}{'vendor'} && $glx->{'opengl'}{'core'} && $glx->{'opengl'}{'core'}{'driver'} && $glx->{'opengl'}{'core'}{'driver'}{'vendor'}){ $glx->{'opengl'}{'vendor'} = $glx->{'opengl'}{'core'}{'driver'}{'vendor'}; } if ((!$glx->{'opengl'}{'driver'} || !$glx->{'opengl'}{'driver'}{'version'}) && $glx->{'opengl'}{'core'} && $glx->{'opengl'}{'core'}{'driver'} && $glx->{'opengl'}{'core'}{'driver'}{'version'}){ $value = $glx->{'opengl'}{'core'}{'driver'}{'version'}; $glx->{'opengl'}{'driver'}{'version'} = $value; } # only tripped when glx filled by eglinfo if (!$glx->{'source'}){ my $type; if (!$b_glx){ $type = 'glx-egl-missing'; } elsif ($b_display){ $type = 'glx-egl'; } else { $type = 'glx-egl-console'; } $glx->{'note'} = main::message($type); } print "GLX Data: ", Data::Dumper::Dumper $glx if $dbg[57]; main::log_data('dump',"GLX data:",$glx) if $b_log; eval $end if $b_log; } sub vulkan_data { eval $start if $b_log; my ($program,$vulkan) = @_; my ($data,$msg,@working); my ($results) = ([]); if ($dbg[56] || $b_log){ $msg = "${line1}Vulkan Data\n${line3}"; print $msg if $dbg[56]; push(@$results,$msg) if $b_log; } if (!$fake{'vulkan'}){ $data = main::grabber("$program 2>/dev/null",'','','ref'); } else { my $file; $file = "$fake_data_dir/graphics/vulkan/vulkaninfo-intel-llvm-1.txt"; $file = "$fake_data_dir/graphics/vulkan/vulkaninfo-nvidia-1.txt"; $file = "$fake_data_dir/graphics/vulkan/vulkaninfo-intel-1.txt"; $file = "$fake_data_dir/graphics/vulkan/vulkaninfo-amd-dz.txt"; $file = "$fake_data_dir/graphics/vulkan/vulkaninfo-mali-3.txt"; $data = main::reader($file,'','ref'); } if (!$data){ if ($dbg[56] || $b_log){ $msg = "No Vulkan data found" if $dbg[56]; print "$msg\n" if $dbg[56]; push(@$results,$msg) if $b_log; } return 0; } set_mesa_drivers() if !%mesa_drivers; my ($id,%active); foreach my $line (@$data){ next if $line =~ /^(\s*|-+|=+)$/; @working = split(/\s*:\s*/,$line,2); next if !@working; if ($line =~ /^\S/){ if ($active{'start'}){undef $active{'start'}} if ($active{'layers'}){undef $active{'layers'}} if ($active{'groups'}){undef $active{'groups'}} if ($active{'limits'}){undef $active{'limits'}} if ($active{'features'}){undef $active{'features'}} if ($active{'extensions'}){undef $active{'extensions'}} if ($active{'format'}){undef $active{'format'}} if ($active{'driver'}){($active{'driver'},$id) = ()} } next if $active{'start'}; next if $active{'groups'}; next if $active{'limits'}; next if $active{'features'}; next if $active{'extensions'}; next if $active{'format'}; if ($dbg[56] || $b_log){ $msg = $line; print "$msg\n" if $dbg[56]; push(@$results,$msg) if $b_log; } if ($working[0] eq 'Vulkan Instance Version'){ $vulkan->{'data'}{'version'} = $working[1]; $active{'start'} = 1; } elsif ($working[0] eq 'Layers'){ if ($working[1] =~ /count\s*=\s*(\d+)/){ $vulkan->{'data'}{'layers'} = $1; } $active{'layers'} = 1; } # note: can't close this because Intel didn't use proper indentation elsif ($working[0] eq 'Presentable Surfaces'){ $active{'surfaces'} = 1; } elsif ($working[0] eq 'Device Groups'){ $active{'groups'} = 1; $active{'surfaces'} = 0; } elsif ($working[0] eq 'Device Properties and Extensions'){ $active{'devices'} = 1; $active{'surfaces'} = 0; undef $id; } elsif ($working[0] eq 'VkPhysicalDeviceProperties'){ $active{'props'} = 1; } elsif ($working[0] eq 'VkPhysicalDeviceDriverProperties'){ $active{'driver'} = 1; } elsif ($working[0] =~ /^\S+Features/i){ $active{'features'} = 1; } # seen as line starter string or inner VkPhysicalDeviceProperties elsif ($working[0] =~ /^\s*\S+Limits/i){ $active{'limits'} = 1; } elsif ($working[0] =~ /^FORMAT_/){ $active{'format'} = 1; } elsif ($working[0] =~ /^(Device|Instance) Extensions/){ $active{'extensions'} = 1; } if ($active{'surfaces'}){ if ($working[0] eq 'GPU id'){ if ($working[1] =~ /^(\d+)\s+\((.*?)\):?$/){ $id = $1; $vulkan->{'devices'}{$id}{'model'} = main::clean($2); } } if (defined $id){ # seen leading space, no leading space if ($line =~ /^\s*Surface type/){ $active{'surface-type'} = 1; } if ($active{'surface-type'} && $line =~ /\S+_(\S+)_surface$/){ if (!$vulkan->{'devices'}{$id}{'surfaces'} || !(grep {$_ eq $1} @{$vulkan->{'devices'}{$id}{'surfaces'}})){ push(@{$vulkan->{'devices'}{$id}{'surfaces'}},$1); } if (!$vulkan->{'data'}{'surfaces'} || !(grep {$_ eq $1} @{$vulkan->{'data'}{'surfaces'}})){ push(@{$vulkan->{'data'}{'surfaces'}},$1); } } if ($working[0] =~ /^\s*Formats/){ undef $active{'surface-type'}; } } } if ($active{'devices'}){ if ($working[0] =~ /^GPU(\d+)/){ $id = $1; } elsif (defined $id){ # apiVersion=4194528 (1.0.224); 1.3.246 (4206838); 79695971 (0x4c01063) if ($line =~ /^\s+apiVersion\s*=\s*(\S+)(\s+\(([^)]+)\))?/i){ my ($a,$b) = ($1,$3); my $api = (!$b || $b =~ /^(0x)?\d+$/) ? $a : $b; $vulkan->{'devices'}{$id}{'device-api-version'} = $api; } elsif ($line =~ /^\s+driverVersion\s*=\s*(\S+)/i){ $vulkan->{'devices'}{$id}{'device-driver-version'} = $1; } elsif ($line =~ /^\s+vendorID\s*=\s*0x(\S+)/i){ $vulkan->{'devices'}{$id}{'vendor-id'} = $1; } elsif ($line =~ /^\s+deviceID\s*=\s*0x(\S+)/i){ $vulkan->{'devices'}{$id}{'device-id'} = $1; } # deviceType=DISCRETE_GPU; PHYSICAL_DEVICE_TYPE_DISCRETE_GPU elsif ($line =~ /^\s+deviceType\s*=\s*(\S+?_TYPE_)?(\S+)$/i){ $vulkan->{'devices'}{$id}{'device-type'} = lc($2); $vulkan->{'devices'}{$id}{'device-type'} =~ s/_/-/g; } # deviceName=AMD Radeon RX 6700 XT (RADV NAVI22); AMD RADV HAWAII # lvmpipe (LLVM 15.0.6, 256 bits); NVIDIA GeForce GTX 1650 Ti elsif ($line =~ /^\s+deviceName\s*=\s*(\S+)(\s.*|$)/i){ $vulkan->{'devices'}{$id}{'device-vendor'} = main::clean(lc($1)); $vulkan->{'devices'}{$id}{'device-name'} = main::clean($1 . $2); } } } if ($active{'driver'}){ if (defined $id){ # driverName=llvmpipe; radv; if ($line =~ /^\s+driverName\s*=\s*(\S+)(\s|$)/i){ my $driver = lc($1); if ($mesa_drivers{$driver}){ $vulkan->{'devices'}{$id}{'hw'} = $mesa_drivers{$driver}; } $vulkan->{'devices'}{$id}{'driver-name'} = $driver; if (!$vulkan->{'data'}{'drivers'} || !(grep {$_ eq $driver} @{$vulkan->{'data'}{'drivers'}})){ push(@{$vulkan->{'data'}{'drivers'}},$driver); } } # driverInfo=Mesa 23.1.3 (LLVM 15.0.7); 525.89.02; Mesa 23.1.3 elsif ($line =~ /^\s+driverInfo\s*=\s*((Mesa)\s)?(.*)/i){ $vulkan->{'devices'}{$id}{'mesa'} = lc($2) if $2; $vulkan->{'devices'}{$id}{'driver-info'} = $3; } } } } main::log_data('dump','$results',$results) if $b_log; print 'Vulkan Data: ', Data::Dumper::Dumper $vulkan if $dbg[57]; main::log_data('dump','$vulkan',$vulkan) if $b_log; eval $end if $b_log; } ## DISPLAY DATA WAYLAND ## sub display_data_wayland { eval $start if $b_log; my ($b_skip_pos,$program); if ($ENV{'WAYLAND_DISPLAY'}){ $graphics{'display-id'} = $ENV{'WAYLAND_DISPLAY'}; # return as wayland-0 or 0? $graphics{'display-id'} =~ s/wayland-?//i; } if ($fake{'swaymsg'} || ($program = main::check_program('swaymsg'))){ swaymsg_data($program); } # until we get data proving otherwise, assuming these have same output elsif ($fake{'wl-info'} || (($program = main::check_program('wayland-info')) || ($program = main::check_program('weston-info')))){ wlinfo_data($program); } elsif ($fake{'wlr-randr'} || ($program = main::check_program('wlr-randr'))){ wlrrandr_data($program); } # make sure we got enough for advanced position data, might be from /sys if ($extra > 1 && $monitor_ids){ $b_skip_pos = check_wayland_data(); } if ($extra > 1 && $monitor_ids && $b_wayland_data){ # map_monitor_ids([keys %$monitors]); # not required, but leave in case. wayland_data_advanced($b_skip_pos); } print 'Wayland monitors: ', Data::Dumper::Dumper $monitor_ids if $dbg[17]; main::log_data('dump','$monitor_ids',$monitor_ids) if $b_log; eval $end if $b_log; } # If we didn't get explicit tool for wayland data, check to see if we got most # of the data from /sys/class/drm edid and then skip xrandr to avoid gunking up # the data, in that case, all we get from xrandr would be the position, which is # nice but not a must-have. We've already cleared out all disabled ports. sub check_wayland_data { eval $start if $b_log; my ($b_skip_pos,$b_invalid); foreach my $key (keys %$monitor_ids){ # we need these 4 items to construct the grid rectangle if (!defined $monitor_ids->{$key}{'pos-x'} || !defined $monitor_ids->{$key}{'pos-y'} || !$monitor_ids->{$key}{'res-x'} || !$monitor_ids->{$key}{'res-y'}){ $b_skip_pos = 1; } if (!$monitor_ids->{$key}{'res-x'} || !$monitor_ids->{$key}{'res-y'}){ $b_invalid = 1; } } # ok, we have enough, we don't need to do fallback xrandr checks $b_wayland_data = 1 if !$b_invalid; eval $end if $b_log; return $b_skip_pos; } # Set Display rect size for > 1 monitors, monitor positions, size-i, diag sub wayland_data_advanced { eval $start if $b_log; my ($b_skip_pos) = @_; my (%x_pos,%y_pos); my ($x_max,$y_max) = (0,0); my @keys = keys %$monitor_ids; foreach my $key (@keys){ if (!$b_skip_pos){ if ($monitor_ids->{$key}{'res-x'} && $monitor_ids->{$key}{'res-x'} > $x_max){ $x_max = $monitor_ids->{$key}{'res-x'}; } if ($monitor_ids->{$key}{'res-y'} && $monitor_ids->{$key}{'res-y'} > $y_max){ $y_max = $monitor_ids->{$key}{'res-y'}; } # Now we'll add the detected x, y res to the trackers if (!defined $x_pos{$monitor_ids->{$key}{'pos-x'}}){ $x_pos{$monitor_ids->{$key}{'pos-x'}} = $monitor_ids->{$key}{'res-x'}; } if (!defined $y_pos{$monitor_ids->{$key}{'pos-y'}}){ $y_pos{$monitor_ids->{$key}{'pos-y'}} += $monitor_ids->{$key}{'res-y'}; } } # this means we failed to get EDID real data, and are using just the wayland # tool to get this info, eg. with BSD without compositor data. if ($monitor_ids->{$key}{'size-x'} && $monitor_ids->{$key}{'size-y'} && (!$monitor_ids->{$key}{'size-x-i'} || !$monitor_ids->{$key}{'size-y-i'} || !$monitor_ids->{$key}{'dpi'} || !$monitor_ids->{$key}{'diagonal'})){ my $size_x = $monitor_ids->{$key}{'size-x'}; my $size_y = $monitor_ids->{$key}{'size-y'}; $monitor_ids->{$key}{'size-x-i'} = sprintf("%.2f", ($size_x/25.4)) + 0; $monitor_ids->{$key}{'size-y-i'} = sprintf("%.2f", ($size_y/25.4)) + 0; $monitor_ids->{$key}{'diagonal'} = sprintf("%.2f", (sqrt($size_x**2 + $size_y**2)/25.4)) + 0; $monitor_ids->{$key}{'diagonal-m'} = sprintf("%.0f", (sqrt($size_x**2 + $size_y**2))); if ($monitor_ids->{$key}{'res-x'}){ my $res_x = $monitor_ids->{$key}{'res-x'}; $monitor_ids->{$key}{'dpi'} = sprintf("%.0f", $res_x * 25.4 / $size_x); } } } if (!$b_skip_pos){ if (scalar @keys > 1 && %x_pos && %y_pos){ my ($x,$y) = (0,0); foreach (keys %x_pos){$x += $x_pos{$_}} foreach (keys %y_pos){$y += $y_pos{$_}} # handle cases with one tall portrait mode > 2 short landscapes, etc. $x = $x_max if $x_max > $x; $y = $y_max if $y_max > $y; $graphics{'display-rect'} = $x . 'x' . $y; } my $layouts = []; set_monitor_layouts($layouts); # only update position, we already have all the rest of the data advanced_monitor_data($monitor_ids,$layouts); undef $layouts; } eval $end if $b_log; } ## WAYLAND COMPOSITOR DATA TOOLS ## # NOTE: These patterns are VERY fragile, and depend on no changes at all to # the data structure, and more important, the order. Something I would put # almost no money on being able to count on. sub wlinfo_data { eval $start if $b_log; my ($program) = @_; my ($data,%mon,@temp,$ref); my ($b_iwlo,$b_izxdg,$file,$hz,$id,$pos_x,$pos_y,$res_x,$res_y,$scale); if (!$fake{'wl-info'}){ undef $monitor_ids; $data = main::grabber("$program 2>/dev/null",'','strip','ref'); } else { $file = "$fake_data_dir/graphics/wayland/weston-info-2-mon-1.txt"; $data = main::reader($file,'strip','ref'); } print 'wayland/weston-info raw: ', Data::Dumper::Dumper $data if $dbg[46]; main::log_data('dump','@$data', $data) if $b_log; foreach (@$data){ # print 'l: ', $_,"\n"; if (/^interface: 'wl_output', version: \d+, name: (\d+)$/){ $b_iwlo = 1; $id = $1; } elsif (/^interface: 'zxdg_output/){ $b_izxdg = 1; $b_iwlo = 0; } if ($b_iwlo){ if (/^x: (\d+), y: (\d+), scale: ([\d\.]+)/){ $mon{$id}->{'pos-x'} = $1; $mon{$id}->{'pos-y'} = $2; $mon{$id}->{'scale'} = $3; } elsif (/^physical_width: (\d+) mm, physical_height: (\d+) mm/){ $mon{$id}->{'size-x'} = $1 if $1; # can be 0 if edid data n/a $mon{$id}->{'size-y'} = $2 if $2; # can be 0 if edid data n/a } elsif (/^make: '([^']+)', model: '([^']+)'/){ my $make = main::clean($1); my $model = main::clean($2); $mon{$id}->{'model'} = $make; if ($make && $model){ $mon{$id}->{'model'} = $make . ' ' . $model; } elsif ($model) { $mon{$id}->{'model'} = $model; } elsif ($make) { $mon{$id}->{'model'} = $make; } # includes remove duplicates and remove unset if ($mon{$id}->{'model'}){ $mon{$id}->{'model'} = main::clean_dmi($mon{$id}->{'model'}); } } elsif (/^width: (\d+) px, height: (\d+) px, refresh: ([\d\.]+) Hz,/){ $mon{$id}->{'res-x'} = $1; $mon{$id}->{'res-y'} = $2; $mon{$id}->{'hz'} = sprintf('%.0f',$3); } } # note: we don't want to use the 'description' field because that doesn't # always contain make/model data, sometimes it's: Built-in/Unknown Display elsif ($b_izxdg){ if (/^output: (\d+)/){ $id = $1; } elsif (/^name: '([^']+)'$/){ $mon{$id}->{'monitor'} = $1; } elsif (/^logical_x: (\d+), logical_y: (\d+)/){ $mon{$id}->{'log-pos-x'} = $1; $mon{$id}->{'log-pos-y'} = $2; } elsif (/^logical_width: (\d+), logical_height: (\d+)/){ $mon{$id}->{'log-x'} = $1; $mon{$id}->{'log-y'} = $2; } } if ($b_izxdg && /^interface: '(?!zxdg_output)/){ last; } } # now we need to map %mon back to $monitor_ids if (%mon){ $b_wayland_data = 1; foreach my $key (keys %mon){ next if !$mon{$key}->{'monitor'}; # no way to know what it is, sorry $id = $mon{$key}->{'monitor'}; $monitor_ids->{$id}{'monitor'} = $id; $monitor_ids->{$id}{'log-x'} = $mon{$key}->{'log-x'} if defined $mon{$key}->{'log-x'}; $monitor_ids->{$id}{'log-y'} = $mon{$key}->{'log-y'} if defined $mon{$key}->{'log-y'}; $monitor_ids->{$id}{'pos-x'} = $mon{$key}->{'pos-x'} if defined $mon{$key}->{'pos-x'}; $monitor_ids->{$id}{'pos-y'} = $mon{$key}->{'pos-y'} if defined $mon{$key}->{'pos-y'}; $monitor_ids->{$id}{'res-x'} = $mon{$key}->{'res-x'} if defined $mon{$key}->{'res-x'}; $monitor_ids->{$id}{'res-y'} = $mon{$key}->{'res-y'} if defined $mon{$key}->{'res-y'}; $monitor_ids->{$id}{'size-x'} = $mon{$key}->{'size-x'} if defined $mon{$key}->{'size-x'}; $monitor_ids->{$id}{'size-y'} = $mon{$key}->{'size-y'} if defined $mon{$key}->{'size-y'}; $monitor_ids->{$id}{'hz'} = $mon{$key}->{'hz'} if defined $mon{$key}->{'hz'}; if (defined $mon{$key}->{'model'} && !$monitor_ids->{$id}{'model'}){ $monitor_ids->{$id}{'model'} = $mon{$key}->{'model'}; } $monitor_ids->{$id}{'scale'} = $mon{$key}->{'scale'} if defined $mon{$key}->{'scale'}; # fallbacks in case wl_output block is not present, which happens if (!defined $mon{$key}->{'pos-x'} && defined $mon{$key}->{'log-pos-x'}){ $monitor_ids->{$id}{'pos-x'} = $mon{$key}->{'log-pos-x'}; } if (!defined $mon{$key}->{'pos-y'} && defined $mon{$key}->{'log-pos-y'}){ $monitor_ids->{$id}{'pos-y'} = $mon{$key}->{'log-pos-y'}; } if (!defined $mon{$key}->{'res-x'} && defined $mon{$key}->{'log-x'}){ $monitor_ids->{$id}{'res-x'} = $mon{$key}->{'log-x'}; } if (!defined $mon{$key}->{'res-y'} && defined $mon{$key}->{'log-y'}){ $monitor_ids->{$id}{'res-y'} = $mon{$key}->{'log-y'}; } } } print '%mon: ', Data::Dumper::Dumper \%mon if $dbg[46]; main::log_data('dump','%mon', \%mon) if $b_log; print 'wayland/weston-info: monitor_ids: ', Data::Dumper::Dumper $monitor_ids if $dbg[46]; eval $end if $b_log; } # Note; since not all systems will have /sys data, we'll repack it if it's # missing here. sub swaymsg_data { eval $start if $b_log; my ($program) = @_; my (@data,%json,@temp,$ref); my ($b_json,$file,$hz,$id,$model,$pos_x,$pos_y,$res_x,$res_y,$scale,$serial); if (!$fake{'swaymsg'}){ main::load_json() if !$loaded{'json'}; if ($use{'json'}){ my $result = qx($program -t get_outputs -r 2>/dev/null); # returns array of monitors found @data = &{$use{'json'}->{'decode'}}($result) if $result; $b_json = 1; print "$use{'json'}->{'type'}: " if $dbg[46]; # print "using: $use{'json'}->{'type'}\n"; } else { @data = main::grabber("$program -t get_outputs -p 2>/dev/null",'','strip'); } } else { undef $monitor_ids; $file = "$fake_data_dir/graphics/wayland/swaymsg-2-monitor-1.txt"; @data = main::reader($file,'strip'); } print 'swaymsg: ', Data::Dumper::Dumper \@data if $dbg[46]; main::log_data('dump','@data', \@data) if $b_log; # print Data::Dumper::Dumper \@data; if ($b_json){ $b_wayland_data = 1 if scalar @data > 0; foreach my $display (@data){ foreach my $mon (@$display){ ($hz,$pos_x,$pos_y,$res_x,$res_y,$scale) = (); $id = $mon->{'name'}; if (!$monitor_ids->{$id}{'monitor'}){ $monitor_ids->{$id}{'monitor'} = $mon->{'name'}; } # we don't want to overwrite good edid model data if we already got it if (!$monitor_ids->{$id}{'model'} && $mon->{'make'}){ $monitor_ids->{$id}{'model'} = main::clean($mon->{'make'}); if ($mon->{'model'}){ $monitor_ids->{$id}{'model'} .= ' ' . main::clean($mon->{'model'}); } $monitor_ids->{$id}{'model'} = main::remove_duplicates($monitor_ids->{$id}{'model'}); } if ($monitor_ids->{$id}{'primary'}){ if ($monitor_ids->{$id}{'primary'} ne 'false'){ $monitor_ids->{$id}{'primary'} = $id; $b_primary = 1; } else { $monitor_ids->{$id}{'primary'} = undef; } } if (!$monitor_ids->{$id}{'serial'}){ $monitor_ids->{$id}{'serial'} = main::clean_dmi($mon->{'serial'}); } # sys data will only have edid type info, not active state res/pos/hz if ($mon->{'current_mode'}){ if ($hz = $mon->{'current_mode'}{'refresh'}){ $hz = sprintf('%.0f',($mon->{'current_mode'}{'refresh'}/1000)); $monitor_ids->{$id}{'hz'} = $hz; } $monitor_ids->{$id}{'res-x'} = $mon->{'current_mode'}{'width'}; $monitor_ids->{$id}{'res-y'} = $mon->{'current_mode'}{'height'}; } if ($mon->{'rect'}){ $monitor_ids->{$id}{'pos-x'} = $mon->{'rect'}{'x'}; $monitor_ids->{$id}{'pos-y'} = $mon->{'rect'}{'y'}; } if ($mon->{'scale'}){ $monitor_ids->{$id}{'scale'} =$mon->{'scale'}; } } } } else { foreach (@data){ push(@temp,'~~') if /^Output/i; push(@temp,$_); } push(@temp,'~~') if @temp; @data = @temp; $b_wayland_data = 1 if scalar @data > 8; foreach (@data){ if ($_ eq '~~' && $id){ $monitor_ids->{$id}{'hz'} = $hz; $monitor_ids->{$id}{'model'} = $model if $model; $monitor_ids->{$id}{'monitor'} = $id; $monitor_ids->{$id}{'pos-x'} = $pos_x; $monitor_ids->{$id}{'pos-y'} = $pos_y; $monitor_ids->{$id}{'res-x'} = $res_x; $monitor_ids->{$id}{'res-y'} = $res_y; $monitor_ids->{$id}{'scale'} = $scale; $monitor_ids->{$id}{'serial'} = $serial if $serial; ($hz,$model,$pos_x,$pos_y,$res_x,$res_y,$scale,$serial) = (); $b_wayland_data = 1; } # Output VGA-1 ' ' (focused) # unknown how 'primary' is shown, if it shows in this output if (/^Output (\S+) '([^']+)'/i){ $id = $1; if ($2 && !$monitor_ids->{$id}{'model'}){ ($model,$serial) = get_model_serial($2); } } elsif (/^Current mode:\s+(\d+)x(\d+)\s+\@\s+([\d\.]+)\s+Hz/i){ $res_x = $1; $res_y = $2; $hz = (sprintf('%.0f',($3/1000)) + 0) if $3; } elsif (/^Position:\s+(\d+),(\d+)/i){ $pos_x = $1; $pos_y = $2; } elsif (/^Scale factor:\s+([\d\.]+)/i){ $scale = $1 + 0; } } } print 'swaymsg: ', Data::Dumper::Dumper $monitor_ids if $dbg[46]; eval $end if $b_log; } # Like a basic stripped down swaymsg -t get_outputs -p, less data though # This is EXTREMELY LIKELY TO FAIL! Any tiny syntax change will break this. sub wlrrandr_data { eval $start if $b_log; my ($program) = @_; my ($file,$hz,$id,$info,$model,$pos_x,$pos_y,$res_x,$res_y,$scale,$serial); my ($data,@temp); if (!$fake{'wlr-randr'}){ $data = main::grabber("$program 2>/dev/null",'','strip','ref'); } else { undef $monitor_ids; $file = "$fake_data_dir/graphics/wayland/wlr-randr-2-monitor-1.txt"; $data = main::reader($file,'strip','ref'); } foreach (@$data){ push(@temp,'~~') if /^([A-Z]+-[ABID\d-]+)\s['"]/i; push(@temp,$_); } push(@temp,'~~') if @temp; @$data = @temp; $b_wayland_data = 1 if scalar @$data > 4; print 'wlr-randr: ', Data::Dumper::Dumper $data if $dbg[46]; main::log_data('dump','@$data', $data) if $b_log; foreach (@$data){ if ($_ eq '~~' && $id){ $monitor_ids->{$id}{'hz'} = $hz; $monitor_ids->{$id}{'model'} = $model if $model && !$monitor_ids->{$id}{'model'}; $monitor_ids->{$id}{'monitor'} = $id; $monitor_ids->{$id}{'pos-x'} = $pos_x; $monitor_ids->{$id}{'pos-y'} = $pos_y; $monitor_ids->{$id}{'res-x'} = $res_x; $monitor_ids->{$id}{'res-y'} = $res_y; $monitor_ids->{$id}{'scale'} = $scale; $monitor_ids->{$id}{'serial'} = $serial if $serial && !$monitor_ids->{$id}{'serial'}; ($hz,$info,$model,$pos_x,$pos_y,$res_x,$res_y,$scale,$serial) = (); $b_wayland_data = 1; } # Output: VGA-1 ' ' (focused) # DVI-I-1 'Samsung Electric Company SyncMaster H9NX843762' (focused) # unknown how 'primary' is shown, if it shows in this output if (/^([A-Z]+-[ABID\d-]+)\s([']([^']+)['])?/i){ $id = $1; # if model is set, we got edid data if ($3 && !$monitor_ids->{$id}{'model'}){ ($model,$serial) = get_model_serial($3); } } elsif (/^(\d+)x(\d+)\s+px,\s+([\d\.]+)\s+Hz \([^\)]*?current\)/i){ $res_x = $1; $res_y = $2; $hz = sprintf('%.0f',$3) if $3; } elsif (/^Position:\s+(\d+),(\d+)/i){ $pos_x = $1; $pos_y = $2; } elsif (/^Scale:\s+([\d\.]+)/i){ $scale = $1 + 0; } } print 'wlr-randr: ', Data::Dumper::Dumper $monitor_ids if $dbg[46]; eval $end if $b_log; } # Return model/serial for those horrible string type values we have to process # in swaymsg -t get_outputs -p and wlr-randr default output sub get_model_serial { eval $start if $b_log; my $info = $_[0]; my ($model,$serial); $info = main::clean($info); return if !$info; my @parts = split(/\s+/, $info); # Perl Madness, lol: the last just checks how many integers in string if (scalar @parts > 1 && (length($parts[-1]) > 7) && (($parts[-1] =~ tr/[0-9]//) > 4)){ $serial = pop @parts; $serial = main::clean_dmi($serial); # clears out 0x00000 type non data } # we're assuming that we'll never get a serial without make/model data too. $model = join(' ',@parts) if @parts; $model = main::remove_duplicates($model) if $model && scalar @parts > 1; eval $end if $b_log; return ($model,$serial); } # DISPLAY DATA X.org ## sub display_data_x { eval $start if $b_log; my ($prog_xdpyinfo,$prog_xdriinfo,$prog_xrandr); if ($prog_xdpyinfo = main::check_program('xdpyinfo')){ xdpyinfo_data($prog_xdpyinfo); } # print Data::Dumper::Dumper $graphics{'screens'}; if ($prog_xrandr = main::check_program('xrandr')){ xrandr_data($prog_xrandr); } # if tool not installed, falls back to testing Xorg log file if ($prog_xdriinfo = main::check_program('xdriinfo')){ xdriinfo_data($prog_xdriinfo); } if (!$graphics{'screens'}){ $graphics{'tty'} = tty_data(); } if (!$prog_xrandr){ $graphics{'no-monitors'} = main::message('tool-missing-basic','xrandr'); if (!$prog_xdpyinfo){ if ($graphics{'protocol'} eq 'wayland'){ $graphics{'no-screens'} = main::message('screen-wayland'); } else { $graphics{'no-screens'} = main::message('tool-missing-basic','xdpyinfo/xrandr'); } } } print 'Final display x: ', Data::Dumper::Dumper $graphics{'screens'} if $dbg[17]; main::log_data('dump','$graphics{screens}',$graphics{'screens'}) if $b_log; eval $end if $b_log; } sub xdriinfo_data { eval $start if $b_log; my $program = $_[0]; my (%dri_drivers,$screen,$xdriinfo); if (!$fake{'xdriinfo'}){ $xdriinfo = main::grabber("$program $display_opt 2>/dev/null",'','strip','ref'); } else { # $xdriinfo = main::reader("$ENV{HOME}/bin/scripts/inxi/data/xrandr/xrandr-test-1.txt",'strip','ref'); } foreach $screen (@$xdriinfo){ if ($screen =~ /^Screen (\d+):\s+(\S+)/){ $dri_drivers{$1} = $2 if $2 !~ /^not\b/; } } if ($graphics{'screens'}){ # assign to the screen if it's found foreach $screen (@{$graphics{'screens'}}){ if (defined $dri_drivers{$screen->{'screen'}} ){ $screen->{'dri-driver'} = $dri_drivers{$screen->{'screen'}}; } } } # now the display drivers foreach $screen (sort keys %dri_drivers){ if (!$graphics{'dri-drivers'} || !(grep {$dri_drivers{$screen} eq $_} @{$graphics{'dri-drivers'}})){ push (@{$graphics{'dri-drivers'}},$dri_drivers{$screen}); } } print 'x dri driver: ', Data::Dumper::Dumper \%dri_drivers if $dbg[17]; main::log_data('dump','%dri_drivers',\%dri_drivers) if $b_log; eval $end if $b_log; } sub xdpyinfo_data { eval $start if $b_log; my ($program) = @_; my ($diagonal,$diagonal_m,$dpi) = ('','',''); my ($screen_id,$xdpyinfo,@working); my ($res_x,$res_y,$size_x,$size_x_i,$size_y,$size_y_i); if (!$fake{'xdpyinfo'}){ $xdpyinfo = main::grabber("$program $display_opt 2>/dev/null","\n",'strip','ref'); } else { # my $file; # $file = "$ENV{HOME}/bin/scripts/inxi/data/xdpyinfo/xdpyinfo-1-screen-2-in-inxi.txt"; # $xdpyinfo = main::reader($file,'strip','ref'); } # @$xdpyinfo = map {s/^\s+//;$_} @$xdpyinfo if @$xdpyinfo; # print join("\n",@$xdpyinfo), "\n"; # X vendor and version detection. # new method added since radeon and X.org and the disappearance of # version : ...etc. Later on, the normal textual version string # returned, e.g. like: X.Org version: 6.8.2 # A failover mechanism is in place: if $version empty, release number parsed instead foreach (@$xdpyinfo){ @working = split(/:\s+/, $_); next if (($graphics{'screens'} && $working[0] !~ /^(dimensions$|screen\s#)/) || !$working[0]); # print "$_\n"; if ($working[0] eq 'vendor string'){ $working[1] =~ s/The\s|\sFoundation//g; # some distros, like fedora, report themselves as the xorg vendor, # so quick check here to make sure the vendor string includes Xorg in string if ($working[1] !~ /x/i){ $working[1] .= ' X.org'; } $graphics{'x-server'} = [[$working[1]]]; } elsif ($working[0] eq 'name of display'){ $graphics{'display-id'} = $working[1]; } # this is the x protocol version elsif ($working[0] eq 'version number'){ $graphics{'x-protocol-version'} = $working[1]; } # not used, but might be good for something? elsif ($working[0] eq 'vendor release number'){ $graphics{'x-vendor-release'} = $working[1]; } # the real X.org version string elsif ($working[0] eq 'X.Org version'){ push(@{$graphics{'x-server'}->[0]},$working[1]); } elsif ($working[0] eq 'default screen number'){ $graphics{'display-default-screen'} = $working[1]; } elsif ($working[0] eq 'number of screens'){ $graphics{'display-screens'} = $working[1]; } elsif ($working[0] =~ /^screen #([0-9]+):/){ $screen_id = $1; } elsif ($working[0] eq 'resolution'){ $working[1] =~ s/^([0-9]+)x/$1/; $graphics{'s-dpi'} = $working[1]; } # This is Screen, not monitor: dimensions: 2560x1024 pixels (677x270 millimeters) elsif ($working[0] eq 'dimensions'){ ($dpi,$res_x,$res_y,$size_x,$size_y) = (); if ($working[1] =~ /([0-9]+)\s*x\s*([0-9]+)\s+pixels\s+\(([0-9]+)\s*x\s*([0-9]+)\s*millimeters\)/){ $res_x = $1; $res_y = $2; $size_x = $3; $size_y = $4; # flip size x,y if don't roughly match res x/y ratio if ($size_x && $size_y && $res_y){ flip_size_x_y(\$size_x,\$size_y,\$res_x,\$res_y); } $size_x_i = ($size_x) ? sprintf("%.2f", ($size_x/25.4)) : 0; $size_y_i = ($size_y) ? sprintf("%.2f", ($size_y/25.4)) : 0; $dpi = ($res_x && $size_x) ? sprintf("%.0f", ($res_x*25.4/$size_x)) : ''; $diagonal = ($size_x && $size_y) ? sprintf("%.2f", (sqrt($size_x**2 + $size_y**2)/25.4)) + 0 : ''; $diagonal_m = ($size_x && $size_y) ? sprintf("%.0f", (sqrt($size_x**2 + $size_y**2))) : ''; } push(@{$graphics{'screens'}}, { 'diagonal' => $diagonal, 'diagonal-m' => $diagonal_m, 'res-x' => $res_x, 'res-y' => $res_y, 'screen' => $screen_id, 's-dpi' => $dpi, 'size-x' => $size_x, 'size-x-i' => $size_x_i, 'size-y' => $size_y, 'size-y-i' => $size_y_i, 'source' => 'xdpyinfo', }); } } print 'Data: xdpyinfo: ', Data::Dumper::Dumper $graphics{'screens'} if $dbg[17]; main::log_data('dump','$graphics{screens}',$graphics{'screens'}) if $b_log; eval $end if $b_log; } sub xrandr_data { eval $end if $b_log; my ($program) = @_; my ($diagonal,$diagonal_m,$dpi,$monitor_id,$pos_x,$pos_y,$primary); my ($res_x,$res_x_max,$res_y,$res_y_max); my ($screen_id,$set_as,$size_x,$size_x_i,$size_y,$size_y_i); my (@ids,%monitors,@xrandr_screens,$xrandr); if (!$fake{'xrandr'}){ $xrandr = main::grabber("$program $display_opt 2>/dev/null",'','strip','ref'); } else { # my $file; # $file = ""$ENV{HOME}/bin/scripts/inxi/data/xrandr/xrandr-4-displays-1.txt"; # $file = "$ENV{HOME}/bin/scripts/inxi/data/xrandr/xrandr-3-display-primary-issue.txt"; # $file = "$ENV{HOME}/bin/scripts/inxi/data/xrandr/xrandr-test-1.txt"; # $file = "$ENV{HOME}/bin/scripts/inxi/data/xrandr/xrandr-test-2.txt"; # $file = "$ENV{HOME}/bin/scripts/inxi/data/xrandr/xrandr-1-screen-2-in-inxi.txt"; # $xrandr = main::reader($file,'strip','ref'); } # $graphics{'dimensions'} = (\@dimensions); # we get a bit more info from xrandr than xdpyinfo, but xrandr fails to handle # multiple screens from different video cards # $graphics{'screens'} = undef; foreach (@$xrandr){ # note: no mm as with xdpyinfo # Screen 0: minimum 320 x 200, current 2560 x 1024, maximum 8192 x 8192 if (/^Screen ([0-9]+):/){ $screen_id = $1; # handle no xdpyinfo Screen data, multiple xscreens, etc if (check_screens($screen_id) && /:\s.*?current\s+(\d+)\s*x\s*(\d+),\smaximum\s+(\d+)\s*x\s*(\d+)/){ $res_x = $1; $res_y = $2; $res_x_max = $3; $res_y_max = $4; push(@{$graphics{'screens'}}, { 'diagonal' => undef, 'diagonal-m' => undef, 'res-x' => $res_x, 'res-y' => $res_y, 'screen' => $screen_id, 's-dpi' => undef, 'size-x' => undef, 'size-x-i' => undef, 'size-y' => undef, 'size-y-i' => undef, 'source' => 'xrandr', }); } if (%monitors){ push(@xrandr_screens,{%monitors}); %monitors = (); } } # HDMI-2 connected 1920x1200+1080+0 (normal left inverted right x axis y axis) 519mm x 324mm # DP-1 connected primary 2560x1440+1080+1200 (normal left inverted right x axis y axis) 598mm x 336mm # HDMI-1 connected 1080x1920+0+0 left (normal left inverted right x axis y axis) 160mm x 90mm # disabled but connected: VGA-1 connected (normal left inverted right x axis y axis) elsif (/^([^\s]+)\s+connected\s(primary\s)?/){ $monitor_id = $1; $set_as = $2; if (/^[^\s]+\s+connected\s(primary\s)?([0-9]+)\s*x\s*([0-9]+)\+([0-9]+)\+([0-9]+)(\s[^(]*\([^)]+\))?(\s([0-9]+)mm\sx\s([0-9]+)mm)?/){ $res_x = $2; $res_y = $3; $pos_x = $4; $pos_y = $5; $size_x = $8; $size_y = $9; # flip size x,y if don't roughly match res x/y ratio if ($size_x && $size_y && $res_y){ flip_size_x_y(\$size_x,\$size_y,\$res_x,\$res_y); } $size_x_i = ($size_x) ? sprintf("%.2f", ($size_x/25.4)) + 0 : 0; $size_y_i = ($size_y) ? sprintf("%.2f", ($size_y/25.4)) + 0 : 0; $dpi = ($res_x && $size_x) ? sprintf("%.0f", $res_x * 25.4 / $size_x) : ''; $diagonal = ($res_x && $size_x) ? sprintf("%.2f", (sqrt($size_x**2 + $size_y**2)/25.4)) + 0 : ''; $diagonal_m = ($res_x && $size_x) ? sprintf("%.0f", (sqrt($size_x**2 + $size_y**2))) : ''; } else { ($res_x,$res_y,$pos_x,$pos_y,$size_x,$size_x_i,$size_y,$size_y_i,$dpi,$diagonal,$diagonal_m) = () } undef $primary; push(@ids,$monitor_id); if ($set_as){ $primary = $monitor_id; $set_as =~ s/\s$//; $b_primary = 1; } $monitors{$monitor_id} = { 'screen' => $screen_id, 'monitor' => $monitor_id, 'pos-x' => $pos_x, 'pos-y' => $pos_y, 'primary' => $primary, 'res-x' => $res_x, 'res-y' => $res_y, 'size-x' => $size_x, 'size-x-i' => $size_x_i, 'size-y' => $size_y, 'size-y-i' => $size_y_i, 'dpi' => $dpi, 'diagonal' => $diagonal, 'diagonal-m' => $diagonal_m, 'position' => $set_as, }; # print "x:$size_x y:$size_y rx:$res_x ry:$res_y dpi:$dpi\n"; ($res_x,$res_y,$size_x,$size_x_i,$size_y,$size_y_i,$set_as) = (0,0,0,0,0,0,0,0,undef); } my @working = split(/\s+/,$_); # this is the monitor current dimensions # 5120x1440 59.98* 29.98 if ($working[1] =~ /\*/){ $working[1] =~ s/\*|\+//g; $working[1] = sprintf("%.0f",$working[1]); if ($monitor_id && %monitors){ $monitors{$monitor_id}->{'hz'} = $working[1]; } ($diagonal,$dpi) = ('',''); # print Data::Dumper::Dumper \@monitors; } } if (%monitors){ push(@xrandr_screens,{%monitors}); } my $i = 0; my $layouts; # corner cases, xrandr screens > xdpyinfo screen, no xdpyinfo counts if ($graphics{'screens'} && (!defined $graphics{'display-screens'} || $graphics{'display-screens'} < scalar @{$graphics{'screens'}})){ $graphics{'display-screens'} = scalar @{$graphics{'screens'}}; } map_monitor_ids(\@ids) if @ids; # print "xrandr_screens 1: " . Data::Dumper::Dumper \@xrandr_screens; foreach my $main (@{$graphics{'screens'}}){ # print "h: " . Data::Dumper::Dumper $main; # print "h: " . Data::Dumper::Dumper @xrandr_screens; # print $main->{'screen'}, "\n"; foreach my $x_screen (@xrandr_screens){ # print "d: " . Data::Dumper::Dumper $x_screen; my @keys = sort keys %$x_screen; if ($x_screen->{$keys[0]}{'screen'} eq $main->{'screen'} && !defined $graphics{'screens'}->[$i]{'monitors'}){ $graphics{'screens'}->[$i]{'monitors'} = $x_screen; } if ($extra > 1){ if (!$layouts){ $layouts = []; set_monitor_layouts($layouts); } advanced_monitor_data($x_screen,$layouts); } if (!defined $main->{'size-x'}){ $graphics{'screens'}->[$i]{'size-missing'} = main::message('tool-missing-basic','xdpyinfo'); } } $i++; } undef $layouts; # print "xrandr_screens 2: " . Data::Dumper::Dumper \@xrandr_screens; print 'Data: xrandr: ', Data::Dumper::Dumper $graphics{'screens'} if $dbg[17]; main::log_data('dump','$graphics{screens}',$graphics{'screens'}) if $b_log; eval $end if $b_log; } # Handle some strange corner cases with more robust testing sub check_screens { my ($id) = @_; my $b_use; # used: scalar @{$graphics{'screens'}} != (scalar @$xrandr_screens + 1) # before but that test can fail in some cases. # no screens set in xdpyinfo. If xrandr has > 1 xscreen, this would be false if (!$graphics{'screens'}){ $b_use = 1; } # verify that any xscreen set so far does not exist in $graphics{'screens'} else { my $b_detected; foreach my $screen (@{$graphics{'screens'}}){ if ($screen->{'screen'} eq $id){ $b_detected = 1; last; } } $b_use = 1 if !$b_detected; } return $b_use; } # Case where no xpdyinfo display server/version data exists, or to set Wayland # Xwayland version, or Xvesa data. sub display_server_data { eval $start if $b_log; my ($program); # load the extra X paths, it's important that these are first, because # later Xorg versions show error if run in console or ssh if the true path # is not used. @paths = (qw(/usr/lib /usr/lib/xorg /usr/lib/xorg-server /usr/libexec), @paths); my (@data,$server,$version); if (!$graphics{'x-server'} || !$graphics{'x-server'}->[0][1]){ # IMPORTANT: both commands send version data to stderr! if ($program = main::check_program('Xorg')){ @data = main::grabber("$program -version 2>&1",'','strip'); $server = 'X.org'; } elsif ($program = main::check_program('X')){ @data = main::grabber("$program -version 2>&1",'','strip'); $server = 'X.org'; } elsif ($program = main::check_program('Xvesa')){ @data = main::grabber("$program -version 2>&1",'','strip'); $server = 'Xvesa'; $graphics{'display-driver'} = ['vesa']; $graphics{'xvesa'} = $program; if (!$graphics{'screens'}){ $graphics{'no-screens'} = main::message('screen-xvesa'); } } # print join('^ ', @paths), " :: $program\n"; # print Data::Dumper::Dumper \@data; if ($data[0]){ if ($data[0] =~ /X.org X server (\S+)/i){ $version = $1; } elsif ($data[0] =~ /XFree86 Version (\S+)/i){ $version = $1; $server = 'XFree86'; } elsif ($data[0] =~ /X Window System Version (\S+)/i){ $version = $1; } elsif ($data[0] =~ /Xvesa from tinyx (\S+)/i){ $version = $1; $server = 'TinyX Xvesa'; } } $graphics{'x-server'} = [[$server,$version]] if $server; } if ($program = main::check_program('Xwayland')){ undef $version; @data = main::grabber("$program -version 2>&1",'','strip'); # Slackware Linux Project Xwayland Version 21.1.4 (12101004) # The X.Org Foundation Xwayland Version 21.1.4 (12101004) if (@data){ $data[0] =~ /Xwayland Version (\S+)/; $version = $1; } $graphics{'x-server'} = [] if !$graphics{'x-server'}; push(@{$graphics{'x-server'}},['Xwayland',$version]); } # remove extra X paths from global @paths @paths = grep { !/^\/usr\/lib|xorg|libexec/ } @paths; eval $end if $b_log; } sub display_protocol { eval $start if $b_log; $graphics{'protocol'} = ''; if ($ENV{'XDG_SESSION_TYPE'}){ $graphics{'protocol'} = $ENV{'XDG_SESSION_TYPE'}; } if (!$graphics{'protocol'} && $ENV{'WAYLAND_DISPLAY'}){ $graphics{'protocol'} = $ENV{'WAYLAND_DISPLAY'}; } # can show as wayland-0 if ($graphics{'protocol'} && $graphics{'protocol'} =~ /wayland/i){ $graphics{'protocol'} = 'wayland'; } # yes, I've seen this in 2019 distros, sigh elsif ($graphics{'protocol'} eq 'tty'){ $graphics{'protocol'} = ''; } # If no other source, get user session id, then grab session type. # loginctl also results in the session id # undef $graphics{'protocol'}; if (!$graphics{'protocol'}){ if (my $program = main::check_program('loginctl')){ my $id = ''; # $id = $ENV{'XDG_SESSION_ID'}; # returns tty session in console my @data = main::grabber("$program --no-pager --no-legend 2>/dev/null",'','strip'); foreach (@data){ # some systems show empty or ??? for TTY field, but whoami should do ok next if /(ttyv?\d|pts\/)/; # freebsd: ttyv3 # in display, root doesn't show in the logins next if $client{'whoami'} && $client{'whoami'} ne 'root' && !/\b$client{'whoami'}\b/; $id = (split(/\s+/, $_))[0]; # multiuser? too bad, we'll go for the first one that isn't a tty/pts last; } if ($id){ my $temp = (main::grabber("$program show-session $id -p Type --no-pager --no-legend 2>/dev/null"))[0]; $temp =~ s/Type=// if $temp; # ssh will not show /dev/ttyx so would have passed the first test $graphics{'protocol'} = $temp if $temp && $temp ne 'tty'; } } } $graphics{'protocol'} = lc($graphics{'protocol'}) if $graphics{'protocol'}; eval $end if $b_log; } ## DRIVER DATA ## # for wayland display/monitor drivers, or if no display drivers found for x sub gpu_drivers_sys { eval $start if $b_log; my ($id) = @_; my ($driver); my $drivers = []; # we only want list of drivers for cards with a connected monitor, and inactive # ports are already removed by the 'all' stage. foreach my $port (keys %{$monitor_ids}){ if (!$monitor_ids->{$port}{'drivers'} || ($id ne 'all' && $id ne $port) || !$monitor_ids->{$port}{'status'} || $monitor_ids->{$port}{'status'} ne 'connected'){ next; } else { foreach $driver (@{$monitor_ids->{$port}{'drivers'}}){ push(@$drivers,$driver); } } } if (@$drivers){ @$drivers = sort(@$drivers); main::uniq($drivers); } eval $end if $b_log; return $drivers; } sub display_drivers_x { eval $start if $b_log; my $driver_data = []; # print 'x-log: ' . $system_files{'xorg-log'} . "\n"; if (my $log = $system_files{'xorg-log'}){ if ($fake{'xorg-log'}){ # $log = "$ENV{HOME}/bin/scripts/inxi/data/xorg-logs/Xorg.0-voyager-serena.log"; # $log = "$ENV{HOME}/bin/scripts/inxi/data/xorg-logs/loading-unload-failed-all41-mint.txt"; # $log = "$ENV{HOME}/bin/scripts/inxi/data/xorg-logs/loading-unload-failed-phd21-mint.txt"; # $log = "$ENV{HOME}/bin/scripts/inxi/data/xorg-logs/Xorg.0-gm10.log"; # $log = "$ENV{HOME}/bin/scripts/inxi/data/xorg-logs/xorg-multi-driver-1.log"; } my $x_log = main::reader($log,'','ref'); # list is from sgfxi plus non-free drivers, plus ARM drivers. # Don't use ati. It's just a wrapper for: r128, mach64, radeon my $list = join('|', qw(amdgpu apm ark armsoc atimisc chips cirrus cyrix etnaviv fbdev fbturbo fglrx geode glide glint i128 i740 i810-dec100 i810e i810 i815 i830 i845 i855 i865 i915 i945 i965 iftv imstt intel ivtv mach64 mesa mga m68k modesetting neomagic newport nouveau nsc nvidia nv openchrome r128 radeonhd radeon rendition s3virge s3 savage siliconmotion sisimedia sisusb sis sunbw2 suncg14 suncg3 suncg6 sunffb sunleo suntcx tdfx tga trident tseng unichrome v4l vboxvideo vesa vga via vmware vmwgfx voodoo)); # $list = qr/$list/i; # qr/../i only added perl 5.14, fails on older perls my ($b_use_dri,$dri,$driver,%drivers); my ($alternate,$failed,$loaded,$unloaded); my $pattern = 'Failed|Unload|Loading'; # preferred source xdriinfo because it's current and accurate, but fallback here if (!$graphics{'dri-drivers'}){ $b_use_dri = 1; $pattern .= '|DRI driver:'; } # $pattern = qr/$pattern/i; # qr/../i only added perl 5.14, fails on older perls # it's much cheaper to grab the simple pattern match then do the expensive one # in the main loop. # @$x_log = grep {/Failed|Unload|Loading/} @$x_log; foreach my $line (@$x_log){ next if $line !~ /$pattern/i; # print "$line\n"; # note that in file names, driver is always lower case. Legacy _drv.o if ($line =~ /\sLoading.*($list)_drv\.s?o$/i){ $driver=lc($1); # we get all the actually loaded drivers first, we will use this to compare the # failed/unloaded, which have not always actually been truly loaded $drivers{$driver}='loaded'; } # openbsd uses UnloadModule: elsif ($line =~ /(Unloading\s|UnloadModule).*\"?($list)(_drv\.s?o)?\"?$/i){ $driver=lc($2); # we get all the actually loaded drivers first, we will use this to compare the # failed/unloaded, which have not always actually been truly loaded if (exists $drivers{$driver} && $drivers{$driver} ne 'alternate'){ $drivers{$driver}='unloaded'; } } # verify that the driver actually started the desktop, even with false failed messages # which can occur. This is the driver that is actually driving the display. # note that xorg will often load several modules, like modesetting,fbdev,nouveau # NOTE: # (II) UnloadModule: "nouveau" # (II) Unloading nouveau # (II) Failed to load module "nouveau" (already loaded, 0) # (II) LoadModule: "modesetting" elsif ($line =~ /Failed.*($list)\"?.*$/i){ # Set driver to lower case because sometimes it will show as # RADEON or NVIDIA in the actual x start $driver=lc($1); # we need to make sure that the driver has already been truly loaded, # not just discussed if (exists $drivers{$driver} && $drivers{$driver} ne 'alternate'){ if ($line !~ /\(already loaded/){ $drivers{$driver}='failed'; } # reset the previous line's 'unloaded' to 'loaded' as well else { $drivers{$driver}='loaded'; } } elsif ($line =~ /module does not exist/){ $drivers{$driver}='alternate'; } } elsif ($b_use_dri && $line =~ /DRI driver:\s*(\S+)/i){ $dri = $1; if (!$graphics{'dri-drivers'} || !(grep {$dri eq $_} @{$graphics{'dri-drivers'}})){ push(@{$graphics{'dri-drivers'}},$dri); } } } # print 'drivers: ', Data::Dumper::Dumper \%drivers; foreach (sort keys %drivers){ if ($drivers{$_} eq 'loaded'){ push(@$loaded,$_); } elsif ($drivers{$_} eq 'unloaded'){ push(@$unloaded,$_); } elsif ($drivers{$_} eq 'failed'){ push(@$failed,$_); } elsif ($drivers{$_} eq 'alternate'){ push(@$alternate,$_); } } if ($loaded || $unloaded || $failed || $alternate){ $driver_data = [$loaded,$unloaded,$failed,$alternate]; } } eval $end if $b_log; # print 'source: ', Data::Dumper::Dumper $driver_data; return $driver_data; } sub set_mesa_drivers { %mesa_drivers = ( 'anv' => 'intel', 'crocus' => 'intel', 'etnaviv' => 'vivante', 'freedreno' => 'qualcomm', 'i915' => 'intel', 'i965' => 'intel', 'iris' => 'intel', 'lima' => 'mali', 'nouveau' => 'nvidia', 'panfrost' => 'mali/bifrost', 'r200' => 'amd', 'r300' => 'amd', 'r600' => 'amd', 'radeonsi' => 'amd', 'radv' => 'amd', 'svga3d' => 'vmware', 'v3d' => 'broadcom', 'v3dv' => 'broadcom', 'vc4' => 'broadcom', ); } ## GPU DATA ## sub set_amd_data { $gpu_amd = [ # no ids {'arch' => 'Wonder', 'ids' => '', 'code' => 'Wonder', 'process' => 'NEC 800nm', 'years' => '1986-92', }, {'arch' => 'Mach', 'ids' => '4158|4354|4358|4554|4654|4754|4755|4758|4c42|4c49|4c50|4c54|5354|' . '5654|5655|5656', 'code' => 'Mach64', 'process' => 'TSMC 500-600nm', 'years' => '1992-97', }, {'arch' => 'Rage-2', 'ids' => '4756|4757|4759|475a|4c47', 'code' => 'Rage-2', 'process' => 'TSMC 500nm', 'years' => '1996', }, {'arch' => 'Rage-3', 'ids' => '4742|4744|4749|474d|474f|4750|4752', 'code' => 'Rage-3', 'process' => 'TSMC 350nm', 'years' => '1997-99', }, {'arch' => 'Rage-4', 'ids' => '474e|4753|4c46|4c4d|4c4e|4c52|4d46|5044|5046|5050|5052|5245|5246|' . '524b|524c|534d|5446|5452', 'code' => 'Rage-4', 'process' => 'TSMC 250-350nm', 'years' => '1998-99', }, # vendor 1014 IBM, subvendor: 1092 # 0172|0173|0174|0184 # {'arch' => 'IBM', # 'code' => 'Fire GL', # 'process' => 'IBM 156-250nm', # 'years' => '1999-2001', # }, # rage 5 was game cube flipper chip # rage 5 was game cube flipper chip 2000 {'arch' => 'Rage-6', 'ids' => '4137|4337|4437|4c59|5144|5159|515e', 'code' => 'R100', 'process' => 'TSMC 180nm', 'years' => '2000-07', }, # |Radeon (7[3-9]{2}|8d{3}|9[5-9]d{2} {'arch' => 'Rage-7', 'ids' => '4136|4150|4152|4170|4172|4242|4336|4966|496e|4c57|4c58|4c66|4c6e|' . '4e51|4f72|4f73|5148|514c|514d|5157|5834|5835|5940|5941|5944|5960|5961|5962|' . '5964|5965|5b63|5b72|5b73|5c61|5c63|5d44|5d45|7100|7101|7102|7109|710a|710b|' . '7120|7129|7140|7142|7143|7145|7146|7147|7149|714a|715f|7162|7163|7166|7167|' . '7181|7183|7186|7187|718b|718c|718d|7193|7196|719f|71a0|71a1|71a3|71a7|71c0|' . '71c1|71c2|71c3|71c5|71c6|71c7|71ce|71d5|71d6|71de|71e0|71e1|71e2|71e6|71e7|' . '7240|7244|7248|7249|724b|7269|726b|7280|7288|7291|7293|72a0|72a8|72b1|72b3|' . '7834|7835|791e', 'code' => 'R200', 'process' => 'TSMC 150nm', 'years' => '2001-06', }, {'arch' => 'Rage-8', 'ids' => '4144|4146|4147|4148|4151|4153|4154|4155|4157|4164|4165|4166|4168|' . '4171|4173|4e44|4e45|4e46|4e47|4e48|4e49|4e4b|4e50|4e52|4e54|4e64|4e65|4e66|' . '4e67|4e68|4e69|4e6a|4e71|5a41|5a42|5a61|5a62', 'code' => 'R300', 'process' => 'TSMC 130nm', 'years' => '2002-07', }, {'arch' => 'Rage-9', 'ids' => '3150|3151|3152|3154|3155|3171|3e50|3e54|3e70|4e4a|4e56|5460|5461|' . '5462|5464|5657|5854|5874|5954|5955|5974|5975|5b60|5b62|5b64|5b65|5b66|5b70|' . '5b74|5b75', 'code' => 'Radeon IGP', 'process' => 'TSMC 110nm', 'years' => '2003-08', }, {'arch' => 'R400', 'ids' => '4a49|4a4a|4a4b|4a4d|4a4e|4a4f|4a50|4a54|4a69|4a6a|4a6b|4a70|4a74|' . '4b49|4b4b|4b4c|4b69|4b6b|4b6c|5549|554a|554b|554d|554e|554f|5550|5551|5569|' . '556b|556d|556f|5571|564b|564f|5652|5653|5d48|5d49|5d4a|5d4d|5d4e|5d4f|5d50|' . '5d52|5d57|5d6d|5d6f|5d72|5d77|5e48|5e49|5e4a|5e4b|5e4c|5e4d|5e4f|5e6b|5e6d|' . '5f57|791f|793f|7941|7942|796e', 'code' => 'R400', 'process' => 'TSMC 55-130nm', 'years' => '2004-08', }, {'arch' => 'R500', 'ids' => '7104|710e|710f|7124|712e|712f|7152|7153|7172|7173|7188|718a|719b|' . '71bb|71c4|71d2|71d4|71f2|7210|7211|724e|726e|940f|94c8|94c9|9511|9581|9583|' . '958b|958d', 'code' => 'R500', 'process' => 'TSMC 90nm', 'years' => '2005-07', }, # process: tsmc 55nm, 65nm, xbox 360s at 40nm {'arch' => 'TeraScale', 'ids' => '4346|4630|4631|9400|9401|9403|9405|940a|940b|9440|9441|9442|9443|' . '9444|9446|944a|944b|944c|944e|9450|9452|9456|945a|9460|9462|946a|9480|9488|' . '9489|9490|9491|9495|9498|949c|949e|949f|94a0|94a1|94a3|94b3|94b4|94c1|94c3|' . '94c4|94c5|94c7|94cb|94cc|9500|9501|9504|9505|9506|9507|9508|9509|950f|9513|' . '9515|9519|9540|954f|9552|9553|9555|9557|955f|9580|9586|9587|9588|9589|958a|' . '958c|9591|9593|9595|9596|9597|9598|9599|95c0|95c2|95c4|95c5|95c6|95c9|95cc|' . '95cd|95cf|9610|9611|9612|9613|9614|9615|9616|9710|9712|9713|9714|9715', 'code' => 'R6xx/RV6xx/RV7xx', 'process' => 'TSMC 55-65nm', 'years' => '2005-13', }, {'arch' => 'TeraScale-2', 'ids' => '6720|6738|6739|673e|6740|6741|6742|6743|6749|674a|6750|6751|6758|' . '6759|675b|675d|675f|6760|6761|6763|6764|6765|6766|6767|6768|6770|6771|6772|' . '6778|6779|677b|6840|6841|6842|6843|6880|6888|6889|688a|688c|688d|6898|6899|' . '689b|689c|689d|689e|68a0|68a1|68a8|68a9|68b8|68b9|68ba|68be|68bf|68c0|68c1|' . '68c7|68c8|68c9|68d8|68d9|68da|68de|68e0|68e1|68e4|68e5|68e8|68e9|68f1|68f2|' . '68f8|68f9|68fa|68fe|9640|9641|9642|9643|9644|9645|9647|9648|9649|964a|964b|' . '964c|964e|964f|9802|9803|9804|9805|9806|9807|9808|9809|980a|9925|9926', 'code' => 'Evergreen', 'process' => 'TSMC 32-40nm', 'years' => '2009-15', }, {'arch' => 'TeraScale-3', 'ids' => '6704|6707|6718|6719|671c|671d|671f|9900|9901|9903|9904|9905|9906|' . '9907|9908|9909|990a|990b|990c|990d|990e|990f|9910|9913|9917|9918|9919|9990|' . '9991|9992|9993|9994|9995|9996|9997|9998|9999|999a|999b|999c|999d|99a0|99a2|' . '99a4', 'code' => 'Northern Islands', 'process' => 'TSMC 32nm', 'years' => '2010-13', }, {'arch' => 'GCN-1', 'ids' => '154c|6600|6601|6604|6605|6606|6607|6608|6609|6610|6611|6613|6617|' . '6631|6660|6663|6664|6665|6666|6667|666f|6780|6784|6788|678a|6798|6799|679a|' . '679b|679e|679f|6800|6801|6802|6806|6808|6809|6810|6811|6816|6817|6818|6819|' . '6820|6821|6822|6823|6825|6826|6827|6828|6829|682a|682b|682c|682d|682f|6830|' . '6831|6835|6837|683d|683f|684c', 'code' => 'Southern Islands', 'process' => 'TSMC 28nm', 'years' => '2011-20', }, # process: both TSMC and GlobalFoundries {'arch' => 'GCN-2', 'ids' => '1304|1305|1306|1307|1309|130a|130b|130c|130d|130e|130f|1310|1311|' . '1312|1313|1315|1316|1317|1318|131b|131c|131d|6640|6641|6646|6647|6649|664d|' . '6650|6651|6658|665c|665d|665f|67a0|67a1|67a2|67a8|67a9|67aa|67b0|67b1|67b8|' . '67b9|67be|9830|9831|9832|9833|9834|9835|9836|9837|9838|9839|983d|9850|9851|' . '9852|9853|9854|9855|9856|9857|9858|9859|985a|985b|985c|985d|985e|985f|991e|' . '9920|9922', 'code' => 'Sea Islands', 'process' => 'GF/TSMC 16-28nm', 'years' => '2013-17', }, {'arch' => 'GCN-3', 'ids' => '6900|6901|6902|6907|6920|6921|6929|692b|692f|6930|6938|6939|693b|' . '7300|730f|9874|98c0|98e4', 'code' => 'Volcanic Islands', 'process' => 'TSMC 28nm', 'years' => '2014-19', }, {'arch' => 'GCN-4', 'ids' => '154e|1551|1552|1561|67c0|67c1|67c2|67c4|67c7|67ca|67cc|67cf|67d0|' . '67d4|67d7|67df|67e0|67e1|67e3|67e8|67e9|67eb|67ef|67ff|694c|694e|694f|6980|' . '6981|6984|6985|6986|6987|698f|6995|6997|699f|6fdf|9924|9925', 'code' => 'Arctic Islands', 'process' => 'GF 14nm', 'years' => '2016-20', }, {'arch' => 'GCN-5.1', 'ids' => '15d8|15dd|15df|15e7|1636|1638|164c|66a0|66a1|66a2|66a3|66a7|66af|' . '69af', 'code' => 'Vega-2', 'process' => 'TSMC n7 (7nm)', 'years' => '2018-22+', }, {'arch' => 'GCN-5', 'ids' => '15d8|15d9|15dd|15e7|15ff|1636|1638|164c|66a0|66a1|66a2|66a3|66a4|' . '66a7|66af|6860|6861|6862|6863|6864|6867|6868|6869|686a|686b|686c|686d|686e|' . '687f|69a0|69a1|69a2|69a3|69af', 'code' => 'Vega', 'process' => 'GF 14nm', 'years' => '2017-20', }, {'arch' => 'RDNA-1', 'ids' => '13e9|13f9|13fe|1478|1479|1607|7310|7312|7318|7319|731a|731b|731e|' . '731f|7340|7341|7343|7347|734f|7360|7362', 'code' => 'Navi-1x', 'process' => 'TSMC n7 (7nm)', 'years' => '2019-20', }, {'arch' => 'RDNA-2', 'ids' => '1506|163f|164d|164e|1681|73a0|73a1|73a2|73a3|73a5|73ab|73ae|73af|' . '73bf|73c0|73c1|73c3|73ce|73df|73e0|73e1|73e3|73ef|73ff|7420|7421|7422|7423|' . '7424|743f', 'code' => 'Navi-2x', 'process' => 'TSMC n7 (7nm)', 'years' => '2020-22', }, {'arch' => 'RDNA-3', 'ids' => '73a8|73c4|73c5|73c8|7448|744c|745e|7460|7461|7470|7478|747e', 'code' => 'Navi-3x', 'process' => 'TSMC n5 (5nm)', 'years' => '2022+', }, {'arch' => 'RDNA-3', 'ids' => '73f0|7480|7481|7483|7487|7489|748b|749f', 'code' => 'Navi-33', 'process' => 'TSMC n6 (6nm)', 'years' => '2023+', }, {'arch' => 'RDNA-3', 'ids' => '15bf|15c8|164f|1900|1901', 'code' => 'Phoenix', 'process' => 'TSMC n4 (4nm)', 'years' => '2023+', }, {'arch' => 'CDNA-1', 'ids' => '7388|738c|738e', 'code' => 'Instinct-MI1xx', 'process' => 'TSMC n7 (7nm)', 'years' => '2020', }, {'arch' => 'CDNA-2', 'ids' => '7408|740c|740f', 'code' => 'Instinct-MI2xx', 'process' => 'TSMC n6 (6nm)', 'years' => '2021-22+', }, {'arch' => 'CDNA-3', 'ids' => '', 'code' => 'Instinct-MI3xx', 'pattern' => 'Instinct MI3\d{2}X?', 'process' => 'TSMC n5 (5nm)', 'years' => '2023+', }, ]; } sub set_intel_data { $gpu_intel = [ {'arch' => 'Gen-1', 'ids' => '1132|7120|7121|7122|7123|7124|7125|7126|7128|712a', 'code' => '', 'process' => 'Intel 150nm', 'years' => '1998-2002', }, # ill-fated standalone gfx card {'arch' => 'i740', 'ids' => '7800', 'code' => '', 'process' => 'Intel 150nm', 'years' => '1998', }, {'arch' => 'Gen-2', 'ids' => '2562|2572|3577|3582|358e', 'code' => '', 'process' => 'Intel 130nm', 'years' => '2002-03', }, {'arch' => 'Gen-3', 'ids' => '2582|2592|2780|2782|2792', 'code' => 'Intel 130nm', 'process' => '', 'years' => '2004-05', }, {'arch' => 'Gen-3.5', 'ids' => '2772|2776|27a2|27a6|27ae|2972|2973', 'code' => '', 'process' => 'Intel 90nm', 'years' => '2005-06', }, {'arch' => 'Gen-4', 'ids' => '2982|2983|2992|2993|29a2|29a3|29b2|29b3|29c2|29c3|29d2|29d3|2a02|' . '2a03|2a12|2a13', 'code' => '', 'process' => 'Intel 65n', 'years' => '2006-07', }, {'arch' => 'PowerVR SGX535', 'ids' => '4100|8108|8109|a001|a002|a011|a012', 'code' => '', 'process' => 'Intel 45-130nm', 'year' => '2008-10', }, {'arch' => 'Gen-5', 'ids' => '2a41|2a42|2a43|2e02|2e03|2e12|2e13|2e22|2e23|2e32|2e33|2e42|2e43|' . '2e92|2e93', 'code' => '', 'process' => 'Intel 45nm', 'years' => '2008', }, {'arch' => 'PowerVR SGX545', 'ids' => '0be0|0be1|0be2|0be3|0be4|0be5|0be6|0be7|0be8|0be9|0bea|0beb|0bec|' . '0bed|0bee|0bef', 'code' => '', 'process' => 'Intel 65nm', 'years' => '2008-10', }, {'arch' => 'Gen-5.75', 'ids' => '0042|0046|004a|0402|0412|0416', 'code' => '', 'process' => 'Intel 45nm', 'years' => '2010', }, {'arch' => 'Knights', 'ids' => '', 'code' => '', 'process' => 'Intel 22nm', 'years' => '2012-13', }, {'arch' => 'Gen-6', 'ids' => '0102|0106|010a|010b|010e|0112|0116|0122|0126|08cf', 'code' => 'Sandybridge', 'process' => 'Intel 32nm', 'years' => '2011', }, {'arch' => 'Gen-7.5', 'ids' => '0402|0406|040a|040b|040e|0412|0416|041a|041b|041e|0422|0426|042a|' . '042b|042e|0a02|0a06|0a0a|0a0b|0a0e|0a12|0a16|0a1a|0a1b|0a1e|0a22|0a26|0a2a|' . '0a2b|0a2e|0c02|0c06|0c0a|0c0b|0c0e|0c12|0c16|0c1a|0c1b|0c1e|0c22|0c26|0c2a|' . '0c2b|0c2e|0d02|0d06|0d0a|0d0b|0d0e|0d12|0d16|0d1a|0d1b|0d1e|0d22|0d26|0d2a|' . '0d2b|0d2e', 'code' => '', 'process' => 'Intel 22nm', 'years' => '2013', }, {'arch' => 'Gen-7', 'ids' => '0152|0155|0156|0157|015a|015e|0162|0166|016a|0172|0176|0f31|0f32|' . '0f33', 'code' => '', 'process' => 'Intel 22nm', 'years' => '2012-13', }, {'arch' => 'Gen-8', 'ids' => '1602|1606|160a|160b|160d|160e|1612|1616|161a|161b|161d|161e|1622|' . '1626|162a|162b|162d|162e|1632|1636|163a|163b|163d|163e|22b0|22b1|22b2|22b3', 'code' => '', 'process' => 'Intel 14nm', 'years' => '2014-15', }, {'arch' => 'Gen-9.5', 'ids' => '3184|3185|3e90|3e91|3e92|3e93|3e94|3e96|3e98|3e99|3e9a|3e9b|3e9c|' . '3ea0|3ea1|3ea2|3ea3|3ea4|3ea5|3ea6|3ea7|3ea8|3ea9|5902|5906|5908|590a|590b|' . '590e|5912|5913|5915|5916|5917|591a|591b|591c|591d|591e|5921|5923|5926|5927|' . '593b|87c0|87ca|9b21|9b41|9ba0|9ba2|9ba4|9ba5|9ba8|9baa|9bab|9bac|9bc0|9bc2|' . '9bc4|9bc5|9bc6|9bc8|9bca|9bcb|9bcc|9be6|9bf6', 'code' => '', 'process' => 'Intel 14nm', 'years' => '2016-20', }, {'arch' => 'Gen-9', 'ids' => '0a84|1902|1906|190a|190b|190e|1912|1913|1915|1916|1917|191a|191b|' . '191d|191e|1921|1923|1926|1927|192a|192b|192d|1932|193a|193b|193d|1a84|1a85|' . '5a84|5a85', 'code' => '', 'process' => 'Intel 14n', 'years' => '2015-16', }, # gen10 was cancelled., {'arch' => 'Gen-11', 'ids' => '0d16|0d26|0d36|4541|4551|4555|4557|4571|4e51|4e55|4e57|4e61|4e71|' . '8a50|8a51|8a52|8a53|8a54|8a56|8a57|8a58|8a59|8a5a|8a5b|8a5c|8a5d|8a70|8a71|' . '9840|9841', 'code' => '', 'process' => 'Intel 10nm', 'years' => '2019-21', }, {'arch' => 'Gen-12.1', 'ids' => '4905|4907|4908|4c80|4c8a|4c8b|4c8c|4c90|4c9a|9a40|9a49|9a59|9a60|' . '9a68|9a70|9a78|9ac0|9ac9|9ad9|9af8', 'code' => '', 'process' => 'Intel 10nm', 'years' => '2020-21', }, {'arch' => 'Gen-12.2', 'ids' => '4626|4628|462a|4636|4638|463a|4682|4688|468a|468b|4690|4692|4693|' . '46a3|46a6|46a8|46aa|46b0|46b1|46b3|46b6|46b8|46ba|46c1|46c3|46d0|46d1|46d2', 'code' => '', 'process' => 'Intel 10nm', 'years' => '2021-22+', }, {'arch' => 'Gen-12.5', 'ids' => '0bd0|0bd5|0bd6|0bd7|0bd9|0bda|0bdb', 'code' => '', 'process' => 'Intel 10nm', 'years' => '2021-23+', }, # Jupiter Sound cancelled? {'arch' => 'Gen-12.7', 'ids' => '5690|5691|5692|5693|5694|5695|5696|5697|5698|56a0|56a1|56a3|56a4|' . '56a5|56a6|56a7|56a8|56a9|56b0|56b1|56b2|56b3', 'code' => 'Alchemist', 'process' => 'TSMC n6 (7nm)', 'years' => '2022+', }, {'arch' => 'Gen-12.7', 'ids' => '56c0|56c1', 'code' => '', 'process' => 'TSMC n6 (7nm)', 'years' => '2022+', }, {'arch' => 'Gen-13', 'ids' => 'a720|a721|a74d|a780|a781|a782|a783|a788|a789|a78a|a78b|a7a0|a7a1|' . 'a7a8|a7a9|a7aa|a7ab|a7ac|a7ad', 'code' => '', 'process' => 'Intel 7 (10nm)', 'years' => '2022+', }, {'arch' => 'Gen-14', 'ids' => '7d40|7d45|7d55|7d60|7dd5', 'code' => '', 'process' => 'Intel 4 (7nm+)', 'years' => '2023+', }, ]; } sub set_nv_data { # this is vendor id: 12d2, nv1/riva/tnt type cards # 0008|0009|0010|0018|0019 # and these are vendor id: 10de for 73.14 # 0020|0028|0029|002c|002d|00a0|0100|0101|0103|0150|0151|0152|0153 # generic fallback if we don't have the actual EOL termination date my $date = $self_date; $date =~ s/-\d+$//; my $status_current = main::message('nv-current',$date); # load legacy data, note, if there are 2 or more arch in 1 legacy, it has 1 # item per arch. kernel/last/xorg support either from nvidia or sgfxi ## Legacy 71.86.xx $gpu_nv = [ {'arch' => 'Fahrenheit', 'ids' => '0008|0009|0010|0018|0019|0020|0028|0029|002c|002d|00a0', 'code' => 'NVx', 'kernel' => '2.6.38', 'legacy' => 1, 'process' => 'TSMC 220-350nm', 'release' => '71.86.15', 'series' => '71.86.xx', 'status' => main::message('nv-legacy-eol','2011-08-xx'), 'xorg' => '1.7', 'years' => '1998-2000', }, {'arch' => 'Celsius', 'ids' => '0100|0101|0103|0150|0151|0152|0153', 'code' => 'NV1x', 'kernel' => '2.6.38', 'legacy' => 1, 'process' => 'TSMC 150-220nm', 'release' => '71.86.15', 'series' => '71.86.xx', 'status' => main::message('nv-legacy-eol','2011-08-xx'), 'xorg' => '1.7', 'years' => '1999-2005', }, ## Legacy 96.43.xx {'arch' => 'Celsius', 'ids' => '0110|0111|0112|0113|01a0', 'code' => 'NV1x', 'kernel' => '3.6', 'legacy' => 1, 'process' => 'TSMC 150-220nm', 'release' => '96.43.23', 'series' => '96.43.xx', 'status' => main::message('nv-legacy-eol','2012-09-xx'), 'xorg' => '1.12', 'years' => '1999-2005', }, {'arch' => 'Kelvin', 'ids' => '0170|0171|0172|0173|0174|0175|0176|0177|0178|0179|017a|017c|017d|' . '0181|0182|0183|0185|0188|018a|018b|018c|01f0|0200|0201|0202|0203|0250|0251|' . '0253|0258|0259|025b|0280|0281|0282|0286|0288|0289|028c', 'code' => 'NV2x', 'kernel' => '3.6', 'legacy' => 1, 'process' => 'TSMC 150nm', 'release' => '96.43.23', 'series' => '96.43.xx', 'status' => main::message('nv-legacy-eol','2012-09-xx'), 'xorg' => '1.12', 'years' => '2001-2003', }, ## Legacy 173.14.xx # process: IBM 130, TSMC 130-150 {'arch' => 'Rankine', 'ids' => '00fa|00fb|00fc|00fd|00fe|0301|0302|0308|0309|0311|0312|0314|031a|' . '031b|031c|0320|0321|0322|0323|0324|0325|0326|0327|0328|032a|032b|032c|032d|' . '0330|0331|0332|0333|0334|0338|033f|0341|0342|0343|0344|0347|0348|034c|034e', 'code' => 'NV3x', 'kernel' => '3.12', 'legacy' => 1, 'process' => '130-150nm', 'release' => '173.14.39', 'series' => '173.14.xx', 'status' => main::message('nv-legacy-eol','2013-12-xx'), 'xorg' => '1.15', 'years' => '2003-2005', }, ## Legacy 304.xx # code: hard to get these, roughly MCP[567]x/NV4x/G7x # process: IBM 130, TSMC 90-110 {'arch' => 'Curie', 'ids' => '0040|0041|0042|0043|0044|0045|0046|0047|0048|004e|0090|0091|0092|' . '0093|0095|0098|0099|009d|00c0|00c1|00c2|00c3|00c8|00c9|00cc|00cd|00ce|00f1|' . '00f2|00f3|00f4|00f5|00f6|00f8|00f9|0140|0141|0142|0143|0144|0145|0146|0147|' . '0148|0149|014a|014c|014d|014e|014f|0160|0161|0162|0163|0164|0165|0166|0167|' . '0168|0169|016a|01d0|01d1|01d2|01d3|01d6|01d7|01d8|01da|01db|01dc|01dd|01de|' . '01df|0211|0212|0215|0218|0221|0222|0240|0241|0242|0244|0245|0247|0290|0291|' . '0292|0293|0294|0295|0297|0298|0299|029a|029b|029c|029d|029e|029f|02e0|02e1|' . '02e2|02e3|02e4|038b|0390|0391|0392|0393|0394|0395|0397|0398|0399|039c|039e|' . '03d0|03d1|03d2|03d5|03d6|0531|0533|053a|053b|053e|07e0|07e1|07e2|07e3|07e5', 'code' => '', 'kernel' => '4.13', 'legacy' => 1, 'process' => '90-130nm', 'release' => '304.137', 'series' => '304.xx', 'status' => main::message('nv-legacy-eol','2017-09-xx'), 'xorg' => '1.19', 'years' => '2003-2013', }, ## Legacy 340.xx # these are both Tesla and Tesla 2.0 # code: not clear, 8800/GT2xx/maybe G7x # years: 2006-2010 Tesla 2007-2013 Tesla 2.0 {'arch' => 'Tesla', 'ids' => '0191|0193|0194|0197|019d|019e|0400|0401|0402|0403|0404|0405|0406|' . '0407|0408|0409|040a|040b|040c|040d|040e|040f|0410|0420|0421|0422|0423|0424|' . '0425|0426|0427|0428|0429|042a|042b|042c|042d|042e|042f|05e0|05e1|05e2|05e3|' . '05e6|05e7|05ea|05eb|05ed|05f8|05f9|05fd|05fe|05ff|0600|0601|0602|0603|0604|' . '0605|0606|0607|0608|0609|060a|060b|060c|060d|060f|0610|0611|0612|0613|0614|' . '0615|0617|0618|0619|061a|061b|061c|061d|061e|061f|0621|0622|0623|0625|0626|' . '0627|0628|062a|062b|062c|062d|062e|0630|0631|0632|0635|0637|0638|063a|0640|' . '0641|0643|0644|0645|0646|0647|0648|0649|064a|064b|064c|0651|0652|0653|0654|' . '0655|0656|0658|0659|065a|065b|065c|06e0|06e1|06e2|06e3|06e4|06e5|06e6|06e7|' . '06e8|06e9|06ea|06eb|06ec|06ef|06f1|06f8|06f9|06fa|06fb|06fd|06ff|0840|0844|' . '0845|0846|0847|0848|0849|084a|084b|084c|084d|084f|0860|0861|0862|0863|0864|' . '0865|0866|0867|0868|0869|086a|086c|086d|086e|086f|0870|0871|0872|0873|0874|' . '0876|087a|087d|087e|087f|08a0|08a2|08a3|08a4|08a5|0a20|0a22|0a23|0a26|0a27|' . '0a28|0a29|0a2a|0a2b|0a2c|0a2d|0a32|0a34|0a35|0a38|0a3c|0a60|0a62|0a63|0a64|' . '0a65|0a66|0a67|0a68|0a69|0a6a|0a6c|0a6e|0a6f|0a70|0a71|0a72|0a73|0a74|0a75|' . '0a76|0a78|0a7a|0a7c|0ca0|0ca2|0ca3|0ca4|0ca5|0ca7|0ca8|0ca9|0cac|0caf|0cb0|' . '0cb1|0cbc|10c0|10c3|10c5|10d8', 'code' => '', 'kernel' => '5.4', 'legacy' => 1, 'process' => '40-80nm', 'release' => '340.108', 'series' => '340.xx', 'status' => main::message('nv-legacy-eol','2019-12-xx'), 'xorg' => '1.20', 'years' => '2006-2013', }, ## Legacy 367.xx {'arch' => 'Kepler', 'ids' => '0fef|0ff2|11bf', 'code' => 'GKxxx', 'kernel' => '5.4', 'legacy' => 1, 'process' => 'TSMC 28nm', 'release' => '', 'series' => '367.xx', 'status' => main::message('nv-legacy-eol','2017'), 'xorg' => '1.20', 'years' => '2012-2018', }, ## Legacy 390.xx # this is Fermi, Fermi 2.0 {'arch' => 'Fermi', 'ids' => '06c0|06c4|06ca|06cd|06d1|06d2|06d8|06d9|06da|06dc|06dd|06de|06df|' . '0dc0|0dc4|0dc5|0dc6|0dcd|0dce|0dd1|0dd2|0dd3|0dd6|0dd8|0dda|0de0|0de1|0de2|' . '0de3|0de4|0de5|0de7|0de8|0de9|0dea|0deb|0dec|0ded|0dee|0def|0df0|0df1|0df2|' . '0df3|0df4|0df5|0df6|0df7|0df8|0df9|0dfa|0dfc|0e22|0e23|0e24|0e30|0e31|0e3a|' . '0e3b|0f00|0f01|0f02|0f03|1040|1042|1048|1049|104a|104b|104c|1050|1051|1052|' . '1054|1055|1056|1057|1058|1059|105a|105b|107c|107d|1080|1081|1082|1084|1086|' . '1087|1088|1089|108b|1091|1094|1096|109a|109b|1140|1200|1201|1203|1205|1206|' . '1207|1208|1210|1211|1212|1213|1241|1243|1244|1245|1246|1247|1248|1249|124b|' . '124d|1251', 'code' => 'GF1xx', 'kernel' => '6.0', 'legacy' => 1, 'process' => '40/28nm', 'release' => '390.157', 'series' => '390.xx+', 'status' => main::message('nv-legacy-eol','2022-11-22'), 'xorg' => '1.21', 'years' => '2010-2016', }, ## Legacy 470.xx {'arch' => 'Fermi 2', 'ids' => '0fec|1281|1289|128b|1295|1298', 'code' => 'GF119/GK208', 'kernel' => '', 'legacy' => 1, 'process' => 'TSMC 28nm', 'release' => '', 'series' => '470.xx+', 'status' => main::message('nv-legacy-active','2024-09-xx'), 'xorg' => '', 'years' => '2010-2016', }, # GT 720M and 805A/810A are the same cpu id. # years: 2012-2018 Kepler 2013-2015 Kepler 2.0 {'arch' => 'Kepler', 'ids' => '0fc6|0fc8|0fc9|0fcd|0fce|0fd1|0fd2|0fd3|0fd4|0fd5|0fd8|0fd9|0fdf|' . '0fe0|0fe1|0fe2|0fe3|0fe4|0fe9|0fea|0fed|0fee|0ff6|0ff8|0ff9|0ffa|0ffb|0ffc|' . '0ffd|0ffe|0fff|1001|1004|1005|1007|1008|100a|100c|1021|1022|1023|1024|1026|' . '1027|1028|1029|102a|102d|103a|103c|1180|1183|1184|1185|1187|1188|1189|118a|' . '118e|118f|1193|1194|1195|1198|1199|119a|119d|119e|119f|11a0|11a1|11a2|11a3|' . '11a7|11b4|11b6|11b7|11b8|11ba|11bc|11bd|11be|11c0|11c2|11c3|11c4|11c5|11c6|' . '11c8|11cb|11e0|11e1|11e2|11e3|11fa|11fc|1280|1282|1284|1286|1287|1288|1290|' . '1291|1292|1293|1295|1296|1299|129a|12b9|12ba', 'code' => 'GKxxx', 'kernel' => '', 'legacy' => 1, 'process' => 'TSMC 28nm', 'release' => '', 'series' => '470.xx+', 'status' => main::message('nv-legacy-active','2024-09-xx'), 'xorg' => '', 'years' => '2012-2018', }, ## Current Active Series # load microarch data, as stuff goes legacy, these will form new legacy items. {'arch' => 'Maxwell', 'ids' => '1340|1341|1344|1346|1347|1348|1349|134b|134d|134e|134f|137a|137b|' . '1380|1381|1382|1390|1391|1392|1393|1398|1399|139a|139b|139c|139d|13b0|13b1|' . '13b2|13b3|13b4|13b6|13b9|13ba|13bb|13bc|13c0|13c2|13d7|13d8|13d9|13da|13f0|' . '13f1|13f2|13f3|13f8|13f9|13fa|13fb|1401|1402|1406|1407|1427|1430|1431|1436|' . '1617|1618|1619|161a|1667|174d|174e|179c|17c8|17f0|17f1|17fd|1c90|1d10|1d12', 'code' => 'GMxxx', 'kernel' => '', 'legacy' => 0, 'process' => 'TSMC 28nm', 'release' => '', 'series' => '545.xx+', 'status' => main::message('nv-current-eol',$date,'2026-12-xx'), 'xorg' => '', 'years' => '2014-2019', }, {'arch' => 'Pascal', 'ids' => '15f0|15f7|15f8|15f9|17c2|1b00|1b02|1b06|1b30|1b38|1b80|1b81|1b82|' . '1b83|1b84|1b87|1ba0|1ba1|1ba2|1bb0|1bb1|1bb3|1bb4|1bb5|1bb6|1bb7|1bb8|1bb9|' . '1bbb|1bc7|1be0|1be1|1c02|1c03|1c04|1c06|1c07|1c09|1c20|1c21|1c22|1c23|1c30|' . '1c31|1c60|1c61|1c62|1c81|1c82|1c83|1c8c|1c8d|1c8f|1c90|1c91|1c92|1c94|1c96|' . '1cb1|1cb2|1cb3|1cb6|1cba|1cbb|1cbc|1cbd|1cfa|1cfb|1d01|1d02|1d11|1d13|1d16|' . '1d33|1d34|1d52', 'code' => 'GP10x', 'kernel' => '', 'legacy' => 0, 'process' => 'TSMC 16nm', 'release' => '', 'series' => '545.xx+', 'status' => main::message('nv-current-eol',$date,'2026-12-xx'), 'xorg' => '', 'years' => '2016-2021', }, {'arch' => 'Volta', 'ids' => '1d81|1db1|1db3|1db4|1db5|1db6|1db7|1db8|1dba|1df0|1df2|1df6|1fb0', 'code' => 'GV1xx', 'kernel' => '', 'legacy' => 0, 'process' => 'TSMC 12nm', 'release' => '', 'series' => '545.xx+', 'status' => main::message('nv-current-eol',$date,'2026-12-xx'), 'xorg' => '', 'years' => '2017-2020', }, {'arch' => 'Turing', 'ids' => '1e02|1e04|1e07|1e09|1e30|1e36|1e78|1e81|1e82|1e84|1e87|1e89|1e90|' . '1e91|1e93|1eb0|1eb1|1eb5|1eb6|1ec2|1ec7|1ed0|1ed1|1ed3|1ef5|1f02|1f03|1f06|' . '1f07|1f08|1f0a|1f0b|1f10|1f11|1f12|1f14|1f15|1f36|1f42|1f47|1f50|1f51|1f54|' . '1f55|1f76|1f82|1f83|1f91|1f95|1f96|1f97|1f98|1f99|1f9c|1f9d|1f9f|1fa0|1fb0|' . '1fb1|1fb2|1fb6|1fb7|1fb8|1fb9|1fba|1fbb|1fbc|1fdd|1ff0|1ff2|1ff9|2182|2184|' . '2187|2188|2189|2191|2192|21c4|21d1|25a6|25a7|25a9|25aa|25ad|25ed|28b8|28f8', 'code' => 'TUxxx', 'kernel' => '', 'legacy' => 0, 'process' => 'TSMC 12nm FF', 'release' => '', 'series' => '545.xx+', 'status' => main::message('nv-current-eol',$date,'2026-12-xx'), 'xorg' => '', 'years' => '2018-2022', }, {'arch' => 'Ampere', 'ids' => '20b0|20b2|20b3|20b5|20b6|20b7|20bd|20f1|20f3|20f5|20f6|2203|2204|' . '2206|2207|2208|220a|220d|2216|2230|2231|2232|2233|2235|2236|2237|2238|2414|' . '2420|2438|2460|2482|2484|2486|2487|2488|2489|248a|249c|249d|24a0|24b0|24b1|' . '24b6|24b7|24b8|24b9|24ba|24bb|24c7|24c9|24dc|24dd|24e0|24fa|2503|2504|2507|' . '2508|2520|2521|2523|2531|2544|2560|2563|2571|2582|25a0|25a2|25a5|25ab|25ac|' . '25b6|25b8|25b9|25ba|25bb|25bc|25bd|25e0|25e2|25e5|25ec|25f9|25fa|25fb|2838', 'code' => 'GAxxx', 'kernel' => '', 'legacy' => 0, 'process' => 'TSMC n7 (7nm)', 'release' => '', 'series' => '545.xx+', 'status' => main::message('nv-current-eol',$date,'2026-12-xx'), 'xorg' => '', 'years' => '2020-2023', }, {'arch' => 'Hopper', 'ids' => '2321|2322|2324|2330|2331|2339|233a|2342', 'code' => 'GH1xx', 'kernel' => '', 'legacy' => 0, 'process' => 'TSMC n4 (5nm)', 'release' => '', 'series' => '545.xx+', 'status' => $status_current, 'xorg' => '', 'years' => '2022+', }, {'arch' => 'Lovelace', 'ids' => '2684|26b1|26b2|26b5|26b9|2704|2717|2730|2757|2770|2782|2786|27a0|' . '27b0|27b1|27b2|27b8|27ba|27bb|27e0|27fb|2803|2805|2820|2860|2882|28a0|28a1|' . '28e0|28e1', 'code' => 'AD1xx', 'kernel' => '', 'legacy' => 0, 'process' => 'TSMC n4 (5nm)', 'release' => '', 'series' => '545.xx+', 'status' => $status_current, 'xorg' => '', 'years' => '2022+', }, ], } sub gpu_data { eval $start if $b_log; my ($v_id,$p_id,$name) = @_; my ($gpu,$gpu_data,$b_nv); if ($v_id eq '1002'){ set_amd_data() if !$gpu_amd; $gpu = $gpu_amd; } elsif ($v_id eq '8086'){ set_intel_data() if !$gpu_intel; $gpu = $gpu_intel; } else { set_nv_data() if !$gpu_nv; $gpu = $gpu_nv; $b_nv = 1; } $gpu_data = get_gpu_data($gpu,$p_id,$name); eval $end if $b_log; return ($gpu_data,$b_nv); } sub get_gpu_data { eval $start if $b_log; my ($gpu,$p_id,$name) = @_; my ($info); # Don't use reverse because if product ID is matched, we want that, not a looser # regex match. Tried with reverse and led to false matches. foreach my $item (reverse @$gpu){ next if !$item->{'ids'} && (!$item->{'pattern'} || !$name); if (($item->{'ids'} && $p_id =~ /^($item->{'ids'})$/) || (!$item->{'ids'} && $item->{'pattern'} && $name =~ /\b($item->{'pattern'})\b/)){ $info = { 'arch' => $item->{'arch'}, 'code' => $item->{'code'}, 'kernel' => $item->{'kernel'}, 'legacy' => $item->{'legacy'}, 'process' => $item->{'process'}, 'release' => $item->{'release'}, 'series' => $item->{'series'}, 'status' => $item->{'status'}, 'xorg' => $item->{'xorg'}, 'years' => $item->{'years'}, }; last; } } if (!$info){ $info->{'status'} = main::message('unknown-device-id'); } main::log_data('dump','%info',$info) if $b_log; print "Raw \$info data: ", Data::Dumper::Dumper $info if $dbg[49]; eval $end if $b_log; return $info; } ## MONITOR DATA ## sub set_monitors_sys { eval $start if $b_log; my $pattern = '/sys/class/drm/card[0-9]/device/driver/module/drivers/*'; my @cards_glob = main::globber($pattern); $pattern = '/sys/class/drm/card*-*/{edid,enabled,status,modes}'; my @ports_glob = main::globber($pattern); # print Data::Dumper::Dumper \@cards_glob; # print Data::Dumper::Dumper \@ports_glob; my ($card,%cards,@data,$file,$item,$path,$port); foreach $file (@cards_glob){ next if ! -e $file; if ($file =~ m|^/sys/class/drm/(card\d+)/.+?/drivers/(\S+):(\S+)$|){ push(@{$cards{$1}},[$2,$3]); } } # print Data::Dumper::Dumper \%cards; foreach $file (sort @ports_glob){ next if ! -r $file; $item = $file; $item =~ s|(/.*/(card\d+)-([^/]+))/(.+)||; $path = $1; $card = $2; $port = $3; $item = $4; next if !$1; $monitor_ids = {} if !$monitor_ids; $monitor_ids->{$port}{'monitor'} = $port; if (!$monitor_ids->{$port}{'drivers'} && $cards{$card}){ foreach my $info (@{$cards{$card}}){ push(@{$monitor_ids->{$port}{'drivers'}},$info->[1]); } } $monitor_ids->{$port}{'path'} = readlink($path); $monitor_ids->{$port}{'path'} =~ s|^\.\./\.\.|/sys|; if ($item eq 'status' || $item eq 'enabled'){ # print "$file\n"; $monitor_ids->{$port}{$item} = main::reader($file,'strip',0); } # arm: U:1680x1050p-0 elsif ($item eq 'modes'){ @data = main::reader($file,'strip'); next if !@data; # modes has repeat values, probably because kernel doesn't show hz main::uniq(\@data); $monitor_ids->{$port}{'modes'} = [@data]; } elsif ($item eq 'edid'){ next if -s $file; monitor_edid_data($file,$port); } } main::log_data('dump','$ports ref',$monitor_ids) if $b_log; print 'monitor_sys_data(): ', Data::Dumper::Dumper $monitor_ids if $dbg[44]; eval $end if $b_log; } sub monitor_edid_data { eval $start if $b_log; my ($file,$port) = @_; my (@data); open my $fh, '<:raw', $file or return; # it failed, give up, we don't care why my $edid_raw = do { local $/; <$fh> }; return if !$edid_raw; my $edid = ParseEDID::parse_edid($edid_raw,$dbg[47]); main::log_data('dump','Parse::EDID',$edid) if $b_log; print 'parse_edid(): ', Data::Dumper::Dumper $edid if $dbg[44]; return if !$edid || ref $edid ne 'HASH' || !%$edid; $monitor_ids->{$port}{'build-date'} = $edid->{'year'}; if ($edid->{'color_characteristics'}){ $monitor_ids->{$port}{'colors'} = $edid->{'color_characteristics'}; } if ($edid->{'gamma'}){ $monitor_ids->{$port}{'gamma'} = ($edid->{'gamma'}/100 + 0); } if ($edid->{'monitor_name'} || $edid->{'manufacturer_name_nice'}){ my $model = ''; if ($edid->{'manufacturer_name_nice'}){ $model = $edid->{'manufacturer_name_nice'}; } if ($edid->{'monitor_name'}){ $model .= ' ' if $model; $model .= $edid->{'monitor_name'}; } elsif ($model && $edid->{'product_code_h'}){ $model .= ' ' . $edid->{'product_code_h'}; } $monitor_ids->{$port}{'model'} = main::remove_duplicates(main::clean($model)); } elsif ($edid->{'manufacturer_name'} && $edid->{'product_code_h'}){ $monitor_ids->{$port}{'model-id'} = $edid->{'manufacturer_name'} . ' '; $monitor_ids->{$port}{'model-id'} .= $edid->{'product_code_h'}; } # construct to match xorg values if ($edid->{'manufacturer_name'} && $edid->{'product_code'}){ my $id = $edid->{'manufacturer_name'} . sprintf('%x',$edid->{'product_code'}); $monitor_ids->{$port}{$id} = ($edid->{'serial_number'}) ? $edid->{'serial_number'}: ''; } if ($edid->{'diagonal_size'}){ $monitor_ids->{$port}{'diagonal-m'} = sprintf('%.0f',($edid->{'diagonal_size'}*25.4)) + 0; $monitor_ids->{$port}{'diagonal'} = sprintf('%.1f',$edid->{'diagonal_size'}) + 0; } if ($edid->{'ratios'}){ $monitor_ids->{$port}{'ratio'} = join(', ', @{$edid->{'ratios'}}); } if ($edid->{'detailed_timings'}){ $monitor_ids->{$port}{'res-x'} = $edid->{'detailed_timings'}[0]{'horizontal_active'}; $monitor_ids->{$port}{'res-y'} = $edid->{'detailed_timings'}[0]{'vertical_active'}; if ($edid->{'detailed_timings'}[0]{'horizontal_image_size'}){ $monitor_ids->{$port}{'size-x'} = $edid->{'detailed_timings'}[0]{'horizontal_image_size'}; $monitor_ids->{$port}{'size-x-i'} = $edid->{'detailed_timings'}[0]{'horizontal_image_size_i'}; } if ($edid->{'detailed_timings'}[0]{'vertical_image_size'}){ $monitor_ids->{$port}{'size-y'} = $edid->{'detailed_timings'}[0]{'vertical_image_size'}; $monitor_ids->{$port}{'size-y-i'} = $edid->{'detailed_timings'}[0]{'vertical_image_size_i'}; } if ($edid->{'detailed_timings'}[0]{'horizontal_dpi'}){ $monitor_ids->{$port}{'dpi'} = sprintf('%.0f',$edid->{'detailed_timings'}[0]{'horizontal_dpi'}) + 0; } } if ($edid->{'serial_number'} || $edid->{'serial_number2'}){ # this looks much more like a real serial than the default: serial_number if ($edid->{'serial_number2'} && @{$edid->{'serial_number2'}}){ $monitor_ids->{$port}{'serial'} = main::clean_dmi($edid->{'serial_number2'}[0]); } elsif ($edid->{'serial_number'}){ $monitor_ids->{$port}{'serial'} = main::clean_dmi($edid->{'serial_number'}); } } # this will be an array reference of one or more edid errors if ($edid->{'edid_errors'}){ $monitor_ids->{$port}{'edid-errors'} = $edid->{'edid_errors'}; } # this will be an array reference of one or more edid warnings if ($edid->{'edid_warnings'}){ $monitor_ids->{$port}{'edid-warnings'} = $edid->{'edid_warnings'}; } eval $end if $b_log; } sub advanced_monitor_data { eval $start if $b_log; my ($monitors,$layouts) = @_; my (@horiz,@vert); my $position = ''; # then see if we can locate a default position primary monitor foreach my $key (keys %$monitors){ next if !defined $monitors->{$key}{'pos-x'} || !defined $monitors->{$key}{'pos-y'}; # this is the only scenario we can guess at if no primary detected if (!$b_primary && !$monitors->{$key}{'primary'} && $monitors->{$key}{'pos-x'} == 0 && $monitors->{$key}{'pos-y'} == 0){ $monitors->{$key}{'position'} = 'primary'; $monitors->{$key}{'primary'} = $monitors->{$key}{'monitor'}; } if (!grep {$monitors->{$key}{'pos-x'} == $_} @horiz){ push(@horiz,$monitors->{$key}{'pos-x'}); } if (!grep {$monitors->{$key}{'pos-y'} == $_} @vert){ push(@vert,$monitors->{$key}{'pos-y'}); } } # we need NUMERIC sort, because positions can be less than 1000! @horiz = sort {$a <=> $b} @horiz; @vert =sort {$a <=> $b} @vert; my ($h,$v) = (scalar(@horiz),scalar(@vert)); # print Data::Dumper::Dumper \@horiz; # print Data::Dumper::Dumper \@vert; # print Data::Dumper::Dumper $layouts; # print 'mon advanced monitor_map: ', Data::Dumper::Dumper $monitor_map; foreach my $key (keys %$monitors){ # disabled monitor may not have pos-x/pos-y, so skip if (@horiz && @vert && (scalar @horiz > 1 || scalar @vert > 1) && defined $monitors->{$key}{'pos-x'} && defined $monitors->{$key}{'pos-y'}){ $monitors->{$key}{'position'} ||= ''; $position = ''; $position = get_monitor_position($monitors->{$key},\@horiz,\@vert); $position = $layouts->[$v][$h]{$position} if $layouts->[$v][$h]{$position}; $monitors->{$key}{'position'} .= ',' if $monitors->{$key}{'position'}; $monitors->{$key}{'position'} .= $position; } my $mon_mapped = ($monitor_map) ? $monitor_map->{$monitors->{$key}{'monitor'}} : undef; # these are already set for monitor_ids, only need this for Xorg data. if ($mon_mapped && $monitor_ids->{$mon_mapped}){ # note: xorg drivers can be different than gpu drivers $monitors->{$key}{'drivers'} = gpu_drivers_sys($mon_mapped); $monitors->{$key}{'build-date'} = $monitor_ids->{$mon_mapped}{'build-date'}; $monitors->{$key}{'colors'} = $monitor_ids->{$mon_mapped}{'colors'}; $monitors->{$key}{'diagonal'} = $monitor_ids->{$mon_mapped}{'diagonal'}; $monitors->{$key}{'diagonal-m'} = $monitor_ids->{$mon_mapped}{'diagonal-m'}; $monitors->{$key}{'gamma'} = $monitor_ids->{$mon_mapped}{'gamma'}; $monitors->{$key}{'modes'} = $monitor_ids->{$mon_mapped}{'modes'}; $monitors->{$key}{'model'} = $monitor_ids->{$mon_mapped}{'model'}; $monitors->{$key}{'color-characteristics'} = $monitor_ids->{$mon_mapped}{'color-characteristics'}; if (!defined $monitors->{$key}{'size-x'} && $monitor_ids->{$mon_mapped}{'size-x'}){ $monitors->{$key}{'size-x'} = $monitor_ids->{$mon_mapped}{'size-x'}; $monitors->{$key}{'size-x-i'} = $monitor_ids->{$mon_mapped}{'size-x-i'}; } if (!defined $monitors->{$key}{'size-y'} && $monitor_ids->{$mon_mapped}{'size-y'}){ $monitors->{$key}{'size-y'} = $monitor_ids->{$mon_mapped}{'size-y'}; $monitors->{$key}{'size-y-i'} = $monitor_ids->{$mon_mapped}{'size-y-i'}; } if (!defined $monitors->{$key}{'dpi'} && $monitor_ids->{$mon_mapped}{'dpi'}){ $monitors->{$key}{'dpi'} = $monitor_ids->{$mon_mapped}{'dpi'}; } if ($monitor_ids->{$mon_mapped}{'model-id'}){ $monitors->{$key}{'model-id'} = $monitor_ids->{$mon_mapped}{'model-id'}; } if ($monitor_ids->{$mon_mapped}{'edid-errors'}){ $monitors->{$key}{'edid-errors'} = $monitor_ids->{$mon_mapped}{'edid-errors'}; } if ($monitor_ids->{$mon_mapped}{'edid-warnings'}){ $monitors->{$key}{'edid-warnings'} = $monitor_ids->{$mon_mapped}{'edid-warnings'}; } if ($monitor_ids->{$mon_mapped}{'enabled'} && $monitor_ids->{$mon_mapped}{'enabled'} eq 'disabled'){ $monitors->{$key}{'disabled'} = $monitor_ids->{$mon_mapped}{'enabled'}; } $monitors->{$key}{'ratio'} = $monitor_ids->{$mon_mapped}{'ratio'}; $monitors->{$key}{'serial'} = $monitor_ids->{$mon_mapped}{'serial'}; } # now swap the drm id for the display server id if they don't match if ($mon_mapped && $mon_mapped ne $monitors->{$key}{'monitor'}){ $monitors->{$key}{'monitor-mapped'} = $monitors->{$key}{'monitor'}; $monitors->{$key}{'monitor'} = $mon_mapped; } } # not printing out primary if Screen has only 1 Monitor if (scalar keys %$monitors == 1){ my @keys = keys %$monitors; $monitors->{$keys[0]}{'position'} = undef; } print Data::Dumper::Dumper $monitors if $dbg[45]; eval $end if $b_log; } # Clear out all disabled or not connected monitor ports sub set_active_monitors { eval $start if $b_log; foreach my $key (keys %$monitor_ids){ if (!$monitor_ids->{$key}{'status'} || $monitor_ids->{$key}{'status'} ne 'connected'){ delete $monitor_ids->{$key}; } } # print 'active monitors: ', Data::Dumper::Dumper $monitor_ids; eval $end if $b_log; } sub get_monitor_position { eval $start if $b_log; my ($monitor,$horiz,$vert) = @_; my ($i,$position) = (1,''); foreach (@$vert){ if ($_ == $monitor->{'pos-y'}){ $position = $i . '-'; last; } $i++; } $i = 1; foreach (@$horiz){ if ($_ == $monitor->{'pos-x'}){ $position .= $i; last; } $i++; } main::log_data('data','pos-raw: ' . $position) if $b_log; eval $end if $b_log; return $position; } sub set_monitor_layouts { my ($layouts) = @_; $layouts->[1][2] = {'1-1' => 'left','1-2' => 'right'}; $layouts->[1][3] = {'1-1' => 'left','1-2' => 'center','1-3' => 'right'}; $layouts->[1][4] = {'1-1' => 'left','1-2' => 'center-l','1-3' => 'center-r', '1-4' => 'right'}; $layouts->[2][1] = {'1-1' => 'top','2-1' => 'bottom'}; $layouts->[2][2] = {'1-1' => 'top-left','1-2' => 'top-right', '2-1' => 'bottom-l','2-2' => 'bottom-r'}; $layouts->[2][3] = {'1-1' => 'top-left','1-2' => 'top-center','1-3' => 'top-right', '2-1' => 'bottom-l','2-2' => 'bottom-c','2-3' => 'bottom-r'}; $layouts->[3][1] = {'1-1' => 'top','2-1' => 'middle','3-1' => 'bottom'}; $layouts->[3][2] = {'1-1' => 'top-left','1-2' => 'top-right', '2-1' => 'middle-l','2-2' => 'middle-r', '3-1' => 'bottom-l','3-2' => 'bottom-r'}; $layouts->[3][3] = {'1-1' => 'top-left','1-2' => 'top-center',,'1-3' => 'top-right', '2-1' => 'middle-l','2-2' => 'middle-c','2-3' => 'middle-r', '3-1' => 'bottom-l','3-2' => 'bottom-c','3-3' => 'bottom-r'}; } # This is required to resolve the situation where some xorg drivers change # the kernel ID for the port to something slightly different, amdgpu in particular. sub map_monitor_ids { eval $start if $b_log; my ($display_ids) = @_; return if !$monitor_ids; my (@sys_ids,@unmatched_display,@unmatched_sys); @unmatched_display = @$display_ids = sort { lc($a) cmp lc($b) } @$display_ids; foreach my $key (keys %$monitor_ids){ if ($monitor_ids->{$key}{'status'} eq 'connected'){ push(@sys_ids,$key); } } # @sys_ids = ('DVI-I-1','eDP-1','VGA-1'); main::log_data('dump','@sys_ids',\@sys_ids) if $b_log; main::log_data('dump','$xrandr_ids ref',$display_ids) if $b_log; print 'sys: ', Data::Dumper::Dumper \@sys_ids if $dbg[45]; print 'display: ', Data::Dumper::Dumper $display_ids if $dbg[45]; return if scalar @sys_ids != scalar @$display_ids; @unmatched_sys = @sys_ids = sort { lc($a) cmp lc($b) } @sys_ids; $monitor_map = {}; # known patterns: s: DP-1 d: DisplayPort-0; s: DP-1 d: DP1-1; s: DP-2 d: DP1-2; # s: HDMI-A-2 d: HDMI-A-1; s: HDMI-A-2 d: HDMI-2; s: DVI-1 d: DVI1; s: HDMI-1 d: HDMI1 # s: DVI-I-1 d: DVI0; s: VGA-1 d: VGA1; s: DP-1-1; d: DP-1-1; # s: eDP-1 d: eDP-1-1 (yes, reversed from normal deviation!); s: eDP-1 d: eDP # worst: s: DP-6 d: DP-2-3 (2 banks of 3 according to X); s: eDP-1 d: DP-4; # s: DP-3 d: DP-1-1; s: DP-4 d: DP-1-2 # s: DP-3 d: DP-4 [yes, +1, not -]; my ($d_1,$d_2,$d_m,$s_1,$s_2,$s_m); my $b_single = (scalar @sys_ids == 1) ? 1 : 0; my $pattern = '([A-Z]+)(-[A-Z]-\d+-\d+|-[A-Z]-\d+|-?\d+-\d+|-?\d+|)'; for (my $i=0; $i < scalar @$display_ids; $i++){ print "s: $sys_ids[$i] d: $display_ids->[$i]\n" if $dbg[45]; # try 1: /^([A-Z]+)(-[AB]|-[ADI]|-[ADI]-\d+?|-\d+?)?(-)?(\d+)$/i if ($display_ids->[$i] =~ /^$pattern$/i){ $d_1 = $1; $d_2 = ($2) ? $2 : ''; $d_2 =~ /(\d+)?$/; $d_m = ($1) ? $1 : 0; $d_1 =~ s/^DisplayPort/DP/i; # amdgpu... print " d1: $d_1 d2: $d_2 d3: $d_m\n" if $dbg[45]; if ($sys_ids[$i] =~ /^$pattern$/i){ $s_1 = $1; $s_2 = ($2) ? $2 : ''; $s_2 =~ /(\d+)?$/; $s_m = ($1) ? $1 : 0; $d_1 = $s_1 if uc($d_1) eq 'XWAYLAND'; print " d1: $d_1 s1: $s_1 dm: $d_m sm: $s_m \n" if $dbg[45]; if ($d_1 eq $s_1 && ($d_m == $s_m || $d_m == ($s_m - 1))){ $monitor_map->{$display_ids->[$i]} = $sys_ids[$i]; @unmatched_display = grep {$_ ne $display_ids->[$i]} @unmatched_display; @unmatched_sys = grep {$_ ne $sys_ids[$i]} @unmatched_sys; } } } # in case of one unmatched, we'll dump this, and use the actual unmatched if (!$monitor_map->{$display_ids->[$i]}){ # we're not even going to try, if there's 1 sys and 1 display, just use it! if ($b_single){ $monitor_map->{$display_ids->[$i]} = $sys_ids[$i]; (@unmatched_display,@unmatched_sys) = (); } else { $monitor_map->{$display_ids->[$i]} = main::message('monitor-id'); } } } # we don't care at all what the pattern is, if there is 1 unmatched display # out of 1 sys ids, we'll assume that is the one. This can only be assumed in # cases where only 1 monitor was not matched, otherwise it's just a guess. # obviously, if one of the matches was wrong, this will also be wrong, but # thats' life when dealing with irrational data. DP is a particular problem. if (scalar @unmatched_sys == 1){ $monitor_map->{$unmatched_display[0]} = $unmatched_sys[0]; } main::log_data('dump','$monitor_map ref',$monitor_map) if $b_log; print Data::Dumper::Dumper $monitor_map if $dbg[45]; eval $end if $b_log; } # Handle case of monitor on left or right edge, vertical that is. # mm dimensiions are based on the default position of monitor as sold. # very old systems may not have non 0 value for size x or y # size, res x,y by reference sub flip_size_x_y { eval $start if $b_log; my ($size_x,$size_y,$res_x,$res_y) = @_; if ((($$res_x/$$res_y > 1 && $$size_x/$$size_y < 1) || ($$res_x/$$res_y < 1 && $$size_x/$$size_y > 1))){ ($$size_x,$$size_y) = ($$size_y,$$size_x); } eval $end if $b_log; } ## COMPOSITOR DATA ## sub set_compositor_data { eval $start if $b_log; my $compositors = get_compositors(); if (@$compositors){ my @data; foreach my $compositor (@$compositors){ # gnome-shell is incredibly slow to return version if (($extra > 1 || $graphics{'protocol'} eq 'wayland') && (!$show{'system'} || $compositor ne 'gnome-shell')){ $graphics{'compositors'} = [] if !$graphics{'compositors'}; push(@{$graphics{'compositors'}},[main::program_data($compositor,$compositor)]); } else { $graphics{'compositors'} = [] if !$graphics{'compositors'}; push(@{$graphics{'compositors'}},[(main::program_values($compositor))[3]]); } } } eval $end if $b_log; } sub get_compositors { eval $start if $b_log; my $found = []; main::set_ps_gui() if !$loaded{'ps-gui'}; if (@ps_gui){ # ORDER MATTES! # notes: compiz: debian package compiz-core; # enlightenment: as of version 20 wayland compositor my @compositors = qw(budgie-wm compiz compton enlightenment gnome-shell kwin_wayland kwin_x11 kwinft marco muffin mutter); # these are more obscure, so check for them after primary common ones push (@compositors,qw(3dwm cosmic-comp dcompmgr gala kmscon metisse mir moblin monsterwm picom ukwm unagi unity-system-compositor xcompmgr xfwm4 xfwm5 xfwm)); my $matches = join('|',@compositors) . $wl_compositors; foreach my $psg (@ps_gui){ if ($psg =~ /^($matches)$/){ push(@$found,$1); } } } main::log_data('dump','$found compositors:', $found) if $b_log; eval $end if $b_log; return $found; } ## UTILITIES ## sub tty_data { eval $start if $b_log; my ($tty); if ($size{'term-cols'}){ $tty = "$size{'term-cols'}x$size{'term-lines'}"; } # this is broken elsif ($b_irc && $client{'console-irc'}){ ShellData::console_irc_tty() if !$loaded{'con-irc-tty'}; my $tty_working = $client{'con-irc-tty'}; if ($tty_working ne '' && (my $program = main::check_program('stty'))){ my $tty_arg = ($bsd_type) ? '-f' : '-F'; # handle vtnr integers, and tty ID with letters etc. $tty_working = "tty$tty_working" if -e "/dev/tty$tty_working"; $tty = (main::grabber("$program $tty_arg /dev/$tty_working size 2>/dev/null"))[0]; if ($tty){ my @temp = split(/\s+/, $tty); $tty = "$temp[1]x$temp[0]"; } } } eval $end if $b_log; return $tty; } } ## LogicalItem { package LogicalItem; sub get { eval $start if $b_log; my ($key1,$val1); my $rows = []; my $num = 0; if ($bsd_type){ $key1 = 'Message'; $val1 = main::message('logical-data-bsd',$uname[0]); push(@$rows,{main::key($num++,0,1,$key1) => $val1}); } else { LsblkData::set() if !$loaded{'lsblk'}; if ($fake{'logical'} || $alerts{'lvs'}->{'action'} eq 'use'){ lvm_data() if !$loaded{'logical-data'}; if (!@lvm){ my $key = 'Message'; # note: arch linux has a bug where lvs returns 0 if non root start my $message = ($use{'logical-lvm'}) ? main::message('tool-permissions','lvs') : main::message('logical-data',''); push(@$rows, { main::key($num++,0,1,$key) => $message, }); } else { lvm_output($rows,process_lvm_data()); } } elsif ($use{'logical-lvm'} && $alerts{'lvs'}->{'action'} eq 'permissions'){ my $key = 'Message'; push(@$rows, { main::key($num++,0,1,$key) => $alerts{'lvs'}->{'message'}, }); } elsif (@lsblk && !$use{'logical-lvm'} && ($alerts{'lvs'}->{'action'} eq 'permissions' || $alerts{'lvs'}->{'action'} eq 'missing')){ my $key = 'Message'; push(@$rows, { main::key($num++,0,1,$key) => main::message('logical-data',''), }); } elsif ($alerts{'lvs'}->{'action'} ne 'use'){ $key1 = $alerts{'lvs'}->{'action'}; $val1 = $alerts{'lvs'}->{'message'}; $key1 = ucfirst($key1); push(@$rows, {main::key($num++,0,1,$key1) => $val1}); } if ($use{'logical-general'}){ my $general_data = general_data(); general_output($rows,$general_data) if @$general_data; } } eval $end if $b_log; return $rows; } sub general_output { eval $start if $b_log; my ($rows,$general_data) = @_; my ($size); my ($j,$num) = (0,0); # cryptsetup status luks-a00baac5-44ff-4b48-b303-3bedb1f623ce foreach my $item (sort {$a->{'type'} cmp $b->{'type'}} @$general_data){ $j = scalar @$rows; $size = ($item->{'size'}) ? main::get_size($item->{'size'}, 'string') : 'N/A'; push(@$rows,{ main::key($num++,1,1,'Device') => $item->{'name'}, }); if ($b_admin){ $item->{'name'} ||= 'N/A'; $rows->[$j]{main::key($num++,0,2,'maj-min')} = $item->{'maj-min'}; } $rows->[$j]{main::key($num++,0,2,'type')} = $item->{'type'}; if ($extra > 0 && $item->{'dm'}){ $rows->[$j]{main::key($num++,0,2,'dm')} = $item->{'dm'}; } $rows->[$j]{main::key($num++,0,2,'size')} = $size; my $b_fake; components_output('general',\$j,\$num,$rows,\@{$item->{'components'}},\$b_fake); } eval $end if $b_log; } sub lvm_output { eval $start if $b_log; my ($rows,$lvm_data) = @_; my ($size); my ($j,$num) = (0,0); foreach my $vg (sort keys %$lvm_data){ $j = scalar @$rows; # print Data::Dumper::Dumper $lvm_data->{$vg}; $size = main::get_size($lvm_data->{$vg}{'vg-size'},'string','N/A'); push(@$rows,{ main::key($num++,1,1,'Device') => '', main::key($num++,0,2,'VG') => $vg, main::key($num++,0,2,'type') => uc($lvm_data->{$vg}{'vg-format'}), main::key($num++,0,2,'size') => $size, },); $size = main::get_size($lvm_data->{$vg}{'vg-free'},'string','N/A'); $rows->[$j]{main::key($num++,0,2,'free')} = $size; foreach my $lv (sort keys %{$lvm_data->{$vg}{'lvs'}}){ next if $extra < 2 && $lv =~ /^\[/; # it's an internal vg lv, raid meta/image $j = scalar @$rows; my $b_raid; $size = main::get_size($lvm_data->{$vg}{'lvs'}{$lv}{'lv-size'},'string','N/A'); $rows->[$j]{main::key($num++,1,2,'LV')} = $lv; if ($b_admin && $lvm_data->{$vg}{'lvs'}{$lv}{'maj-min'}){ $rows->[$j]{main::key($num++,0,3,'maj-min')} = $lvm_data->{$vg}{'lvs'}{$lv}{'maj-min'}; } $rows->[$j]{main::key($num++,0,3,'type')} = $lvm_data->{$vg}{'lvs'}{$lv}{'lv-type'}; if ($extra > 0 && $lvm_data->{$vg}{'lvs'}{$lv}{'dm'}){ $rows->[$j]{main::key($num++,0,3,'dm')} = $lvm_data->{$vg}{'lvs'}{$lv}{'dm'}; } $rows->[$j]{main::key($num++,0,3,'size')} = $size; if ($extra > 1 && !($show{'raid'} || $show{'raid-basic'}) && $lvm_data->{$vg}{'lvs'}{$lv}{'raid'}){ $j = scalar @$rows; $rows->[$j]{main::key($num++,1,3,'RAID')} = ''; $rows->[$j]{main::key($num++,0,4,'stripes')} = $lvm_data->{$vg}{'lvs'}{$lv}{'raid'}{'stripes'}; $rows->[$j]{main::key($num++,0,4,'sync')} = $lvm_data->{$vg}{'lvs'}{$lv}{'raid'}{'sync'}; my $copied = $lvm_data->{$vg}{'lvs'}{$lv}{'raid'}{'copied'}; $copied = (defined $copied) ? ($copied + 0) . '%': 'N/A'; $rows->[$j]{main::key($num++,0,4,'copied')} = $copied; $rows->[$j]{main::key($num++,0,4,'mismatches')} = $lvm_data->{$vg}{'lvs'}{$lv}{'raid'}{'mismatches'}; $b_raid = 1; } components_output('lvm',\$j,\$num,$rows,\@{$lvm_data->{$vg}{'lvs'}{$lv}{'components'}},\$b_raid); } } eval $end if $b_log; } sub components_output { my ($type,$j,$num,$rows,$components,$b_raid) = @_; my ($l1); $$j = scalar @$rows if $$b_raid || $extra > 1; $$b_raid = 0; if ($type eq 'general'){ ($l1) = (2); } elsif ($type eq 'lvm'){ ($l1) = (3); } my $status = (!@$components) ? 'N/A': ''; $rows->[$$j]{main::key($$num++,1,$l1,'Components')} = $status; components_recursive_output($type,$j,$num,$rows,$components,0,'c','p'); } sub components_recursive_output { my ($type,$j,$num,$rows,$components,$indent,$c,$p) = @_; my ($l,$m,$size) = (1,1,0); my ($l2,$l3); if ($type eq 'general'){ ($l2,$l3) = (3+$indent,4+$indent) ; } elsif ($type eq 'lvm'){ ($l2,$l3) = (4+$indent,5+$indent); } # print 'outside: ', scalar @$component, "\n", Data::Dumper::Dumper $component; foreach my $component (@$components){ # print "inside: -n", Data::Dumper::Dumper $component->[$i]; $$j = scalar @$rows if $b_admin; my $id; if ($component->[0] =~ /^(bcache|dm-|md)[0-9]/){ $id = $c .'-' . $m; $m++; } else { $id = $p . '-' . $l; $l++; } $rows->[$$j]{main::key($$num++,1,$l2,$id)} = $component->[0]; if ($extra > 1){ if ($b_admin){ $component->[1] ||= 'N/A'; $rows->[$$j]{main::key($$num++,0,$l3,'maj-min')} = $component->[1]; $rows->[$$j]{main::key($$num++,0,$l3,'mapped')} = $component->[3] if $component->[3]; $size = main::get_size($component->[2],'string','N/A'); $rows->[$$j]{main::key($$num++,0,$l3,'size')} = $size; } #next if !$component->[$i][4]; for (my $i = 4; $i < scalar @$component; $i++){ components_recursive_output($type,$j,$num,$rows,$component->[$i],$indent+1,$c.'c',$p.'p'); } } } } # Note: type dm is seen in only one dataset, but it's a start sub general_data { eval $start if $b_log; my (@found,$parent,$parent_fs); my $general_data = []; PartitionData::set('proc') if !$loaded{'partition-data'}; main::set_mapper() if !$loaded{'mapper'}; foreach my $row (@lsblk){ # bcache doesn't have mapped name: !$mapper{$row->{'name'}} || next if !$row->{'parent'}; $parent = LsblkData::get($row->{'parent'}); next if !$parent->{'fs'}; if ($row->{'type'} && (($row->{'type'} eq 'crypt' || $row->{'type'} eq 'mpath' || $row->{'type'} eq 'multipath') || ($row->{'type'} eq 'dm' && $row->{'name'} =~ /veracrypt/i) || ($parent->{'fs'} eq 'bcache'))){ my (@full_components,$mapped,$type); $mapped = $mapper{$row->{'name'}} if %mapper; next if grep(/^$row->{'name'}$/, @found); push(@found,$row->{'name'}); if ($parent->{'fs'} eq 'crypto_LUKS'){ $type = 'LUKS'; } # note, testing name is random user string, and there is no other # ID known, the parent FS is '', empty. elsif ($row->{'type'} eq 'dm' && $row->{'name'} =~ /veracrypt/i){ $type = 'VeraCrypt'; } elsif ($row->{'type'} eq 'crypt'){ $type = 'Crypto'; } elsif ($parent->{'fs'} eq 'bcache'){ $type = 'bcache'; } # probably only seen on older Redhat servers, LVM probably replaces elsif ($row->{'type'} eq 'mpath' || $row->{'type'} eq 'multipath'){ $type = 'MultiPath'; } elsif ($row->{'type'} eq 'crypt'){ $type = 'Crypt'; } # my $name = ($use{'filter-uuid'}) ? "luks-$filter_string" : $row->{'name'}; component_data($row->{'maj-min'},\@full_components); # print "$row->{'name'}\n", Data::Dumper::Dumper \@full_components; push(@$general_data, { 'components' => \@full_components, 'dm' => $mapped, 'maj-min' => $row->{'maj-min'}, 'name' => $row->{'name'}, 'size' => $row->{'size'}, 'type' => $type, }); } } main::log_data('dump','luks @$general_data', $general_data); print Data::Dumper::Dumper $general_data if $dbg[23]; eval $end if $b_log; return $general_data; } # Note: called for disk totals, raid, and logical sub lvm_data { eval $start if $b_log; $loaded{'logical-data'} = 1; my (@args,@data,%totals); @args = qw(vg_name vg_fmt vg_size vg_free lv_name lv_layout lv_size lv_kernel_major lv_kernel_minor segtype seg_count seg_start_pe seg_size_pe stripes devices raid_mismatch_count raid_sync_action raid_write_behind copy_percent); my $num = 0; PartitionData::set() if !$loaded{'partition-data'}; main::set_mapper() if !$loaded{'mapper'}; if ($fake{'logical'}){ # my $file = "$fake_data_dir/raid-logical/lvm/lvs-test-1.txt"; # @data = main::reader($file,'strip'); } else { # lv_full_name: ar0-home; lv_dm_path: /dev/mapper/ar0-home # seg_size: unit location on volume where segement starts # 2>/dev/null -unit k ---separator ^: my $cmd = $alerts{'lvs'}->{'path'}; $cmd .= ' -aPv --unit k --separator "^:" --segments --noheadings -o '; # $cmd .= ' -o +lv_size,pv_major,pv_minor 2>/dev/null'; $cmd .= join(',', @args); $cmd .= ' 2>/dev/null'; @data = main::grabber("$cmd",'','strip'); main::log_data('dump','lvm @data', \@data) if $b_log; print "command: $cmd\n" if $dbg[22]; } my $j = 0; foreach (@data){ my @line = split(/\^:/, $_); next if $_ =~ /^Partial mode/i; # sometimes 2>/dev/null doesn't catch this for (my $i = 0; $i < scalar @args; $i++){ $line[$i] =~ s/k$// if $args[$i] =~ /_(free|size|used)$/; $lvm[$j]->{$args[$i]} = $line[$i]; } if (!$totals{'vgs'}->{$lvm[$j]->{'vg_name'}}){ $totals{'vgs'}->{$lvm[$j]->{'vg_name'}} = $lvm[$j]->{'vg_size'}; $raw_logical[2] += $lvm[$j]->{'vg_free'} if $lvm[$j]->{'vg_free'}; } $j++; } # print Data::Dumper::Dumper \%totals, \@raw_logical; main::log_data('dump','lvm @lvm', \@lvm) if $b_log; print Data::Dumper::Dumper \@lvm if $dbg[22]; eval $end if $b_log; } sub process_lvm_data { eval $start if $b_log; my $processed = {}; foreach my $item (@lvm){ my (@components,@devices,$dm,$dm_tmp,$dm_mm,@full_components,$maj_min,%raid,@temp); if (!$processed->{$item->{'vg_name'}}){ $processed->{$item->{'vg_name'}}->{'vg-size'} = $item->{'vg_size'}; $processed->{$item->{'vg_name'}}->{'vg-free'} = $item->{'vg_free'}; $processed->{$item->{'vg_name'}}->{'vg-format'} = $item->{'vg_fmt'}; } if (!$processed->{$item->{'vg_name'}}->{'lvs'}{$item->{'lv_name'}}){ $processed->{$item->{'vg_name'}}->{'lvs'}{$item->{'lv_name'}}{'lv-size'} = $item->{'lv_size'}; $processed->{$item->{'vg_name'}}->{'lvs'}{$item->{'lv_name'}}{'lv-type'} = $item->{'segtype'}; $maj_min = $item->{'lv_kernel_major'} . ':' . $item->{'lv_kernel_minor'}; $processed->{$item->{'vg_name'}}->{'lvs'}{$item->{'lv_name'}}{'maj-min'} = $maj_min; $dm_tmp = $item->{'vg_name'} . '-' . $item->{'lv_name'}; $dm_tmp =~ s/\[|\]$//g; $dm = $mapper{$dm_tmp} if %mapper; $processed->{$item->{'vg_name'}}->{'lvs'}{$item->{'lv_name'}}{'dm'} = $dm; if ($item->{'segtype'} && $item->{'segtype'} ne 'linear' && $item->{'segtype'} =~ /^raid/){ $raid{'copied'} = $item->{'copy_percent'}; $raid{'mismatches'} = $item->{'raid_mismatch_count'}; $raid{'stripes'} = $item->{'stripes'}; $raid{'sync'} = $item->{'raid_sync_action'}; $raid{'type'} = $item->{'segtype'}; $processed->{$item->{'vg_name'}}->{'lvs'}{$item->{'lv_name'}}{'raid'} = \%raid; } component_data($maj_min,\@full_components); # print "$item->{'lv_name'}\n", Data::Dumper::Dumper \@full_components; $processed->{$item->{'vg_name'}}->{'lvs'}{$item->{'lv_name'}}{'components'} = \@full_components; } } main::log_data('dump','lvm %$processed', $processed) if $b_log; print Data::Dumper::Dumper $processed if $dbg[23]; eval $end if $b_log; return $processed; } sub component_data { my ($maj_min,$full_components) = @_; push(@$full_components, component_recursive_data($maj_min)); } sub component_recursive_data { eval $start if $b_log; my ($maj_min) = @_; my (@components,@devices); @devices = main::globber("/sys/dev/block/$maj_min/slaves/*") if -e "/sys/dev/block/$maj_min/slaves"; @devices = map {$_ =~ s|^/.*/||; $_;} @devices if @devices; # return @devices if !$b_admin; foreach my $device (@devices){ my ($mapped,$mm2,$part); $part = PartitionData::get($device) if @proc_partitions; $mm2 = $part->[0] . ':' . $part->[1] if @$part; if ($device =~ /^(bcache|dm-|md)[0-9]+$/){ $mapped = $dmmapper{$device}; $raw_logical[1] += $part->[2] if $mapped && $mapped =~ /_(cdata|cmeta)$/; push(@components, [$device,$mm2,$part->[2],$mapped,[component_recursive_data($mm2)]]); } else { push(@components,[$device,$mm2,$part->[2]]); } } eval $end if $b_log; return @components; } } ## MachineItem # Public: get(), is_vm() { my $b_vm; package MachineItem; sub get { eval $start if $b_log; my (%soc_machine,$data,@rows,$key1,$val1,$which); my $rows = []; my $num = 0; if ($bsd_type && $sysctl{'machine'} && !$force{'dmidecode'}){ $data = machine_data_sysctl(); if (%$data){ machine_output($rows,$data); } elsif (!$key1){ $key1 = 'Message'; $val1 = main::message('machine-data-force-dmidecode',''); } } elsif ($bsd_type || $force{'dmidecode'}){ if (!$fake{'dmidecode'} && $alerts{'dmidecode'}->{'action'} ne 'use'){ $key1 = $alerts{'dmidecode'}->{'action'}; $val1 = $alerts{'dmidecode'}->{'message'}; $key1 = ucfirst($key1); } else { $data = machine_data_dmi(); if (%$data){ machine_output($rows,$data); } elsif (!$key1){ $key1 = 'Message'; $val1 = main::message('machine-data'); } } } elsif (-d '/sys/class/dmi/id/'){ $data = machine_data_sys(); if (%$data){ machine_output($rows,$data); } else { $key1 = 'Message'; if ($alerts{'dmidecode'}->{'action'} eq 'missing'){ $val1 = main::message('machine-data-dmidecode'); } else { $val1 = main::message('machine-data'); } } } elsif ($fake{'elbrus'} || $cpu_arch eq 'elbrus'){ if ($fake{'elbrus'} || (my $program = main::check_program('fruid_print'))){ $data = machine_data_fruid($program); if (%$data){ machine_output($rows,$data); } elsif (!$key1){ $key1 = 'Message'; $val1 = main::message('machine-data-fruid'); } } } elsif (!$bsd_type){ # this uses /proc/cpuinfo so only GNU/Linux if (%risc){ $data = machine_data_soc(); machine_soc_output($rows,$data) if %$data; } if (!$data || !%$data){ $key1 = 'Message'; $val1 = main::message('machine-data-force-dmidecode',''); } } # if error case, null data, whatever if ($key1){ push(@$rows,{main::key($num++,0,1,$key1) => $val1,}); } eval $end if $b_log; return $rows; } sub is_vm { return $b_vm; } ## keys for machine data are: # 0: sys_vendor; 1: product_name; 2: product_version; 3: product_serial; # 4: product_uuid; 5: board_vendor; 6: board_name; 7: board_version; # 8: board_serial; 9: bios_vendor; 10: bios_version; 11: bios_date; ## with extra data: # 12: chassis_vendor; 13: chassis_type; 14: chassis_version; 15: chassis_serial; ## unused: 16: bios_rev; 17: bios_romsize; 18: firmware type sub machine_output { eval $start if $b_log; my ($rows,$data) = @_; my $firmware = 'BIOS'; my $num = 0; my $j = 0; my ($b_chassis,$b_skip_chassis,$b_skip_system); my ($bios_date,$bios_rev,$bios_romsize,$bios_vendor,$bios_version,$chassis_serial, $chassis_type,$chassis_vendor,$chassis_version,$mobo_model,$mobo_serial,$mobo_vendor, $mobo_version,$product_name,$product_serial,$product_version,$system_vendor); # foreach my $key (keys %data){ # print "$key: $data->{$key}\n"; # } if (!$data->{'sys_vendor'} || ($data->{'board_vendor'} && $data->{'sys_vendor'} eq $data->{'board_vendor'} && !$data->{'product_name'} && !$data->{'product_version'} && !$data->{'product_serial'})){ $b_skip_system = 1; } # The goal here is to not show laptop/mobile devices # found a case of battery existing but having nothing in it on desktop mobo # not all laptops show the first. /proc/acpi/battery is deprecated. elsif (!glob('/proc/acpi/battery/*') && !glob('/sys/class/power_supply/*')){ # ibm / ibm can be true; dell / quantum is false, so in other words, only do this # in case where the vendor is the same and the version is the same and not null, # otherwise the version information is going to be different in all cases I think if (($data->{'sys_vendor'} && $data->{'board_vendor'} && $data->{'sys_vendor'} eq $data->{'board_vendor'}) && (($data->{'product_version'} && $data->{'board_version'} && $data->{'product_version'} eq $data->{'board_version'}) || (!$data->{'product_version'} && $data->{'product_name'} && $data->{'board_name'} && $data->{'product_name'} eq $data->{'board_name'}))){ $b_skip_system = 1; } } $data->{'device'} ||= 'N/A'; $j = scalar @$rows; push(@$rows, { main::key($num++,0,1,'Type') => ucfirst($data->{'device'}), },); if (!$b_skip_system){ # this has already been tested for above so we know it's not null $system_vendor = main::clean($data->{'sys_vendor'}); $product_name = ($data->{'product_name'}) ? $data->{'product_name'}:'N/A'; $product_version = ($data->{'product_version'}) ? $data->{'product_version'}:'N/A'; $product_serial = main::filter($data->{'product_serial'}); $rows->[$j]{main::key($num++,1,1,'System')} = $system_vendor; $rows->[$j]{main::key($num++,1,2,'product')} = $product_name; $rows->[$j]{main::key($num++,0,3,'v')} = $product_version; $rows->[$j]{main::key($num++,0,3,'serial')} = $product_serial; # no point in showing chassis if system isn't there, it's very unlikely that # would be correct if ($extra > 1){ if ($data->{'board_version'} && $data->{'chassis_version'} && $data->{'chassis_version'} eq $data->{'board_version'}){ $b_skip_chassis = 1; } if (!$b_skip_chassis && $data->{'chassis_vendor'}){ if ($data->{'chassis_vendor'} ne $data->{'sys_vendor'}){ $chassis_vendor = $data->{'chassis_vendor'}; } # dmidecode can have these be the same if ($data->{'chassis_type'} && $data->{'device'} ne $data->{'chassis_type'}){ $chassis_type = $data->{'chassis_type'}; } if ($data->{'chassis_version'}){ $chassis_version = $data->{'chassis_version'}; $chassis_version =~ s/^v([0-9])/$1/i; } $chassis_serial = main::filter($data->{'chassis_serial'}); $chassis_vendor ||= ''; $chassis_type ||= ''; $rows->[$j]{main::key($num++,1,1,'Chassis')} = $chassis_vendor; if ($chassis_type){ $rows->[$j]{main::key($num++,0,2,'type')} = $chassis_type; } if ($chassis_version){ $rows->[$j]{main::key($num++,0,2,'v')} = $chassis_version; } $rows->[$j]{main::key($num++,0,2,'serial')} = $chassis_serial; } } $j++; # start new row } if ($data->{'firmware'}){ $firmware = $data->{'firmware'}; } $mobo_vendor = ($data->{'board_vendor'}) ? main::clean($data->{'board_vendor'}) : 'N/A'; $mobo_model = ($data->{'board_name'}) ? $data->{'board_name'}: 'N/A'; $mobo_version = ($data->{'board_version'})? $data->{'board_version'} : ''; $mobo_serial = main::filter($data->{'board_serial'}); $bios_vendor = ($data->{'bios_vendor'}) ? main::clean($data->{'bios_vendor'}) : 'N/A'; if ($data->{'bios_version'}){ $bios_version = $data->{'bios_version'}; $bios_version =~ s/^v([0-9])/$1/i; if ($data->{'bios_rev'}){ $bios_rev = $data->{'bios_rev'}; } } $bios_version ||= 'N/A'; if ($data->{'bios_date'}){ $bios_date = $data->{'bios_date'}; } $bios_date ||= 'N/A'; if ($extra > 1 && $data->{'bios_romsize'}){ $bios_romsize = $data->{'bios_romsize'}; } $rows->[$j]{main::key($num++,1,1,'Mobo')} = $mobo_vendor; $rows->[$j]{main::key($num++,1,2,'model')} = $mobo_model; if ($mobo_version){ $rows->[$j]{main::key($num++,0,3,'v')} = $mobo_version; } $rows->[$j]{main::key($num++,0,3,'serial')} = $mobo_serial; if ($extra > 2 && $data->{'board_uuid'}){ $rows->[$j]{main::key($num++,0,3,'uuid')} = $data->{'board_uuid'}; } if ($extra > 1 && $data->{'board_mfg_date'}){ $rows->[$j]{main::key($num++,0,3,'mfg-date')} = $data->{'board_mfg_date'}; } $rows->[$j]{main::key($num++,1,1,$firmware)} = $bios_vendor; $rows->[$j]{main::key($num++,0,2,'v')} = $bios_version; if ($bios_rev){ $rows->[$j]{main::key($num++,0,2,'rev')} = $bios_rev; } $rows->[$j]{main::key($num++,0,2,'date')} = $bios_date; if ($bios_romsize){ $rows->[$j]{main::key($num++,0,2,'rom size')} = $bios_romsize; } eval $end if $b_log; } sub machine_soc_output { my ($rows,$soc_machine) = @_; my ($key); my ($cont_sys,$ind_sys,$j,$num) = (1,1,0,0); # print Data::Dumper::Dumper \%soc_machine; # this is sketchy, /proc/device-tree/model may be similar to Hardware value from /proc/cpuinfo # raspi: Hardware : BCM2835 model: Raspberry Pi Model B Rev 2 if ($soc_machine->{'device'} || $soc_machine->{'model'}){ $rows->[$j]{main::key($num++,0,1,'Type')} = uc($risc{'id'}); my $system = 'System'; if (defined $soc_machine->{'model'}){ $rows->[$j]{main::key($num++,1,1,'System')} = $soc_machine->{'model'}; $system = 'details'; ($cont_sys,$ind_sys) = (0,2); } $soc_machine->{'device'} ||= 'N/A'; $rows->[$j]{main::key($num++,$cont_sys,$ind_sys,$system)} = $soc_machine->{'device'}; } if ($soc_machine->{'mobo'}){ $rows->[$j]{main::key($num++,1,1,'mobo')} = $soc_machine->{'mobo'}; } # we're going to print N/A for 0000 values sine the item was there. if ($soc_machine->{'firmware'}){ # most samples I've seen are like: 0000 $soc_machine->{'firmware'} =~ s/^[0]+$//; $soc_machine->{'firmware'} ||= 'N/A'; $rows->[$j]{main::key($num++,0,2,'rev')} = $soc_machine->{'firmware'}; } # sometimes has value like: 0000 if (defined $soc_machine->{'serial'}){ # most samples I've seen are like: 0000 $soc_machine->{'serial'} =~ s/^[0]+$//; $rows->[$j]{main::key($num++,0,2,'serial')} = main::filter($soc_machine->{'serial'}); } eval $end if $b_log; } sub machine_data_fruid { eval $start if $b_log; my ($program) = @_; my ($b_start,@fruid); my $data = {}; if (!$fake{'elbrus'}){ @fruid = main::grabber("$program 2>/dev/null",'','strip'); } else { # my $file; # $file = "$fake_data_dir/machine/fruid/fruid-e904-1_full.txt"; # $file = "$fake_data_dir/machine/fruid/fruid-e804-1_full.txt"; # @fruid = main::reader($file,'strip'); } # print Data::Dumper::Dumper \@fruid; foreach (@fruid){ $b_start = 1 if /^Board info/; next if !$b_start; my @split = split(/\s*:\s+/,$_,2); if ($split[0] eq 'Mfg. Date/Time'){ $data->{'board_mfg_date'} = $split[1]; $data->{'board_mfg_date'} =~ s/^(\d+:\d+)\s//; } elsif ($split[0] eq 'Board manufacturer'){ $data->{'board_vendor'} = $split[1]; } elsif ($split[0] eq 'Board part number'){ $data->{'board_part_nu'} = $split[1]; } elsif ($split[0] eq 'Board product name'){ $data->{'board_name'} = $split[1]; } elsif ($split[0] eq 'Board serial number'){ $data->{'board_serial'} = $split[1]; } elsif ($split[0] eq 'Board product version'){ $data->{'board_version'} = $split[1]; } } print Data::Dumper::Dumper $data if $dbg[28]; main::log_data('dump','%data',$data) if $b_log; return $data; } sub machine_data_sys { eval $start if $b_log; my ($path,$vm); my $data = {}; my $sys_dir = '/sys/class/dmi/id/'; my $sys_dir_alt = '/sys/devices/virtual/dmi/id/'; my @sys_files = qw(bios_vendor bios_version bios_date board_name board_serial board_vendor board_version chassis_type product_name product_serial product_uuid product_version sys_vendor ); if ($extra > 1){ splice(@sys_files, 0, 0, qw(chassis_serial chassis_vendor chassis_version)); } $data->{'firmware'} = 'BIOS'; # print Data::Dumper::Dumper \@sys_files; if (!-d $sys_dir){ if (-d $sys_dir_alt){ $sys_dir = $sys_dir_alt; } else { return 0; } } if (-d '/sys/firmware/efi'){ $data->{'firmware'} = 'UEFI'; } elsif (glob('/sys/firmware/acpi/tables/UEFI*')){ $data->{'firmware'} = 'UEFI-[Legacy]'; } foreach (@sys_files){ $path = "$sys_dir$_"; if (-r $path){ $data->{$_} = main::reader($path,'',0); $data->{$_} = ($data->{$_}) ? main::clean_dmi($data->{$_}) : ''; } elsif (!$b_root && -e $path && !-r $path){ $data->{$_} = main::message('root-required'); } else { $data->{$_} = ''; } } if ($data->{'chassis_type'}){ if ($data->{'chassis_type'} == 1){ $data->{'device'} = check_vm($data->{'sys_vendor'},$data->{'product_name'}); $data->{'device'} ||= 'other-vm?'; } else { $data->{'device'} = get_device_sys($data->{'chassis_type'}); } } # print "sys:\n"; # foreach (keys %data){ # print "$_: $data->{$_}\n"; # } print Data::Dumper::Dumper $data if $dbg[28]; main::log_data('dump','%data',$data) if $b_log; eval $end if $b_log; return $data; } # This will create an alternate machine data source # which will be used for alt ARM machine data in cases # where no dmi data present, or by cpu data to guess at # certain actions for arm only. sub machine_data_soc { eval $end if $b_log; my $data = {}; if (my $file = $system_files{'proc-cpuinfo'}){ CpuItem::cpuinfo_data_grabber($file) if !$loaded{'cpuinfo'}; # grabber sets keys to lower case to avoid error here if ($cpuinfo_machine{'hardware'} || $cpuinfo_machine{'machine'}){ $data->{'device'} = main::get_defined($cpuinfo_machine{'hardware'}, $cpuinfo_machine{'machine'}); $data->{'device'} = main::clean_arm($data->{'device'}); $data->{'device'} = main::clean_dmi($data->{'device'}); $data->{'device'} = main::clean($data->{'device'}); } if (defined $cpuinfo_machine{'system type'} || $cpuinfo_machine{'model'}){ $data->{'model'} = main::get_defined($cpuinfo_machine{'system type'}, $cpuinfo_machine{'model'}); $data->{'model'} = main::clean_dmi($data->{'model'}); $data->{'model'} = main::clean($data->{'model'}); } # seen with PowerMac PPC if (defined $cpuinfo_machine{'motherboard'}){ $data->{'mobo'} = $cpuinfo_machine{'motherboard'}; } if (defined $cpuinfo_machine{'revision'}){ $data->{'firmware'} = $cpuinfo_machine{'revision'}; } if (defined $cpuinfo_machine{'serial'}){ $data->{'serial'} = $cpuinfo_machine{'serial'}; } undef %cpuinfo_machine; # we're done with it, don't need it anymore } if (!$data->{'model'} && $b_android){ main::set_build_prop() if !$loaded{'build-prop'}; if ($build_prop{'product-manufacturer'} && $build_prop{'product-model'}){ my $brand = ''; if ($build_prop{'product-brand'} && $build_prop{'product-brand'} ne $build_prop{'product-manufacturer'}){ $brand = $build_prop{'product-brand'} . ' '; } $data->{'model'} = $brand . $build_prop{'product-manufacturer'} . ' ' . $build_prop{'product-model'}; } elsif ($build_prop{'product-device'}){ $data->{'model'} = $build_prop{'product-device'}; } elsif ($build_prop{'product-name'}){ $data->{'model'} = $build_prop{'product-name'}; } } if (!$data->{'model'} && -r '/proc/device-tree/model'){ my $model = main::reader('/proc/device-tree/model','',0); main::log_data('data',"device-tree-model: $model") if $b_log; if ($model){ $model = main::clean_dmi($model); $model = (split(/\x01|\x02|\x03|\x00/, $model))[0] if $model; my $device_temp = main::clean_regex($data->{'device'}); if (!$data->{'device'} || ($model && $model !~ /\Q$device_temp\E/i)){ $model = main::clean_arm($model); $data->{'model'} = $model; } } } if (!$data->{'serial'} && -f '/proc/device-tree/serial-number'){ my $serial = main::reader('/proc/device-tree/serial-number','',0); $serial = (split(/\x01|\x02|\x03|\x00/, $serial))[0] if $serial; main::log_data('data',"device-tree-serial: $serial") if $b_log; $data->{'serial'} = $serial if $serial; } print Data::Dumper::Dumper $data if $dbg[28]; main::log_data('dump','%data',$data) if $b_log; eval $end if $b_log; return $data; } # bios_date: 09/07/2010 # bios_romsize: dmi only # bios_vendor: American Megatrends Inc. # bios_version: P1.70 # bios_rev: 8.14: dmi only # board_name: A770DE+ # board_serial: # board_vendor: ASRock # board_version: # chassis_serial: # chassis_type: 3 # chassis_vendor: # chassis_version: # firmware: # product_name: # product_serial: # product_uuid: # product_version: # sys_uuid: dmi/sysctl only # sys_vendor: sub machine_data_dmi { eval $start if $b_log; return if !@dmi; my ($vm); my $data = {}; $data->{'firmware'} = 'BIOS'; # dmi types: # 0 bios; 1 system info; 2 board|base board info; 3 chassis info; # 4 processor info, use to check for hypervisor foreach my $row (@dmi){ # bios/firmware if ($row->[0] == 0){ # skip first three row, we don't need that data foreach my $item (@$row[3 .. $#$row]){ if ($item !~ /^~/){ # skip the indented rows my @value = split(/:\s+/, $item); if ($value[0] eq 'Release Date'){ $data->{'bios_date'} = main::clean_dmi($value[1]) } elsif ($value[0] eq 'Vendor'){ $data->{'bios_vendor'} = main::clean_dmi($value[1]) } elsif ($value[0] eq 'Version'){ $data->{'bios_version'} = main::clean_dmi($value[1]) } elsif ($value[0] eq 'ROM Size'){ $data->{'bios_romsize'} = main::clean_dmi($value[1]) } elsif ($value[0] eq 'BIOS Revision'){ $data->{'bios_rev'} = main::clean_dmi($value[1]) } } else { if ($item eq '~UEFI is supported'){ $data->{'firmware'} = 'UEFI';} } } next; } # system information elsif ($row->[0] == 1){ # skip first three row, we don't need that data foreach my $item (@$row[3 .. $#$row]){ if ($item !~ /^~/){ # skip the indented rows my @value = split(/:\s+/, $item); if ($value[0] eq 'Product Name'){ $data->{'product_name'} = main::clean_dmi($value[1]) } elsif ($value[0] eq 'Version'){ $data->{'product_version'} = main::clean_dmi($value[1]) } elsif ($value[0] eq 'Serial Number'){ $data->{'product_serial'} = main::clean_dmi($value[1]) } elsif ($value[0] eq 'Manufacturer'){ $data->{'sys_vendor'} = main::clean_dmi($value[1]) } elsif ($value[0] eq 'UUID'){ $data->{'sys_uuid'} = main::clean_dmi($value[1]) } } } next; } # baseboard information elsif ($row->[0] == 2){ # skip first three row, we don't need that data foreach my $item (@$row[3 .. $#$row]){ if ($item !~ /^~/){ # skip the indented rows my @value = split(/:\s+/, $item); if ($value[0] eq 'Product Name'){ $data->{'board_name'} = main::clean_dmi($value[1]) } elsif ($value[0] eq 'Serial Number'){ $data->{'board_serial'} = main::clean_dmi($value[1]) } elsif ($value[0] eq 'Manufacturer'){ $data->{'board_vendor'} = main::clean_dmi($value[1]) } elsif ($value[0] eq 'Version'){ $data->{'board_version'} = main::clean_dmi($value[1]) } } } next; } # chassis information elsif ($row->[0] == 3){ # skip first three row, we don't need that data foreach my $item (@$row[3 .. $#$row]){ if ($item !~ /^~/){ # skip the indented rows my @value = split(/:\s+/, $item); if ($value[0] eq 'Serial Number'){ $data->{'chassis_serial'} = main::clean_dmi($value[1]) } elsif ($value[0] eq 'Type'){ $data->{'chassis_type'} = main::clean_dmi($value[1]) } elsif ($value[0] eq 'Manufacturer'){ $data->{'chassis_vendor'} = main::clean_dmi($value[1]) } elsif ($value[0] eq 'Version'){ $data->{'chassis_version'} = main::clean_dmi($value[1]) } } } if ($data->{'chassis_type'} && $data->{'chassis_type'} ne 'Other'){ $data->{'device'} = $data->{'chassis_type'}; } next; } # this may catch some BSD and fringe Linux cases # processor information: check for hypervisor elsif ($row->[0] == 4){ # skip first three row, we don't need that data if (!$data->{'device'}){ if (grep {/hypervisor/i} @$row){ $data->{'device'} = 'virtual-machine'; $b_vm = 1; } } last; } elsif ($row->[0] > 4){ last; } } if (!$data->{'device'}){ $data->{'device'} = check_vm($data->{'sys_vendor'},$data->{'product_name'}); $data->{'device'} ||= 'other-vm?'; } # print "dmi:\n"; # foreach (keys %data){ # print "$_: $data->{$_}\n"; # } print Data::Dumper::Dumper $data if $dbg[28]; main::log_data('dump','%data',$data) if $b_log; eval $end if $b_log; return $data; } # As far as I know, only OpenBSD supports this method. # it uses hw. info from sysctl -a and bios info from dmesg.boot sub machine_data_sysctl { eval $start if $b_log; my ($product,$vendor,$vm); my $data = {}; # ^hw\.(vendor|product|version|serialno|uuid) foreach (@{$sysctl{'machine'}}){ next if !$_; my @item = split(':', $_); next if !$item[1]; if ($item[0] eq 'hw.vendor' || $item[0] eq 'machdep.dmi.board-vendor'){ $data->{'board_vendor'} = main::clean_dmi($item[1]); } elsif ($item[0] eq 'hw.product' || $item[0] eq 'machdep.dmi.board-product'){ $data->{'board_name'} = main::clean_dmi($item[1]); } elsif ($item[0] eq 'hw.version' || $item[0] eq 'machdep.dmi.board-version'){ $data->{'board_version'} = main::clean_dmi($item[1]); } elsif ($item[0] eq 'hw.serialno' || $item[0] eq 'machdep.dmi.board-serial'){ $data->{'board_serial'} = main::clean_dmi($item[1]); } elsif ($item[0] eq 'hw.serial'){ $data->{'board_serial'} = main::clean_dmi($item[1]); } elsif ($item[0] eq 'hw.uuid'){ $data->{'board_uuid'} = main::clean_dmi($item[1]); } elsif ($item[0] eq 'machdep.dmi.system-vendor'){ $data->{'sys_vendor'} = main::clean_dmi($item[1]); } elsif ($item[0] eq 'machdep.dmi.system-product'){ $data->{'product_name'} = main::clean_dmi($item[1]); } elsif ($item[0] eq 'machdep.dmi.system-version'){ $data->{'product_version'} = main::clean_dmi($item[1]); } elsif ($item[0] eq 'machdep.dmi.system-serial'){ $data->{'product_serial'} = main::clean_dmi($item[1]); } elsif ($item[0] eq 'machdep.dmi.system-uuid'){ $data->{'sys_uuid'} = main::clean_dmi($item[1]); } # bios0:at mainbus0: AT/286+ BIOS, date 06/30/06, BIOS32 rev. 0 @ 0xf2030, SMBIOS rev. 2.4 @ 0xf0000 (47 entries) # bios0:vendor Phoenix Technologies, LTD version "3.00" date 06/30/2006 elsif ($item[0] =~ /^bios[0-9]/){ if ($_ =~ /^^bios[0-9]:at\s.*?\srev\.\s([\S]+)\s@.*/){ $data->{'bios_rev'} = $1; $data->{'firmware'} = 'BIOS' if $_ =~ /BIOS/; } elsif ($item[1] =~ /^vendor\s(.*?)\sversion\s(.*?)\sdate\s([\S]+)/){ $data->{'bios_vendor'} = $1; $data->{'bios_version'} = $2; $data->{'bios_date'} = $3; $data->{'bios_version'} =~ s/^v//i if $data->{'bios_version'} && $data->{'bios_version'} !~ /vi/i; } } elsif ($item[0] eq 'machdep.dmi.bios-vendor'){ $data->{'bios_vendor'} = main::clean_dmi($item[1]); } elsif ($item[0] eq 'machdep.dmi.bios-version'){ $data->{'bios_version'} = main::clean_dmi($item[1]); } elsif ($item[0] eq 'machdep.dmi.bios-date'){ $data->{'bios_date'} = main::clean_dmi($item[1]); } } if ($data->{'board_vendor'} || $data->{'sys_vendor'} || $data->{'board_name'} || $data->{'product_name'}){ $vendor = $data->{'sys_vendor'}; $vendor = $data->{'board_vendor'} if !$vendor; $product = $data->{'product_name'}; $product = $data->{'board_name'} if !$product; } # detections can be from other sources. $data->{'device'} = check_vm($vendor,$product); print Data::Dumper::Dumper $data if $dbg[28]; main::log_data('dump','%data',$data) if $b_log; eval $end if $b_log; return $data; } sub get_device_sys { eval $start if $b_log; my ($chasis_id) = @_; my ($device) = (''); my @chassis; # See inxi-resources MACHINE DATA for data sources $chassis[2] = 'unknown'; $chassis[3] = 'desktop'; $chassis[4] = 'desktop'; # 5 - pizza box was a 1 U desktop enclosure, but some old laptops also id this way $chassis[5] = 'pizza-box'; $chassis[6] = 'desktop'; $chassis[7] = 'desktop'; $chassis[8] = 'portable'; $chassis[9] = 'laptop'; # note: lenovo T420 shows as 10, notebook, but it's not a notebook $chassis[10] = 'laptop'; $chassis[11] = 'portable'; $chassis[12] = 'docking-station'; # note: 13 is all-in-one which we take as a mac type system $chassis[13] = 'desktop'; $chassis[14] = 'notebook'; $chassis[15] = 'desktop'; $chassis[16] = 'laptop'; $chassis[17] = 'server'; $chassis[18] = 'expansion-chassis'; $chassis[19] = 'sub-chassis'; $chassis[20] = 'bus-expansion'; $chassis[21] = 'peripheral'; $chassis[22] = 'RAID'; $chassis[23] = 'server'; $chassis[24] = 'desktop'; $chassis[25] = 'multimount-chassis'; # blade? $chassis[26] = 'compact-PCI'; $chassis[27] = 'blade'; $chassis[28] = 'blade'; $chassis[29] = 'blade-enclosure'; $chassis[30] = 'tablet'; $chassis[31] = 'convertible'; $chassis[32] = 'detachable'; $chassis[33] = 'IoT-gateway'; $chassis[34] = 'embedded-pc'; $chassis[35] = 'mini-pc'; $chassis[36] = 'stick-pc'; $device = $chassis[$chasis_id] if $chassis[$chasis_id]; eval $end if $b_log; return $device; } sub check_vm { eval $start if $b_log; my ($manufacturer,$product_name) = @_; $manufacturer ||= ''; $product_name ||= ''; my $vm; if (my $program = main::check_program('systemd-detect-virt')){ my $vm_test = (main::grabber("$program 2>/dev/null"))[0]; if ($vm_test){ # kvm vbox reports as oracle, usually, unless they change it if (lc($vm_test) eq 'oracle'){ $vm = 'virtualbox'; } elsif ($vm_test ne 'none'){ $vm = $vm_test; } } } if (!$vm || lc($vm) eq 'bochs'){ if (-e '/proc/vz'){$vm = 'openvz'} elsif (-e '/proc/xen'){$vm = 'xen'} elsif (-e '/dev/vzfs'){$vm = 'virtuozzo'} elsif (my $program = main::check_program('lsmod')){ my @vm_data = main::grabber("$program 2>/dev/null"); if (@vm_data){ if (grep {/kqemu/i} @vm_data){$vm = 'kqemu'} elsif (grep {/kvm|qumranet/i} @vm_data){$vm = 'kvm'} elsif (grep {/qemu/i} @vm_data){$vm = 'qemu'} } } } # this will catch many Linux systems and some BSDs if (!$vm || lc($vm) eq 'bochs'){ # $device_vm is '' if nothing detected my @vm_data = ($device_vm); push(@vm_data,@{$dboot{'machine-vm'}}) if $dboot{'machine-vm'}; if (-e '/dev/disk/by-id'){ my @dev = glob('/dev/disk/by-id/*'); push(@vm_data,@dev); } if (grep {/innotek|vbox|virtualbox/i} @vm_data){ $vm = 'virtualbox'; } elsif (grep {/vmware/i} @vm_data){ $vm = 'vmware'; } # needs to be first, because contains virtio;qumranet, grabber only gets # first instance then stops, so make sure patterns are right. elsif (grep {/(openbsd[\s-]vmm)/i} @vm_data){ $vm = 'vmm'; } elsif (grep {/(\bhvm\b)/i} @vm_data){ $vm = 'hvm'; } elsif (grep {/(qemu)/i} @vm_data){ $vm = 'qemu'; } elsif (grep {/(\bkvm\b|qumranet|virtio)/i} @vm_data){ $vm = 'kvm'; } elsif (grep {/Virtual HD|Microsoft.*Virtual Machine/i} @vm_data){ $vm = 'hyper-v'; } if (!$vm && (my $file = $system_files{'proc-cpuinfo'})){ my @info = main::reader($file); $vm = 'virtual-machine' if grep {/^flags.*hypervisor/} @info; } # this may be wrong, confirm it if (!$vm && -e '/dev/vda' || -e '/dev/vdb' || -e '/dev/xvda' || -e '/dev/xvdb'){ $vm = 'virtual-machine'; } } if (!$vm && $product_name){ if ($product_name eq 'VMware'){ $vm = 'vmware'; } elsif ($product_name eq 'VirtualBox'){ $vm = 'virtualbox'; } elsif ($product_name eq 'KVM'){ $vm = 'kvm'; } elsif ($product_name eq 'Bochs'){ $vm = 'qemu'; } } if (!$vm && $manufacturer && $manufacturer eq 'Xen'){ $vm = 'xen'; } $b_vm = 1 if $vm; eval $end if $b_log; return $vm; } } ## NetworkItem { package NetworkItem; my ($b_ip_run,@ifs_found); sub get { eval $start if $b_log; my $rows = []; my $num = 0; if (%risc && !$use{'soc-network'} && !$use{'pci-tool'}){ # do nothing, but keep the test conditions to force # the non arm case to always run } else { device_output($rows); } # note: raspberry pi uses usb networking only if (!@$rows){ if (%risc){ my $key = 'Message'; @$rows = ({ main::key($num++,0,1,$key) => main::message('risc-pci',$risc{'id'}) }); } else { my $key = 'Message'; my $message = ''; my $type = 'pci-card-data'; # for some reason, this was in device_output too redundantly if ($pci_tool && $alerts{$pci_tool}->{'action'} eq 'permissions'){ $type = 'pci-card-data-root'; } elsif (!$bsd_type && !%risc && !$pci_tool && $alerts{'lspci'}->{'action'} && $alerts{'lspci'}->{'action'} eq 'missing'){ $message = $alerts{'lspci'}->{'message'}; } $message = main::message($type,'') if !$message; @$rows = ({ main::key($num++,0,1,$key) => $message }); } } usb_output($rows); if ($show{'network-advanced'}){ # @ifs_found = (); # shift @ifs_found; # pop @ifs_found; if (!$bsd_type){ advanced_data_sys($rows,'check','',0,'','',''); } else { advanced_data_bsd($rows,'check'); } } if ($show{'ip'}){ wan_ip($rows); } eval $end if $b_log; return $rows; } sub device_output { eval $start if $b_log; return if !$devices{'network'}; my $rows = $_[0]; my ($b_wifi,%holder); my ($j,$num) = (0,1); foreach my $row (@{$devices{'network'}}){ $num = 1; # print "$row->[0] $row->[3]\n"; # print "$row->[0] $row->[3]\n"; $j = scalar @$rows; my $driver = $row->[9]; my $chip_id = main::get_chip_id($row->[5],$row->[6]); # working around a virtuo bug same chip id is used on two nics if (!defined $holder{$chip_id}){ $holder{$chip_id} = 0; } else { $holder{$chip_id}++; } # first check if it's a known wifi id'ed card, if so, no print of duplex/speed $b_wifi = check_wifi($row->[4]); my $device = $row->[4]; $device = ($device) ? main::clean_pci($device,'output') : 'N/A'; #$device ||= 'N/A'; $driver ||= 'N/A'; push(@$rows, { main::key($num++,1,1,'Device') => $device, },); if ($extra > 0 && $use{'pci-tool'} && $row->[12]){ my $item = main::get_pci_vendor($row->[4],$row->[12]); $rows->[$j]{main::key($num++,0,2,'vendor')} = $item if $item; } if ($row->[1] eq '0680'){ $rows->[$j]{main::key($num++,0,2,'type')} = 'network bridge'; } $rows->[$j]{main::key($num++,1,2,'driver')} = $driver; my $bus_id = 'N/A'; # note: for arm/mips we want to see the single item bus id, why not? # note: we can have bus id: 0002 / 0 which is valid, but 0 / 0 is invalid if (defined $row->[2] && $row->[2] ne '0' && defined $row->[3]){ $bus_id = "$row->[2].$row->[3]"} elsif (defined $row->[2] && $row->[2] ne '0'){ $bus_id = $row->[2]} elsif (defined $row->[3] && $row->[3] ne '0'){ $bus_id = $row->[3]} if ($extra > 0){ if ($row->[9] && !$bsd_type){ my $version = main::get_module_version($row->[9]); $version ||= 'N/A'; $rows->[$j]{main::key($num++,0,3,'v')} = $version; } if ($b_admin && $row->[10]){ $row->[10] = main::get_driver_modules($row->[9],$row->[10]); $rows->[$j]{main::key($num++,0,3,'modules')} = $row->[10] if $row->[10]; } $row->[8] ||= 'N/A'; if ($extra > 1 && $bus_id ne 'N/A'){ main::get_pcie_data($bus_id,$j,$rows,\$num); } # as far as I know, wifi has no port, but in case it does in future, use it if (!$b_wifi || ($b_wifi && $row->[8] ne 'N/A')){ $rows->[$j]{main::key($num++,0,2,'port')} = $row->[8]; } $rows->[$j]{main::key($num++,0,2,'bus-ID')} = $bus_id; } if ($extra > 1){ $rows->[$j]{main::key($num++,0,2,'chip-ID')} = $chip_id; } if ($extra > 2 && $row->[1]){ $rows->[$j]{main::key($num++,0,2,'class-ID')} = $row->[1]; } if (!$bsd_type && $extra > 0 && $bus_id ne 'N/A' && $bus_id =~ /\.0$/){ my $temp = main::get_device_temp($bus_id); if ($temp){ $rows->[$j]{main::key($num++,0,2,'temp')} = $temp . ' C'; } } if ($show{'network-advanced'}){ my @data; if (!$bsd_type){ advanced_data_sys($rows,$row->[5],$row->[6],$holder{$chip_id},$b_wifi,'',$bus_id); } else { if (defined $row->[9] && defined $row->[11]){ advanced_data_bsd($rows,"$row->[9]$row->[11]",$b_wifi); } } } # print "$row->[0]\n"; } # @rows = (); eval $end if $b_log; } sub usb_output { eval $start if $b_log; return if !$usb{'network'}; my $rows = $_[0]; my (@temp2,$b_wifi,$driver,$path,$path_id,$product,$type); my ($j,$num) = (0,1); foreach my $row (@{$usb{'network'}}){ $num = 1; ($driver,$path,$path_id,$product,$type) = ('','','','',''); $product = main::clean($row->[13]) if $row->[13]; $driver = $row->[15] if $row->[15]; $path = $row->[3] if $row->[3]; $path_id = $row->[2] if $row->[2]; $type = $row->[14] if $row->[14]; $driver ||= 'N/A'; $j = scalar @$rows; push(@$rows, { main::key($num++,1,1,'Device') => $product, main::key($num++,0,2,'driver') => $driver, main::key($num++,1,2,'type') => 'USB', },); $b_wifi = check_wifi($product); if ($extra > 0){ if ($extra > 1){ $row->[8] ||= 'N/A'; $rows->[$j]{main::key($num++,0,3,'rev')} = $row->[8]; if ($row->[17]){ $rows->[$j]{main::key($num++,0,3,'speed')} = $row->[17]; } if ($row->[24]){ $rows->[$j]{main::key($num++,0,3,'lanes')} = $row->[24]; } if ($b_admin && $row->[22]){ $rows->[$j]{main::key($num++,0,3,'mode')} = $row->[22]; } } $rows->[$j]{main::key($num++,0,2,'bus-ID')} = "$path_id:$row->[1]"; if ($extra > 1){ $row->[7] ||= 'N/A'; $rows->[$j]{main::key($num++,0,2,'chip-ID')} = $row->[7]; } if ($extra > 2){ if (defined $row->[5] && $row->[5] ne ''){ $rows->[$j]{main::key($num++,0,2,'class-ID')} = "$row->[4]$row->[5]"; } if ($row->[16]){ $rows->[$j]{main::key($num++,0,2,'serial')} = main::filter($row->[16]); } } } if ($show{'network-advanced'}){ if (!$bsd_type){ my (@temp,$vendor,$chip); @temp = split(':', $row->[7]) if $row->[7]; ($vendor,$chip) = ($temp[0],$temp[1]) if @temp; advanced_data_sys($rows,$vendor,$chip,0,$b_wifi,$path,''); } # NOTE: we need the driver + driver nu, like wlp0 to get a match, else { $driver .= $row->[21] if defined $row->[21]; advanced_data_bsd($rows,$driver,$b_wifi); } } } eval $end if $b_log; } sub advanced_data_sys { eval $start if $b_log; return if ! -d '/sys/class/net'; my ($rows,$vendor,$chip,$count,$b_wifi,$path_usb,$bus_id) = @_; my ($cont_if,$ind_if,$j,$num) = (2,3,0,0); my $key = 'IF'; my ($b_check,$b_usb,$if,$path,@paths); # ntoe: we've already gotten the base path, now we # we just need to get the IF path, which is one level in: # usb1/1-1/1-1:1.0/net/enp0s20f0u1/ if ($path_usb){ $b_usb = 1; @paths = main::globber("${path_usb}*/net/*"); } else { @paths = main::globber('/sys/class/net/*'); } @paths = grep {!/\/lo$/} @paths; # push(@paths,'/sys/class/net/ppp0'); # fake IF if needed to match test data if ($count > 0 && $count < scalar @paths){ @paths = splice(@paths, $count, scalar @paths); } if ($vendor eq 'check'){ $b_check = 1; $key = 'IF-ID'; ($cont_if,$ind_if) = (1,2); } # print join('; ', @paths), $count, "\n"; foreach (@paths){ my ($data1,$data2,$duplex,$mac,$speed,$state); $j = scalar @$rows; # for usb, we already know where we are if (!$b_usb){ # pi mmcnr has pcitool and also these vendor/device paths. if (!%risc || $use{'pci-tool'}){ $path = "$_/device/vendor"; $data1 = main::reader($path,'',0) if -r $path; $data1 =~ s/^0x// if $data1; $path = "$_/device/device"; $data2 = main::reader($path,'',0) if -r $path; $data2 =~ s/^0x// if $data2; # this is a fix for a redhat bug in virtio $data2 = (defined $data2 && $data2 eq '0001' && defined $chip && $chip eq '1000') ? '1000' : $data2; } # there are cases where arm devices have a small pci bus # or, with mmcnr devices, will show device/vendor info in data1/2 # which won't match with the path IDs if (%risc && $chip && Cwd::abs_path($_) =~ /\b$chip\b/){ $data1 = $vendor; $data2 = $chip; } } # print "d1:$data1 v:$vendor d2:$data2 c:$chip bus_id: $bus_id\n"; # print Cwd::abs_path($_), "\n" if $bus_id; if ($b_usb || $b_check || ($data1 && $data2 && $data1 eq $vendor && $data2 eq $chip && (%risc || check_bus_id($_,$bus_id)))){ $if = $_; $if =~ s/^\/.+\///; # print "top: if: $if ifs: @ifs_found\n"; next if ($b_check && grep {/$if/} @ifs_found); $path = "$_/duplex"; $duplex = main::reader($path,'',0) if -r $path; $duplex ||= 'N/A'; $path = "$_/address"; $mac = main::reader($path,'',0) if -r $path; $mac = main::filter($mac); $path = "$_/speed"; $speed = main::reader($path,'',0) if -r $path; $speed ||= 'N/A'; $path = "$_/operstate"; $state = main::reader($path,'',0) if -r $path; $state ||= 'N/A'; # print "$speed \n"; push(@$rows,{ main::key($num++,1,$cont_if,$key) => $if, main::key($num++,0,$ind_if,'state') => $state }); # my $j = scalar @row - 1; push(@ifs_found, $if) if (!$b_check && (! grep {/$if/} @ifs_found)); # print "push: if: $if ifs: @ifs_found\n"; # no print out for wifi since it doesn't have duplex/speed data available # note that some cards show 'unknown' for state, so only testing explicitly # for 'down' string in that to skip showing speed/duplex # /sys/class/net/$if/wireless : not always there, but worth a try: wlan/wl/ww/wlp $b_wifi = 1 if !$b_wifi && (-e "$_$if/wireless" || $if =~ /^(wl|ww)/); if (!$b_wifi && $state ne 'down' && $state ne 'no'){ # make sure the value is strictly numeric before appending Mbps $speed = (main::is_int($speed)) ? "$speed Mbps" : $speed; $rows->[$j]{main::key($num++,0,$ind_if,'speed')} = $speed; $rows->[$j]{main::key($num++,0,$ind_if,'duplex')} = $duplex; } $rows->[$j]{main::key($num++,0,$ind_if,'mac')} = $mac; # if ($b_check){ # push(@rows,@row); # } # else { # @rows = @row; # } if ($show{'ip'}){ if_ip($rows,$key,$if); } last if !$b_check; } } eval $end if $b_log; } sub advanced_data_bsd { eval $start if $b_log; return if ! @ifs_bsd; my ($rows,$if,$b_wifi) = @_; my ($data,$working_if); my ($b_check,$state,$speed,$duplex,$mac); my ($cont_if,$ind_if,$j,$num) = (2,3,0,0); my $key = 'IF'; if ($if eq 'check'){ $b_check = 1; $key = 'IF-ID'; ($cont_if,$ind_if) = (1,2); } foreach my $item (@ifs_bsd){ if (ref $item ne 'ARRAY'){ $working_if = $item; # print "$working_if\n"; next; } else { $data = $item; } if ($b_check || $working_if eq $if){ $if = $working_if if $b_check; # print "top1: if: $if ifs: wif: $working_if @ifs_found\n"; next if ($b_check && grep {/$if/} @ifs_found); # print "top2: if: $if wif: $working_if ifs: @ifs_found\n"; # print Data::Dumper::Dumper $data; # ($state,$speed,$duplex,$mac) $duplex = $data->[2]; $duplex ||= 'N/A'; $mac = main::filter($data->[3]); $speed = $data->[1]; $speed ||= 'N/A'; $state = $data->[0]; $state ||= 'N/A'; $j = scalar @$rows; # print "$speed \n"; push(@$rows, { main::key($num++,1,$cont_if,$key) => $if, main::key($num++,0,$ind_if,'state') => $state, }); push(@ifs_found, $if) if (!$b_check && (!grep {/$if/} @ifs_found)); # print "push: if: $if ifs: @ifs_found\n"; # no print out for wifi since it doesn't have duplex/speed data available # note that some cards show 'unknown' for state, so only testing explicitly # for 'down' string in that to skip showing speed/duplex if (!$b_wifi && $state ne 'down' && $state ne 'no network'){ # make sure the value is strictly numeric before appending Mbps $speed = (main::is_int($speed)) ? "$speed Mbps" : $speed; $rows->[$j]{main::key($num++,0,$ind_if,'speed')} = $speed; $rows->[$j]{main::key($num++,0,$ind_if,'duplex')} = $duplex; } $rows->[$j]{main::key($num++,0,$ind_if,'mac')} = $mac; if ($show{'ip'} && $if){ if_ip($rows,$key,$if); } } } eval $end if $b_log; } ## Result values: # 0: ipv # 1: ip # 2: broadcast, if found # 3: scope, if found # 4: scope IF, if different from IF sub if_ip { eval $start if $b_log; my ($rows,$type,$if) = @_; my ($working_if); my ($cont_ip,$ind_ip,$if_cnt) = (3,4,0); my ($j,$num) = (0,0); $b_ip_run = 1; if ($type eq 'IF-ID'){ ($cont_ip,$ind_ip) = (2,3); } OUTER: foreach my $item (@ifs){ if (ref $item ne 'ARRAY'){ $working_if = $item; # print "if:$if wif:$working_if\n"; next; } if ($working_if eq $if){ $if_cnt = 0; # print "if $if item:\n", Data::Dumper::Dumper $item; foreach my $data2 (@$item){ $j = scalar @$rows; $num = 1; $if_cnt++; if ($limit > 0 && $if_cnt > $limit){ push(@$rows, { main::key($num++,0,$cont_ip,'Message') => main::message('output-limit',scalar @$item), }); last OUTER; } # print "$data2->[0] $data2->[1]\n"; my ($ipv,$ip,$broadcast,$scope,$scope_id); $ipv = ($data2->[0])? $data2->[0]: 'N/A'; $ip = main::filter($data2->[1]); $scope = ($data2->[3])? $data2->[3]: 'N/A'; # note: where is this ever set to 'all'? Old test condition? if ($if ne 'all'){ if (defined $data2->[4] && $working_if ne $data2->[4]){ # scope global temporary deprecated dynamic # scope global dynamic # scope global temporary deprecated dynamic # scope site temporary deprecated dynamic # scope global dynamic noprefixroute enx403cfc00ac68 # scope global eth0 # scope link # scope site dynamic # scope link # trim off if at end of multi word string if found $data2->[4] =~ s/\s$if$// if $data2->[4] =~ /[^\s]+\s$if$/; my $key = ($data2->[4] =~ /deprecated|dynamic|temporary|noprefixroute/) ? 'type' : 'virtual'; push(@$rows, { main::key($num++,1,$cont_ip,"IP v$ipv") => $ip, main::key($num++,0,$ind_ip,$key) => $data2->[4], main::key($num++,0,$ind_ip,'scope') => $scope, }); } else { push(@$rows, { main::key($num++,1,$cont_ip,"IP v$ipv") => $ip, main::key($num++,0,$ind_ip,'scope') => $scope, }); } } else { push(@$rows, { main::key($num++,1,($cont_ip - 1),'IF') => $if, main::key($num++,1,$cont_ip,"IP v$ipv") => $ip, main::key($num++,0,$ind_ip,'scope') => $scope, }); } if ($extra > 1 && $data2->[2]){ $broadcast = main::filter($data2->[2]); $rows->[$j]{main::key($num++,0,$ind_ip,'broadcast')} = $broadcast; } } } } eval $end if $b_log; } # Get ip using downloader to stdout. This is a clean, text only IP output url, # single line only, ending in the ip address. May have to modify this in the future # to handle ipv4 and ipv6 addresses but should not be necessary. # ip=$(echo 2001:0db8:85a3:0000:0000:8a2e:0370:7334 | gawk --re-interval ' # ip=$(wget -q -O - $WAN_IP_URL | gawk --re-interval ' # this generates a direct dns based ipv4 ip address, but if opendns.com goes down, # the fall backs will still work. # note: consistently slower than domain based: # dig +short +time=1 +tries=1 myip.opendns.com. A @208.67.222.222 sub wan_ip { eval $start if $b_log; my $rows = $_[0]; my ($b_dig,$b_html,$ip,$ua); my $num = 0; # time: 0.06 - 0.07 seconds # Cisco opendns.com may be terminating supporting this one, sometimes works, sometimes not: # use -4/6 to force ipv 4 or 6, but generally we want the 'natural' native ip returned. # dig +short +time=1 +tries=1 myip.opendns.com @resolver1.opendns.com :: 0.021s # Works but is slow: # dig +short @ns1-1.akamaitech.net ANY whoami.akamai.net :: 0.156s # This one can take forever, and sometimes requires explicit -4 or -6 # dig -4 TXT +short o-o.myaddr.l.google.com @ns1.google.com :: 0.026s; 1.087ss if (!$force{'no-dig'} && (my $program = main::check_program('dig'))){ $ip = (main::grabber("$program +short +time=1 +tries=1 \@ns1-1.akamaitech.net ANY whoami.akamai.net 2>/dev/null"))[0]; $ip =~ s/"//g if $ip; # some return IP in quotes, when using TXT $b_dig = 1; } if (!$ip && !$force{'no-html-wan'}){ # if dig failed or is not installed, set downloader data if unset if (!defined $dl{'no-ssl'}){ main::set_downloader(); } # note: tests: akamai: 0.015 - 0.025 icanhazip.com: 0.020 0.030 # smxi: 0.230, so ~10x slower. Dig is not as fast as you'd expect # dig: 0.167s 0.156s # leaving smxi as last test because I know it will always be up. # --wan-ip-url replaces values with user supplied arg # 0.020s: http://whatismyip.akamai.com/ # 0.136s: https://get.geojs.io/v1/ip # 0.024s: http://icanhazip.com/ # 0.027s: ifconfig.io # 0.230s: https://smxi.org/opt/ip.php # 0.023s: https://api.ipify.org :: NOTE: hangs, widely variable times, don't use my @urls = (!$wan_url) ? qw(http://whatismyip.akamai.com/ http://icanhazip.com/ https://smxi.org/opt/ip.php) : ($wan_url); foreach (@urls){ $ua = 'ip' if $_ =~ /smxi/; $ip = main::download_file('stdout',$_,'',$ua); if ($ip){ # print "$_\n"; chomp($ip); $ip = (split(/\s+/, $ip))[-1]; last; } } $b_html = 1; } if ($ip && $use{'filter'}){ $ip = $filter_string; } if (!$ip){ # true case trips if (!$b_dig){ $ip = main::message('IP-no-dig', 'WAN IP'); } elsif ($b_dig && !$b_html){ $ip = main::message('IP-dig', 'WAN IP'); } else { $ip = main::message('IP', 'WAN IP'); } } push(@$rows, { main::key($num++,0,1,'WAN IP') => $ip, }); eval $end if $b_log; } sub check_bus_id { eval $start if $b_log; my ($path,$bus_id) = @_; my ($b_valid); if ($bus_id){ # legacy, not link, but uevent has path: # PHYSDEVPATH=/devices/pci0000:00/0000:00:0a.1/0000:05:00.0 if (Cwd::abs_path($path) =~ /$bus_id\// || (-r "$path/uevent" && -s "$path/uevent" && (grep {/$bus_id/} main::reader("$path/uevent")))){ $b_valid = 1; } } eval $end if $b_log; return $b_valid; } sub check_wifi { my ($item) = @_; my $b_wifi = ($item =~ /wireless|wi-?fi|wlan|802\.11|centrino/i) ? 1 : 0; return $b_wifi; } } ## OpticalItem { package OpticalItem; sub get { eval $start if $b_log; my $rows = $_[0]; my $start = scalar @$rows; my ($data,$val1); my $num = 0; if ($bsd_type){ $val1 = main::message('optical-data-bsd'); if ($dboot{'optical'}){ $data = drive_data_bsd(); drive_output($rows,$data) if %$data; } else{ my $file = $system_files{'dmesg-boot'}; if ($file && ! -r $file){ $val1 = main::message('dmesg-boot-permissions'); } elsif (!$file){ $val1 = main::message('dmesg-boot-missing'); } } } else { $val1 = main::message('optical-data'); $data = drive_data_linux(); drive_output($rows,$data) if %$data; } # if none of the above increased the row count, show the error message if ($start == scalar @$rows){ push(@$rows,{main::key($num++,0,1,'Message') => $val1}); } eval $end if $b_log; return $rows; } sub drive_output { eval $start if $b_log; my ($rows,$drives) = @_; my $num = 0; my $j = 0; # build floppy if any foreach my $key (sort keys %$drives){ if ($drives->{$key}{'type'} eq 'floppy'){ push(@$rows, { main::key($num++,0,1,ucfirst($drives->{$key}{'type'})) => "/dev/$key", }); delete $drives->{$key}; } } foreach my $key (sort keys %$drives){ $j = scalar @$rows; $num = 1; my $vendor = $drives->{$key}{'vendor'}; $vendor ||= 'N/A'; my $model = $drives->{$key}{'model'}; $model ||= 'N/A'; push(@$rows, { main::key($num++,1,1,ucfirst($drives->{$key}{'type'})) => "/dev/$key", main::key($num++,0,2,'vendor') => $vendor, main::key($num++,0,2,'model') => $model, }); if ($extra > 0){ my $rev = $drives->{$key}{'rev'}; $rev ||= 'N/A'; $rows->[$j]{ main::key($num++,0,2,'rev')} = $rev; } if ($extra > 1 && $drives->{$key}{'serial'}){ $rows->[$j]{ main::key($num++,0,2,'serial')} = main::filter($drives->{$key}{'serial'}); } my $links = (@{$drives->{$key}{'links'}}) ? join(',', sort @{$drives->{$key}{'links'}}) : 'N/A' ; $rows->[$j]{ main::key($num++,0,2,'dev-links')} = $links; if ($show{'optical'}){ $j = scalar @$rows; my $speed = $drives->{$key}{'speed'}; $speed ||= 'N/A'; my ($audio,$multisession) = ('',''); if (defined $drives->{$key}{'multisession'}){ $multisession = ($drives->{$key}{'multisession'} == 1) ? 'yes' : 'no' ; } $multisession ||= 'N/A'; if (defined $drives->{$key}{'audio'}){ $audio = ($drives->{$key}{'audio'} == 1) ? 'yes' : 'no' ; } $audio ||= 'N/A'; my $dvd = 'N/A'; my (@rw,$rws); if (defined $drives->{$key}{'dvd'}){ $dvd = ($drives->{$key}{'dvd'} == 1) ? 'yes' : 'no' ; } if ($drives->{$key}{'cdr'}){ push(@rw, 'cd-r'); } if ($drives->{$key}{'cdrw'}){ push(@rw, 'cd-rw'); } if ($drives->{$key}{'dvdr'}){ push(@rw, 'dvd-r'); } if ($drives->{$key}{'dvdram'}){ push(@rw, 'dvd-ram'); } $rws = (@rw) ? join(',', @rw) : 'none' ; push(@$rows, { main::key($num++,1,2,'Features') => '', main::key($num++,0,3,'speed') => $speed, main::key($num++,0,3,'multisession') => $multisession, main::key($num++,0,3,'audio') => $audio, main::key($num++,0,3,'dvd') => $dvd, main::key($num++,0,3,'rw') => $rws, }); if ($extra > 0){ my $state = $drives->{$key}{'state'}; $state ||= 'N/A'; $rows->[$j]{ main::key($num++,0,3,'state')} = $state; } } } # print Data::Dumper::Dumper $drives; eval $end if $b_log; } sub drive_data_bsd { eval $start if $b_log; my (@rows,@temp); my $drives = {}; my ($count,$i,$working) = (0,0,''); foreach (@{$dboot{'optical'}}){ $_ =~ s/(cd[0-9]+)\(([^:]+):([0-9]+):([0-9]+)\):/$1:$2-$3.$4,/; my @row = split(/:\s*/, $_); next if ! defined $row[1]; if ($working ne $row[0]){ # print "$id_holder $row[0]\n"; $working = $row[0]; } # no dots, note: ada2: 2861588MB BUT: ada2: 600.000MB/s if (!exists $drives->{$working}){ $drives->{$working}{'links'} = []; $drives->{$working}{'model'} = ''; $drives->{$working}{'rev'} = ''; $drives->{$working}{'state'} = ''; $drives->{$working}{'vendor'} = ''; $drives->{$working}{'temp'} = ''; $drives->{$working}{'type'} = ($working =~ /^cd/) ? 'optical' : 'unknown'; } # print "$_\n"; if ($bsd_type !~ /^(net|open)bsd$/){ if ($row[1] && $row[1] =~ /^<([^>]+)>/){ $drives->{$working}{'model'} = $1; $count = ($drives->{$working}{'model'} =~ tr/ //); if ($count && $count > 1){ @temp = split(/\s+/, $drives->{$working}{'model'}); $drives->{$working}{'vendor'} = $temp[0]; my $index = ($#temp > 2) ? ($#temp - 1): $#temp; $drives->{$working}{'model'} = join(' ', @temp[1..$index]); $drives->{$working}{'rev'} = $temp[-1] if $count > 2; } if ($show{'optical'}){ if (/\bDVD\b/){ $drives->{$working}{'dvd'} = 1; } if (/\bRW\b/){ $drives->{$working}{'cdrw'} = 1; $drives->{$working}{'dvdr'} = 1 if $drives->{$working}{'dvd'}; } } } if ($row[1] && $row[1] =~ /^Serial/){ @temp = split(/\s+/,$row[1]); $drives->{$working}{'serial'} = $temp[-1]; } if ($show{'optical'}){ if ($row[1] =~ /^([0-9\.]+[MGTP][B]?\/s)/){ $drives->{$working}{'speed'} = $1; $drives->{$working}{'speed'} =~ s/\.[0-9]+//; } if (/\bDVD[-]?RAM\b/){ $drives->{$working}{'cdr'} = 1; $drives->{$working}{'dvdram'} = 1; } if ($row[2] && $row[2] =~ /,\s(.*)$/){ $drives->{$working}{'state'} = $1; $drives->{$working}{'state'} =~ s/\s+-\s+/, /; } } } else { if ($row[2] && $row[2] =~ /<([^>]+)>/){ $drives->{$working}{'model'} = $1; $count = ($drives->{$working}{'model'} =~ tr/,//); # print "c: $count $row[2]\n"; if ($count && $count > 1){ @temp = split(/,\s*/, $drives->{$working}{'model'}); $drives->{$working}{'vendor'} = $temp[0]; $drives->{$working}{'model'} = $temp[1]; $drives->{$working}{'rev'} = $temp[2]; } if ($show{'optical'}){ if (/\bDVD\b/){ $drives->{$working}{'dvd'} = 1; } if (/\bRW\b/){ $drives->{$working}{'cdrw'} = 1; $drives->{$working}{'dvdr'} = 1 if $drives->{$working}{'dvd'}; } if (/\bDVD[-]?RAM\b/){ $drives->{$working}{'cdr'} = 1; $drives->{$working}{'dvdram'} = 1; } } } if ($show{'optical'}){ # print "$row[1]\n"; if (($row[1] =~ tr/,//) > 1){ @temp = split(/,\s*/, $row[1]); $drives->{$working}{'speed'} = $temp[2]; } } } } main::log_data('dump','%$drives',$drives) if $b_log; # print Data::Dumper::Dumper $drives; eval $end if $b_log; return $drives; } sub drive_data_linux { eval $start if $b_log; my (@data,@info,@rows); my $drives = {}; @data = main::globber('/dev/dvd* /dev/cdr* /dev/scd* /dev/sr* /dev/fd[0-9]'); # Newer kernel is NOT linking all optical drives. Some, but not all. # Get the actual disk dev location, first try default which is easier to run, # need to preserve line breaks foreach (@data){ my $working = readlink($_); $working = ($working) ? $working: $_; next if $working =~ /random/; # possible fix: puppy has these in /mnt not /dev they say $working =~ s/\/(dev|media|mnt)\///; $_ =~ s/\/(dev|media|mnt)\///; if (!defined $drives->{$working}){ my @temp = ($_ ne $working) ? ($_) : (); $drives->{$working}{'links'} = \@temp; $drives->{$working}{'type'} = ($working =~ /^fd/) ? 'floppy' : 'optical' ; } else { push(@{$drives->{$working}{'links'}}, $_) if $_ ne $working; } # print "$working\n"; } if ($show{'optical'} && -e '/proc/sys/dev/cdrom/info'){ @info = main::reader('/proc/sys/dev/cdrom/info','strip'); } # print join('; ', @data), "\n"; foreach my $key (keys %$drives){ next if $drives->{$key}{'type'} eq 'floppy'; my $device = "/sys/block/$key/device"; if (-d $device){ if (-r "$device/vendor"){ $drives->{$key}{'vendor'} = main::reader("$device/vendor",'',0); $drives->{$key}{'vendor'} = main::clean($drives->{$key}{'vendor'}); $drives->{$key}{'state'} = main::reader("$device/state",'',0); $drives->{$key}{'model'} = main::reader("$device/model",'',0); $drives->{$key}{'model'} = main::clean($drives->{$key}{'model'}); $drives->{$key}{'rev'} = main::reader("$device/rev",'',0); } } elsif (-r "/proc/ide/$key/model"){ $drives->{$key}{'vendor'} = main::reader("/proc/ide/$key/model",'',0); $drives->{$key}{'vendor'} = main::clean($drives->{$key}{'vendor'}); } if ($show{'optical'} && @info){ my $index = 0; foreach my $item (@info){ next if $item =~ /^\s*$/; my @split = split(/\s+/, $item); if ($item =~ /^drive name:/){ foreach my $id (@split){ last if ($id eq $key); $index++; } last if !$index; # index will be > 0 if it was found } elsif ($item =~/^drive speed:/){ $drives->{$key}{'speed'} = $split[$index]; } elsif ($item =~/^Can read multisession:/){ $drives->{$key}{'multisession'}=$split[$index+1]; } elsif ($item =~/^Can read MCN:/){ $drives->{$key}{'mcn'}=$split[$index+1]; } elsif ($item =~/^Can play audio:/){ $drives->{$key}{'audio'}=$split[$index+1]; } elsif ($item =~/^Can write CD-R:/){ $drives->{$key}{'cdr'}=$split[$index+1]; } elsif ($item =~/^Can write CD-RW:/){ $drives->{$key}{'cdrw'}=$split[$index+1]; } elsif ($item =~/^Can read DVD:/){ $drives->{$key}{'dvd'}=$split[$index+1]; } elsif ($item =~/^Can write DVD-R:/){ $drives->{$key}{'dvdr'}=$split[$index+1]; } elsif ($item =~/^Can write DVD-RAM:/){ $drives->{$key}{'dvdram'}=$split[$index+1]; } } } } main::log_data('dump','%$drives',$drives) if $b_log; # print Data::Dumper::Dumper $drives; eval $end if $b_log; return $drives; } } ## PartitionItem { # these will be globally accessible via PartitionItem::filters() my ($fs_exclude,$fs_skip,$part_filter); package PartitionItem; sub get { eval $start if $b_log; my ($key1,$val1); my $rows = []; my $num = 0; set_partitions() if !$loaded{'set-partitions'}; # Fails in corner case with zram but no other mounted filesystems if (!@partitions){ $key1 = 'Message'; #$val1 = ($bsd_type && $bsd_type eq 'darwin') ? # main::message('darwin-feature') : main::message('partition-data'); $val1 = main::message('partition-data'); @$rows = ({main::key($num++,0,1,$key1) => $val1,}); } else { create_output($rows); } eval $end if $b_log; return $rows; } sub create_output { eval $start if $b_log; my $rows = $_[0]; my $num = 0; my $j = 0; my ($dev,$dev_type,$fs,$percent,$raw_size,$size,$used); # alpha sort for non numerics if ($show{'partition-sort'} !~ /^(percent-used|size|used)$/){ @partitions = sort { $a->{$show{'partition-sort'}} cmp $b->{$show{'partition-sort'}} } @partitions; } else { @partitions = sort { $a->{$show{'partition-sort'}} <=> $b->{$show{'partition-sort'}} } @partitions; } my $fs_skip = get_filters('fs-skip'); foreach my $row (@partitions){ $num = 1; next if $row->{'type'} eq 'secondary' && $show{'partition'}; next if $show{'swap'} && $row->{'fs'} && $row->{'fs'} eq 'swap'; next if $row->{'swap-type'} && $row->{'swap-type'} ne 'partition'; if (!$row->{'hidden'}){ $size = ($row->{'size'}) ? main::get_size($row->{'size'},'string') : 'N/A'; $used = main::get_size($row->{'used'},'string','N/A'); # used can be 0 $percent = (defined $row->{'percent-used'}) ? ' (' . $row->{'percent-used'} . '%)' : ''; } else { $percent = ''; $used = $size = (!$b_root) ? main::message('root-required') : main::message('partition-hidden'); } $fs = ($row->{'fs'}) ? lc($row->{'fs'}): 'N/A'; $dev_type = ($row->{'dev-type'}) ? $row->{'dev-type'} : 'dev'; $row->{'dev-base'} = '/dev/' . $row->{'dev-base'} if $dev_type eq 'dev' && $row->{'dev-base'}; $dev = ($row->{'dev-base'}) ? $row->{'dev-base'} : 'N/A'; $row->{'id'} =~ s|/home/[^/]+/(.*)|/home/$filter_string/$1| if $use{'filter'}; $j = scalar @$rows; push(@$rows, { main::key($num++,1,1,'ID') => $row->{'id'}, }); if (($b_admin || $row->{'hidden'}) && $row->{'raw-size'}){ # It's an error! permissions or missing tool $raw_size = ($row->{'raw-size'}) ? main::get_size($row->{'raw-size'},'string') : 'N/A'; $rows->[$j]{main::key($num++,0,2,'raw-size')} = $raw_size; } if ($b_admin && $row->{'raw-available'} && $size ne 'N/A'){ $size .= ' (' . $row->{'raw-available'} . '%)'; } $rows->[$j]{main::key($num++,0,2,'size')} = $size; $rows->[$j]{main::key($num++,0,2,'used')} = $used . $percent; $rows->[$j]{main::key($num++,0,2,'fs')} = $fs; if ($b_admin && $fs eq 'swap' && defined $row->{'swappiness'}){ $rows->[$j]{main::key($num++,0,2,'swappiness')} = $row->{'swappiness'}; } if ($b_admin && $fs eq 'swap' && defined $row->{'cache-pressure'}){ $rows->[$j]{main::key($num++,0,2,'cache-pressure')} = $row->{'cache-pressure'}; } if ($extra > 1 && $fs eq 'swap' && defined $row->{'priority'}){ $rows->[$j]{main::key($num++,0,2,'priority')} = $row->{'priority'}; } if ($b_admin && $row->{'block-size'}){ $rows->[$j]{main::key($num++,0,2,'block-size')} = $row->{'block-size'} . ' B';; # $rows->[$j]{main::key($num++,0,2,'physical')} = $row->{'block-size'} . ' B'; # $rows->[$j]{main::key($num++,0,2,'logical')} = $row->{'block-logical'} . ' B'; } $rows->[$j]{main::key($num++,1,2,$dev_type)} = $dev; if ($b_admin && $row->{'maj-min'}){ $rows->[$j]{main::key($num++,0,3,'maj-min')} = $row->{'maj-min'}; } if ($extra > 0 && $row->{'dev-mapped'}){ $rows->[$j]{main::key($num++,0,3,'mapped')} = $row->{'dev-mapped'}; } # add fs known to not use label/uuid here if (($show{'label'} || $show{'uuid'}) && $dev_type eq 'dev' && $fs !~ /^$fs_skip$/){ if ($show{'label'}){ if ($use{'filter-label'}){ $row->{'label'} = main::filter_partition('part', $row->{'label'}, ''); } $row->{'label'} ||= 'N/A'; $rows->[$j]{main::key($num++,0,2,'label')} = $row->{'label'}; } if ($show{'uuid'}){ if ($use{'filter-uuid'}){ $row->{'uuid'} = main::filter_partition('part', $row->{'uuid'}, ''); } $row->{'uuid'} ||= 'N/A'; $rows->[$j]{main::key($num++,0,2,'uuid')} = $row->{'uuid'}; } } } # Corner case, no partitions, but zram swap. if (!@$rows){ @$rows = ({main::key($num++,0,1,'Message') => main::message('partition-data')}); } eval $end if $b_log; } sub set_partitions { eval $start if $b_log; # return if $bsd_type && $bsd_type eq 'darwin'; # darwin has mutated output my (@data,@rows,@mount,@partitions_working,$part,@working); my ($back_size,$back_used,$b_fs,$cols) = (4,3,1,6); my ($b_dfp,$b_fake_map,$b_load,$b_logical,$b_space,); my ($block_size,$blockdev,$dev_base,$dev_mapped,$dev_type,$fs,$id,$label, $maj_min,$percent_used,$raw_size,$replace,$size_available,$size,$test, $type,$uuid,$used); $loaded{'set-partitions'} = 1; if ($b_admin){ # For partition block size $blockdev = $alerts{'blockdev'}->{'path'} if $alerts{'blockdev'}->{'path'}; } # For raw partition sizes, maj_min if ($bsd_type){ DiskDataBSD::set() if !$loaded{'disk-data-bsd'}; } else { PartitionData::set() if !$loaded{'partition-data'}; LsblkData::set() if !$loaded{'lsblk'}; } # set @labels, @uuid if (!$bsd_type){ set_label_uuid() if !$loaded{'label-uuid'}; } # Most current OS support -T and -k, but -P means different things # in freebsd. However since most use is from linux, we make that default # android 7 no -T support if (!$fake{'partitions'}){ if (@partitions_working = main::grabber("df -P -T -k 2>/dev/null")){ main::set_mapper() if !$loaded{'mapper'} && !$bsd_type; $b_dfp = 1; } elsif (@partitions_working = main::grabber("df -T -k 2>/dev/null")){ # Fine, it worked, could be bsd or linux } # Busybox supports -k and -P, older openbsd, darwin, solaris don't have -P else { if (@partitions_working = main::grabber("df -k -P 2>/dev/null")){ $b_dfp = 1; } else { @partitions_working = main::grabber("df -k 2>/dev/null"); } $b_fs = 0; if (my $path = main::check_program('mount')){ @mount = main::grabber("$path 2>/dev/null"); } } } else { my $file; # $file = "$fake_data_dir/block-devices/df/df-kTP-cygwin-1.txt"; # $file = "$fake_data_dir/block-devices/df/df-kT-wrapped-1.txt"; # @partitions_working = main::reader($file); } # print Data::Dumper::Dumper \@partitions_working; # Determine positions if (@partitions_working){ my $row1 = shift @partitions_working; $row1 =~ s/Mounted on/Mounted-on/i; my @temp = split(/\s+/,$row1); $cols = $#temp; } # NOTE: using -P fixes line wraps, otherwise look for hangs and reconnect if (!$b_dfp){ my $holder = ''; my @part_temp; foreach (@partitions_working){ my @columns= split(/\s+/,$_); if ($#columns < $cols){ $holder = join('^^',@columns[0..$#columns]); next; } if ($holder){ # reconnect hanging lines $_ = $holder . ' ' . $_; $holder = ''; } push(@part_temp,$_); } @partitions_working = @part_temp; } if (!$bsd_type){ # New kernels/df have rootfs and / repeated, creating two entries for the # same partition so check for two string endings of / then slice out the # rootfs one, I could check for it before slicing it out, but doing that # would require the same action twice re code execution. my $roots = 0; foreach (@partitions_working){ $roots++ if /\s\/$/; } @partitions_working = grep {!/^rootfs/} @partitions_working if $roots > 1; } else { # turns out freebsd uses this junk too $b_fake_map = 1; # darwin k: Filesystem 1024-blocks Used Available Capacity iused ifree %iused Mounted on # linux kT: Filesystem Type 1K-blocks Used Available Use% Mounted on # freebsd kT: Filesystem Type 1024-blocks Used Avail Capacity Mounted on if ($bsd_type eq 'darwin'){ ($back_size,$back_used) = (7,6); } } my $filters = get_filters('partition'); # These are local, not remote, iso, or overlay types: my $fuse_fs = 'adb|apfs(-?fuse)?|archive(mount)?|gphoto|gv|gzip|ifuse|'; $fuse_fs .= '[^\.]*mtp|ntfs-?3g|[^\.]*ptp|vdfuse|vram|wim(mount)?|xb|xml'; # Just the common ones desktops might have my $remote_fs = 'curlftp|gmail|g(oogle-?)?drive|pnfs|\bnfs|rclone|s3fs|smb|ssh'; # push @partitions_working, '//mafreebox.freebox.fr/Disque dur cifs 239216096 206434016 20607496 91% /freebox/Disque dur'; # push @partitions_working, '//mafreebox.freebox.fr/AllPG cifs 436616192 316339304 120276888 73% /freebox/AllPG'; # push(@partitions_working,'/dev/loop0p1 iso9660 3424256 3424256 0 100% /media/jason/d-live nf 11.3.0 gn 6555 9555 amd64'); # push(@partitions_working,'drvfs 9p 511881212 115074772 396806440 23% /mnt/c'); # push(@partitions_working,'drivers 9p 511881212 115074772 396806440 23% /usr/lib/wsl/drivers'); foreach (@partitions_working){ ($dev_base,$dev_mapped,$dev_type,$fs,$id,$label, $maj_min,$type,$uuid) = ('','','','','','','','',''); ($b_load,$b_space,$block_size,$percent_used,$raw_size,$size_available, $size,$used) = (0,0,0,0,0,0,0,0); undef $part; # apple crap, maybe also freebsd? $_ =~ s/^map\s+([\S]+)/map:\/$1/ if $b_fake_map; # handle spaces in remote filesystem names # busybox df shows KM, sigh; note: GoogleDrive Hogne: fuse.rclone 15728640 316339304 120276888 73% if (/^(.*?)(\s[\S]+)\s+[a-z][a-z0-9\.]+(\s+[0-9]+){3}\s+[0-9]+%\s/){ $replace = $test = "$1$2"; if ($test =~ /\s/){ # paranoid test, but better safe than sorry $b_space = 1; $replace =~ s/\s/^^/g; # print ":$replace:\n"; $_ =~ s/^$test/$replace/; # print "$_\n"; } } my @row = split(/\s+/, $_); # print Data::Dumper::Dumper \@row; $row[0] =~ s/\^\^/ /g if $b_space; # reset spaces in > 1 word fs name # autofs is a bsd thing, has size 0 if ($row[0] =~ /^$filters$/ || $row[0] =~ /^ROOT/i || ($b_fs && ($row[2] == 0 || $row[1] =~ /^(autofs|devtmpfs|iso9660|tmpfs)$/))){ next; } # cygwin C:\cygwin passes this test so has to be handled later if ($row[0] =~ /^\/dev\/|:\/|\/\//){ # this could point to by-label or by-uuid so get that first. In theory, abs_path should # drill down to get the real path, but it isn't always working. if ($row[0] eq '/dev/root'){ $row[0] = get_root(); } # sometimes paths are set using /dev/disk/by-[label|uuid] so we need to get the /dev/xxx path if ($row[0] =~ /by-label|by-uuid/){ $row[0] = Cwd::abs_path($row[0]); } elsif ($row[0] =~ /mapper\// && %mapper){ $dev_mapped = $row[0]; $dev_mapped =~ s|^/.*/||; $row[0] = $mapper{$dev_mapped} if $mapper{$dev_mapped}; } elsif ($row[0] =~ /\/dm-[0-9]+$/ && %dmmapper){ my $temp = $row[0]; $temp =~ s|^/.*/||; $dev_mapped = $dmmapper{$temp}; } $dev_base = $row[0]; $dev_base =~ s|^/.*/||; $part = LsblkData::get($dev_base) if @lsblk; $maj_min = get_maj_min($dev_base) if @proc_partitions; } # this handles zfs type devices/partitions, which do not start with / but contain / # note: Main/jails/transmission_1 path can be > 1 deep # Main zfs 3678031340 8156 3678023184 0% /mnt/Main if (!$dev_base && ($row[0] =~ /^([^\/]+\/)(.+)/ || ($row[0] =~ /^[^\/]+$/ && $row[1] =~ /^(btrfs|hammer[2-9]?|zfs)$/)) || ($windows{'wsl'} && $row[0] eq 'drivers')){ $dev_base = $row[0]; $dev_type = 'logical'; } # this handles yet another fredforfaen special case where a mounted drive # has the search string in its name, includes / (| if ($row[-1] =~ m%^/(|boot|boot/efi|home|opt|tmp|usr|usr/home|var|var/log|var/tmp)$% || ($b_android && $row[-1] =~ /^\/(cache|data|firmware|system)$/)){ $b_load = 1; # note, older df in bsd do not have file system column $type = 'main'; } # $cols in case where mount point has space in name, we only care about the first part elsif ($row[$cols] !~ m%^\/(|boot|boot/efi|home|opt|tmp|usr|usr/home|var|var/log|var/tmp)$% && $row[$cols] !~ /^filesystem/ && !($b_android && $row[$cols] =~ /^\/(cache|data|firmware|system)$/)){ $b_load = 1; $type = 'secondary'; } if ($b_load){ if (!$bsd_type){ if ($b_fs){ $fs = ($part->{'fs'}) ? $part->{'fs'} : $row[1]; } else { $fs = get_mounts_fs($row[0],\@mount); } if ($show{'label'}){ if ($part->{'label'}){ $label = $part->{'label'}; } elsif (@labels){ $label = get_label($row[0]); } } if ($show{'uuid'}){ if ($part->{'uuid'}){ $uuid = $part->{'uuid'}; } elsif (@uuids){ $uuid = get_uuid($row[0]); } } } else { $fs = ($b_fs) ? $row[1]: get_mounts_fs($row[0],\@mount); } # assuming that all null/nullfs are parts of a logical fs $b_logical = 1 if $fs && $fs =~ /^(btrfs|hammer|null|zfs)/; $id = join(' ', @row[$cols .. $#row]); $size = $row[$cols - $back_size]; if ($b_admin && -e "/sys/block/"){ @working = admin_data($blockdev,$dev_base,$size); $raw_size = $working[0]; $size_available = $working[1]; $block_size = $working[2]; } if (!$dev_type){ # C:/cygwin64, D: if ($windows{'cygwin'} && $row[0] =~ /^[A-Z]+:/){ $dev_type = 'windows'; $dev_base = $row[0] if !$dev_base; # looks weird if D:, yes, I know, windows uses \, but cygwin doesn't $dev_base .= '/' if $dev_base =~ /:$/; } elsif ($windows{'wsl'} && $row[0] =~ /^(drvfs)/){ $dev_type = 'windows'; if ($id =~ m|^/mnt/([a-z])$|){ $dev_base = uc($1) . ':'; } $dev_base = $row[0] if !$dev_base; } # need data set, this could maybe be converted to use # dev-mapped and abspath but not without testing elsif ($dev_base =~ /^map:\/(.*)/){ $dev_type = 'mapped'; $dev_base = $1; } # note: possible: sshfs path: beta:data/; remote: fuse.rclone elsif ($dev_base =~ /^\/\/|:\// || ($fs && $fs =~ /($remote_fs)/i)){ $dev_type = 'remote'; $dev_base = $row[0] if !$dev_base; # only trips in fs test case } # a slice bsd system, zfs can't be detected this easily elsif ($b_logical && $fs && $fs =~ /^null(fs)?$/){ $dev_type = 'logical'; $dev_base = $row[0] if !$dev_base; } elsif (!$dev_base){ if ($fs && $fs =~ /^(fuse[\._-]?)?($fuse_fs)(fs)?/i){ $dev_base = $2; $dev_type = 'fuse'; } # Check dm-crypt, that may be real partition type, but no data. # We've hit something inxi doesn't know about, or error has occured else { $dev_type = 'source'; $dev_base = main::message('unknown-dev'); } } else { $dev_type = 'dev'; } } if ($bsd_type && $dev_type eq 'dev' && $row[0] && ($b_admin || $show{'label'} || $show{'uuid'})){ my $temp = DiskDataBSD::get($row[0]); $block_size = $temp->{'logical-block-size'}; $label = $temp->{'label'}; $uuid = $temp->{'uuid'}; } $used = $row[$cols - $back_used]; $percent_used = sprintf("%.1f", ($used/$size)*100) if ($size && main::is_numeric($size)); push(@partitions,{ 'block-size' => $block_size, 'dev-base' => $dev_base, 'dev-mapped' => $dev_mapped, 'dev-type' => $dev_type, 'fs' => $fs, 'id' => $id, 'label' => $label, 'maj-min' => $maj_min, 'percent-used' => $percent_used, 'raw-available' => $size_available, 'raw-size' => $raw_size, 'size' => $size, 'type' => $type, 'used' => $used, 'uuid' => $uuid, }); } } swap_data() if !$loaded{'set-swap'}; push(@partitions,@swaps); print Data::Dumper::Dumper \@partitions if $dbg[16]; if (!$bsd_type && @lsblk){ check_partition_data();# updates @partitions } main::log_data('dump','@partitions',\@partitions) if $b_log; print Data::Dumper::Dumper \@partitions if $dbg[16]; eval $end if $b_log; } sub swap_data { eval $start if $b_log; $loaded{'set-swap'} = 1; my (@data,@working); my ($block_size,$cache_pressure,$dev_base,$dev_mapped,$dev_type,$label, $maj_min,$mount,$path,$pattern1,$pattern2,$percent_used,$priority, $size,$swap_type,$swappiness,$used,$uuid,$zram_comp,$zram_mcs, $zswap_enabled,$zram_comp_avail,$zswap_comp,$zswap_mpp); my ($s,$j,$size_id,$used_id) = (1,0,2,3); if (!$bsd_type){ # faster, avoid subshell, same as swapon -s if (-r '/proc/swaps'){ @working = main::reader("/proc/swaps"); } elsif ($path = main::check_program('swapon')){ # note: while -s is deprecated, --show --bytes is not supported # on older systems @working = main::grabber("$path -s 2>/dev/null"); } if ($b_admin){ swap_advanced_data(\$swappiness,\$cache_pressure,\$zswap_enabled, \$zswap_comp,\$zswap_mpp); } if (($show{'label'} || $show{'uuid'}) && !$loaded{'label-uuid'}){ set_label_uuid(); } $pattern1 = 'partition|file|ram'; $pattern2 = '[^\s].*[^\s]'; } else { if ($path = main::check_program('swapctl')){ # output in in KB blocks @working = main::grabber("$path -l -k 2>/dev/null"); } ($size_id,$used_id) = (1,2); $pattern1 = '[0-9]+'; $pattern2 = '[^\s]+'; } # now add the swap partition data, don't want to show swap files, just partitions, # though this can include /dev/ramzswap0. Note: you can also use /proc/swaps for this # data, it's the same exact output as swapon -s foreach (@working){ #next if ! /^\/dev/ || /^\/dev\/(ramzwap|zram)/; next if /^(Device|Filename|no swap)/; ($block_size,$dev_base,$dev_mapped,$dev_type,$label,$maj_min,$mount, $swap_type,$uuid) = ('','','','','','','','partition',''); ($priority,$zram_comp_avail,$zram_comp,$zram_mcs) = (); @data = split(/\s+/, $_); # /dev/zramX; ramzswapX == compcache, legacy version of zram. # /run/initramfs/dev/zram0; /dev/ramzswap0 if (/^\/(dev|run).*?\/((compcache|ramzwap|zram)\d+)/i){ $dev_base = $2; $swap_type = 'zram'; $dev_type = 'dev'; if ($b_admin){ zram_data($dev_base,\$zram_comp,\$zram_comp_avail,\$zram_mcs); } } elsif ($data[1] && $data[1] eq 'ram'){ $swap_type = 'ram'; } elsif (m|^/dev|){ $swap_type = 'partition'; $dev_base = $data[0]; $dev_base =~ s|^/dev/||; if (!$bsd_type){ if ($dev_base =~ /^dm-/ && %dmmapper){ $dev_mapped = $dmmapper{$dev_base}; } if ($show{'label'} && @labels){ $label = get_label($data[0]); } if ($show{'uuid'} && @uuids){ $uuid = get_uuid($data[0]); } } else { if ($show{'label'} || $show{'uuid'}){ my $temp = DiskDataBSD::get($data[0]); $block_size = $temp->{'logical-block-size'}; $label = $temp->{'label'}; $uuid = $temp->{'uuid'}; } } $dev_type = 'dev'; $maj_min = get_maj_min($dev_base) if @proc_partitions; } elsif ($data[1] && $data[1] eq 'file' || m|^/|){ $swap_type = 'file'; } $priority = $data[-1] if !$bsd_type; # swpaon -s: /dev/sdb1 partition 16383996 109608 -2 # swapctl -l -k: /dev/label/swap0.eli 524284 154092 # users could have space in swapfile name if (/^($pattern2)\s+($pattern1)\s+/){ $mount = main::trimmer($1); } $size = $data[$size_id]; $used = $data[$used_id]; $percent_used = sprintf("%.1f", ($used/$size)*100); push(@swaps, { 'block-size' => $block_size, 'cache-pressure' => $cache_pressure, 'dev-base' => $dev_base, 'dev-mapped' => $dev_mapped, 'dev-type' => $dev_type, 'fs' => 'swap', 'id' => "swap-$s", 'label' => $label, 'maj-min' => $maj_min, 'mount' => $mount, 'percent-used' => $percent_used, 'priority' => $priority, 'size' => $size, 'swappiness' => $swappiness, 'type' => 'main', 'swap-type' => $swap_type, 'used' => $used, 'uuid' => $uuid, 'zram-comp' => $zram_comp, 'zram-comp-avail' => $zram_comp_avail, 'zram-max-comp-streams' => $zram_mcs, 'zswap-enabled' => $zswap_enabled, 'zswap-compressor' => $zswap_comp, 'zswap-max-pool-percent' => $zswap_mpp, }); $s++; } main::log_data('dump','@swaps',\@swaps) if $b_log; print Data::Dumper::Dumper \@swaps if $dbg[15];; eval $end if $b_log; } # Alll by ref: 0: $swappiness; 1: $cache_pressure; 2: $zswap_enabled; # 3: $zswap_comp; 4: $zswap_mpp sub swap_advanced_data { eval $start if $b_log; if (-r '/proc/sys/vm/swappiness'){ ${$_[0]} = main::reader('/proc/sys/vm/swappiness','',0); if (defined ${$_[0]}){ ${$_[0]} .= (${$_[0]} == 60) ? ' (default)' : ' (default 60)' ; } } if (-r '/proc/sys/vm/vfs_cache_pressure'){ ${$_[1]} = main::reader('/proc/sys/vm/vfs_cache_pressure','',0); if (defined ${$_[1]}){ ${$_[1]} .= (${$_[1]}== 100) ? ' (default)' : ' (default 100)' ; } } if (-r '/sys/module/zswap/parameters/enabled'){ ${$_[2]} = main::reader('/sys/module/zswap/parameters/enabled','',0); if (${$_[2]} =~ /^(Y|yes|true|1)$/){ ${$_[2]} = 'yes'; } elsif (${$_[2]} =~ /^(N|no|false|0)$/){ ${$_[2]} = 'no'; } else { ${$_[2]} = 'unset'; } } if (-r '/sys/module/zswap/parameters/compressor'){ ${$_[3]} = main::reader('/sys/module/zswap/parameters/compressor','',0); } if (-r '/sys/module/zswap/parameters/max_pool_percent'){ ${$_[4]} = main::reader('/sys/module/zswap/parameters/max_pool_percent','',0); } eval $end if $b_log; } # 0: device id [zram0]; by ref: 1: $zram_comp; 2: $zram_comp_avail; 3: $zram_mcs; sub zram_data { if (-r "/sys/block/$_[0]/comp_algorithm"){ ${$_[2]} = main::reader("/sys/block/$_[0]/comp_algorithm",'',0); # current is in [..] in list if (${$_[2]} =~ /\[(\S+)\]/){ ${$_[1]} = $1; # dump the active one, and leave the available ${$_[2]} =~ s/\[${$_[1]}\]//; ${$_[2]} =~ s/^\s+|\s+$//g; ${$_[2]} =~ s/\s+/,/g; } } if (-r "/sys/block/$_[0]/max_comp_streams"){ ${$_[3]} = main::reader("/sys/block/$_[0]/max_comp_streams",'',0); } } # Handle cases of hidden file systems sub check_partition_data { eval $start if $b_log; my ($b_found,$dev_mapped,$temp); my $filters = get_filters('partition'); foreach my $row (@lsblk){ $b_found = 0; $dev_mapped = ''; if (!$row->{'name'} || !$row->{'mount'} || !$row->{'type'} || ($row->{'fs'} && $row->{'fs'} =~ /^$filters$/) || ($row->{'type'} =~ /^(disk|loop|rom)$/)){ next; } # unmap so we can match name to dev-base if (%mapper && $mapper{$row->{'name'}}){ $dev_mapped = $row->{'name'}; $row->{'name'} = $mapper{$row->{'name'}}; } # print "$row->{'name'} $row->{'mount'}\n"; foreach my $row2 (@partitions){ # print "1: n:$row->{'name'} m:$row->{'mount'} db:$row2->{'dev-base'} id:$row2->{'id'}\n"; next if !$row2->{'id'}; # note: for swap mount point is [SWAP] in @lsblk, but swap-x in @partitions if ($row->{'mount'} eq $row2->{'id'} || $row->{'name'} eq $row2->{'dev-base'}){ $b_found = 1; last; } # print "m:$row->{'mount'} id:$row2->{'id'}\n"; } if (!$b_found){ # print "found: n:$row->{'name'} m:$row->{'mount'}\n"; $temp = { 'block-logical' => $row->{'block-logical'}, 'dev-base' => $row->{'name'}, 'dev-mapped' => $dev_mapped, 'fs' => $row->{'fs'}, 'id' => $row->{'mount'}, 'hidden' => 1, 'label' => $row->{'label'}, 'maj-min' => $row->{'maj-min'}, 'percent-used' => 0, 'raw-size' => $row->{'size'}, 'size' => 0, 'type' => 'secondary', 'used' => 0, 'uuid' => $row->{'uuid'}, }; push(@partitions,$temp); main::log_data('dump','lsblk check: @temp',$temp) if $b_log; } } eval $end if $b_log; } # fs-exclude: Excludes fs size from disk used total; # fs-skip: do not display label/uuid fields from partition/unmounted/swap. # partition: do not use this partition in -p output. # args: 0: [fs-exclude|fs-skip|partition] sub get_filters { set_filters() if !$fs_exclude; if ($_[0] eq 'fs-exclude'){ return $fs_exclude; } elsif ($_[0] eq 'fs-skip'){ return $fs_skip; } elsif ($_[0] eq 'partition'){ return $part_filter; } } # See docs/inxi-partitions.txt FILE SYSTEMS for specific fs info. # The filter string must match /^[regex]$/ exactly. sub set_filters { # Notes: appimage/flatpak mount?; astreamfs reads remote http urls; # avfs == fuse; cgmfs,vramfs in ram, like devfs, sysfs; gfs = googlefs; # hdfs == hadoop; ifs == integrated fs; pvfs == orangefs; smb == cifs; # null == hammer fs slice; kfs/kosmosfs == CloudStore; # snap mounts with squashfs; swap is set in swap_data(); vdfs != vdfuse; # vramfs == like zram except gpu ram; # Some can be fuse mounts: fuse.sshfs. # Distributed/Remote: 9p, (open-)?afs, alluxio, astreamfs, beegfs, # cephfs, cfs, chironfs, cifs, cloudstore, dfs, davfs, dce, # gdrivefs, gfarm, gfs\d{0,2}, gitfs, glusterfs, gmailfs, gpfs, # hdfs, httpdirfs, hubicfuse, ipfs, juice, k(osmos)?fs, .*lafs, lizardfs, # lustre, magma, mapr, moosefs, nfs[34], objective, ocfs\d{0,2}, onefs, # orangefs, panfs, pnfs, pvfs\d{0,2}, rclone, restic, rozofs, s3fs, scality, # sfs, sheepdogfs, spfs, sshfs, smbfs, v9fs, vdfs, vmfs, wekafs, xtreemfs # Stackable/Union: aufs, e?cryptfs, encfs, erofs, gocryptfs, ifs, lofs, # mergerfs, mhddfs, overla(id|y)(fs)?, squashfs, unionfs; # ISO/Archive: archive(mount)?, atlas, avfs. borg, erofs, fuse-archive, # fuseiso, gzipfs, iso9660, lofs, vdfuse, wimmountfs, xbfuse # FUSE: adbfs, apfs-fuse, atomfs, gvfs, gvfs-mtp, ifuse, jmtpfs, mtpfs, ptpfs, # puzzlefs, simple-mtpfs, vramfs, xmlfs # System fs: cgmfs, configfs, debugfs, devfs, devtmpfs, efivarfs, fdescfs, # hugetlbfs, kernfs, linprocfs, linsysfs, lxcfs, procfs, ptyfs, run, # securityfs, shm, swap, sys, sysfs, tmpfs, tracefs, type, udev, vartmp # System dir: /dev, /dev/loop[0-9]+, /run(/.*)?, /sys/.* ## These are global, all filters use these. ISO, encrypted/stacked my @all = qw%au av e?crypt enc ero gocrypt i (fuse-?)?iso iso9660 lo merger mhdd overla(id|y) splitview(-?fuse)? squash union xbfuse%; ## These are fuse/archive/distributed/remote/clustered mostly my @exclude = (@all,qw%9p (open-?)?a adb archive(mount)? astream atlas atom beeg borg c ceph chiron ci cloudstore curlftp d dav dce g gdrive gfarm git gluster gmail gocrypt google-drive-ocaml gp gphoto gv gzip hd httpd hubic ip juice k(osmos)? .*la lizard lustre magma mapr moose .*mtp null p?n objective oc one orange pan .*ptp puzzle pv rclone restic rozo s s3 scality sheepdog sp ssh smb v9 vd vm vram weka wim(mount)? xb xml xtreem%); # Various RAM based system FS my @partition = (@all,qw%cgroup.* cgm config debug dev devtmp efivar fdesc hugetlb kern linproc linsys lxc none proc pty run security shm swap sys tmp trace type udev vartmp%); my $start = '(fuse(blk)?[\._-]?)?('; my $end = ')([\._-]?fuse)?(fs)?\d{0,2}'; $fs_exclude = $start . join('|',@exclude) . $end; $fs_skip = $start . join('|',@exclude,'f') . $end; # apfs?; BSD ffs has no u/l $part_filter = '((' . join('|',@partition) . ')(fs)?|'; $part_filter .= '\/dev|\/dev\/loop[0-9]+|\/run(\/.*)?|\/sys\/.*)'; # print "$part_filter\n"; } sub get_mounts_fs { eval $start if $b_log; my ($item,$mount) = @_; $item =~ s/map:\/(\S+)/map $1/ if $bsd_type && $bsd_type eq 'darwin'; return 'N/A' if ! @$mount; my ($fs) = (''); # linux: /dev/sdb6 on /var/www/m type ext4 (rw,relatime,data=ordered) # /dev/sda3 on /root.dev/ugw type ext3 (rw,relatime,errors=continue,user_xattr,acl,barrier=1,data=journal) # bsd: /dev/ada0s1a on / (ufs, local, soft-updates) # bsd 2: /dev/wd0g on /home type ffs (local, nodev, nosuid) foreach (@$mount){ if ($_ =~ /^$item\s+on.*?\s+type\s+([\S]+)\s+\([^\)]+\)/){ $fs = $1; last; } elsif ($_ =~ /^$item\s+on.*?\s+\(([^,\s\)]+?)[,\s]*.*\)/){ $fs = $1; last; } } eval $end if $b_log; main::log_data('data',"fs: $fs") if $b_log; return $fs; } sub set_label_uuid { eval $start if $b_log; $loaded{'label-uuid'} = 1; if ($show{'unmounted'} || $show{'label'} || $show{'swap'} || $show{'uuid'}){ if (-d '/dev/disk/by-label'){ @labels = main::globber('/dev/disk/by-label/*'); } if (-d '/dev/disk/by-uuid'){ @uuids = main::globber('/dev/disk/by-uuid/*'); } main::log_data('dump', '@labels', \@labels) if $b_log; main::log_data('dump', '@uuids', \@uuids) if $b_log; } eval $end if $b_log; } # args: 0: blockdev full path (part only); 1: block id; 2: size (part only) sub admin_data { eval $start if $b_log; my ($blockdev,$id,$size) = @_; # 0: calc block 1: available percent 2: disk physical block size/partition block size; my @sizes = (0,0,0); my ($block_size,$percent,$size_raw) = (0,0,0); foreach my $row (@proc_partitions){ if ($row->[-1] eq $id){ $size_raw = $row->[2]; last; } } # get the fs block size $block_size = (main::grabber("$blockdev --getbsz /dev/$id 2>/dev/null"))[0] if $blockdev; if (!$size_raw){ $size_raw = 'N/A'; } else { $percent = sprintf("%.2f", ($size/$size_raw) * 100) if $size && $size_raw; } # print "$id size: $size %: $percent p-b: $block_size raw: $size_raw\n"; @sizes = ($size_raw,$percent,$block_size); main::log_data('dump','@sizes',\@sizes) if $b_log; eval $end if $b_log; return @sizes; } sub get_maj_min { eval $start if $b_log; my ($id) = @_; my ($maj_min,@working); foreach my $row (@proc_partitions){ if ($id eq $row->[-1]){ $maj_min = $row->[0] . ':' . $row->[1]; last; } } eval $end if $b_log; return $maj_min; } sub get_label { eval $start if $b_log; my ($item) = @_; my $label = ''; foreach (@labels){ if ($item eq Cwd::abs_path($_)){ $label = $_; $label =~ s/\/dev\/disk\/by-label\///; $label =~ s/\\x20/ /g; $label =~ s%\\x2f%/%g; last; } } $label ||= 'N/A'; eval $end if $b_log; return $label; } sub get_root { eval $start if $b_log; my ($path) = ('/dev/root'); # note: the path may be a symbolic link to by-label/by-uuid but not # sure how far in abs_path resolves the path. my $temp = Cwd::abs_path($path); $path = $temp if $temp; # note: it's a kernel config option to have /dev/root be a sym link # or not, if it isn't, path will remain /dev/root, if so, then try mount if ($path eq '/dev/root' && (my $program = main::check_program('mount'))){ my @data = main::grabber("$program 2>/dev/null"); # /dev/sda2 on / type ext4 (rw,noatime,data=ordered) foreach (@data){ if (/^([\S]+)\son\s\/\s/){ $path = $1; # note: we'll be handing off any uuid/label paths to the next # check tools after get_root() above, so don't trim those. $path =~ s/.*\/// if $path !~ /by-uuid|by-label/; last; } } } eval $end if $b_log; return $path; } sub get_uuid { eval $start if $b_log; my ($item) = @_; my $uuid = ''; foreach (@uuids){ if ($item eq Cwd::abs_path($_)){ $uuid = $_; $uuid =~ s/\/dev\/disk\/by-uuid\///; last; } } $uuid ||= 'N/A'; eval $end if $b_log; return $uuid; } } ## ProcessItem { package ProcessItem; sub get { eval $start if $b_log; my $num = 0; my $rows = []; if (@ps_aux){ if ($show{'ps-cpu'}){ cpu_processes($rows); } if ($show{'ps-mem'}){ mem_processes($rows); } } else { my $key = 'Message'; push(@$rows, { main::key($num++,0,1,$key) => main::message('ps-data-null','') }); } eval $end if $b_log; return $rows; } sub cpu_processes { eval $start if $b_log; my $rows = $_[0]; my ($j,$num,$cpu,$cpu_mem,$mem,$pid) = (0,0,'','','',''); my ($pid_col,@ps_rows); my $count = ($b_irc)? 5: $ps_count; if ($ps_cols >= 10){ @ps_rows = sort { my @a = split(/\s+/, $a); my @b = split(/\s+/, $b); $b[2] <=> $a[2] } @ps_aux; $pid_col = 1; } else { @ps_rows = @ps_aux; $pid_col = 0 if $ps_cols == 2; } # if there's a count limit, for irc, etc, only use that much of the data @ps_rows = splice(@ps_rows,0,$count); $j = scalar @ps_rows; # $cpu_mem = ' - Memory: MiB / % used' if $extra > 0; my $throttled = throttled($ps_count,$count,$j); # my $header = "CPU % used - Command - pid$cpu_mem - top"; # my $header = "Top $count by CPU"; push(@$rows,{ main::key($num++,1,1,'CPU top') => "$count$throttled" . ' of ' . scalar @ps_aux }); my $i = 1; foreach (@ps_rows){ $num = 1; $j = scalar @$rows; my @row = split(/\s+/, $_); my $command = process_starter(scalar @row, $row[$ps_cols],$row[$ps_cols + 1]); $cpu = ($ps_cols >= 10) ? $row[2] . '%': 'N/A'; push(@$rows,{ main::key($num++,1,2,$i++) => '', main::key($num++,0,3,'cpu') => $cpu, main::key($num++,1,3,'command') => $command->[0], }); if ($command->[1]){ $rows->[$j]{main::key($num++,0,4,'started-by')} = $command->[1]; } $pid = (defined $pid_col)? $row[$pid_col] : 'N/A'; $rows->[$j]{main::key($num++,0,3,'pid')} = $pid; if ($extra > 0 && $ps_cols >= 10){ my $decimals = ($row[5]/1024 > 10) ? 1 : 2; $mem = (defined $row[5]) ? sprintf("%.${decimals}f", $row[5]/1024) . ' MiB' : 'N/A'; $mem .= ' (' . $row[3] . '%)'; $rows->[$j]{main::key($num++,0,3,'mem')} = $mem; } # print Data::Dumper::Dumper \@processes, "i: $i; j: $j "; } eval $end if $b_log; } sub mem_processes { eval $start if $b_log; my $rows = $_[0]; my ($j,$num,$cpu,$cpu_mem,$mem,$pid) = (0,0,'','','',''); my (@data,$pid_col,$memory,@ps_rows); my $count = ($b_irc)? 5: $ps_count; if ($ps_cols >= 10){ @ps_rows = sort { my @a = split(/\s+/, $a); my @b = split(/\s+/, $b); $b[5] <=> $a[5] } @ps_aux; # 5 #$a[1] <=> $b[1] } @ps_aux; # 5 $pid_col = 1; } else { @ps_rows = @ps_aux; $pid_col = 0 if $ps_cols == 2; } @ps_rows = splice(@ps_rows,0,$count); # print Data::Dumper::Dumper \@rows; if (!$loaded{'memory'}){ my $row = {}; main::MemoryData::row('process',$row,\$num,1); push(@$rows,$row); $num = 0; } $j = scalar @$rows; my $throttled = throttled($ps_count,$count,$j); #$cpu_mem = ' - CPU: % used' if $extra > 0; # my $header = "Memory MiB/% used - Command - pid$cpu_mem - top"; # my $header = "Top $count by Memory"; push(@$rows, { main::key($num++,1,1,'Memory top') => "$count$throttled" . ' of ' . scalar @ps_aux }); my $i = 1; foreach (@ps_rows){ $num = 1; $j = scalar @$rows; my @row = split(/\s+/, $_); if ($ps_cols >= 10){ my $decimals = ($row[5]/1024 > 10) ? 1 : 2; $mem = (main::is_int($row[5])) ? sprintf("%.${decimals}f", $row[5]/1024) . ' MiB' : 'N/A'; $mem .= " (" . $row[3] . "%)"; } else { $mem = 'N/A'; } my $command = process_starter(scalar @row, $row[$ps_cols],$row[$ps_cols + 1]); push(@$rows,{ main::key($num++,1,2,$i++) => '', main::key($num++,0,3,'mem') => $mem, main::key($num++,1,3,'command') => $command->[0], }); if ($command->[1]){ $rows->[$j]{main::key($num++,0,4,'started-by')} = $command->[1]; } $pid = (defined $pid_col)? $row[$pid_col] : 'N/A'; $rows->[$j]{main::key($num++,0,3,'pid')} = $pid; if ($extra > 0 && $ps_cols >= 10){ $cpu = $row[2] . '%'; $rows->[$j]{main::key($num++,0,3,'cpu')} = $cpu; } # print Data::Dumper::Dumper \@processes, "i: $i; j: $j "; } eval $end if $b_log; } sub process_starter { my ($count, $row10, $row11) = @_; my $return = []; # note: [migration/0] would clear with a simple basename if ($count > ($ps_cols + 1) && $row11 =~ /^\// && $row11 !~ /^\/(tmp|temp)/){ $row11 =~ s/^\/.*\///; $return->[0] = $row11; $row10 =~ s/^\/.*\///; $return->[1] = $row10; } else { $row10 =~ s/^\/.*\///; $return->[0] = $row10; $return->[1] = ''; } return $return; } sub throttled { my ($ps_count,$count,$j) = @_; my $throttled = ''; if ($count > $j){ $throttled = " ( $j processes)"; # space to avoid emoji in irc } elsif ($count < $ps_count){ $throttled = " (throttled from $ps_count)"; } return $throttled; } } ## RaidItem { package RaidItem; sub get { eval $start if $b_log; my ($hardware_raid,$key1,$val1); my $num = 0; my $rows = []; $hardware_raid = hw_data() if $use{'hardware-raid'} || $fake{'raid-hw'}; raid_data() if !$loaded{'raid'}; # print 'get btrfs: ', Data::Dumper::Dumper \@btrfs_raid; # print 'get lvm: ', Data::Dumper::Dumper \@lvm_raid; # print 'get md: ', Data::Dumper::Dumper \@md_raid; # print 'get zfs: ', Data::Dumper::Dumper \@zfs_raid; if (!@btrfs_raid && !@lvm_raid && !@md_raid && !@zfs_raid && !@soft_raid && !$hardware_raid){ if ($show{'raid-forced'}){ $key1 = 'Message'; $val1 = main::message('raid-data'); } } else { if ($hardware_raid){ hw_output($rows,$hardware_raid); } if (@btrfs_raid){ btrfs_output($rows); } if (@lvm_raid){ lvm_output($rows); } if (@md_raid){ md_output($rows); } if (@soft_raid){ soft_output($rows); } if (@zfs_raid){ zfs_output($rows); } } if (!@$rows && $key1){ @$rows = ({main::key($num++,0,1,$key1) => $val1,}); } eval $end if $b_log; return $rows; } sub hw_output { eval $start if $b_log; my ($rows,$hardware_raid) = @_; my ($j,$num) = (0,0); foreach my $row (@$hardware_raid){ $num = 1; my $device = ($row->{'device'}) ? $row->{'device'}: 'N/A'; my $driver = ($row->{'driver'}) ? $row->{'driver'}: 'N/A'; push(@$rows, { main::key($num++,1,1,'Hardware') => $device, }); $j = scalar @$rows - 1; $rows->[$j]{main::key($num++,0,2,'vendor')} = $row->{'vendor'} if $row->{'vendor'}; $rows->[$j]{main::key($num++,1,2,'driver')} = $driver; if ($extra > 0){ $row->{'driver-version'} ||= 'N/A'; $rows->[$j]{main::key($num++,0,3,'v')} = $row->{'driver-version'}; if ($extra > 2){ my $port= ($row->{'port'}) ? $row->{'port'}: 'N/A' ; $rows->[$j]{main::key($num++,0,2,'port')} = $port; } my $bus_id = (defined $row->{'bus-id'} && defined $row->{'sub-id'}) ? "$row->{'bus-id'}.$row->{'sub-id'}": 'N/A' ; $rows->[$j]{main::key($num++,0,2,'bus-ID')} = $bus_id; } if ($extra > 1){ my $chip_id = main::get_chip_id($row->{'vendor-id'},$row->{'chip-id'}); $rows->[$j]{main::key($num++,0,2,'chip-ID')} = $chip_id; } if ($extra > 2){ $row->{'rev'} = 'N/A' if !defined $row->{'rev'}; # could be 0 $rows->[$j]{main::key($num++,0,2,'rev')} = $row->{'rev'}; $rows->[$j]{main::key($num++,0,2,'class-ID')} = $row->{'class-id'} if $row->{'class-id'}; } } eval $end if $b_log; # print Data::Dumper::Dumper $rows; } sub btrfs_output { eval $start if $b_log; my $rows = $_[0]; my (@components,@good); my ($size); my ($j,$num) = (0,0); foreach my $row (sort {$a->{'id'} cmp $b->{'id'}} @btrfs_raid){ $j = scalar @$rows; $rows->[$j]{main::key($num++,1,2,'Components')} = ''; my $b_bump; components_output('lvm','Online',$rows,\@good,\$j,\$num,\$b_bump); components_output('lvm','Meta',$rows,\@components,\$j,\$num,\$b_bump); } eval $end if $b_log; # print Data::Dumper::Dumper $rows; } sub lvm_output { eval $start if $b_log; my $rows = $_[0]; my (@components,@good,@components_meta); my ($size); my ($j,$num) = (0,0); foreach my $row (sort {$a->{'id'} cmp $b->{'id'}} @lvm_raid){ $j = scalar @$rows; push(@$rows, { main::key($num++,1,1,'Device') => $row->{'id'}, }); if ($b_admin && $row->{'maj-min'}){ $rows->[$j]{main::key($num++,0,2,'maj-min')} = $row->{'maj-min'}; } $rows->[$j]{main::key($num++,0,2,'type')} = $row->{'type'}; $rows->[$j]{main::key($num++,0,2,'level')} = $row->{'level'}; $size = ($row->{'size'}) ? main::get_size($row->{'size'},'string'): 'N/A'; $rows->[$j]{main::key($num++,0,2,'size')} = $size; if ($row->{'raid-sync'}){ $rows->[$j]{main::key($num++,0,2,'sync')} = $row->{'raid-sync'}; } if ($extra > 0){ $j = scalar @$rows; $num = 1; $rows->[$j]{main::key($num++,1,2,'Info')} = ''; if (defined $row->{'stripes'}){ $rows->[$j]{main::key($num++,0,3,'stripes')} = $row->{'stripes'}; } if (defined $row->{'raid-mismatches'} && ($extra > 1 || $row->{'raid-mismatches'} > 0)){ $rows->[$j]{main::key($num++,0,3,'mismatches')} = $row->{'raid-mismatches'}; } if (defined $row->{'copy-percent'} && ($extra > 1 || $row->{'copy-percent'} < 100)){ $rows->[$j]{main::key($num++,0,3,'copied')} = ($row->{'copy-percent'} + 0) . '%'; } if ($row->{'vg'}){ $rows->[$j]{main::key($num++,1,3,'v-group')} = $row->{'vg'}; } $size = ($row->{'vg-size'}) ? main::get_size($row->{'vg-size'},'string') : 'N/A'; $rows->[$j]{main::key($num++,0,4,'vg-size')} = $size; $size = ($row->{'vg-free'}) ? main::get_size($row->{'vg-free'},'string') : 'N/A'; $rows->[$j]{main::key($num++,0,4,'vg-free')} = $size; } @components = (ref $row->{'components'} eq 'ARRAY') ? @{$row->{'components'}} : (); @good = (); @components_meta = (); foreach my $item (sort { $a->[0] cmp $b->[0]} @components){ if ($item->[4] =~ /_rmeta/){ push(@components_meta, $item); } else { push(@good, $item); } } $j = scalar @$rows; $rows->[$j]{main::key($num++,1,2,'Components')} = ''; my $b_bump; components_output('lvm','Online',$rows,\@good,\$j,\$num,\$b_bump); components_output('lvm','Meta',$rows,\@components_meta,\$j,\$num,\$b_bump); } eval $end if $b_log; # print Data::Dumper::Dumper $rows; } sub md_output { eval $start if $b_log; my $rows = $_[0]; my (@components,@good,@failed,@inactive,@spare,@temp); my ($blocks,$chunk,$level,$report,$size,$status); my ($j,$num) = (0,0); # print Data::Dumper::Dumper \@md_raid; if ($extra > 2 && $md_raid[0]->{'supported-levels'}){ push(@$rows, { main::key($num++,0,1,'Supported mdraid levels') => $md_raid[0]->{'supported-levels'}, }); } foreach my $row (sort {$a->{'id'} cmp $b->{'id'}} @md_raid){ $j = scalar @$rows; next if !%$row; $num = 1; $level = (defined $row->{'level'}) ? $row->{'level'} : 'linear'; push(@$rows, { main::key($num++,1,1,'Device') => $row->{'id'}, }); if ($b_admin && $row->{'maj-min'}){ $rows->[$j]{main::key($num++,0,2,'maj-min')} = $row->{'maj-min'}; } $rows->[$j]{main::key($num++,0,2,'type')} = $row->{'type'}; $rows->[$j]{main::key($num++,0,2,'level')} = $level; $rows->[$j]{main::key($num++,0,2,'status')} = $row->{'status'}; if ($row->{'details'}{'state'}){ $rows->[$j]{main::key($num++,0,2,'state')} = $row->{'details'}{'state'}; } if ($row->{'size'}){ $size = main::get_size($row->{'size'},'string'); } else { $size = (!$b_root && !@lsblk) ? main::message('root-required'): 'N/A'; } $rows->[$j]{main::key($num++,0,2,'size')} = $size; $report = ($row->{'report'}) ? $row->{'report'}: ''; $report .= " $row->{'u-data'}" if $report; $report ||= 'N/A'; if ($extra == 0){ # print "here 0\n"; $rows->[$j]{main::key($num++,0,2,'report')} = $report; } if ($extra > 0){ $j = scalar @$rows; $num = 1; $rows->[$j]{main::key($num++,1,2,'Info')} = ''; #$rows->[$j]{main::key($num++,0,3,'raid')} = $raid; $rows->[$j]{main::key($num++,0,3,'report')} = $report; $blocks = ($row->{'blocks'}) ? $row->{'blocks'} : 'N/A'; $rows->[$j]{main::key($num++,0,3,'blocks')} = $blocks; $chunk = ($row->{'chunk-size'}) ? $row->{'chunk-size'} : 'N/A'; $rows->[$j]{main::key($num++,0,3,'chunk-size')} = $chunk; if ($extra > 1){ if ($row->{'bitmap'}){ $rows->[$j]{main::key($num++,0,3,'bitmap')} = $row->{'bitmap'}; } if ($row->{'super-block'}){ $rows->[$j]{main::key($num++,0,3,'super-blocks')} = $row->{'super-block'}; } if ($row->{'algorithm'}){ $rows->[$j]{main::key($num++,0,3,'algorithm')} = $row->{'algorithm'}; } } } @components = (ref $row->{'components'} eq 'ARRAY') ? @{$row->{'components'}} : (); @good = (); @failed = (); @inactive = (); @spare = (); # @spare = split(/\s+/, $row->{'unused'}) if $row->{'unused'}; # print Data::Dumper::Dumper \@components; foreach my $item (sort { $a->[1] <=> $b->[1]} @components){ if (defined $item->[2] && $item->[2] =~ /^(F)$/){ push(@failed,$item); } elsif (defined $item->[2] && $item->[2] =~ /(S)$/){ push(@spare,$item); } elsif ($row->{'status'} && $row->{'status'} eq 'inactive'){ push(@inactive,$item); } else { push(@good,$item); } } $j = scalar @$rows; $rows->[$j]{main::key($num++,1,2,'Components')} = ''; my $b_bump; components_output('mdraid','Online',$rows,\@good,\$j,\$num,\$b_bump); components_output('mdraid','Failed',$rows,\@failed,\$j,\$num,\$b_bump); components_output('mdraid','Inactive',$rows,\@inactive,\$j,\$num,\$b_bump); components_output('mdraid','Spare',$rows,\@spare,\$j,\$num,\$b_bump); if ($row->{'recovery-percent'}){ $j = scalar @$rows; $num = 1; my $percent = $row->{'recovery-percent'}; if ($extra > 1 && $row->{'progress-bar'}){ $percent .= " $row->{'progress-bar'}" } $rows->[$j]{main::key($num++,1,2,'Recovering')} = $percent; my $finish = ($row->{'recovery-finish'})?$row->{'recovery-finish'} : 'N/A'; $rows->[$j]{main::key($num++,0,3,'time-remaining')} = $finish; if ($extra > 0){ if ($row->{'sectors-recovered'}){ $rows->[$j]{main::key($num++,0,3,'sectors')} = $row->{'sectors-recovered'}; } } if ($extra > 1 && $row->{'recovery-speed'}){ $rows->[$j]{main::key($num++,0,3,'speed')} = $row->{'recovery-speed'}; } } } eval $end if $b_log; # print Data::Dumper::Dumper $rows; } sub soft_output { eval $start if $b_log; my $rows = $_[0]; my (@components,@good,@failed,@offline,@rebuild,@temp); my ($size); my ($j,$num) = (0,0); if (@soft_raid && $alerts{'bioctl'}->{'action'} eq 'permissions'){ push(@$rows,{ main::key($num++,1,1,'Message') => main::message('root-item-incomplete','softraid'), }); } # print Data::Dumper::Dumper \@soft_raid; foreach my $row (sort {$a->{'id'} cmp $b->{'id'}} @soft_raid){ $j = scalar @$rows; next if !%$row; $num = 1; push(@$rows, { main::key($num++,1,1,'Device') => $row->{'id'}, }); $row->{'level'} ||= 'N/A'; $rows->[$j]{main::key($num++,0,2,'type')} = $row->{'type'}; $rows->[$j]{main::key($num++,0,2,'level')} = $row->{'level'}; $rows->[$j]{main::key($num++,0,2,'status')} = $row->{'status'}; if ($row->{'state'}){ $rows->[$j]{main::key($num++,0,2,'state')} = $row->{'state'}; } if ($row->{'size'}){ $size = main::get_size($row->{'size'},'string'); } $size ||= 'N/A'; $rows->[$j]{main::key($num++,0,2,'size')} = $size; @components = (ref $row->{'components'} eq 'ARRAY') ? @{$row->{'components'}} : (); @good = (); @failed = (); @offline = (); @rebuild = (); foreach my $item (sort { $a->[1] <=> $b->[1]} @components){ if (defined $item->[2] && $item->[2] eq 'failed'){ push(@failed,$item); } elsif (defined $item->[2] && $item->[2] eq 'offline'){ push(@offline,$item); } elsif (defined $item->[2] && $item->[2] eq 'rebuild'){ push(@rebuild,$item); } else { push(@good,$item); } } $j = scalar @$rows; $rows->[$j]{main::key($num++,1,2,'Components')} = ''; my $b_bump; components_output('softraid','Online',$rows,\@good,\$j,\$num,\$b_bump); components_output('softraid','Failed',$rows,\@failed,\$j,\$num,\$b_bump); components_output('softraid','Rebuild',$rows,\@rebuild,\$j,\$num,\$b_bump); components_output('softraid','Offline',$rows,\@offline,\$j,\$num,\$b_bump); } eval $end if $b_log; # print Data::Dumper::Dumper $rows; } sub zfs_output { eval $start if $b_log; my $rows = $_[0]; my (@arrays,@arrays_holder,@components,@good,@failed,@spare); my ($allocated,$available,$level,$size,$status); my ($b_row_1_sizes); my ($j,$num) = (0,0); # print Data::Dumper::Dumper \@zfs_raid; foreach my $row (sort {$a->{'id'} cmp $b->{'id'}} @zfs_raid){ $j = scalar @$rows; $b_row_1_sizes = 0; next if !%$row; $num = 1; push(@$rows, { main::key($num++,1,1,'Device') => $row->{'id'}, main::key($num++,0,2,'type') => $row->{'type'}, main::key($num++,0,2,'status') => $row->{'status'}, }); $size = ($row->{'raw-size'}) ? main::get_size($row->{'raw-size'},'string') : ''; $available = main::get_size($row->{'raw-free'},'string',''); # could be zero free if ($extra > 2){ $allocated = ($row->{'raw-allocated'}) ? main::get_size($row->{'raw-allocated'},'string') : ''; } @arrays = @{$row->{'arrays'}}; @arrays = grep {defined $_} @arrays; @arrays_holder = @arrays; my $count = scalar @arrays; if (!defined $arrays[0]->{'level'}){ $level = 'linear'; $rows->[$j]{main::key($num++,0,2,'level')} = $level; } elsif ($count < 2 && $arrays[0]->{'level'}){ $rows->[$j]{main::key($num++,0,2,'level')} = $arrays[0]->{'level'}; } if ($size || $available || $allocated){ $rows->[$j]{main::key($num++,1,2,'raw')} = ''; if ($size){ # print "here 0\n"; $rows->[$j]{main::key($num++,0,3,'size')} = $size; $size = ''; $b_row_1_sizes = 1; } if ($available){ $rows->[$j]{main::key($num++,0,3,'free')} = $available; $available = ''; $b_row_1_sizes = 1; } if ($allocated){ $rows->[$j]{main::key($num++,0,3,'allocated')} = $allocated; $allocated = ''; } } if ($row->{'zfs-size'}){ $rows->[$j]{main::key($num++,1,2,'zfs-fs')} = ''; $rows->[$j]{main::key($num++,0,3,'size')} = main::get_size($row->{'zfs-size'},'string'); $rows->[$j]{main::key($num++,0,3,'free')} = main::get_size($row->{'zfs-free'},'string'); } foreach my $row2 (@arrays){ if ($count > 1){ $j = scalar @$rows; $num = 1; $size = ($row2->{'raw-size'}) ? main::get_size($row2->{'raw-size'},'string') : 'N/A'; $available = ($row2->{'raw-free'}) ? main::get_size($row2->{'raw-free'},'string') : 'N/A'; $level = (defined $row2->{'level'}) ? $row2->{'level'}: 'linear'; $status = ($row2->{'status'}) ? $row2->{'status'}: 'N/A'; push(@$rows, { main::key($num++,1,2,'Array') => $level, main::key($num++,0,3,'status') => $status, main::key($num++,1,3,'raw') => '', main::key($num++,0,4,'size') => $size, main::key($num++,0,4,'free') => $available, }); } # items like cache may have one component, with a size on that component elsif (!$b_row_1_sizes){ # print "here $count\n"; $size = ($row2->{'raw-size'}) ? main::get_size($row2->{'raw-size'},'string') : 'N/A'; $available = ($row2->{'raw-free'}) ? main::get_size($row2->{'raw-free'},'string') : 'N/A'; $rows->[$j]{main::key($num++,1,2,'raw')} = ''; $rows->[$j]{main::key($num++,0,3,'size')} = $size; $rows->[$j]{main::key($num++,0,3,'free')} = $available; if ($extra > 2){ $allocated = ($row2->{'raw-allocated'}) ? main::get_size($row2->{'raw-allocated'},'string') : ''; if ($allocated){ $rows->[$j]{main::key($num++,0,3,'allocated')} = $allocated; } } } @components = (ref $row2->{'components'} eq 'ARRAY') ? @{$row2->{'components'}} : (); @failed = (); @spare = (); @good = (); # @spare = split(/\s+/, $row->{'unused'}) if $row->{'unused'}; foreach my $item (sort { $a->[0] cmp $b->[0]} @components){ if (defined $item->[3] && $item->[3] =~ /^(DEGRADED|FAULTED|UNAVAIL)$/){ push(@failed, $item); } elsif (defined $item->[3] && $item->[3] =~ /(AVAIL|OFFLINE|REMOVED)$/){ push(@spare, $item); } # note: spares in use show: INUSE but technically it's still a spare, # but since it's in use, consider it online. else { push(@good, $item); } } $j = scalar @$rows; $rows->[$j]{main::key($num++,1,3,'Components')} = ''; my $b_bump; components_output('zfs','Online',$rows,\@good,\$j,\$num,\$b_bump); components_output('zfs','Failed',$rows,\@failed,\$j,\$num,\$b_bump); components_output('zfs','Available',$rows,\@spare,\$j,\$num,\$b_bump); } } eval $end if $b_log; # print Data::Dumper::Dumper $rows; } # Most key stuff passed by ref, and is changed on the fly sub components_output { eval $start if $b_log; my ($type,$item,$rows,$array,$j,$num,$b_bump) = @_; return if !@$array && $item ne 'Online'; my ($extra1,$extra2,$f1,$f2,$f3,$f4,$f5,$k,$k1,$key1,$l1,$l2,$l3); if ($type eq 'btrfs'){ } elsif ($type eq 'lvm'){ ($f1,$f2,$f3,$f4,$f5,$l1,$l2,$l3) = (1,2,3,4,5,3,4,5); $k = 1; $extra1 = 'mapped'; $extra2 = 'dev'; } elsif ($type eq 'mdraid'){ ($f1,$f2,$f3,$f4,$k1,$l1,$l2,$l3) = (3,4,5,6,1,3,4,5); $extra1 = 'mapped'; $k = 1 if $item eq 'Inactive'; } elsif ($type eq 'softraid'){ ($f1,$f2,$f3,$f4,$k1,$l1,$l2,$l3) = (1,10,10,3,5,3,4,5); $extra1 = 'device'; $k = 1; } elsif ($type eq 'zfs'){ ($f1,$f2,$f3,$l1,$l2,$l3) = (1,2,3,4,5,6); $k = 1; } # print "item: $item\n"; $$j++ if $$b_bump; $$b_bump = 0; my $good = ($item eq 'Online' && !@$array) ? 'N/A' : ''; $rows->[$$j]{main::key($$num++,1,$l1,$item)} = $good; #$$j++ if $b_admin; # print Data::Dumper::Dumper $array; foreach my $device (@$array){ next if ref $device ne 'ARRAY'; # if ($b_admin && $device->[$f1] && $device->[$f2]){ if ($b_admin){ $$j++; $$b_bump = 1; $$num = 1; } $key1 = (defined $k1 && defined $device->[$k1]) ? $device->[$k1] : $k++; $rows->[$$j]{main::key($$num++,1,$l2,$key1)} = $device->[0]; if ($b_admin && $device->[$f2]){ $rows->[$$j]{main::key($$num++,0,$l3,'maj-min')} = $device->[$f2]; } if ($b_admin && $device->[$f1]){ my $size = main::get_size($device->[$f1],'string'); $rows->[$$j]{main::key($$num++,0,$l3,'size')} = $size; } if ($b_admin && $device->[$f3]){ $rows->[$$j]{main::key($$num++,0,$l3,'state')} = $device->[$f3]; } if ($b_admin && $extra1 && $device->[$f4]){ $rows->[$$j]{main::key($$num++,0,$l3,$extra1)} = $device->[$f4]; } if ($b_admin && $extra2 && $device->[$f5]){ $rows->[$$j]{main::key($$num++,0,$l3,$extra2)} = $device->[$f5]; } } eval $end if $b_log; } sub raid_data { eval $start if $b_log; LsblkData::set() if !$bsd_type && !$loaded{'lsblk'}; main::set_mapper() if !$bsd_type && !$loaded{'mapper'}; PartitionData::set() if !$bsd_type && !$loaded{'partition-data'}; my (@data); $loaded{'raid'} = 1; if ($fake{'raid-btrfs'} || ($alerts{'btrfs'}->{'action'} && $alerts{'btrfs'}->{'action'} eq 'use')){ @btrfs_raid = btrfs_data(); } if ($fake{'raid-lvm'} || ($alerts{'lvs'}->{'action'} && $alerts{'lvs'}->{'action'} eq 'use')){ @lvm_raid = lvm_data(); } if ($fake{'raid-md'} || (my $file = $system_files{'proc-mdstat'})){ @md_raid = md_data($file); } if ($fake{'raid-soft'} || $sysctl{'softraid'}){ DiskDataBSD::set() if !$loaded{'disk-data-bsd'}; @soft_raid = soft_data(); } if ($fake{'raid-zfs'} || (my $path = main::check_program('zpool'))){ DiskDataBSD::set() if $bsd_type && !$loaded{'disk-data-bsd'}; @zfs_raid = zfs_data($path); } eval $end if $b_log; } # 0: type # 1: type_id # 2: bus_id # 3: sub_id # 4: device # 5: vendor_id # 6: chip_id # 7: rev # 8: port # 9: driver # 10: modules sub hw_data { eval $start if $b_log; return if !$devices{'hwraid'}; my ($driver,$vendor,$hardware_raid); foreach my $working (@{$devices{'hwraid'}}){ $driver = ($working->[9]) ? lc($working->[9]): ''; $driver =~ s/-/_/g if $driver; my $driver_version = ($driver) ? main::get_module_version($driver): ''; if ($extra > 2 && $use{'pci-tool'} && $working->[11]){ $vendor = main::get_pci_vendor($working->[4],$working->[11]); } push(@$hardware_raid, { 'class-id' => $working->[1], 'bus-id' => $working->[2], 'chip-id' => $working->[6], 'device' => $working->[4], 'driver' => $driver, 'driver-version' => $driver_version, 'port' => $working->[8], 'rev' => $working->[7], 'sub-id' => $working->[3], 'vendor-id' => $working->[5], 'vendor' => $vendor, }); } # print Data::Dumper::Dumper $hardware_raid; main::log_data('dump','@$hardware_raid',$hardware_raid) if $b_log; eval $end if $b_log; return $hardware_raid; } # Placeholder, if they ever get useful tools sub btrfs_data { eval $start if $b_log; my (@btraid,@working); if ($fake{'raid-btrfs'}){ } else { } print Data::Dumper::Dumper \@working if $dbg[37]; print Data::Dumper::Dumper \@btraid if $dbg[37]; main::log_data('dump','@lvraid',\@btraid) if $b_log; eval $end if $b_log; return @btraid; } sub lvm_data { eval $start if $b_log; LogicalItem::lvm_data() if !$loaded{'logical-data'}; return if !@lvm; my (@lvraid,$maj_min,$vg_used,@working); foreach my $item (@lvm){ next if $item->{'segtype'} && $item->{'segtype'} !~ /^raid/; my (@components,$dev,$maj_min,$vg_used); # print Data::Dumper::Dumper $item; if ($item->{'lv_kernel_major'} . ':' . $item->{'lv_kernel_minor'}){ $maj_min = $item->{'lv_kernel_major'} . ':' . $item->{'lv_kernel_minor'}; } if (defined $item->{'vg_free'} && defined $item->{'vg_size'}){ $vg_used = ($item->{'vg_size'} - $item->{'vg_free'}); } $raw_logical[0] += $item->{'lv_size'} if $item->{'lv_size'}; @working = main::globber("/sys/dev/block/$maj_min/slaves/*") if $maj_min; @working = map {$_ =~ s|^/.*/||; $_;} @working if @working; foreach my $part (@working){ my ($dev,$maj_min,$mapped,$size); if (@proc_partitions){ my $info = PartitionData::get($part); $maj_min = $info->[0] . ':' . $info->[1] if defined $info->[1]; $size = $info->[2]; $raw_logical[1] += $size if $part =~ /^dm-/ && $size; my @data = main::globber("/sys/dev/block/$maj_min/slaves/*") if $maj_min; @data = map {$_ =~ s|^/.*/||; $_;} @data if @data; $dev = join(',', @data) if @data; } $mapped = $dmmapper{$part} if %dmmapper; push(@components, [$part,$size,$maj_min,undef,$mapped,$dev],); } if ($item->{'segtype'}){ if ($item->{'segtype'} eq 'raid1'){$item->{'segtype'} = 'mirror';} else {$item->{'segtype'} =~ s/^raid([0-9]+)/raid-$1/;} } push(@lvraid, { 'components' => \@components, 'copy-percent' => $item->{'copy_percent'}, 'id' => $item->{'lv_name'}, 'level' => $item->{'segtype'}, 'maj-min' => $maj_min, 'raid-mismatches' => $item->{'raid_mismatch_count'}, 'raid-sync' => $item->{'raid_sync_action'}, 'size' => $item->{'lv_size'}, 'stripes' => $item->{'stripes'}, 'type' => $item->{'vg_fmt'}, 'vg' => $item->{'vg_name'}, 'vg-free' => $item->{'vg_free'}, 'vg-size' => $item->{'vg_size'}, 'vg-used' => $vg_used, }); } print Data::Dumper::Dumper \@lvraid if $dbg[37]; main::log_data('dump','@lvraid',\@lvraid) if $b_log; eval $end if $b_log; return @lvraid; } sub md_data { eval $start if $b_log; my ($mdstat) = @_; my $j = 0; if ($fake{'raid-md'}){ #$mdstat = "$fake_data_dir/raid-logical/md/md-4-device-1.txt"; #$mdstat = "$fake_data_dir/raid-logical/md/md-rebuild-1.txt"; #$mdstat = "$fake_data_dir/raid-logical/md/md-2-mirror-fserver2-1.txt"; #$mdstat = "$fake_data_dir/raid-logical/md/md-2-raid10-abucodonosor.txt"; #$mdstat = "$fake_data_dir/raid-logical/md/md-2-raid10-ant.txt"; #$mdstat = "$fake_data_dir/raid-logical/md/md-inactive-weird-syntax.txt"; #$mdstat = "$fake_data_dir/raid-logical/md/md-inactive-active-syntax.txt"; #$mdstat = "$fake_data_dir/raid-logical/md/md-inactive-active-spare-syntax.txt"; } my @working = main::reader($mdstat,'strip'); # print Data::Dumper::Dumper \@working; my (@mdraid,@temp,$b_found,$system,$unused); # NOTE: a system with empty mdstat will not show these values if ($working[0] && $working[0] =~ /^Personalities/){ $system = (split(/:\s*/, $working[0]))[1]; $system =~ s/\[|\]//g if $system; shift @working; } if ($working[-1] && $working[-1] =~ /^unused\sdevices/){ $unused = (split(/:\s*/, $working[-1]))[1]; $unused =~ s/<|>|none//g if $unused; pop @working; } foreach (@working){ $_ =~ s/\s*:\s*/:/; # print "$_\n"; # md0 : active raid1 sdb1[2] sda1[0] # md126 : active (auto-read-only) raid1 sdq1[0] # md127 : inactive sda0 # md1 : inactive sda1[0] sdd1[3] sdc1[2] sdb1[1] # if (/^(md[0-9]+)\s*:\s*([^\s]+)(\s\([^)]+\))?\s([^\s]+)\s(.*)/){ if (/^(md[0-9]+)\s*:\s*([\S]+)(\s\([^)]+\))?/){ my ($component_string,$details,$device,$id,$level,$maj_min,$part,$size,$status); my (@components); $id = $1; $status = $2; if (/^(md[0-9]+)\s*:\s*([\S]+)(\s\([^)]+\))?\s((faulty|linear|multipath|raid)[\S]*)\s(.*)/){ $level = $4; $component_string = $6; $level =~ s/^raid1$/mirror/; $level =~ s/^raid/raid-/; $level = 'mirror' if $level eq '1'; } elsif (/^(md[0-9]+)\s*:\s*([\S]+)(\s\([^)]+\))?\s(.*)/){ $component_string = $4; $level = 'N/A'; } @temp = (); # cascade of tests, light to cpu intense if ((!$maj_min || !$size) && @proc_partitions){ $part = PartitionData::get($id); if (@$part){ $maj_min = $part->[0] . ':' . $part->[1]; $size = $part->[2]; } } if ((!$maj_min || !$size) && @lsblk){ $device = LsblkData::get($id) if @lsblk; $maj_min = $device->{'maj-min'} if $device->{'maj-min'}; $size = $device->{'size'} if $device->{'size'}; } if ((!$size || $b_admin) && $alerts{'mdadm'}->{'action'} eq 'use'){ $details = md_details($id); $size = $details->{'size'} if $details->{'size'}; } $raw_logical[0] += $size if $size; # remember, these include the [x] id, so remove that for disk/unmounted foreach my $component (split(/\s+/, $component_string)){ my (%data,$maj_min,$name,$number,$info,$mapped,$part_size,$state); if ($component =~ /([\S]+)\[([0-9]+)\]\(?([SF])?\)?/){ ($name,$number,$info) = ($1,$2,$3); } elsif ($component =~ /([\S]+)/){ $name = $1; } next if !$name; if ($details->{'devices'} && ref $details->{'devices'} eq 'HASH'){ $maj_min = $details->{'devices'}{$name}{'maj-min'}; $state = $details->{'devices'}{$name}{'state'}; } if ((!$maj_min || !$part_size) && @proc_partitions){ $part = PartitionData::get($name); if (@$part){ $maj_min = $part->[0] . ':' . $part->[1] if !$maj_min; $part_size = $part->[2] if !$part_size; } } if ((!$maj_min || !$part_size) && @lsblk){ %data= LsblkData::get($name); $maj_min = $data{'maj-min'} if !$maj_min; $part_size = $data{'size'}if !$part_size; } $mapped = $dmmapper{$name} if %dmmapper; $raw_logical[1] += $part_size if $part_size; $state = $info if !$state && $info; push(@components,[$name,$number,$info,$part_size,$maj_min,$state,$mapped]); } # print "$component_string\n"; $j = scalar @mdraid; push(@mdraid, { 'chunk-size' => $details->{'chunk-size'}, # if we got it, great, if not, further down 'components' => \@components, 'details' => $details, 'id' => $id, 'level' => $level, 'maj-min' => $maj_min, 'size' => $size, 'status' => $status, 'type' => 'mdraid', }); } # print "$_\n"; if ($_ =~ /^([0-9]+)\sblocks/){ $mdraid[$j]->{'blocks'} = $1; } if ($_ =~ /super\s([0-9\.]+)\s/){ $mdraid[$j]->{'super-block'} = $1; } if ($_ =~ /algorithm\s([0-9\.]+)\s/){ $mdraid[$j]->{'algorithm'} = $1; } if ($_ =~ /\[([0-9]+\/[0-9]+)\]\s\[([U_]+)\]/){ $mdraid[$j]->{'report'} = $1; $mdraid[$j]->{'u-data'} = $2; } if ($_ =~ /resync=([\S]+)/){ $mdraid[$j]->{'resync'} = $1; } if ($_ =~ /([0-9]+[km])\schunk/i){ $mdraid[$j]->{'chunk-size'} = $1; } if ($_ =~ /(\[[=]*>[\.]*\]).*(resync|recovery)\s*=\s*([0-9\.]+%)?(\s\(([0-9\/]+)\))?/){ $mdraid[$j]->{'progress-bar'} = $1; $mdraid[$j]->{'recovery-percent'} = $3 if $3; $mdraid[$j]->{'sectors-recovered'} = $5 if $5; } if ($_ =~ /finish\s*=\s*([\S]+)\s+speed\s*=\s*([\S]+)/){ $mdraid[$j]->{'recovery-finish'} = $1; $mdraid[$j]->{'recovery-speed'} = $2; } # print 'mdraid loop: ', Data::Dumper::Dumper \@mdraid; } if (@mdraid){ $mdraid[0]->{'supported-levels'} = $system if $system; $mdraid[0]->{'unused'} = $unused if $unused; } print Data::Dumper::Dumper \@mdraid if $dbg[37]; eval $end if $b_log; return @mdraid; } sub md_details { eval $start if $b_log; my ($id) = @_; my (@working); my $details = {}; my $cmd = $alerts{'mdadm'}->{'path'} . " --detail /dev/$id 2>/dev/null"; my @data = main::grabber($cmd,'','strip'); main::log_data('dump',"$id raw: \@data",\@data) if $b_log; foreach (@data){ @working = split(/\s*:\s*/, $_, 2); if (scalar @working == 2){ if ($working[0] eq 'Array Size' && $working[1] =~ /^([0-9]+)\s\(/){ $details->{'size'} = $1; } elsif ($working[0] eq 'Active Devices'){ $details->{'c-active'} = $working[1]; } elsif ($working[0] eq 'Chunk Size'){ $details->{'chunk-size'} = $working[1]; } elsif ($working[0] eq 'Failed Devices'){ $details->{'c-failed'} = $working[1]; } elsif ($working[0] eq 'Raid Devices'){ $details->{'c-raid'} = $working[1]; } elsif ($working[0] eq 'Spare Devices'){ $details->{'c-spare'} = $working[1]; } elsif ($working[0] eq 'State'){ $details->{'state'} = $working[1]; } elsif ($working[0] eq 'Total Devices'){ $details->{'c-total'} = $working[1]; } elsif ($working[0] eq 'Used Dev Size' && $working[1] =~ /^([0-9]+)\s\(/){ $details->{'dev-size'} = $1; } elsif ($working[0] eq 'UUID'){ $details->{'uuid'} = $working[1]; } elsif ($working[0] eq 'Working Devices'){ $details->{'c-working'} = $working[1]; } } # end component data lines else { @working = split(/\s+/,$_); # 0 8 80 0 active sync /dev/sdf # 2 8 128 - spare /dev/sdi next if !@working || $working[0] eq 'Number' || scalar @working < 6; $working[-1] =~ s|^/dev/(mapper/)?||; $details->{'devices'}{$working[-1]} = { 'maj-min' => $working[1] . ':' . $working[2], 'number' => $working[0], 'raid-device' => $working[3], 'state' => join(' ', @working[4..($#working - 1)]), }; } } # print Data::Dumper::Dumper $details; main::log_data('dump',$id . ': %$details',$details) if $b_log; eval $end if $b_log; return $details; } sub soft_data { eval $start if $b_log; my ($cmd,$id,$state,$status,@data,@softraid,@working); # already been set in DiskDataBSD but we know the device exists foreach my $device (@{$sysctl{'softraid'}}){ if ($device =~ /\.drive[\d]+:([\S]+)\s\(([a-z0-9]+)\)[,\s]+(\S+)/){ my ($level,$size,@components); $id = $2; $status = $1; $state = $3; if ($alerts{'bioctl'}->{'action'} eq 'use'){ $cmd = $alerts{'bioctl'}->{'path'} . " $id 2>/dev/null"; @data = main::grabber($cmd,'','strip'); main::log_data('dump','softraid @data',\@data) if $b_log; shift @data if @data; # get rid of headers foreach my $row (@data){ @working = split(/\s+/,$row); next if !defined $working[0]; if ($working[0] =~ /^softraid/){ if ($working[3] && main::is_numeric($working[3])){ $size = $working[3]/1024;# it's in bytes $raw_logical[0] += $size; } $status = lc($working[2]) if $working[2]; $state = lc(join(' ', @working[6..$#working])) if $working[6]; $level = lc($working[5]) if $working[5]; } elsif ($working[0] =~ /^[\d]{1,2}$/){ my ($c_id,$c_device,$c_size,$c_status); if ($working[2] && main::is_numeric($working[2])){ $c_size = $working[2]/1024;# it's in bytes $raw_logical[1] += $c_size; } $c_status = lc($working[1]) if $working[1]; if ($working[3] && $working[3] =~ /^([\d:\.]+)$/){ $c_device = $1; } if ($working[5] && $working[5] =~ /<([^>]+)>/){ $c_id = $1; } # when offline, there will be no $c_id, but we want to show device if (!$c_id && $c_device){ $c_id = $c_device; } push(@components,[$c_id,$c_size,$c_status,$c_device]) if $c_id; } } } push(@softraid, { 'components' => \@components, 'id' => $id, 'level' => $level, 'size' => $size, 'state' => $state, 'status' => $status, 'type' => 'softraid', }); } } print Data::Dumper::Dumper \@softraid if $dbg[37]; main::log_data('dump','@softraid',\@softraid) if $b_log; eval $end if $b_log; return @softraid; } sub zfs_data { eval $start if $b_log; my ($zpool) = @_; my (@components,@zfs); my ($allocated,$free,$size,$size_holder,$status,$zfs_used,$zfs_avail, $zfs_size,@working); my $b_v = 1; my ($i,$j,$k) = (0,0,0); if ($fake{'raid-zfs'}){ # my $file; # $file = "$fake_data_dir/raid-logical/zfs/zpool-list-1-mirror-main-solestar.txt"; # $file = "$fake_data_dir/raid-logical/zfs/zpool-list-2-mirror-main-solestar.txt"; # $file = "$fake_data_dir/raid-logical/zfs/zpool-list-v-tank-1.txt"; # $file = "$fake_data_dir/raid-logical/zfs/zpool-list-v-gojev-1.txt"; # $file = "$fake_data_dir/raid-logical/zfs/zpool-list-v-w-spares-1.txt"; #@working = main::reader($file);$zpool = ''; } else { @working = main::grabber("$zpool list -v 2>/dev/null"); } # bsd sed does not support inserting a true \n so use this trick # some zfs does not have -v if (!@working){ @working = main::grabber("$zpool list 2>/dev/null"); $b_v = 0; } my $zfs_path = main::check_program('zfs'); # print Data::Dumper::Dumper \@working; main::log_data('dump','@working',\@working) if $b_log; if (!@working){ main::log_data('data','no zpool list data') if $b_log; eval $end if $b_log; return (); } my ($status_i) = (0); # NAME SIZE ALLOC FREE EXPANDSZ FRAG CAP DEDUP HEALTH ALTROOT my $test = shift @working; # get rid of first header line if ($test){ foreach (split(/\s+/, $test)){ last if $_ eq 'HEALTH'; $status_i++; } } foreach (@working){ my @row = split(/\s+/, $_); if (/^[\S]+/){ @components = (); $i = 0; $size = ($row[1] && $row[1] ne '-') ? main::translate_size($row[1]): ''; $allocated = ($row[2] && $row[2] ne '-')? main::translate_size($row[2]): ''; $free = ($row[3] && $row[3] ne '-')? main::translate_size($row[3]): ''; ($zfs_used,$zfs_avail) = zfs_fs_sizes($zfs_path,$row[0]) if $zfs_path; if (defined $zfs_used && defined $zfs_avail){ $zfs_size = $zfs_used + $zfs_avail; $raw_logical[0] += $zfs_size; } else { # must be BEFORE '$size_holder =' because only used if hits a new device # AND unassigned via raid/mirror arrays. Corner case for > 1 device systems. $raw_logical[0] += $size_holder if $size_holder; $size_holder = $size; } $status = (defined $row[$status_i] && $row[$status_i] ne '') ? $row[$status_i]: 'no-status'; $j = scalar @zfs; push(@zfs, { 'id' => $row[0], 'arrays' => ([],), 'raw-allocated' => $allocated, 'raw-free' => $free, 'raw-size' => $size, 'zfs-free' => $zfs_avail, 'zfs-size' => $zfs_size, 'status' => $status, 'type' => 'zfs', }); } # print Data::Dumper::Dumper \@zfs; # raid level is the second item in the output, unless it is not, sometimes it is absent elsif ($row[1] =~ /raid|mirror/){ $row[1] =~ s/^raid1/mirror/; #$row[1] =~ s/^raid/raid-/; # need to match in zpool status $k = scalar @{$zfs[$j]->{'arrays'}}; $zfs[$j]->{'arrays'}[$k]{'level'} = $row[1]; $i = 0; $size = ($row[2] && $row[2] ne '-') ? main::translate_size($row[2]) : ''; if (!defined $zfs_used || !defined $zfs_avail){ $size_holder = 0; $raw_logical[0] += $size if $size; } $zfs[$j]->{'arrays'}[$k]{'raw-allocated'} = ($row[3] && $row[3] ne '-') ? main::translate_size($row[3]) : ''; $zfs[$j]->{'arrays'}[$k]{'raw-free'} = ($row[4] && $row[4] ne '-') ? main::translate_size($row[4]) : ''; $zfs[$j]->{'arrays'}[$k]{'raw-size'} = $size; } # https://blogs.oracle.com/eschrock/entry/zfs_hot_spares elsif ($row[1] =~ /spares?/){ next; } # A member of a raid array: # ada2 - - - - - - # A single device not in an array: # ada0s2 25.9G 14.6G 11.3G - 0% 56% # gptid/3838f796-5c46-11e6-a931-d05099ac4dc2 - - - - - - # Using /dev/disk/by-id: # ata-VBOX_HARDDISK_VB5b6350cd-06618d58 # Using /dev/disk/by-partuuid: # ec399377-c03c-e844-a876-8c8b044124b8 - - - - - - ONLINE # Spare in use: # /home/fred/zvol/hdd-2-3 - - - - - - - - INUSE elsif ($row[1] =~ /^(sd[a-z]+|[a-z0-9]+[0-9]+|([\S]+)\/.*|(ata|mmc|nvme|pci|scsi|wwn)-\S+|[a-f0-9]{4,}(-[a-f0-9]{4,}){3,})$/ && ($row[2] eq '-' || $row[2] =~ /^[0-9\.]+[MGTPE]$/)){ #print "r1:$row[1]",' :: ', Cwd::abs_path('/dev/disk/by-id/'.$row[1]), "\n"; $row[1] =~ /^(sd[a-z]+|[a-z0-9]+[0-9]+|([\S]+)\/.*|(ata|mmc|nvme|pci|scsi|wwn)-\S+|[a-f0-9]{4,}(-[a-f0-9]{4,}){3,})\s.*?(DEGRADED|FAULTED|INUSE|OFFLINE)?$/; #my $working = ''; my $working = ($1) ? $1 : ''; # note: the negative case can never happen my $state = ($4) ? $4 : ''; my ($maj_min,$real,$part_size); if ($bsd_type && $working =~ /[\S]+\//){ $working = GlabelData::get($working); } elsif (!$bsd_type && $row[1] =~ /^(ata|mmc|nvme|scsi|wwn)-/ && -e "/dev/disk/by-id/$row[1]" && ($real = Cwd::abs_path('/dev/disk/by-id/'.$row[1]))){ $real =~ s|/dev/||; $working = $real; } elsif (!$bsd_type && $row[1] =~ /^(pci)-/ && -e "/dev/disk/by-path/$row[1]" && ($real = Cwd::abs_path('/dev/disk/by-path/'.$row[1]))){ $real =~ s|/dev/||; $working = $real; } elsif (!$bsd_type && $row[1] =~ /^[a-f0-9]{4,}(-[a-f0-9]{4,}){3,}$/ && -e "/dev/disk/by-partuuid/$row[1]" && ($real = Cwd::abs_path('/dev/disk/by-partuuid/'.$row[1]))){ $real =~ s|/dev/||; $working = $real; } # kind of a hack, things like cache may not show size/free # data since they have no array row, but they might show it in # component row: # ada0s2 25.9G 19.6G 6.25G - 0% 75% # ec399377-c03c-e844-a876-8c8b044124b8 1.88G 397M 1.49G - - 0% 20.7% - ONLINE # keys were size/allocated/free but those keys don't exist, assume failed to add raw- if (!$zfs[$j]->{'raw-size'} && $row[2] && $row[2] ne '-'){ $size = ($row[2]) ? main::translate_size($row[2]): ''; $size_holder = 0; $zfs[$j]->{'arrays'}[$k]{'raw-size'} = $size; $raw_logical[0] += $size if $size; } if (!$zfs[$j]->{'raw-allocated'} && $row[3] && $row[3] ne '-'){ $allocated = ($row[3]) ? main::translate_size($row[3]) : ''; $zfs[$j]->{'arrays'}[$k]{'raw-allocated'} = $allocated; } if (!$zfs[$j]->{'raw-free'} && $row[4] && $row[4] ne '-'){ $free = ($row[4]) ? main::translate_size($row[4]) : ''; $zfs[$j]->{'arrays'}[$k]{'raw-free'} = $free; } if ((!$maj_min || !$part_size) && $working && @proc_partitions){ my $part = PartitionData::get($working); if (@$part){ $maj_min = $part->[0] . ':' . $part->[1]; $part_size = $part->[2]; } } if ((!$maj_min || !$part_size) && $working && @lsblk){ my $data= LsblkData::get($working); $maj_min = $data->{'maj-min'}; $part_size = $data->{'size'}; } if (!$part_size && $bsd_type && $working){ my $temp = DiskDataBSD::get($working); $part_size = $temp->{'size'} if $temp->{'size'}; } $raw_logical[1] += $part_size if $part_size; $zfs[$j]->{'arrays'}[$k]{'components'}[$i] = [$working,$part_size,$maj_min,$state]; $i++; } } $raw_logical[0] += $size_holder if $size_holder; # print Data::Dumper::Dumper \@zfs; # clear out undefined arrrays values $j = 0; foreach my $row (@zfs){ my @arrays = (ref $row->{'arrays'} eq 'ARRAY') ? @{$row->{'arrays'}} : (); @arrays = grep {defined $_} @arrays; $zfs[$j]->{'arrays'} = \@arrays; $j++; } @zfs = zfs_status($zpool,\@zfs); print Data::Dumper::Dumper \@zfs if $dbg[37]; eval $end if $b_log; return @zfs; } sub zfs_fs_sizes { my ($path,$id) = @_; eval $start if $b_log; my @data; my @result = main::grabber("$path list -pH $id 2>/dev/null",'','strip'); main::log_data('dump','zfs list @result',\@result) if $b_log; print Data::Dumper::Dumper \@result if $dbg[37]; # some zfs devices do not have zfs data, lake spare storage devices if (@result){ my @working = split(/\s+/,$result[0]); $data[0] = $working[1]/1024 if $working[1]; $data[1] = $working[2]/1024 if $working[2]; } elsif ($b_log || $dbg[37]) { @result = main::grabber("$path list -pH $id 2>&1",'','strip'); main::log_data('dump','zfs list w/error @result',\@result) if $b_log; print '@result w/error: ', Data::Dumper::Dumper \@result if $dbg[37]; } eval $end if $b_log; return @data; } sub zfs_status { eval $start if $b_log; my ($zpool,$zfs) = @_; my ($cmd,$level,$status,@pool_status,@temp); my ($i,$j,$k,$l) = (0,0,0,0); foreach my $row (@$zfs){ $i = 0; $k = 0; if ($fake{'raid-zfs'}){ my $file; # $file = "$fake_data_dir/raid-logical/zfs/zpool-status-1-mirror-main-solestar.txt"; # $file = "$fake_data_dir/raid-logical/zfs/zpool-status-2-mirror-main-solestar.txt"; # $file = "$fake_data_dir/raid-logical/zfs/zpool-status-tank-1.txt"; #@pool_status = main::reader($file,'strip'); } else { $cmd = "$zpool status $row->{'id'} 2>/dev/null"; @pool_status = main::grabber($cmd,"\n",'strip'); } main::log_data('cmd',$cmd) if $b_log; # @arrays = (ref $row->{'arrays'} eq 'ARRAY') ? @{$row->{'arrays'}} : (); # print "$row->{'id'} rs:$row->{'status'}\n"; $status = ($row->{'status'} && $row->{'status'} eq 'no-status') ? check_zfs_status($row->{'id'},\@pool_status): $row->{'status'}; $zfs->[$j]{'status'} = $status if $status; #@arrays = grep {defined $_} @arrays; # print "$row->{id} $#arrays\n"; # print Data::Dumper::Dumper \@arrays; foreach my $array (@{$row->{'arrays'}}){ # print 'ref: ', ref $array, "\n"; #next if ref $array ne 'HASH'; my @components = (ref $array->{'components'} eq 'ARRAY') ? @{$array->{'components'}} : (); $l = 0; # zpool status: mirror-0 ONLINE 2 0 0 $level = ($array->{'level'}) ? "$array->{'level'}-$i": $array->{'level'}; $status = ($level) ? check_zfs_status($level,\@pool_status): ''; $zfs->[$j]{'arrays'}[$k]{'status'} = $status; # print "$level i:$i j:$j k:$k $status\n"; foreach my $component (@components){ my @temp = split('~', $component); $status = ($temp[0]) ? check_zfs_status($temp[0],\@pool_status): ''; $zfs->[$j]{'arrays'}[$k]{'components'}[$l] .= $status if $status; $l++; } $k++; # haven't seen a raid5/6 type array yet, zfs uses z1,z2,and z3 $i++ if $array->{'level'}; # && $array->{'level'} eq 'mirror'; } $j++; } eval $end if $b_log; return @$zfs; } sub check_zfs_status { eval $start if $b_log; my ($item,$pool_status) = @_; my ($status) = (''); foreach (@$pool_status){ my @temp = split(/\s+/, $_); if ($temp[0] eq $item){ last if !$temp[1]; $status = $temp[1]; last; } } eval $end if $b_log; return $status; } } ## RamItem { package RamItem; my ($vendors,$vendor_ids); my $ram_total = 0; sub get { my ($key1,$ram,$val1); my $rows = []; my $num = 0; if ($bsd_type && !$force{'dmidecode'} && ($dboot{'ram'} || $fake{'dboot'})){ $ram = dboot_data(); if (@$ram){ ram_output($rows,$ram,'dboot'); } else { $key1 = 'message'; $val1 = main::message('ram-data-dmidecode'); push(@$rows, { main::key($num++,1,1,'RAM Report') => '', main::key($num++,0,2,$key1) => $val1, }); } } elsif ($fake{'dmidecode'} || $alerts{'dmidecode'}->{'action'} eq 'use'){ $ram = dmidecode_data(); if (@$ram){ ram_output($rows,$ram,'dmidecode'); } else { $key1 = 'message'; $val1 = main::message('ram-data'); push(@$rows, { main::key($num++,1,1,'RAM Report') => '', main::key($num++,0,2,$key1) => $val1, }); } } else { $key1 = $alerts{'dmidecode'}->{'action'}; $val1 = $alerts{'dmidecode'}->{'message'}; push(@$rows, { main::key($num++,1,1,'RAM Report') => '', main::key($num++,0,2,$key1) => $val1, }); } # we want the real installed RAM total if detected so add this after. if (!$loaded{'memory'}){ $num = 0; my $system_ram = {}; MemoryData::row('ram',$system_ram,\$num,1); unshift(@$rows,$system_ram); } ($vendors,$vendor_ids) = (); eval $end if $b_log; return $rows; } sub ram_total { return $ram_total; } sub ram_output { eval $start if $b_log; my ($rows,$ram,$source) = @_; return if !@$ram; my $num = 0; my $j = 0; my ($b_non_system); my ($arrays,$modules,$slots,$type_holder) = (0,0,0,''); if ($source eq 'dboot'){ push(@$rows, { main::key($num++,0,1,'Message') => main::message('ram-data-complete'), }); } foreach my $item (@$ram){ $j = scalar @$rows; if (!$show{'ram-short'}){ $b_non_system = ($item->{'use'} && lc($item->{'use'}) ne 'system memory') ? 1:0; $num = 1; push(@$rows, { main::key($num++,1,1,'Array') => '', main::key($num++,1,2,'capacity') => process_size($item->{'capacity'}), }); if ($item->{'cap-qualifier'}){ $rows->[$j]{main::key($num++,0,3,'note')} = $item->{'cap-qualifier'}; } # show if > 1 array otherwise shows in System RAM line. if (scalar @$ram > 1){ $rows->[$j]{main::key($num++,0,2,'installed')} = process_size($item->{'used-capacity'}); } $rows->[$j]{main::key($num++,0,2,'use')} = $item->{'use'} if $b_non_system; $rows->[$j]{main::key($num++,1,2,'slots')} = $item->{'slots'}; if ($item->{'slots-qualifier'}){ $rows->[$j]{main::key($num++,0,3,'note')} = $item->{'slots-qualifier'}; } $rows->[$j]{main::key($num++,0,2,'modules')} = $item->{'slots-active'}; $item->{'eec'} ||= 'N/A'; $rows->[$j]{main::key($num++,0,2,'EC')} = $item->{'eec'}; if ($extra > 0 && (!$b_non_system || (main::is_numeric($item->{'max-module-size'}) && $item->{'max-module-size'} > 10))){ $rows->[$j]{main::key($num++,1,2,'max-module-size')} = process_size($item->{'max-module-size'}); if ($item->{'mod-qualifier'}){ $rows->[$j]{main::key($num++,0,3,'note')} = $item->{'mod-qualifier'}; } } if ($extra > 1 && $item->{'voltage'}){ $rows->[$j]{main::key($num++,0,2,'voltage')} = $item->{'voltage'}; } } else { $slots += $item->{'slots'} if $item->{'slots'}; $arrays++; } foreach my $entry ($item->{'modules'}){ next if ref $entry ne 'ARRAY'; # print Data::Dumper::Dumper $entry; foreach my $mod (@$entry){ $num = 1; $j = scalar @$rows; # Multi array setups will start index at next from previous array next if ref $mod ne 'HASH'; if ($show{'ram-short'}){ $modules++ if ($mod->{'size'} =~ /^\d/); $type_holder = $mod->{'device-type'} if $mod->{'device-type'}; next; } next if ($show{'ram-modules'} && $mod->{'size'} =~ /\D/); $mod->{'locator'} ||= 'N/A'; push(@$rows, { main::key($num++,1,2,'Device') => $mod->{'locator'}, }); # This will contain the no module string if ($mod->{'size'} =~ /\D/){ $rows->[$j]{main::key($num++,0,3,'type')} = lc($mod->{'size'}); next; } if ($extra > 1 && $mod->{'type'}){ $rows->[$j]{main::key($num++,0,3,'info')} = $mod->{'type'}; } $mod->{'device-type'} ||= 'N/A'; $rows->[$j]{main::key($num++,1,3,'type')} = $mod->{'device-type'}; if ($extra > 2 && $mod->{'device-type'} ne 'N/A'){ $mod->{'device-type-detail'} ||= 'N/A'; $rows->[$j]{main::key($num++,0,4,'detail')} = $mod->{'device-type-detail'}; } $rows->[$j]{main::key($num++,0,3,'size')} = process_size($mod->{'size'}); if ($mod->{'speed'} && $mod->{'configured-clock-speed'} && $mod->{'speed'} ne $mod->{'configured-clock-speed'}){ $rows->[$j]{main::key($num++,1,3,'speed')} = ''; $rows->[$j]{main::key($num++,0,4,'spec')} = $mod->{'speed'}; if ($mod->{'speed-note'}){ $rows->[$j]{main::key($num++,0,4,'note')} = $mod->{'speed-note'}; } $rows->[$j]{main::key($num++,0,4,'actual')} = $mod->{'configured-clock-speed'}; if ($mod->{'configured-note'}){ $rows->[$j]{main::key($num++,0,5,'note')} = $mod->{'configured-note'}; } } else { if (!$mod->{'speed'} && $mod->{'configured-clock-speed'}){ if ($mod->{'configured-clock-speed'}){ $mod->{'speed'} = $mod->{'configured-clock-speed'}; if ($mod->{'configured-note'}){ $mod->{'speed-note'} = $mod->{'configured-note'}; } } } # Rare instances, dmi type 6, no speed, dboot also no speed $mod->{'speed'} ||= 'N/A'; $rows->[$j]{main::key($num++,1,3,'speed')} = $mod->{'speed'}; if ($mod->{'speed-note'}){ $rows->[$j]{main::key($num++,0,4,'note')} = $mod->{'speed-note'}; } } # Handle cases where -xx or -xxx and no voltage data (common) or voltages # are all the same. if ($extra > 1){ if (($mod->{'voltage-config'} || $mod->{'voltage-max'} || $mod->{'voltage-min'}) && ($b_admin || ( ($mod->{'voltage-config'} && $mod->{'voltage-max'} && $mod->{'voltage-config'} ne $mod->{'voltage-max'}) || ($mod->{'voltage-config'} && $mod->{'voltage-min'} && $mod->{'voltage-config'} ne $mod->{'voltage-min'}) || ($mod->{'voltage-min'} && $mod->{'voltage-max'} && $mod->{'voltage-max'} ne $mod->{'voltage-min'}) ))){ $rows->[$j]{main::key($num++,1,3,'volts')} = ''; if ($mod->{'voltage-config'}){ $rows->[$j]{main::key($num++,0,4,'curr')} = $mod->{'voltage-config'}; } if ($mod->{'voltage-min'}){ $rows->[$j]{main::key($num++,0,4,'min')} = $mod->{'voltage-min'}; } if ($mod->{'voltage-max'}){ $rows->[$j]{main::key($num++,0,4,'max')} = $mod->{'voltage-max'}; } } else { $mod->{'voltage-config'} ||= 'N/A'; $rows->[$j]{main::key($num++,0,3,'volts')} = $mod->{'voltage-config'}; } } if ($source ne 'dboot' && $extra > 2){ if (!$mod->{'data-width'} && !$mod->{'total-width'}){ $rows->[$j]{main::key($num++,0,3,'width')} = 'N/A'; } else { $rows->[$j]{main::key($num++,1,3,'width (bits)')} = ''; $mod->{'data-width'} ||= 'N/A'; $rows->[$j]{main::key($num++,0,4,'data')} = $mod->{'data-width'}; $mod->{'total-width'} ||= 'N/A'; $rows->[$j]{main::key($num++,0,4,'total')} = $mod->{'total-width'}; } } if ($source ne 'dboot' && $extra > 1){ $mod->{'manufacturer'} ||= 'N/A'; $rows->[$j]{main::key($num++,0,3,'manufacturer')} = $mod->{'manufacturer'}; $mod->{'part-number'} ||= 'N/A'; $rows->[$j]{main::key($num++,0,3,'part-no')} = $mod->{'part-number'}; } if ($source ne 'dboot' && $extra > 2){ $mod->{'serial'} = main::filter($mod->{'serial'}); $rows->[$j]{main::key($num++,0,3,'serial')} = $mod->{'serial'}; } } } } if ($show{'ram-short'}){ $num = 1; $type_holder ||= 'N/A'; push(@$rows, { main::key($num++,1,1,'Report') => '', main::key($num++,0,2,'arrays') => $arrays, main::key($num++,0,2,'slots') => $slots, main::key($num++,0,2,'modules') => $modules, main::key($num++,0,2,'type') => $type_holder, }); } eval $end if $b_log; } sub dmidecode_data { eval $start if $b_log; my ($b_5,$handle,@temp); my ($derived_module_size,$max_cap_5,$max_cap_16,$max_module_size, $slots_active) = (0,0,0,0,0); my ($i,$j,$k) = (0,0,0); my $ram = []; my $check = main::message('note-check'); # print Data::Dumper::Dumper \@dmi; foreach my $entry (@dmi){ ## Note: do NOT reset these values, that causes failures # ($derived_module_size,$max_cap_5,$max_cap_16,$max_module_size) = (0,0,0,0); if ($entry->[0] == 5){ $slots_active = 0; foreach my $item (@$entry){ @temp = split(/:\s*/, $item, 2); next if !$temp[1]; if ($temp[0] eq 'Maximum Memory Module Size'){ $max_module_size = calculate_size($temp[1],$max_module_size); $ram->[$k]{'max-module-size'} = $max_module_size; } elsif ($temp[0] eq 'Maximum Total Memory Size'){ $max_cap_5 = calculate_size($temp[1],$max_cap_5); $ram->[$k]{'max-capacity-5'} = $max_cap_5; } elsif ($temp[0] eq 'Memory Module Voltage'){ $temp[1] =~ s/\s*V.*$//; # seen: 5.0 V 3.3 V $ram->[$k]{'voltage'} = $temp[1]; } elsif ($temp[0] eq 'Associated Memory Slots'){ $ram->[$k]{'slots-5'} = $temp[1]; } elsif ($temp[0] eq 'Error Detecting Method'){ $temp[1] ||= 'None'; $ram->[$k]{'eec'} = $temp[1]; } } $ram->[$k]{'modules'} = []; # print Data::Dumper::Dumper \@ram; $b_5 = 1; } elsif ($entry->[0] == 6){ my ($size,$speed,$type) = (0,0,0); my ($bank_locator,$device_type,$locator,$main_locator) = ('','','',''); foreach my $item (@$entry){ @temp = split(/:\s*/, $item, 2); next if !$temp[1]; if ($temp[0] eq 'Installed Size'){ # Get module size $size = calculate_size($temp[1],0); # Using this causes issues, really only works for 16 # if ($size =~ /^[0-9][0-9]+$/){ # $ram->[$k]{'device-count-found'}++; # $ram->[$k]{'used-capacity'} += $size; # } # Get data after module size $temp[1] =~ s/ Connection\)?//; $temp[1] =~ s/^[0-9]+\s*[KkMGTP]B\s*\(?//; $type = lc($temp[1]); $slots_active++; } elsif ($temp[0] eq 'Current Speed'){ $speed = main::clean_dmi($temp[1]); } elsif ($temp[0] eq 'Locator' || $temp[0] eq 'Socket Designation'){ $temp[1] =~ s/D?RAM slot #?/Slot/i; # can be with or without # $locator = $temp[1]; } elsif ($temp[0] eq 'Bank Locator'){ $bank_locator = $temp[1]; } elsif ($temp[0] eq 'Type'){ $device_type = main::clean_dmi($temp[1]); } } # Because of the wide range of bank/slot type data, we will just use # the one that seems most likely to be right. Some have: # 'Bank: SO DIMM 0 slot: J6A' so we dump the useless data and use the # one most likely to be visibly correct if ($bank_locator =~ /DIMM/){ $main_locator = $bank_locator; } else { $main_locator = $locator; } $ram->[$k]{'modules'}[$j] = { 'device-type' => $device_type, 'locator' => $main_locator, 'size' => $size, 'speed' => $speed, 'type' => $type, }; # print Data::Dumper::Dumper \@ram; $j++; } elsif ($entry->[0] == 16){ $handle = $entry->[1]; $ram->[$handle] = $ram->[$k] if $ram->[$k]; $ram->[$k] = undef; $slots_active = 0; # ($derived_module_size,$max_cap_16) = (0,0); foreach my $item (@$entry){ @temp = split(/:\s*/, $item, 2); next if !$temp[1]; if ($temp[0] eq 'Maximum Capacity'){ $max_cap_16 = calculate_size($temp[1],$max_cap_16); $ram->[$handle]{'max-capacity-16'} = $max_cap_16; } # Note: these 3 have cleaned data in DmiData, so replace stuff manually elsif ($temp[0] eq 'Location'){ $temp[1] =~ s/\sOr\sMotherboard//; $temp[1] ||= 'System Board'; $ram->[$handle]{'location'} = $temp[1]; } elsif ($temp[0] eq 'Use'){ $temp[1] ||= 'System Memory'; $ram->[$handle]{'use'} = $temp[1]; } elsif ($temp[0] eq 'Error Correction Type'){ $temp[1] ||= 'None'; $ram->[$handle]{'eec'} = $temp[1]; } elsif ($temp[0] eq 'Number Of Devices'){ $ram->[$handle]{'slots-16'} = $temp[1]; } # print "0: $temp[0]\n"; } $ram->[$handle]{'derived-module-size'} = 0; $ram->[$handle]{'device-count-found'} = 0; $ram->[$handle]{'used-capacity'} = 0; # print "s16: $ram->[$handle]{'slots-16'}\n"; } elsif ($entry->[0] == 17){ my ($bank_locator,$configured_speed,$configured_note, $data_width) = ('','','',''); my ($device_type,$device_type_detail,$form_factor,$locator, $main_locator) = ('','','','',''); my ($manufacturer,$vendor_id,$part_number,$serial,$speed,$speed_note, $total_width) = ('','','','','','',''); my ($voltage_config,$voltage_max,$voltage_min); my ($device_size,$i_data,$i_total,$working_size) = (0,0,0,0); foreach my $item (@$entry){ @temp = split(/:\s*/, $item, 2); next if !$temp[1]; if ($temp[0] eq 'Array Handle'){ $handle = hex($temp[1]); } # These two can have 'none' or 'unknown' value elsif ($temp[0] eq 'Data Width'){ $data_width = main::clean_dmi($temp[1]); $data_width =~ s/[\s_-]?bits// if $data_width; } elsif ($temp[0] eq 'Total Width'){ $total_width = main::clean_dmi($temp[1]); $total_width =~ s/[\s_-]?bits// if $total_width; } # Do not try to guess from installed modules, only use this to correct # type 5 data elsif ($temp[0] eq 'Size'){ # we want any non real size data to be preserved if ($temp[1] =~ /^[0-9]+\s*[KkMTPG]i?B/){ $derived_module_size = calculate_size($temp[1],$derived_module_size); $working_size = calculate_size($temp[1],0); $device_size = $working_size; $slots_active++; } else { $device_size = $temp[1]; } } elsif ($temp[0] eq 'Locator'){ $temp[1] =~ s/D?RAM slot #?/Slot/i; $locator = $temp[1]; } elsif ($temp[0] eq 'Bank Locator'){ $bank_locator = $temp[1]; } elsif ($temp[0] eq 'Form Factor'){ $form_factor = $temp[1]; } # these two can have 'none' or 'unknown' value elsif ($temp[0] eq 'Type'){ $device_type = main::clean_dmi($temp[1]); } elsif ($temp[0] eq 'Type Detail'){ $device_type_detail = main::clean_dmi($temp[1]); } elsif ($temp[0] eq 'Speed'){ my $result = process_speed($temp[1],$device_type,$check); ($speed,$speed_note) = @$result; } # This is the actual speed the system booted at, speed is hardcoded # clock speed means MHz, memory speed MT/S elsif ($temp[0] eq 'Configured Clock Speed' || $temp[0] eq 'Configured Memory Speed'){ my $result = process_speed($temp[1],$device_type,$check); ($configured_speed,$configured_note) = @$result; } elsif ($temp[0] eq 'Manufacturer'){ $temp[1] = main::clean_dmi($temp[1]); $manufacturer = $temp[1]; } elsif ($temp[0] eq 'Part Number'){ $part_number = main::clean_unset($temp[1],'^[0]+$|.*Module.*|PartNum.*'); } elsif ($temp[0] eq 'Serial Number'){ $serial = main::clean_unset($temp[1],'^[0]+$|SerNum.*'); } elsif ($temp[0] eq 'Configured Voltage'){ if ($temp[1] =~ /^([\d\.]+)/){ $voltage_config = $1; } } elsif ($temp[0] eq 'Maximum Voltage'){ if ($temp[1] =~ /^([\d\.]+)/){ $voltage_max = $1; } } elsif ($temp[0] eq 'Minimum Voltage'){ if ($temp[1] =~ /^([\d\.]+)/){ $voltage_min = $1; } } } # Because of the wide range of bank/slot type data, we will just use the # one that seems most likely to be right. Some have: # 'Bank: SO DIMM 0 slot: J6A' so we dump the useless data and use the one # most likely to be visibly correct. if ($bank_locator =~ /DIMM/){ $main_locator = $bank_locator; } else { $main_locator = $locator; } if ($working_size =~ /^[0-9][0-9]+$/){ $ram->[$handle]{'device-count-found'}++; # build up actual capacity found for override tests $ram->[$handle]{'used-capacity'} += $working_size; } # Sometimes the data is just wrong, they reverse total/data. data I # believe is used for the actual memory bus width, total is some synthetic # thing, sometimes missing. Note that we do not want a regular string # comparison, because 128 bit memory buses are in our future, and # 128 bits < 64 bits with string compare. $data_width =~ /(^[0-9]+).*/; $i_data = $1; $total_width =~ /(^[0-9]+).*/; $i_total = $1; if ($i_data && $i_total && $i_data > $i_total){ my $temp_width = $data_width; $data_width = $total_width; $total_width = $temp_width; } if ($manufacturer && $manufacturer =~ /^([a-f0-9]{4})$/i){ $vendor_id = lc($1) if $1; } if ((!$manufacturer || $vendor_id) && $part_number){ my $result = ram_vendor($part_number); $manufacturer = $result->[0] if $result->[0]; $part_number = $result->[1] if $result->[1]; } if ($vendor_id && !$manufacturer){ set_ram_vendor_ids() if !$vendor_ids; if ($vendor_ids->{$vendor_id}){ $manufacturer = $vendor_ids->{$vendor_id}; } } $ram->[$handle]{'derived-module-size'} = $derived_module_size; $ram->[$handle]{'slots-active'} = $slots_active; $ram->[$handle]{'modules'}[$i]{'configured-clock-speed'} = $configured_speed; $ram->[$handle]{'modules'}[$i]{'configured-note'} = $configured_note if $configured_note; $ram->[$handle]{'modules'}[$i]{'data-width'} = $data_width; $ram->[$handle]{'modules'}[$i]{'size'} = $device_size; $ram->[$handle]{'modules'}[$i]{'device-type'} = $device_type; $ram->[$handle]{'modules'}[$i]{'device-type-detail'} = lc($device_type_detail); $ram->[$handle]{'modules'}[$i]{'form-factor'} = $form_factor; $ram->[$handle]{'modules'}[$i]{'locator'} = $main_locator; $ram->[$handle]{'modules'}[$i]{'manufacturer'} = $manufacturer; $ram->[$handle]{'modules'}[$i]{'vendor-id'} = $vendor_id; $ram->[$handle]{'modules'}[$i]{'part-number'} = $part_number; $ram->[$handle]{'modules'}[$i]{'serial'} = $serial; $ram->[$handle]{'modules'}[$i]{'speed'} = $speed; $ram->[$handle]{'modules'}[$i]{'speed-note'} = $speed_note if $speed_note; $ram->[$handle]{'modules'}[$i]{'total-width'} = $total_width; $ram->[$handle]{'modules'}[$i]{'voltage-config'} = $voltage_config; $ram->[$handle]{'modules'}[$i]{'voltage-max'} = $voltage_max; $ram->[$handle]{'modules'}[$i]{'voltage-min'} = $voltage_min; $i++ } elsif ($entry->[0] < 17){ next; } elsif ($entry->[0] > 17){ last; } } print 'dmidecode pre process_data: ', Data::Dumper::Dumper $ram if $dbg[36]; main::log_data('dump','@$ram',$ram) if $b_log; process_data($ram) if @$ram; main::log_data('dump','@$ram',$ram) if $b_log; print 'dmidecode post process_data: ', Data::Dumper::Dumper $ram if $dbg[36]; eval $end if $b_log; return $ram; } sub dboot_data { eval $start if $b_log; my $ram = []; my $est = main::message('note-est'); my ($arr,$derived_module_size,$slots_active,$subtract) = (0,0,0,0); my ($holder); foreach (@{$dboot{'ram'}}){ my ($addr,$detail,$device_detail,$ecc,$iic,$locator,$size,$speed,$type); # Note: seen a netbsd with multiline spdmem0/1 etc but not consistent, don't use if (/^(spdmem([\d]+)):at iic([\d]+)(\saddr 0x([0-9a-f]+))?/){ $iic = $3; $locator = $1; $holder = $iic if !defined $holder; # prime for first use # Note: seen iic2 as only device if ($iic != $holder){ if ($ram->[$arr] && $ram->[$arr]{'slots-16'}){ $subtract += $ram->[$arr]{'slots-16'}; } $holder = $iic; # Then since we are on a new iic device, assume new ram array. # This needs more data to confirm this guess. $arr++; $slots_active = 0; } if ($5){ $addr = hex($5); } if (/(non?[\s-]parity)/i){ $device_detail = $1; $ecc = 'None'; } elsif (/EEC/i){ $device_detail = 'EEC'; $ecc = 'EEC'; } # Possible: PC2700CL2.5 PC3-10600 if (/\b(PC([2-9]?-|)\d{4,})[^\d]/){ $speed = $1; $speed =~ s/PC/PC-/ if $speed =~ /^PC\d{4}/; my $temp = speed_mapper($speed); if ($temp ne $speed){ $detail = $speed; $speed = $temp; } } # We want to avoid netbsd trying to complete @ram without real data. if (/:(\d+[MGT])B?\s(DDR[0-9]*)\b/){ $size = main::translate_size($1); # mbfix: /1024 $type = $2; $slots_active++; if ($addr){ $ram->[$arr]{'slots-16'} = $addr - 80 + 1 - $subtract; $locator = 'Slot-' . $ram->[$arr]{'slots-16'}; } $derived_module_size = $size if $size > $derived_module_size; $ram->[$arr]{'device-count-found'}++; # Build up actual capacity found for override tests $ram->[$arr]{'max-capacity-16'} += $size; $ram->[$arr]{'max-cap-qualifier'} = $est; $ram->[$arr]{'slots-16'}++ if !$addr; $ram->[$arr]{'slots-active'} = $slots_active; $ram->[$arr]{'slots-qualifier'} = $est; $ram->[$arr]{'eec'} = $ecc; $ram->[$arr]{'derived-module-size'} = $derived_module_size; $ram->[$arr]{'used-capacity'} += $size; push(@{$ram->[$arr]{'modules'}},{ 'device-type' => $type, 'device-type-detail' => $detail, 'locator' => $locator, 'size' => $size, 'speed' => $speed, }); } } } for (my $i = 0; $i++ ;scalar @$ram){ next if ref $ram->[$i] ne 'HASH'; # 1 slot is possible, but 3 is very unlikely due to dual channel ddr if ($ram->[$i]{'slots'} && $ram->[$i]{'slots'} > 2 && $ram->[$i]{'slots'} % 2 == 1){ $ram->[$i]{'slots'}++; } } print 'dboot pre process_data: ', Data::Dumper::Dumper $ram if $dbg[36]; main::log_data('dump','@$ram',$ram) if $b_log; process_data($ram) if @$ram; main::log_data('dump','@$ram',$ram) if $b_log; print 'dboot post process_data: ', Data::Dumper::Dumper $ram if $dbg[36]; eval $end if $b_log; return $ram; } sub process_data { eval $start if $b_log; my $ram = $_[0]; my @result; my $b_debug = 0; my $check = main::message('note-check'); my $est = main::message('note-est'); foreach my $item (@$ram){ # Because we use the actual array handle as the index, there will be many # undefined keys. next if ! defined $item; my ($max_cap,$max_mod_size) = (0,0); my ($alt_cap,$est_cap,$est_mod,$est_slots,$unit) = (0,'','','',''); $max_cap = $item->{'max-capacity-16'}; $max_cap ||= 0; # Make sure they are integers not string if empty. $item->{'slots-5'} ||= 0; $item->{'slots-16'} ||= 0; $item->{'slots-active'} ||= 0; $item->{'device-count-found'} ||= 0; $item->{'max-capacity-5'} ||= 0; $item->{'max-module-size'} ||= 0; $item->{'used-capacity'} ||= 0; # $item->{'max-module-size'} = 0;# debugger # 1: If max cap 1 is null, and max cap 2 not null, use 2 if ($b_debug){ print "1: mms: $item->{'max-module-size'} :dms: $item->{'derived-module-size'} "; print ":mc: $max_cap :uc: $item->{'used-capacity'}\n"; print "1a: s5: $item->{'slots-5'} s16: $item->{'slots-16'}\n"; } if (!$max_cap && $item->{'max-capacity-5'}){ $max_cap = $item->{'max-capacity-5'}; } if ($b_debug){ print "2: mms: $item->{'max-module-size'} :dms: $item->{'derived-module-size'} "; print ":mc: $max_cap :uc: $item->{'used-capacity'}\n"; } # 2: Now check to see if actually found module sizes are > than listed # max module, replace if > if ($item->{'max-module-size'} && $item->{'derived-module-size'} && $item->{'derived-module-size'} > $item->{'max-module-size'}){ $item->{'max-module-size'} = $item->{'derived-module-size'}; $est_mod = $est; } if ($b_debug){ print "3: dcf: $item->{'device-count-found'} :dms: $item->{'derived-module-size'} "; print ":mc: $max_cap :uc: $item->{'used-capacity'}\n"; } # Note: some cases memory capacity == max module size, so one stick will # fill it but I think only with cases of 2 slots does this happen, so # if > 2, use the count of slots. if ($max_cap && ($item->{'device-count-found'} || $item->{'slots-16'})){ # First check that actual memory found is not greater than listed max cap, # or checking to see module count * max mod size is not > used capacity if ($item->{'used-capacity'} && $item->{'max-capacity-16'}){ if ($item->{'used-capacity'} > $max_cap){ if ($item->{'max-module-size'} && $item->{'used-capacity'} < ($item->{'slots-16'} * $item->{'max-module-size'})){ $max_cap = $item->{'slots-16'} * $item->{'max-module-size'}; $est_cap = $est; print "A\n" if $b_debug; } elsif ($item->{'derived-module-size'} && $item->{'used-capacity'} < ($item->{'slots-16'} * $item->{'derived-module-size'})){ $max_cap = $item->{'slots-16'} * $item->{'derived-module-size'}; $est_cap = $est; print "B\n" if $b_debug; } else { $max_cap = $item->{'used-capacity'}; $est_cap = $est; print "C\n" if $b_debug; } } } # Note that second case will never really activate except on virtual # machines and maybe mobile devices. if (!$est_cap){ # Do not do this for only single modules found, max mod size can be # equal to the array size. if ($item->{'slots-16'} > 1 && $item->{'device-count-found'} > 1 && $max_cap < ($item->{'derived-module-size'} * $item->{'slots-16'})){ $max_cap = $item->{'derived-module-size'} * $item->{'slots-16'}; $est_cap = $est; print "D\n" if $b_debug; } elsif ($item->{'device-count-found'} > 0 && $max_cap < ($item->{'derived-module-size'} * $item->{'device-count-found'})){ $max_cap = $item->{'derived-module-size'} * $item->{'device-count-found'}; $est_cap = $est; print "E\n" if $b_debug; } # Handle cases where we have type 5 data: mms x device count equals # type 5 max caphowever do not use it if cap / devices equals the # derived module size. elsif ($item->{'max-module-size'} > 0 && ($item->{'max-module-size'} * $item->{'slots-16'}) == $item->{'max-capacity-5'} && $item->{'max-capacity-5'} != $item->{'max-capacity-16'} && $item->{'derived-module-size'} != ($item->{'max-capacity-16'}/$item->{'slots-16'})){ $max_cap = $item->{'max-capacity-5'}; $est_cap = $est; print "F\n" if $b_debug; } } if ($b_debug){ print "4: mms: $item->{'max-module-size'} :dms: $item->{'derived-module-size'} "; print ":mc: $max_cap :uc: $item->{'used-capacity'}\n"; } # Some cases of type 5 have too big module max size, just dump the data # then since we cannot know if it is valid or not, and a guess can be # wrong easily. if ($item->{'max-module-size'} && $max_cap && $item->{'max-module-size'} > $max_cap){ $item->{'max-module-size'} = 0; } if ($b_debug){ print "5: dms: $item->{'derived-module-size'} :s16: $item->{'slots-16'} :mc: $max_cap\n"; } # Now prep for rebuilding the ram array data. if (!$item->{'max-module-size'}){ # ie: 2x4gB if (!$est_cap && $item->{'derived-module-size'} > 0 && $max_cap > ($item->{'derived-module-size'} * $item->{'slots-16'} * 4)){ $est_cap = $check; print "G\n" if $b_debug; } if ($max_cap && ($item->{'slots-16'} || $item->{'slots-5'})){ my $slots = 0; if ($item->{'slots-16'} && $item->{'slots-16'} >= $item->{'slots-5'}){ $slots = $item->{'slots-16'}; } elsif ($item->{'slots-5'} && $item->{'slots-5'} > $item->{'slots-16'}){ $slots = $item->{'slots-5'}; } # print "slots: $slots\n" if $b_debug; if ($item->{'derived-module-size'} * $slots > $max_cap){ $item->{'max-module-size'} = $item->{'derived-module-size'}; print "H\n" if $b_debug; } else { $item->{'max-module-size'} = sprintf("%.f",$max_cap/$slots); print "J\n" if $b_debug; } $est_mod = $est; } } # Case where listed max cap is too big for actual slots x max cap, eg: # listed max cap, 8gb, max mod 2gb, slots 2 else { if (!$est_cap && $item->{'max-module-size'} > 0){ if ($max_cap > ($item->{'max-module-size'} * $item->{'slots-16'})){ $est_cap = $check; print "K\n" if $b_debug; } } } } # No slots found due to legacy dmi probably. Note, too many logic errors # happen if we just set a general slots above, so safest to do it here $item->{'slots-16'} = $item->{'slots-5'} if $item->{'slots-5'} && !$item->{'slots-16'}; if (!$item->{'slots-16'} && $item->{'modules'} && ref $item->{'modules'} eq 'ARRAY'){ $est_slots = $check; $item->{'slots-16'} = scalar @{$item->{'modules'}}; print "L\n" if $b_debug; } # Only bsds using dmesg data elsif ($item->{'slots-qualifier'}){ $est_slots = $item->{'slots-qualifier'}; $est_cap = $est; } $ram_total += $item->{'used-capacity'}; push(@result, { 'capacity' => $max_cap, 'cap-qualifier' => $est_cap, 'eec' => $item->{'eec'}, 'location' => $item->{'location'}, 'max-module-size' => $item->{'max-module-size'}, 'mod-qualifier' => $est_mod, 'modules' => $item->{'modules'}, 'slots' => $item->{'slots-16'}, 'slots-active' => $item->{'slots-active'}, 'slots-qualifier' => $est_slots, 'use' => $item->{'use'}, 'used-capacity' => $item->{'used-capacity'}, 'voltage-config' => $item->{'voltage-config'}, 'voltage-max' => $item->{'voltage-max'}, 'voltage-min' => $item->{'voltage-min'}, }); } @$ram = @result; eval $end if $b_log; } sub process_speed { my ($speed,$device_type,$check) = @_; my $speed_note; $speed = main::clean_dmi($speed) if $speed; if ($device_type && $device_type =~ /ddr/i && $speed && $speed =~ /^([0-9]+)\s*MHz/){ $speed = ($1 * 2) . " MT/s ($speed)"; } # Seen cases of 1 MT/s, 61690 MT/s, not sure why, bug. Crucial is shipping # 5100 MT/s now, and 6666 has been hit, so speeds can hit 10k. if ($speed && $speed =~ /^([0-9]+)\s*M/){ $speed_note = $check if $1 < 50 || $1 > 20000 ; } return [$speed,$speed_note]; } # args: 0: size in KiB sub process_size { my ($size) = @_; my ($b_trim,$unit) = (0,''); # print "size0: $size\n"; return 'N/A' if !$size; # we're going to preserve the bad data for output return $size if !main::is_numeric($size); # print "size: $size\n"; # We only want max 2 decimal places, and only when it's a unit > 1 GiB. $b_trim = 1 if $size > 1024**2; ($size,$unit) = main::get_size($size); $size = sprintf("%.2f",$size) if $b_trim; $size =~ s/\.[0]+$//; $size = "$size $unit"; return $size; } # arg: 0: size string; 1: working size. If calculated result > $size, uses new # value. If $data not valid, returns 0. sub calculate_size { my ($data, $size) = @_; # Technically k is KiB, K is KB but can't trust that. if ($data =~ /^([0-9]+\s*[kKGMTP])i?B/){ my $working = $1; # This converts it to KiB my $working_size = main::translate_size($working); # print "ws-a: $working_size s-1: $size\n"; if (main::is_numeric($working_size) && $working_size > $size){ $size = $working_size; } # print "ws-b: $working_size s-2: $size\n"; } else { $size = 0; } # print "d-2: $data s-3: $size\n"; return $size; } # BSD: Map string to speed, in MT/s sub speed_mapper { my ($type) = @_; my %speeds = ( # DDR1 'PC-1600' => 200, 'PC-2100' => 266, 'PC-2400' => 300, 'PC-2700' => 333, 'PC-3200' => 400, # DDR2 'PC2-3200' => 400, 'PC2-4200' => 533, 'PC2-5300' => 667, 'PC2-6400' => 800, 'PC2-8000' => 1000, 'PC2-8500' => 1066, # DDR3 'PC3-6400' => 800, 'PC3-8500' => 1066, 'PC3-10600' => 1333, 'PC3-12800' => 1600, 'PC3-14900 ' => 1866, 'PC3-17000' => 2133, # DDR4 'PC4-12800' => 1600, 'PC4-14900' => 1866, 'PC4-17000' => 2133, 'PC4-19200' => 2400, 'PC4-21333' => 2666, 'PC4-23466' => 2933, 'PC4-24000' => 3000, 'PC4-25600' => 3200, 'PC4-28800' => 3600, 'PC4-32000' => 4000, 'PC4-35200' => 4400, # DDR5 'PC5-32000' => 4000, 'PC5-35200' => 4400, 'PC5-38400' => 4800, 'PC5-41600' => 5200, 'PC5-44800' => 5600, 'PC5-48000' => 6000, 'PC5-49600' => 6200, 'PC5-51200' => 6400, 'PC5-54400' => 6800, 'PC5-57600' => 7200, 'PC5-60800' => 7600, 'PC5-64000' => 8000, # DDR6, coming... ); return ($speeds{$type}) ? $speeds{$type} . ' MT/s' : $type; } ## START RAM VENDOR ## sub set_ram_vendors { $vendors = [ # A-Data xpg: AX4U; AX\d{4} for axiom ['^(A[DX]\dU|AVD|A[\s-]?Data)','A[\s-]?Data','A-Data',''], ['^(A[\s-]?Tech)','A[\s-]?Tech','A-Tech',''], # Don't know part nu ['^(AX[\d]{4}|Axiom)','Axiom','Axiom',''], ['^(BD\d|Black[s-]?Diamond)','Black[s-]?Diamond','Black Diamond',''], ['^(-BN$|Brute[s-]?Networks)','Brute[s-]?Networks','Brute Networks',''], ['^(CM|Corsair)','Corsair','Corsair',''], ['^(CT\d|BL|Crucial)','Crucial','Crucial',''], ['^(CY|Cypress)','Cypress','Cypress',''], ['^(SNP|Dell)','Dell','Dell',''], ['^(PE[\d]{4}|Edge)','Edge','Edge',''], ['^(Elpida|EB)','^Elpida','Elpida',''], ['^(GVT|Galvantech)','Galvantech','Galvantech',''], # If we get more G starters, make rules tighter ['^(G[A-Z]|Geil)','Geil','Geil',''], # Note: FA- but make loose FA ['^(F4|G[\s\.-]?Skill)','G[\s\.-]?Skill','G.Skill',''], ['^(GJN)','GJN','GJN',''], ['^(HP)','','HP',''], # no IDs found ['^(HX|HyperX)','HyperX','HyperX',''], # Qimonda spun out of Infineon, same ids # ['^(HYS]|Qimonda)','Qimonda','Qimonda',''], ['^(HY|Infineon)','Infineon','Infineon',''],#HY[A-Z]\d ['^(KSM|KVR|Kingston)','Kingston','Kingston',''], ['^(LuminouTek)','LuminouTek','LuminouTek',''], ['^(MT|Micron)','Micron','Micron',''], # Seen: 992069 991434 997110S ['^(M[BLERS][A-Z][1-7]|99[0-9]{3}|Mushkin)','Mushkin','Mushkin',''], ['^(OCZ)','^OCZ\b','OCZ',''], ['^([MN]D\d|OLOy)','OLOy','OLOy',''], ['^(M[ERS]\d|Nemix)','Nemix','Nemix',''], # Before patriot just in case ['^(MN\d|PNY)','PNY\s','PNY',''], ['^(P[A-Z]|Patriot)','Patriot','Patriot',''], ['^RAMOS','^RAMOS','RAmos',''], ['^(K[1-6][ABLT]|K\d|M[\d]{3}[A-Z]|Samsung)','Samsung','Samsung',''], ['^(SP|Silicon[\s-]?Power)','Silicon[\s-]?Power','Silicon Power',''], ['^(STK|Simtek)','Simtek','Simtek',''], ['^(Simmtronics|Gamex)','^Simmtronics','Simmtronics',''], ['^(HM[ACT]|SK[\s-]?Hynix)','SK[\s-]?Hynix','SK-Hynix',''], # TED TTZD TLRD TDZAD TF4D4 TPD4 TXKD4 seen: HMT but could by skh #['^(T(ED|D[PZ]|F\d|LZ|P[DR]T[CZ]|XK)|Team[\s-]?Group)','Team[\s-]?Group','TeamGroup',''], ['^(T[^\dR]|Team[\s-]?Group)','Team[\s-]?Group','TeamGroup',''], ['^(TR\d|JM\d|Transcend)','Transcend','Transcend',''], ['^(VK\d|Vaseky)','Vaseky','Vaseky',''], ['^(Yangtze|Zhitai|YMTC)','(Yangtze(\s*Memory)?|YMTC)','YMTC',''], ]; } # Note: many of these are pci ids, not confirmed valid for ram sub set_ram_vendor_ids { $vendor_ids = { '01f4' => 'Transcend',# confirmed '02fe' => 'Elpida',# confirmed '0314' => 'Mushkin',# confirmed '0420' => 'Chips and Technologies', '1014' => 'IBM', '1099' => 'Samsung', '10c3' => 'Samsung', '11e2' => 'Samsung', '1249' => 'Samsung', '144d' => 'Samsung', '15d1' => 'Infineon', '167d' => 'Samsung', '196e' => 'PNY', '1b1c' => 'Corsair', '1b85' => 'OCZ', '1c5c' => 'SK-Hynix', '1cc1' => 'A-Data', '1e49' => 'YMTC',# Yangtze Memory confirmed '0215' => 'Corsair',# confirmed '2646' => 'Kingston', '2c00' => 'Micron',# confirmed '5105' => 'Qimonda',# confirmed '802c' => 'Micron',# confirmed '80ad' => 'SK-Hynix',# confirmed '80ce' => 'Samsung',# confirmed '8551' => 'Qimonda',# confirmed '8564' => 'Transcend', 'ad00' => 'SK-Hynix',# confirmed 'c0a9' => 'Crucial', 'ce00' => 'Samsung',# confirmed # '' => '', } } ## END RAM VENDOR ## sub ram_vendor { eval $end if $b_log; my ($id) = $_[0]; set_ram_vendors() if !$vendors; my ($vendor); foreach my $row (@$vendors){ if ($id =~ /$row->[0]/i){ $vendor = $row->[2]; # Usually we want to assign N/A at output phase, maybe do this logic there? if ($row->[1]){ if ($id !~ m/$row->[1]$/i){ $id =~ s/$row->[1]//i; } else { $id = 'N/A'; } } $id =~ s/^[\/\[\s_-]+|[\/\s_-]+$//g; $id =~ s/\s\s/ /g; last; } } eval $end if $b_log; return [$vendor,$id]; } } ## RepoItem { package RepoItem; # easier to keep these package global, but undef after done my (@dbg_files,$debugger_dir,%repo_keys); my $num = 0; sub get { eval $start if $b_log; ($debugger_dir) = @_; my $rows = []; if ($extra > 0 && !$loaded{'package-data'}){ my $packages = PackageData::get('main',\$num); for (keys %$packages){ $rows->[0]{$_} = $packages->{$_}; } } my $start = scalar @$rows; # to test if we found more rows after $num = 0; if ($bsd_type){ get_repos_bsd($rows); } else { get_repos_linux($rows); } if ($debugger_dir){ @$rows = @dbg_files; undef @dbg_files; undef $debugger_dir; undef %repo_keys; } else { if ($start == scalar @$rows){ my $pm_missing; if ($bsd_type){ $pm_missing = main::message('repo-data-bsd',$uname[0]); } else { $pm_missing = main::message('repo-data'); } push(@$rows,{main::key($num++,0,1,'Alert') => $pm_missing}); } } eval $end if $b_log; return $rows; } sub get_repos_linux { eval $start if $b_log; my $rows = $_[0]; my (@content,$data,@data2,@data3,@files,$repo,@repos); my ($key,$path); my $apk = '/etc/apk/repositories'; my $apt = '/etc/apt/sources.list'; my $apt_termux = '/data/data/com.termux/files/usr' . $apt; $apt = $apt_termux if -e $apt_termux; # for android termux my $cards = '/etc/cards.conf'; my $dnf_conf = '/etc/dnf/dnf.conf'; my $dnf_repo_dir = '/etc/dnf.repos.d/'; my $eopkg_dir = '/var/lib/eopkg/'; my $netpkg = '/etc/netpkg.conf'; my $netpkg_dir = '/etc/netpkg.d'; my $nix = '/etc/nix/nix.conf'; my $pacman = '/etc/pacman.conf'; my $pacman_g2 = '/etc/pacman-g2.conf'; my $pisi_dir = '/etc/pisi/'; my $portage_dir = '/etc/portage/repos.conf/'; my $portage_gentoo_dir = '/etc/portage-gentoo/repos.conf/'; my $sbopkg = '/etc/sbopkg/sbopkg.conf'; my $sboui_backend = '/etc/sboui/sboui-backend.conf'; my $scratchpkg = '/etc/scratchpkg.repo'; my $slackpkg = '/etc/slackpkg/mirrors'; my $slackpkg_plus = '/etc/slackpkg/slackpkgplus.conf'; my $slapt_get = '/etc/slapt-get/'; my $slpkg = '/etc/slpkg/repositories.toml'; my $tce_app = '/usr/bin/tce'; my $tce_file = '/opt/tcemirror'; my $tce_file2 = '/opt/localmirrors'; my $yum_conf = '/etc/yum.conf'; my $yum_repo_dir = '/etc/yum.repos.d/'; my $xbps_dir_1 = '/etc/xbps.d/'; my $xbps_dir_2 = '/usr/share/xbps.d/'; my $zypp_repo_dir = '/etc/zypp/repos.d/'; my $b_test = 0; ## apt: Debian, *buntus + derived (deb files);AltLinux, PCLinuxOS (rpm files) # Sometimes some yum/rpm repos may create apt repos here as well if (-f $apt || -d "$apt.d"){ my ($apt_arch,$apt_comp,$apt_suites,$apt_types,@apt_urls,@apt_working, $b_apt_enabled,$file,$string); my $counter = 0; @files = main::globber("$apt.d/*.list"); push(@files, $apt); # prefilter list for logging @files = grep {-f $_} @files; # may not have $apt file. main::log_data('data',"apt repo files:\n" . main::joiner(\@files, "\n", 'unset')) if $b_log; foreach (sort @files){ # altlinux/pclinuxos use rpms in apt files, -r to be on safe side if (-r $_){ $data = repo_builder($_,'apt','^\s*(deb|rpm)'); push(@$rows,@$data); } } # @files = main::globber("$fake_data_dir/repo/apt/*.sources"); @files = main::globber("$apt.d/*.sources"); # prefilter list for logging, sometimes globber returns non-prsent files. @files = grep {-f $_} @files; # @files = ("$fake_data_dir/repo/apt/deb822-u193-3.sources", # "$fake_data_dir/repo/apt/deb822-u193-3.sourcesdeb822-u193-4-signed-by.sources"); main::log_data('data',"apt deb822 repo files:\n" . main::joiner(\@files, "\n", 'unset')) if $b_log; foreach $file (@files){ # critical: whitespace is the separator, no logical ordering of # field names exists within each entry. @data2 = main::reader($file); # print Data::Dumper::Dumper \@data2; if (@data2){ @data2 = map {s/^\s*$/~/;$_} @data2; push(@data2, '~'); } push(@dbg_files, $file) if $debugger_dir; # print "$file\n"; @apt_urls = (); @apt_working = (); $b_apt_enabled = 1; foreach my $row (@data2){ # NOTE: the syntax of deb822 must be considered a bug, it's sloppy beyond belief. # deb822 supports line folding which starts with space # BUT: you can start a URIs: block of urls with a space, sigh. next if $row =~ /^\s+/ && $row !~ /^\s+[^#]+:\//; # strip out line space starters now that it's safe $row =~ s/^\s+//; # print "$row\n"; if ($row eq '~'){ if (@apt_working && $b_apt_enabled){ # print "1: url builder\n"; foreach $repo (@apt_working){ $string = $apt_types; $string .= ' [arch=' . $apt_arch . ']' if $apt_arch; $string .= ' ' . $repo; $string .= ' ' . $apt_suites if $apt_suites ; $string .= ' ' . $apt_comp if $apt_comp; # print "s1:$string\n"; push(@data3, $string); } # print join("\n",@data3),"\n"; push(@apt_urls,@data3); } @data3 = (); @apt_working = (); $apt_arch = ''; $apt_comp = ''; $apt_suites = ''; $apt_types = ''; $b_apt_enabled = 1; } elsif ($row =~ /^Types:\s*(.*)/i){ # print "1:$1\n"; $apt_types = $1; } elsif ($row =~ /^Enabled:\s*(.*)/i){ $b_apt_enabled = ($1 =~ /\b(disable|false|off|no|without)\b/i) ? 0: 1; } elsif ($row =~ /^[^#]+:\//){ my $url = $row; $url =~ s/^URIs:\s*//i; push(@apt_working, $url) if $url; } elsif ($row =~ /^Suites:\s*(.*)/i){ $apt_suites = $1; } elsif ($row =~ /^Components:\s*(.*)/i){ $apt_comp = $1; } elsif ($row =~ /^Architectures:\s*(.*)/i){ $apt_arch = $1; } } if (@apt_urls){ $key = repo_data('active','apt'); clean_url(\@apt_urls); } else { $key = repo_data('missing','apt'); } push(@$rows, {main::key($num++,1,1,$key) => $file}, [@apt_urls], ); } @files = (); } ## pacman, pacman-g2: Arch + derived, Frugalware if (-f $pacman || -f $pacman_g2){ $repo = 'pacman'; if (-f $pacman_g2){ $pacman = $pacman_g2; $repo = 'pacman-g2'; } @files = main::reader($pacman,'strip'); if (@files){ @repos = grep {/^\s*Server/i} @files; @files = grep {/^\s*Include/i} @files; } if (@files){ @files = map { my @working = split(/\s+=\s+/, $_); $working[1]; } @files; } @files = sort @files; main::uniq(\@files); unshift(@files, $pacman) if @repos; foreach (@files){ if (-f $_){ $data = repo_builder($_,$repo,'^\s*Server','\s*=\s*',1); push(@$rows,@$data); } else { # set it so the debugger knows the file wasn't there push(@dbg_files, $_) if $debugger_dir; push(@$rows, {main::key($num++,1,1,'File listed in') => $pacman}, [("$_ does not seem to exist.")], ); } } if (!@$rows){ push(@$rows, {main::key($num++,0,1,repo_data('missing','files')) => $pacman }, ); } } ## netpkg: Zenwalk, Slackware if (-f $netpkg){ my @data2 = ($netpkg); if (-d $netpkg_dir){ @data3 = main::globber("$netpkg_dir/*"); @data3 = grep {!/\/local$/} @data3 if @data3; # package directory push(@data2,@data3) if @data3; } foreach my $file (@data2){ $data = repo_builder($file,'netpkg','^URL\s*=','\s*=\s*',1); push(@$rows,@$data); } } ## sbopkg, sboui, slackpkg, slackpkg+, slapt_get, slpkg: Slackware + derived # $slpkg = "$ENV{'HOME'}/bin/scripts/inxi/data/repo/slackware/slpkg-2.toml"; # $sbopkg = "$ENV{HOME}/bin/scripts/inxi/data/repo/slackware/sbopkg-2.conf"; # $sboui_backend = "$ENV{HOME}/bin/scripts/inxi/data/repo/slackware/sboui-backend-1.conf"; if (-f $slackpkg || -f $slackpkg_plus || -d $slapt_get || -f $slpkg || -f $sbopkg || -f $sboui_backend){ if (-f $sbopkg){ my $sbo_root = '/root/.sbopkg.conf'; # $sbo_root = "$ENV{HOME}/bin/scripts/inxi/data/repo/slackware/sbopkg-root-1.conf"; @files = ($sbopkg); # /root not readable as user, unless it is, so just check if readable push(@files,$sbo_root) if -r $sbo_root; my ($branch,$name); # SRC_REPO repo URL not used, not what we think foreach my $file (@files){ foreach my $row (main::reader($file,'strip')){ if ($row =~ /^REPO_NAME=(\S\{REPO_NAME:-)?(.*?)\}?$/){ $name = $2; } elsif ($row =~ /^REPO_BRANCH=(\S\{REPO_BRANCH:-)?(.*?)\}?$/){ $branch = $2; } } } # First found overridden by next, so we don't care where the value came # from. We do care if 1 file and not root however, since might be wrong. if ($branch && $name){ if ($b_root || scalar @files == 2){ $key = repo_data('active','sbopkg'); } else { $key = repo_data('active-permissions','sbopkg'); } @content = ("$name ~ $branch"); } else { $key = repo_data('missing','sbopkg'); } my @data = ( {main::key($num++,1,1,$key) => join(', ',@files)}, [@content], ); push(@$rows,@data); (@content,@files) = (); } if (-f $sboui_backend){ my ($branch,$repo); # Note: sboui also has a sboui.conf file, with the package_manager string # but that is too hard to handle clearly in output so leaving aside. foreach my $row (main::reader($sboui_backend,'strip')){ if ($row =~ /^REPO\s*=\s*["']?(\S+?)["']?\s*$/){ $repo = $1; } elsif ($row =~ /^BRANCH\s*=\s*["']?(\S+?)["']?\s*$/){ $branch = $1; } } if ($repo){ $key = repo_data('active','sboui'); $branch = 'current' if !$branch || $repo =~ /ponce/i; @content = ("SBo $branch ~ $repo"); # we want SBo name to show } else { $key = repo_data('missing','sboui'); } my @data = ( {main::key($num++,1,1,$key) => $sboui_backend}, [@content], ); push(@$rows,@data); @content = (); } if (-f $slackpkg){ $data = repo_builder($slackpkg,'slackpkg','^[[:space:]]*[^#]+'); push(@$rows,@$data); } if (-d $slapt_get){ @data2 = main::globber("${slapt_get}*"); @data2 = grep {!/pubring/} @data2 if @data2; foreach my $file (@data2){ $data = repo_builder($file,'slaptget','^\s*SOURCE','\s*=\s*',1); push(@$rows,@$data); } } if (-f $slackpkg_plus){ push(@dbg_files, $slackpkg_plus) if $debugger_dir; my (@repoplus_list,$active_repos); foreach my $row (main::reader($slackpkg_plus,'strip')){ @data2 = split(/\s*=\s*/, $row); @data2 = map { $_ =~ s/^\s+|\s+$//g ; $_ } @data2; last if $data2[0] =~ /^SLACKPKGPLUS/i && $data2[1] eq 'off'; # REPOPLUS=(slackpkgplus restricted alienbob ktown multilib slacky) if ($data2[0] =~ /^REPOPLUS/i){ @repoplus_list = split(/\s+/, $data2[1]); @repoplus_list = map {s/\(|\)//g; $_} @repoplus_list; $active_repos = join('|',@repoplus_list); } # MIRRORPLUS['multilib']=http://taper.alienbase.nl/mirrors/people/alien/multilib/14.1/ if ($active_repos && $data2[0] =~ /^MIRRORPLUS/i){ $data2[0] =~ s/MIRRORPLUS\[\'|\'\]//ig; if ($data2[0] =~ /$active_repos/){ push(@content,"$data2[0] ~ $data2[1]"); } } } if (!@content){ $key = repo_data('missing','slackpkg+'); } else { clean_url(\@content); $key = repo_data('active','slackpkg+'); } my @data = ( {main::key($num++,1,1,$key) => $slackpkg_plus}, [@content], ); push(@$rows,@data); @content = (); } if (-f $slpkg){ my ($active,$name,$repo); my $holder = ''; @data2 = main::reader($slpkg); # We can't rely on the presence of empty lines as block separator. push(@data2,'-eof-') if @data2; # print Data::Dumper::Dumper \@data2; # old: "https://download.salixos.org/x86_64/slackware-15.0/" # new: ["https://slac...nl/people/alien/sbrepos/", "15.0/", "x86_64/"] foreach (@data2){ next if /^\s*([#\[]|$)/; $_ = lc($_); if (/^\s*(\S+?)_(repo(|_name|_mirror))\s*=\s*[\['"]{0,2}(.*?)[\]'"]{0,2}\s*$/ || $_ eq '-eof-'){ my ($key,$value) = ($2,$4); if (($1 && $holder ne $1) || $_ eq '-eof-'){ $holder = $1; if ($name && $repo){ if (!$active || $active =~ /^(true|1|yes)$/i){ push(@content,"$name ~ $repo"); } ($active,$name,$repo) = (); } } if ($key){ if ($key eq 'repo'){ $active = $value;} elsif ($key eq 'repo_name'){ $name = $value;} elsif ($key eq 'repo_mirror'){ # map new form to a real url $value =~ s/['"],\s*['"]//g; $repo = $value;} } } } if (!@content){ $key = repo_data('missing','slpkg'); } else { # Special case, sbo and ponce true, dump sbo, they conflict. # slpkg does this internally so no other way to handle. if (grep {/^ponce ~/} @content){ @content = grep {!/sbo ~/} @content; } clean_url(\@content); $key = repo_data('active','slpkg'); } push(@$rows, {main::key($num++,1,1,$key) => $slpkg}, [@content], ); (@content,@data2,@data3) = (); } } ## dnf, yum, zypp: Redhat, Suse + derived (rpm based) if (-f $dnf_conf ||-d $dnf_repo_dir|| -d $yum_repo_dir || -f $yum_conf || -d $zypp_repo_dir){ @files = (); push(@files, $dnf_conf) if -f $dnf_conf; push(@files, main::globber("$dnf_repo_dir*.repo")) if -d $dnf_repo_dir; push(@files, $yum_conf) if -f $yum_conf; push(@files, main::globber("$yum_repo_dir*.repo")) if -d $yum_repo_dir; if (-d $zypp_repo_dir){ push(@files, main::globber("$zypp_repo_dir*.repo")); main::log_data('data',"zypp repo files:\n" . main::joiner(\@files, "\n", 'unset')) if $b_log; } # push(@files, "$fake_data_dir/repo/yum/rpmfusion-nonfree-1.repo"); if (@files){ foreach (sort @files){ @data2 = main::reader($_); push(@dbg_files, $_) if $debugger_dir; if (/yum/){ $repo = 'yum'; } elsif (/dnf/){ $repo = 'dnf'; } elsif(/zypp/){ $repo = 'zypp'; } my ($enabled,$url,$title) = (undef,'',''); foreach my $line (@data2){ # this is a hack, assuming that each item has these fields listed, we collect the 3 # items one by one, then when the url/enabled fields are set, we print it out and # reset the data. Not elegant but it works. Note that if enabled was not present # we assume it is enabled then, and print the line, reset the variables. This will # miss the last item, so it is printed if found in END if ($line =~ /^\[(.+)\]/){ my $temp = $1; if ($url && $title && defined $enabled){ if ($enabled > 0){ push(@content, "$title ~ $url"); } ($enabled,$url,$title) = (undef,'',''); } $title = $temp; } # Note: it looks like enabled comes before url elsif ($line =~ /^(metalink|mirrorlist|baseurl)\s*=\s*(.*)/i){ $url = $2; } # note: enabled = 1. enabled = 0 means disabled elsif ($line =~ /^enabled\s*=\s*(0|1|No|Yes|True|False)/i){ $enabled = $1; $enabled =~ s/(No|False)/0/i; $enabled =~ s/(Yes|True)/1/i; } # print out the line if all 3 values are found, otherwise if a new # repoTitle is hit above, it will print out the line there instead if ($url && $title && defined $enabled){ if ($enabled > 0){ push(@content, "$title ~ $url"); } ($enabled,$url,$title) = (0,'',''); } } # print the last one if there is data for it if ($url && $title && $enabled){ push(@content, "$title ~ $url"); } if (!@content){ $key = repo_data('missing',$repo); } else { clean_url(\@content); $key = repo_data('active',$repo); } push(@$rows, {main::key($num++,1,1,$key) => $_}, [@content], ); @content = (); } } # print Data::Dumper::Dumper \@$rows; } # emerge, portage: Gentoo + derived if ((-d $portage_dir || -d $portage_gentoo_dir) && main::check_program('emerge')){ @files = (main::globber("$portage_dir*.conf"),main::globber("$portage_gentoo_dir*.conf")); $repo = 'portage'; if (@files){ foreach (sort @files){ @data2 = main::reader($_); push(@dbg_files, $_) if $debugger_dir; my ($enabled,$url,$title) = (undef,'',''); foreach my $line (@data2){ # this is a hack, assuming that each item has these fields listed, we collect the 3 # items one by one, then when the url/enabled fields are set, we print it out and # reset the data. Not elegant but it works. Note that if enabled was not present # we assume it is enabled then, and print the line, reset the variables. This will # miss the last item, so it is printed if found in END if ($line =~ /^\[(.+)\]/){ my $temp = $1; if ($url && $title && defined $enabled){ if ($enabled > 0){ push(@content, "$title ~ $url"); } ($enabled,$url,$title) = (undef,'',''); } $title = $temp; } elsif ($line =~ /^(sync-uri)\s*=\s*(.*)/i){ $url = $2; } # note: enabled = 1. enabled = 0 means disabled elsif ($line =~ /^auto-sync\s*=\s*(0|1|No|Yes|True|False)/i){ $enabled = $1; $enabled =~ s/(No|False)/0/i; $enabled =~ s/(Yes|True)/1/i; } # print out the line if all 3 values are found, otherwise if a new # repoTitle is hit above, it will print out the line there instead if ($url && $title && defined $enabled){ if ($enabled > 0){ push(@content, "$title ~ $url"); } ($enabled,$url,$title) = (undef,'',''); } } # print the last one if there is data for it if ($url && $title && $enabled){ push(@content, "$title ~ $url"); } if (! @content){ $key = repo_data('missing','portage'); } else { clean_url(\@content); $key = repo_data('active','portage'); } push(@$rows, {main::key($num++,1,1,$key) => $_}, [@content], ); @content = (); } } } ## apk: Alpine, Chimera if (-f $apk || -d "$apk.d"){ @files = main::globber("$apk.d/*.list"); push(@files, $apk); # prefilter list for logging @files = grep {-f $_} @files; # may not have $apk file. main::log_data('data',"apk repo files:\n" . main::joiner(\@files, "\n", 'unset')) if $b_log; foreach (sort @files){ # -r to be on safe side if (-r $_){ $data = repo_builder($_,'apk','^\s*[^#]+'); push(@$rows,@$data); } } } ## scratchpkg: Venom if (-f $scratchpkg){ $data = repo_builder($scratchpkg,'scratchpkg','^[[:space:]]*[^#]+'); push(@$rows,@$data); } # cards: Nutyx if (-f $cards){ @data3 = main::reader($cards,'clean'); push(@dbg_files, $cards) if $debugger_dir; foreach (@data3){ if ($_ =~ /^dir\s+\/[^\|]+\/([^\/\|]+)\s*(\|\s*((http|ftp).*))?/){ my $type = ($3) ? $3: 'local'; push(@content, "$1 ~ $type"); } } if (! @content){ $key = repo_data('missing','cards'); } else { clean_url(\@content); $key = repo_data('active','cards'); } push(@$rows, {main::key($num++,1,1,$key) => $cards}, [@content], ); @content = (); } ## tce: TinyCore if (-e $tce_app || -f $tce_file || -f $tce_file2){ if (-f $tce_file){ $data = repo_builder($tce_file,'tce','^\s*[^#]+'); push(@$rows,@$data); } if (-f $tce_file2){ $data = repo_builder($tce_file2,'tce','^\s*[^#]+'); push(@$rows,@$data); } } ## xbps: Void if (-d $xbps_dir_1 || -d $xbps_dir_2){ @files = main::globber("$xbps_dir_1*.conf"); push(@files,main::globber("$xbps_dir_2*.conf")) if -d $xbps_dir_2; main::log_data('data',"xbps repo files:\n" . main::joiner(\@files, "\n", 'unset')) if $b_log; foreach (sort @files){ if (-r $_){ $data = repo_builder($_,'xbps','^\s*repository\s*=','\s*=\s*',1); push(@$rows,@$data); } } } ## urpmq: Mandriva, Mageia if ($path = main::check_program('urpmq')){ @data2 = main::grabber("$path --list-media active --list-url","\n",'strip'); main::writer("$debugger_dir/system-repo-data-urpmq.txt",\@data2) if $debugger_dir; # Now we need to create the structure: repo info: repo path. We do that by # looping through the lines of the output and then putting it back into the # : format print repos expects to see. Note this structure in the # data, so store first line and make start of line then when it's an http # line, add it, and create the full line collection. # Contrib ftp://ftp.uwsg.indiana.edu/linux/mandrake/official/2011/x86_64/media/contrib/release # Contrib Updates ftp://ftp.uwsg.indiana.edu/linux/mandrake/official/2011/x86_64/media/contrib/updates # Non-free ftp://ftp.uwsg.indiana.edu/linux/mandrake/official/2011/x86_64/media/non-free/release # Non-free Updates ftp://ftp.uwsg.indiana.edu/linux/mandrake/official/2011/x86_64/media/non-free/updates # Nonfree Updates (Local19) /mnt/data/mirrors/mageia/distrib/cauldron/x86_64/media/nonfree/updates foreach (@data2){ # Need to dump leading/trailing spaces and clear out color codes for irc output $_ =~ s/\x1B\[([0-9]{1,2}(;[0-9]{1,2})?)?[m|K]//g; $_ =~ s/\e\[([0-9];)?[0-9]+m//g; # urpmq output is the same each line, repo name space repo url, can be: # rsync://, ftp://, file://, http:// OR repo is locally mounted on FS in some cases if (/(.+)\s([\S]+:\/\/.+)/){ # pack the repo url push(@content, $1); clean_url(\@content); # get the repo $repo = $2; push(@$rows, {main::key($num++,1,1,'urpm repo') => $repo}, [@content], ); @content = (); } } } # pisi: Pardus, Solus if ((-d $pisi_dir && ($path = main::check_program('pisi'))) || (-d $eopkg_dir && ($path = main::check_program('eopkg')))){ #$path = 'eopkg'; my $which = ($path =~ /pisi$/) ? 'pisi': 'eopkg'; my $cmd = ($which eq 'pisi') ? "$path list-repo": "$path lr"; # my $file = "$ENV{HOME}/bin/scripts/inxi/data/repo/solus/eopkg-2.txt"; # @data2 = main::reader($file,'strip'); @data2 = main::grabber("$cmd 2>/dev/null","\n",'strip'); main::writer("$debugger_dir/system-repo-data-$which.txt",\@data2) if $debugger_dir; # Now we need to create the structure: repo info: repo path # We do that by looping through the lines of the output and then putting it # back into the : format print repos expects to see. Note this # structure in the data, so store first line and make start of line then # when it's an http line, add it, and create the full line collection. # Pardus-2009.1 [Aktiv] # http://packages.pardus.org.tr/pardus-2009.1/pisi-index.xml.bz2 # Contrib [Aktiv] # http://packages.pardus.org.tr/contrib-2009/pisi-index.xml.bz2 # Solus [inactive] # https://packages.solus-project.com/shannon/eopkg-index.xml.xz foreach (@data2){ next if /^\s*$/; # need to dump leading/trailing spaces and clear out color codes for irc output $_ =~ s/\x1B\[([0-9]{1,2}(;[0-9]{1,2})?)?[m|K]//g; $_ =~ s/\e\[([0-9];)?[0-9]+m//g; if (/^\/|:\/\//){ push(@content, $_) if $repo; } # Local [inactive] Unstable [active] elsif (/^(.*)\s\[([\S]+)\]/){ $repo = $1; $repo = ($2 =~ /^activ/i) ? $repo : ''; } if ($repo && @content){ clean_url(\@content); $key = repo_data('active',$which); push(@$rows, {main::key($num++,1,1,$key) => $repo}, [@content], ); $repo = ''; @content = (); } } # last one if present if ($repo && @content){ clean_url(\@content); $key = repo_data('active',$which); push(@$rows, {main::key($num++,1,1,$key) => $repo}, [@content], ); } } ## nix: General pm for Linux/Unix if (-f $nix && ($path = main::check_program('nix-channel'))){ @content = main::grabber("$path --list 2>/dev/null","\n",'strip'); main::writer("$debugger_dir/system-repo-data-nix.txt",\@content) if $debugger_dir; if (!@content){ $key = repo_data('missing','nix'); } else { clean_url(\@content); $key = repo_data('active','nix'); } my $user = ($ENV{'USER'}) ? $ENV{'USER'}: 'N/A'; push(@$rows, {main::key($num++,1,1,$key) => $user}, [@content], ); @content = (); } # print Dumper $rows; eval $end if $b_log; } sub get_repos_bsd { eval $start if $b_log; my $rows = $_[0]; my (@content,$data,@data2,@data3,@files); my ($key); my $bsd_pkg = '/usr/local/etc/pkg/repos/'; my $freebsd = '/etc/freebsd-update.conf'; my $freebsd_pkg = '/etc/pkg/FreeBSD.conf'; my $ghostbsd_pkg = '/etc/pkg/GhostBSD.conf'; my $hardenedbsd_pkg = '/etc/pkg/HardenedBSD.conf'; my $mports = '/usr/mports/Makefile'; my $netbsd = '/usr/pkg/etc/pkgin/repositories.conf'; my $openbsd = '/etc/pkg.conf'; my $openbsd2 = '/etc/installurl'; my $portsnap = '/etc/portsnap.conf'; if (-f $portsnap || -f $freebsd || -d $bsd_pkg || -f $ghostbsd_pkg || -f $hardenedbsd_pkg){ if (-f $portsnap){ $data = repo_builder($portsnap,'portsnap','^\s*SERVERNAME','\s*=\s*',1); push(@$rows,@$data); } if (-f $freebsd){ $data = repo_builder($freebsd,'freebsd','^\s*ServerName','\s+',1); push(@$rows,@$data); } if (-d $bsd_pkg || -f $freebsd_pkg || -f $ghostbsd_pkg || -f $hardenedbsd_pkg){ @files = main::globber('/usr/local/etc/pkg/repos/*.conf'); push(@files, $freebsd_pkg) if -f $freebsd_pkg; push(@files, $ghostbsd_pkg) if -f $ghostbsd_pkg; push(@files, $hardenedbsd_pkg) if -f $hardenedbsd_pkg; if (@files){ my ($url); foreach (@files){ push(@dbg_files, $_) if $debugger_dir; # these will be result sets separated by an empty line # first dump all lines that start with # @content = main::reader($_,'strip'); # then do some clean up on the lines @content = map { $_ =~ s/{|}|,|\*//g; $_;} @content if @content; # get all rows not starting with a # and starting with a non space character my $url = ''; foreach my $line (@content){ if ($line !~ /^\s*$/){ my @data2 = split(/\s*:\s*/, $line); @data2 = map { $_ =~ s/^\s+|\s+$//g; $_;} @data2; if ($data2[0] eq 'url'){ $url = "$data2[1]:$data2[2]"; $url =~ s/"|,//g; } # print "url:$url\n" if $url; if ($data2[0] eq 'enabled'){ if ($url && $data2[1] =~ /^(1|true|yes)$/i){ push(@data3, "$url"); } $url = ''; } } } if (!@data3){ $key = repo_data('missing','bsd-package'); } else { clean_url(\@data3); $key = repo_data('active','bsd-package'); } push(@$rows, {main::key($num++,1,1,$key) => $_}, [@data3], ); @data3 = (); } } } } if (-f $openbsd || -f $openbsd2){ if (-f $openbsd){ $data = repo_builder($openbsd,'openbsd','^installpath','\s*=\s*',1); push(@$rows,@$data); } if (-f $openbsd2){ $data = repo_builder($openbsd2,'openbsd','^(http|ftp)','',1); push(@$rows,@$data); } } if (-f $netbsd){ # not an empty row, and not a row starting with # $data = repo_builder($netbsd,'netbsd','^\s*[^#]+$'); push(@$rows,@$data); } # I don't think this is right, have to find out, for midnightbsd # if (-f $mports){ # @data = main::reader($mports,'strip'); # main::writer("$debugger_dir/system-repo-data-mports.txt",\@data) if $debugger_dir; # for (@data){ # if (!/^MASTER_SITE_INDEX/){ # next; # } # else { # push(@data3,(split(/=\s*/,$_))[1]); # } # last if /^INDEX/; # } # if (!@data3){ # $key = repo_data('missing','mports'); # } # else { # clean_url(\@data3); # $key = repo_data('active','mports'); # } # push(@$rows, # {main::key($num++,1,1,$key) => $mports}, # [@data3], # ); # @data3 = (); # } # BSDs do not default always to having repo files, so show correct error # mesage in that case if (!@$rows){ if ($bsd_type eq 'freebsd'){ $key = repo_data('missing','freebsd-files'); } elsif ($bsd_type eq 'openbsd'){ $key = repo_data('missing','openbsd-files'); } elsif ($bsd_type eq 'netbsd'){ $key = repo_data('missing','netbsd-files'); } else { $key = repo_data('missing','bsd-files'); } push(@$rows, {main::key($num++,0,1,'Message') => $key}, [()], ); } eval $start if $b_log; } sub set_repo_keys { eval $start if $b_log; %repo_keys = ( 'apk-active' => 'APK repo', 'apk-missing' => 'No active APK repos in', 'apt-active' => 'Active apt repos in', 'apt-missing' => 'No active apt repos in', 'bsd-files-missing' => 'No pkg server files found', 'bsd-package-active' => 'Enabled pkg servers in', 'bsd-package-missing' => 'No enabled BSD pkg servers in', 'cards-active' => 'Active CARDS collections in', 'cards-missing' => 'No active CARDS collections in', 'dnf-active' => 'Active dnf repos in', 'dnf-missing' => 'No active dnf repos in', 'eopkg-active' => 'Active eopkg repo', 'eopkg-missing' => 'No active eopkg repos found', 'files-missing' => 'No repo files found in', 'freebsd-active' => 'FreeBSD update server', 'freebsd-files-missing' => 'No FreeBSD update server files found', 'freebsd-missing' => 'No FreeBSD update servers in', 'freebsd-pkg-active' => 'FreeBSD default pkg server', 'freebsd-pkg-missing' => 'No FreeBSD default pkg server in', 'mports-active' => 'mports servers', 'mports-missing' => 'No mports servers found', 'netbsd-active' => 'NetBSD pkg servers', 'netbsd-files-missing' => 'No NetBSD pkg server files found', 'netbsd-missing' => 'No NetBSD pkg servers in', 'netpkg-active' => 'Active netpkg repos in', 'netpkg-missing' => 'No active netpkg repos in', 'nix-active' => 'Active nix channels for user', 'nix-missing' => 'No nix channels found for user', 'openbsd-active' => 'OpenBSD pkg mirror', 'openbsd-files-missing' => 'No OpenBSD pkg mirror files found', 'openbsd-missing' => 'No OpenBSD pkg mirrors in', 'pacman-active' => 'Active pacman repo servers in', 'pacman-missing' => 'No active pacman repos in', 'pacman-g2-active' => 'Active pacman-g2 repo servers in', 'pacman-g2-missing' => 'No active pacman-g2 repos in', 'pisi-active' => 'Active pisi repo', 'pisi-missing' => 'No active pisi repos found', 'portage-active' => 'Enabled portage sources in', 'portage-missing' => 'No enabled portage sources in', 'portsnap-active' => 'Ports server', 'portsnap-missing' => 'No ports servers in', 'sbopkg-active' => 'Active sbopkg repo', 'sbopkg-active-permissions' => 'Active sbopkg repo (confirm with root)', 'sbopkg-missing' => 'No sbopkg repo', 'sboui-active' => 'Active sboui repo', 'sboui-missing' => 'No sboui repo', 'scratchpkg-active' => 'scratchpkg repos in', 'scratchpkg-missing' => 'No active scratchpkg repos in', 'slackpkg-active' => 'slackpkg mirror in', 'slackpkg-missing' => 'No slackpkg mirror set in', 'slackpkg+-active' => 'slackpkg+ repos in', 'slackpkg+-missing' => 'No active slackpkg+ repos in', 'slaptget-active' => 'slapt-get repos in', 'slaptget-missing' => 'No active slapt-get repos in', 'slpkg-active' => 'Active slpkg repos in', 'slpkg-missing' => 'No active slpkg repos in', 'tce-active' => 'tce mirrors in', 'tce-missing' => 'No tce mirrors in', 'xbps-active' => 'Active xbps repos in', 'xbps-missing' => 'No active xbps repos in', 'yum-active' => 'Active yum repos in', 'yum-missing' => 'No active yum repos in', 'zypp-active' => 'Active zypp repos in', 'zypp-missing' => 'No active zypp repos in', ); eval $end if $b_log; } sub repo_data { eval $start if $b_log; my ($status,$type) = @_; set_repo_keys() if !%repo_keys; eval $end if $b_log; return $repo_keys{$type . '-' . $status}; } sub repo_builder { eval $start if $b_log; my ($file,$type,$search,$split,$count) = @_; my (@content,$key); push(@dbg_files, $file) if $debugger_dir; if (-r $file){ @content = main::reader($file); @content = grep {/$search/i && !/^\s*$/} @content if @content; clean_data(\@content) if @content; } if ($split && @content){ @content = map { my @inner = split(/$split/, $_); $inner[$count]; } @content; } if (!@content){ $key = repo_data('missing',$type); } else { $key = repo_data('active',$type); clean_url(\@content); } eval $end if $b_log; return [ {main::key($num++,1,1,$key) => $file}, [@content], ]; } sub clean_data { # basics: trim white space, get rid of double spaces; trim comments at # ends of repo values @{$_[0]} = map { $_ =~ s/\s\s+/ /g; $_ =~ s/^\s+|\s+$//g; $_ =~ s/\[\s+/[/g; # [ signed-by $_ =~ s/\s+\]/]/g; $_ =~ s/^(.*\/.*) #.*/$1/; $_;} @{$_[0]}; } # Clean if irc sub clean_url { @{$_[0]} = map {$_ =~ s/:\//: \//; $_} @{$_[0]} if $b_irc; # trim comments at ends of repo values @{$_[0]} = map {$_ =~ s/^(.*\/.*) #.*/$1/; $_} @{$_[0]}; } sub file_path { my ($filename,$dir) = @_; my ($working); $working = $filename; $working =~ s/^\///; $working =~ s/\//-/g; $working = "$dir/file-repo-$working.txt"; return $working; } } ## SensorItem { package SensorItem; my $gpu_data = []; my $sensors_raw = {}; my $max_fan = 15000; sub get { eval $start if $b_log; my ($b_data,$b_ipmi,$b_no_lm,$b_no_sys); my ($message_type,$program,$val1,$sensors); my ($key1,$num,$rows) = ('Message',0,[]); my $source = 'sensors'; # will trip some type output if ipmi + another type # we're allowing 1 or 2 ipmi tools, first the gnu one, then the # almost certain to be present in BSDs if ($fake{'ipmi'} || (main::globber('/dev/ipmi**') && (($program = main::check_program('ipmi-sensors')) || ($program = main::check_program('ipmitool'))))){ if ($fake{'ipmi'} || $b_root){ $sensors = ipmi_data($program); $b_data = sensors_output($rows,'ipmi',$sensors); if (!$b_data){ $val1 = main::message('sensor-data-ipmi'); push(@$rows,{ main::key($num++,1,1,'Src') => 'ipmi', main::key($num++,0,1,$key1) => $val1, }); } } else { $key1 = 'Permissions'; $val1 = main::message('sensor-data-ipmi-root'); push(@$rows,{ main::key($num++,1,1,'Src') => 'ipmi', main::key($num++,0,2,$key1) => $val1, }); } $b_ipmi = 1; } $b_data = 0; if ($bsd_type){ if ($sysctl{'sensor'}){ $sensors = sysctl_data(); $source = 'sysctl' if $b_ipmi; $b_data = sensors_output($rows,$source,$sensors); if (!$b_data){ $source = 'sysctl'; $val1 = main::message('sensor-data-bsd',$uname[0]); } } else { if ($bsd_type =~ /^(free|open)bsd/){ $source = 'sysctl'; $val1 = main::message('sensor-data-bsd-ok'); } else { $source = 'N/A'; $val1 = main::message('sensor-data-bsd-unsupported'); } } } else { if (!$force{'sensors-sys'} && ($fake{'sensors'} || $alerts{'sensors'}->{'action'} eq 'use')){ load_lm_sensors(); $sensors = linux_sensors_data(); $source = 'lm-sensors' if $b_ipmi; # trips per sensor type output $b_data = sensors_output($rows,$source,$sensors); # print "here 1\n"; $b_no_lm = 1 if !$b_data; } # given recency of full /sys data, we want to prefer lm-sensors for a long time # and use /sys as a fallback. This will handle servers, which often do not # have lm-sensors installed, but do have /sys hwmon data. if (!$b_data && -d '/sys/class/hwmon'){ load_sys_data(); $sensors = linux_sensors_data(); $source = '/sys'; # trips per sensor type output $b_data = sensors_output($rows,$source,$sensors); # print "here 2\n"; $b_no_sys = 1 if !$b_data; } if (!$b_data){ if ($b_no_lm || $b_no_sys){ if ($b_no_lm && $b_no_sys){ $source = 'lm-sensors+/sys'; $val1 = main::message('sensor-data-sys-lm'); } elsif ($b_no_lm){ $source = 'lm-sensors'; $val1 = main::message('sensor-data-lm-sensors'); } else { $val1 = main::message('sensor-data-sys'); } } elsif (!$fake{'sensors'} && $alerts{'sensors'}->{'action'} ne 'use'){ # print "here 3\n"; $source = 'lm-sensors'; $key1 = $alerts{'sensors'}->{'action'}; $key1 = ucfirst($key1); $val1 = $alerts{'sensors'}->{'message'}; } else { $source = 'N/A'; $val1 = main::message('sensors-data-linux'); } } } if (!$b_data){ push(@$rows,{ main::key($num++,1,1,'Src') => $source, main::key($num++,0,2,$key1) => $val1, }); } eval $end if $b_log; return $rows; } sub sensors_output { eval $start if $b_log; my ($rows,$source,$sensors) = @_; my ($b_result,@fan_default,@fan_main); my $fan_number = 0; my $num = 0; my $j = scalar @$rows; if (!$loaded{'gpu-data'} && ($source eq 'sensors' || $source eq 'lm-sensors' || $source eq '/sys')){ gpu_sensor_data(); } # gpu sensors data might be present even if standard sensors data wasn't return if !%$sensors && !@$gpu_data; $b_result = 1; ## need to trip data found conditions my $temp_unit = (defined $sensors->{'temp-unit'}) ? " $sensors->{'temp-unit'}": ''; my $cpu_temp = (defined $sensors->{'cpu-temp'}) ? $sensors->{'cpu-temp'} . $temp_unit: 'N/A'; my $mobo_temp = (defined $sensors->{'mobo-temp'}) ? $sensors->{'mobo-temp'} . $temp_unit: 'N/A'; my $cpu1_key = ($sensors->{'cpu2-temp'}) ? 'cpu-1': 'cpu'; my ($l1,$l2,$l3) = (1,2,3); if ($source ne 'sensors'){ $rows->[$j]{main::key($num++,1,1,'Src')} = $source; ($l1,$l2,$l3) = (2,3,4); } $rows->[$j]{main::key($num++,1,$l1,'System Temperatures')} = ''; $rows->[$j]{main::key($num++,0,$l2,$cpu1_key)} = $cpu_temp; if ($sensors->{'cpu2-temp'}){ $rows->[$j]{main::key($num++,0,$l2,'cpu-2')} = $sensors->{'cpu2-temp'} . $temp_unit; } if ($sensors->{'cpu3-temp'}){ $rows->[$j]{main::key($num++,0,$l2,'cpu-3')} = $sensors->{'cpu3-temp'} . $temp_unit; } if ($sensors->{'cpu4-temp'}){ $rows->[$j]{main::key($num++,0,$l2,'cpu-4')} = $sensors->{'cpu4-temp'} . $temp_unit; } if (defined $sensors->{'pch-temp'}){ my $pch_temp = $sensors->{'pch-temp'} . $temp_unit; $rows->[$j]{main::key($num++,0,$l2,'pch')} = $pch_temp; } $rows->[$j]{main::key($num++,0,$l2,'mobo')} = $mobo_temp; if (defined $sensors->{'sodimm-temp'}){ my $sodimm_temp = $sensors->{'sodimm-temp'} . $temp_unit; $rows->[$j]{main::key($num++,0,$l2,'sodimm')} = $sodimm_temp; } if (defined $sensors->{'psu-temp'}){ my $psu_temp = $sensors->{'psu-temp'} . $temp_unit; $rows->[$j]{main::key($num++,0,$l2,'psu')} = $psu_temp; } if (defined $sensors->{'ambient-temp'}){ my $ambient_temp = $sensors->{'ambient-temp'} . $temp_unit; $rows->[$j]{main::key($num++,0,$l2,'ambient')} = $ambient_temp; } if (scalar @$gpu_data == 1 && defined $gpu_data->[0]{'temp'}){ my $gpu_temp = $gpu_data->[0]{'temp'}; my $gpu_type = $gpu_data->[0]{'type'}; my $gpu_unit = (defined $gpu_data->[0]{'temp-unit'} && $gpu_temp) ? " $gpu_data->[0]{'temp-unit'}" : ' C'; $rows->[$j]{main::key($num++,1,$l2,'gpu')} = $gpu_type; $rows->[$j]{main::key($num++,0,$l3,'temp')} = $gpu_temp . $gpu_unit; if ($extra > 1 && $gpu_data->[0]{'temp-mem'}){ $rows->[$j]{main::key($num++,0,$l3,'mem')} = $gpu_data->[0]{'temp-mem'} . $gpu_unit; } } $j = scalar @$rows; @fan_main = @{$sensors->{'fan-main'}} if $sensors->{'fan-main'}; @fan_default = @{$sensors->{'fan-default'}} if $sensors->{'fan-default'}; my $fan_def = (!@fan_main && !@fan_default) ? 'N/A' : ''; $rows->[$j]{main::key($num++,1,$l1,'Fan Speeds (rpm)')} = $fan_def; my $b_cpu = 0; for (my $i = 0; $i < scalar @fan_main; $i++){ next if $i == 0;# starts at 1, not 0 if (defined $fan_main[$i]){ if ($i == 1 || ($i == 2 && !$b_cpu)){ $rows->[$j]{main::key($num++,0,$l2,'cpu')} = $fan_main[$i]; $b_cpu = 1; } elsif ($i == 2 && $b_cpu){ $rows->[$j]{main::key($num++,0,$l2,'mobo')} = $fan_main[$i]; } elsif ($i == 3){ $rows->[$j]{main::key($num++,0,$l2,'psu')} = $fan_main[$i]; } elsif ($i == 4){ $rows->[$j]{main::key($num++,0,$l2,'sodimm')} = $fan_main[$i]; } elsif ($i > 4){ $fan_number = $i - 4; $rows->[$j]{main::key($num++,0,$l2,"case-$fan_number")} = $fan_main[$i]; } } } for (my $i = 0; $i < scalar @fan_default; $i++){ next if $i == 0;# starts at 1, not 0 if (defined $fan_default[$i]){ $rows->[$j]{main::key($num++,0,$l2,"fan-$i")} = $fan_default[$i]; } } $rows->[$j]{main::key($num++,0,$l2,'psu')} = $sensors->{'fan-psu'} if defined $sensors->{'fan-psu'}; $rows->[$j]{main::key($num++,0,$l2,'psu-1')} = $sensors->{'fan-psu1'} if defined $sensors->{'fan-psu1'}; $rows->[$j]{main::key($num++,0,$l2,'psu-2')} = $sensors->{'fan-psu2'} if defined $sensors->{'fan-psu2'}; # note: so far, only nvidia-settings returns speed, and that's in percent if (scalar @$gpu_data == 1 && defined $gpu_data->[0]{'fan-speed'}){ my $gpu_fan = $gpu_data->[0]{'fan-speed'} . $gpu_data->[0]{'speed-unit'}; my $gpu_type = $gpu_data->[0]{'type'}; $rows->[$j]{main::key($num++,1,$l2,'gpu')} = $gpu_type; $rows->[$j]{main::key($num++,0,$l3,'fan')} = $gpu_fan; } if (scalar @$gpu_data > 1){ $j = scalar @$rows; $rows->[$j]{main::key($num++,1,$l1,'GPU')} = ''; my $gpu_unit = (defined $gpu_data->[0]{'temp-unit'}) ? " $gpu_data->[0]{'temp-unit'}" : ' C'; foreach my $info (@$gpu_data){ # speed unit is either '' or % my $gpu_fan = (defined $info->{'fan-speed'}) ? $info->{'fan-speed'} . $info->{'speed-unit'}: undef; my $gpu_type = $info->{'type'}; my $gpu_temp = (defined $info->{'temp'}) ? $info->{'temp'} . $gpu_unit: 'N/A'; $rows->[$j]{main::key($num++,1,$l2,'device')} = $gpu_type; if (defined $info->{'screen'}){ $rows->[$j]{main::key($num++,0,$l3,'screen')} = $info->{'screen'}; } $rows->[$j]{main::key($num++,0,$l3,'temp')} = $gpu_temp; if ($extra > 1 && $info->{'temp-mem'}){ $rows->[$j]{main::key($num++,0,$l3,'mem')} = $info->{'temp-mem'} . $gpu_unit; } if (defined $gpu_fan){ $rows->[$j]{main::key($num++,0,$l3,'fan')} = $gpu_fan; } if ($extra > 2 && $info->{'watts'}){ $rows->[$j]{main::key($num++,0,$l3,'watts')} = $info->{'watts'}; } if ($extra > 2 && $info->{'volts-gpu'}){ $rows->[$j]{main::key($num++,0,$l3,$info->{'volts-gpu'}[1])} = $info->{'volts-gpu'}[0]; } } } if ($extra > 0 && ($source eq 'ipmi' || ($sensors->{'volts-12'} || $sensors->{'volts-5'} || $sensors->{'volts-3.3'} || $sensors->{'volts-vbat'}))){ $j = scalar @$rows; $sensors->{'volts-12'} ||= 'N/A'; $sensors->{'volts-5'} ||= 'N/A'; $sensors->{'volts-3.3'} ||= 'N/A'; $sensors->{'volts-vbat'} ||= 'N/A'; $rows->[$j]{main::key($num++,1,$l1,'Power')} = ''; $rows->[$j]{main::key($num++,0,$l2,'12v')} = $sensors->{'volts-12'}; $rows->[$j]{main::key($num++,0,$l2,'5v')} = $sensors->{'volts-5'}; $rows->[$j]{main::key($num++,0,$l2,'3.3v')} = $sensors->{'volts-3.3'}; $rows->[$j]{main::key($num++,0,$l2,'vbat')} = $sensors->{'volts-vbat'}; if ($extra > 1 && $source eq 'ipmi'){ $sensors->{'volts-dimm-p1'} ||= 'N/A'; $sensors->{'volts-dimm-p2'} ||= 'N/A'; if ($sensors->{'volts-dimm-p1'}){ $rows->[$j]{main::key($num++,0,$l2,'dimm-p1')} = $sensors->{'volts-dimm-p1'}; } if ($sensors->{'volts-dimm-p2'}){ $rows->[$j]{main::key($num++,0,$l2,'dimm-p2')} = $sensors->{'volts-dimm-p2'}; } if ($sensors->{'volts-soc-p1'}){ $rows->[$j]{main::key($num++,0,$l2,'soc-p1')} = $sensors->{'volts-soc-p1'}; } if ($sensors->{'volts-soc-p2'}){ $rows->[$j]{main::key($num++,0,$l2,'soc-p2')} = $sensors->{'volts-soc-p2'}; } } if (scalar @$gpu_data == 1 && $extra > 2 && ($gpu_data->[0]{'watts'} || $gpu_data->[0]{'volts-gpu'})){ $rows->[$j]{main::key($num++,1,$l2,'gpu')} = $gpu_data->[0]{'type'}; if ($gpu_data->[0]{'watts'}){ $rows->[$j]{main::key($num++,0,$l3,'watts')} = $gpu_data->[0]{'watts'}; } if ($gpu_data->[0]{'volts-gpu'}){ $rows->[$j]{main::key($num++,0,$l3,$gpu_data->[0]{'volts-gpu'}[1])} = $gpu_data->[0]{'volts-gpu'}[0]; } } } eval $end if $b_log; return $b_result; } sub ipmi_data { eval $start if $b_log; my ($program) = @_; my ($b_cpu_0,$cmd,$file,@data,$fan_working,@row,$speed,$sys_fan_nu,$temp_working, $working_unit); my ($b_ipmitool,$i_key,$i_value,$i_unit); my $sensors = {}; if ($fake{'ipmi'}){ ## ipmitool ## # $file = "$fake_data_dir/sensors/ipmitool/ipmitool-sensors-archerseven-1.txt";$program='ipmitool'; # $file = "$fake_data_dir/sensorsipmitool/ipmitool-sensors-epyc-1.txt";$program='ipmitool'; # $file = "$fake_data_dir/sensorsipmitool/ipmitool-sensors-RK016013.txt";$program='ipmitool'; # $file = "$fake_data_dir/sensorsipmitool/ipmitool-sensors-freebsd-offsite-backup.txt"; # $file = "$fake_data_dir/sensorsipmitool/ipmitool-sensor-shom-1.txt";$program='ipmitool'; # $file = "$fake_data_dir/sensorsipmitool/ipmitool-sensor-shom-2.txt";$program='ipmitool'; # $file = "$fake_data_dir/sensorsipmitool/ipmitool-sensor-tyan-1.txt";$program='ipmitool'; # ($b_ipmitool,$i_key,$i_value,$i_unit) = (1,0,1,2); # ipmitool sensors ## ipmi-sensors ## # $file = "$fake_data_dir/sensorsipmitool/ipmi-sensors-epyc-1.txt";$program='ipmi-sensors'; # $file = "$fake_data_dir/sensorsipmitool/ipmi-sensors-lathander.txt";$program='ipmi-sensors'; # $file = "$fake_data_dir/sensorsipmitool/ipmi-sensors-zwerg.txt";$program='ipmi-sensors'; # $file = "$fake_data_dir/sensorsipmitool/ipmi-sensors-arm-server-1.txt";$program='ipmi-sensors'; # ($b_ipmitool,$i_key,$i_value,$i_unit) = (0,1,3,4); # ipmi-sensors # @data = main::reader($file); } else { if ($program =~ /ipmi-sensors$/){ $cmd = $program; ($b_ipmitool,$i_key,$i_value,$i_unit) = (0,1,3,4); } else { # ipmitool $cmd = "$program sensor"; # note: 'sensor' NOT 'sensors' !! ($b_ipmitool,$i_key,$i_value,$i_unit) = (1,0,1,2); } @data = main::grabber("$cmd 2>/dev/null"); } # print join("\n", @data), "\n"; # shouldn't need to log, but saw a case with debugger ipmi data, but none here apparently main::log_data('dump','ipmi @data',\@data) if $b_log; return $sensors if !@data; foreach (@data){ next if /^\s*$/; # print "$_\n"; @row = split(/\s*\|\s*/, $_); # print "$row[$i_value]\n"; next if !main::is_numeric($row[$i_value]); # print "$row[$i_key] - $row[$i_value]\n"; if (!$sensors->{'mobo-temp'} && $row[$i_key] =~ /^(MB[\s_-]?TEMP[0-9]|System[\s_-]?Temp|System[\s_-]?Board([\s_-]?Temp)?)$/i){ $sensors->{'mobo-temp'} = int($row[$i_value]); $working_unit = $row[$i_unit]; $working_unit =~ s/degrees\s// if $b_ipmitool; $sensors->{'temp-unit'} = set_temp_unit($sensors->{'temp-unit'},$working_unit) if $working_unit; } elsif ($row[$i_key] =~ /^(System[\s_-]?)?(Ambient)([\s_-]?Temp)?$/i){ $sensors->{'ambient-temp'} = int($row[$i_value]); $working_unit = $row[$i_unit]; $working_unit =~ s/degrees\s// if $b_ipmitool; $sensors->{'temp-unit'} = set_temp_unit($sensors->{'temp-unit'},$working_unit) if $working_unit; } # Platform Control Hub (PCH), it is the X370 chip on the Crosshair VI Hero. # VRM: voltage regulator module # NOTE: CPU0_TEMP CPU1_TEMP is possible, unfortunately; CPU Temp Interf elsif (!$sensors->{'cpu-temp'} && $row[$i_key] =~ /^CPU[\s_-]?([01])?([\s_](below[\s_]Tmax|Temp))?$/i){ $b_cpu_0 = 1 if defined $1 && $1 == 0; $sensors->{'cpu-temp'} = int($row[$i_value]); $working_unit = $row[$i_unit]; $working_unit =~ s/degrees\s// if $b_ipmitool; $sensors->{'temp-unit'} = set_temp_unit($sensors->{'temp-unit'},$working_unit) if $working_unit; } elsif ($row[$i_key] =~ /^CPU[\s_-]?([1-4])([\s_](below[\s_]Tmax|Temp))?$/i){ $temp_working = $1; $temp_working++ if $b_cpu_0; $sensors->{"cpu${temp_working}-temp"} = int($row[$i_value]); $working_unit = $row[$i_unit]; $working_unit =~ s/degrees\s// if $b_ipmitool; $sensors->{'temp-unit'} = set_temp_unit($sensors->{'temp-unit'},$working_unit) if $working_unit; } # for temp1/2 only use temp1/2 if they are null or greater than the last ones elsif ($row[$i_key] =~ /^(MB[\s_-]?TEMP1|Temp[\s_]1)$/i){ $temp_working = int($row[$i_value]); $working_unit = $row[$i_unit]; $working_unit =~ s/degrees\s// if $b_ipmitool; if (!$sensors->{'temp1'} || (defined $temp_working && $temp_working > 0)){ $sensors->{'temp1'} = $temp_working; } $sensors->{'temp-unit'} = set_temp_unit($sensors->{'temp-unit'},$working_unit) if $working_unit; } elsif ($row[$i_key] =~ /^(MB[_]?TEMP2|Temp[\s_]2)$/i){ $temp_working = int($row[$i_value]); $working_unit = $row[$i_unit]; $working_unit =~ s/degrees\s// if $b_ipmitool; if (!$sensors->{'temp2'} || (defined $temp_working && $temp_working > 0)){ $sensors->{'temp2'} = $temp_working; } $sensors->{'temp-unit'} = set_temp_unit($sensors->{'temp-unit'},$working_unit) if $working_unit; } # temp3 is only used as an absolute override for systems with all 3 present elsif ($row[$i_key] =~ /^(MB[_]?TEMP3|Temp[\s_]3)$/i){ $temp_working = int($row[$i_value]); $working_unit = $row[$i_unit]; $working_unit =~ s/degrees\s// if $b_ipmitool; if (!$sensors->{'temp3'} || (defined $temp_working && $temp_working > 0)){ $sensors->{'temp3'} = $temp_working; } $sensors->{'temp-unit'} = set_temp_unit($sensors->{'temp-unit'},$working_unit) if $working_unit; } elsif (!$sensors->{'sodimm-temp'} && ($row[$i_key] =~ /^(DIMM[-_]([A-Z][0-9]+[-_])?[A-Z]?[0-9]+[A-Z]?)$/i || $row[$i_key] =~ /^DIMM\s?[0-9]+ (Area|Temp).*/)){ $sensors->{'sodimm-temp'} = int($row[$i_value]); $working_unit = $row[$i_unit]; $working_unit =~ s/degrees\s// if $b_ipmitool; $sensors->{'temp-unit'} = set_temp_unit($sensors->{'temp-unit'},$working_unit) if $working_unit; } # note: can be cpu fan:, cpu fan speed:, etc. elsif ($row[$i_key] =~ /^(CPU|Processor)[\s_]Fan/i || $row[$i_key] =~ /^SYS\.[0-9][\s_]?\(CPU\s?0\)$/i){ $speed = int($row[$i_value]); $sensors->{'fan-main'}->[1] = $speed if $speed < $max_fan; } # note that the counters are dynamically set for fan numbers here # otherwise you could overwrite eg aux fan2 with case fan2 in theory # note: cpu/mobo/ps are 1/2/3 # SYS.3(Front 2) # $row[$i_key] =~ /^(SYS[\.])([0-9])\s?\((Front|Rear).+\)$/i elsif ($row[$i_key] =~ /^(SYS[\s_])?FAN[\s_]?([0-9A-F]+)/i){ $sys_fan_nu = hex($2); $fan_working = int($row[$i_value]); next if $fan_working > $max_fan; $sensors->{'fan-default'} = () if !$sensors->{'fan-default'}; if ($sys_fan_nu =~ /^([0-9]+)$/){ # add to array if array index does not exist OR if number is > existing number if (defined $sensors->{'fan-default'}->[$sys_fan_nu]){ if ($fan_working >= $sensors->{'fan-default'}->[$sys_fan_nu]){ $sensors->{'fan-default'}->[$sys_fan_nu] = $fan_working; } } else { $sensors->{'fan-default'}->[$sys_fan_nu] = $fan_working; } } } elsif ($row[$i_key] =~ /^(FAN PSU|PSU FAN)$/i){ $speed = int($row[$i_value]); $sensors->{'fan-psu'} = $speed if $speed < $max_fan; } elsif ($row[$i_key] =~ /^(FAN PSU1|PSU1 FAN)$/i){ $speed = int($row[$i_value]); $sensors->{'fan-psu-1'} = $speed if $speed < $max_fan; } elsif ($row[$i_key] =~ /^(FAN PSU2|PSU2 FAN)$/i){ $speed = int($row[$i_value]); $sensors->{'fan-psu-2'} = $speed if $speed < $max_fan; } if ($extra > 0){ if ($row[$i_key] =~ /^((.+\s|P[_]?)?\+?12V|PSU[12]_VOUT)$/i){ $sensors->{'volts-12'} = $row[$i_value]; } elsif ($row[$i_key] =~ /^(.+\s5V|P5V|5VCC|5V( PG)?|5V_SB)$/i){ $sensors->{'volts-5'} = $row[$i_value]; } elsif ($row[$i_key] =~ /^(.+\s3\.3V|P3V3|3\.3VCC|3\.3V( PG)?|3V3_SB)$/i){ $sensors->{'volts-3.3'} = $row[$i_value]; } elsif ($row[$i_key] =~ /^((P_)?VBAT|CMOS Battery|BATT 3.0V)$/i){ $sensors->{'volts-vbat'} = $row[$i_value]; } # NOTE: VDimmP1ABC VDimmP1DEF elsif (!$sensors->{'volts-dimm-p1'} && $row[$i_key] =~ /^(P1_VMEM|VDimmP1|MEM RSR A PG|DIMM_VR1_VOLT)/i){ $sensors->{'volts-dimm-p1'} = $row[$i_value]; } elsif (!$sensors->{'volts-dimm-p2'} && $row[$i_key] =~ /^(P2_VMEM|VDimmP2|MEM RSR B PG|DIMM_VR2_VOLT)/i){ $sensors->{'volts-dimm-p2'} = $row[$i_value]; } elsif (!$sensors->{'volts-soc-p1'} && $row[$i_key] =~ /^(P1_SOC_RUN$)/i){ $sensors->{'volts-soc-p1'} = $row[$i_value]; } elsif (!$sensors->{'volts-soc-p2'} && $row[$i_key] =~ /^(P2_SOC_RUN$)/i){ $sensors->{'volts-soc-p2'} = $row[$i_value]; } } } print Data::Dumper::Dumper $sensors if $dbg[31]; process_data($sensors) if %$sensors; main::log_data('dump','ipmi: %$sensors',$sensors) if $b_log; eval $end if $b_log; print Data::Dumper::Dumper $sensors if $dbg[31]; return $sensors; } sub linux_sensors_data { eval $start if $b_log; my $sensors = {}; my ($sys_fan_nu) = (0); my ($adapter,$fan_working,$temp_working,$working_unit) = ('','','','',''); foreach $adapter (keys %{$sensors_raw->{'main'}}){ next if !$adapter || ref $sensors_raw->{'main'}{$adapter} ne 'ARRAY'; # not sure why hwmon is excluded, forgot to add info in comments if ((@sensors_use && !(grep {/$adapter/} @sensors_use)) || (@sensors_exclude && (grep {/$adapter/} @sensors_exclude))){ next; } foreach (@{$sensors_raw->{'main'}{$adapter}}){ my @working = split(':', $_); next if !$working[0]; # print "$working[0]:$working[1]\n"; # There are some guesses here, but with more sensors samples it will get closer. # note: using arrays starting at 1 for all fan arrays to make it easier overall # we have to be sure we are working with the actual real string before assigning # data to real variables and arrays. Extracting C/F degree unit as well to use # when constructing temp items for array. # note that because of charset issues, no "°" degree sign used, but it is required # in testing regex to avoid error. It might be because I got that data from a forum post, # note directly via debugger. if ($_ =~ /^T?(AMBIENT|M\/B|MB|Motherboard|SIO|SYS).*:([0-9\.]+)[\s°]*(C|F)/i){ # avoid SYSTIN: 118 C if (main::is_numeric($2) && $2 < 90){ $sensors->{'mobo-temp'} = $2; $working_unit = $3; $sensors->{'temp-unit'} = set_temp_unit($sensors->{'temp-unit'},$working_unit) if $working_unit; } } # issue 58 msi/asus show wrong for CPUTIN so overwrite it if PECI 0 is present # http://www.spinics.net/lists/lm-sensors/msg37308.html # NOTE: had: ^CPU.*\+([0-9]+): but that misses: CPUTIN and anything not with + in starter # However, "CPUTIN is not a reliable measurement because it measures difference to Tjmax, # which is the maximum CPU temperature reported as critical temperature by coretemp" # NOTE: I've seen an inexplicable case where: CPU:52.0°C fails to match with [\s°] but # does match with: [\s°]*. I can't account for this, but that's why the * is there # Tdie is a new k10temp-pci syntax for real cpu die temp. Tctl is cpu control value, # NOT the real cpu die temp: UNLESS tctl and tdie are equal, sigh.. elsif ($_ =~ /^(Chip 0.*?|T?CPU.*|Tdie.*):([0-9\.]+)[\s°]*(C|F)/i){ $temp_working = $2; $working_unit = $3; if (!$sensors->{'cpu-temp'} || (defined $temp_working && $temp_working > 0 && $temp_working > $sensors->{'cpu-temp'})){ $sensors->{'cpu-temp'} = $temp_working; } $sensors->{'temp-unit'} = set_temp_unit($sensors->{'temp-unit'},$working_unit) if $working_unit; } elsif ($_ =~ /^(Tctl.*):([0-9\.]+)[\s°]*(C|F)/i){ $temp_working = $2; $working_unit = $3; if (!$sensors->{'tctl-temp'} || (defined $temp_working && $temp_working > 0 && $temp_working > $sensors->{'tctl-temp'})){ $sensors->{'tctl-temp'} = $temp_working; } $sensors->{'temp-unit'} = set_temp_unit($sensors->{'temp-unit'},$working_unit) if $working_unit; } elsif ($_ =~ /^PECI\sAgent\s0.*:([0-9\.]+)[\s°]*(C|F)/i){ $sensors->{'cpu-peci-temp'} = $1; $working_unit = $2; $sensors->{'temp-unit'} = set_temp_unit($sensors->{'temp-unit'},$working_unit) if $working_unit; } elsif ($_ =~ /^T?(P\/S|Power).*:([0-9\.]+)[\s°]*(C|F)/i){ $sensors->{'psu-temp'} = $2; $working_unit = $3; $sensors->{'temp-unit'} = set_temp_unit($sensors->{'temp-unit'},$working_unit) if $working_unit; } elsif ($_ =~ /^T?(dimm|mem|sodimm).*?:([0-9\.]+)[\s°]*(C|F)/i){ $sensors->{'sodimm-temp'} = $1; $working_unit = $2; $sensors->{'temp-unit'} = set_temp_unit($sensors->{'temp-unit'},$working_unit) if $working_unit; } # for temp1/2 only use temp1/2 if they are null or greater than the last ones elsif ($_ =~ /^temp1:([0-9\.]+)[\s°]*(C|F)/i){ $temp_working = $1; $working_unit = $2; if (!$sensors->{'temp1'} || (defined $temp_working && $temp_working > 0 && $temp_working > $sensors->{'temp1'})){ $sensors->{'temp1'} = $temp_working; } $sensors->{'temp-unit'} = set_temp_unit($sensors->{'temp-unit'},$working_unit) if $working_unit; } elsif ($_ =~ /^temp2:([0-9\.]+)[\s°]*(C|F)/i){ $temp_working = $1; $working_unit = $2; if (!$sensors->{'temp2'} || (defined $temp_working && $temp_working > 0 && $temp_working > $sensors->{'temp2'})){ $sensors->{'temp2'} = $temp_working; } $sensors->{'temp-unit'} = set_temp_unit($sensors->{'temp-unit'},$working_unit) if $working_unit; } # temp3 is only used as an absolute override for systems with all 3 present elsif ($_ =~ /^temp3:([0-9\.]+)[\s°]*(C|F)/i){ $temp_working = $1; $working_unit = $2; if (!$sensors->{'temp3'} || (defined $temp_working && $temp_working > 0 && $temp_working > $sensors->{'temp3'})){ $sensors->{'temp3'} = $temp_working; } $sensors->{'temp-unit'} = set_temp_unit($sensors->{'temp-unit'},$working_unit) if $working_unit; } # final fallback if all else fails, funtoo user showed sensors putting # temp on wrapped second line, not handled elsif ($_ =~ /^T?(core0|core 0|Physical id 0)(.*):([0-9\.]+)[\s°]*(C|F)/i){ $temp_working = $3; $working_unit = $4; if (!$sensors->{'core-0-temp'} || (defined $temp_working && $temp_working > 0 && $temp_working > $sensors->{'core-0-temp'})){ $sensors->{'core-0-temp'} = $temp_working; } $sensors->{'temp-unit'} = set_temp_unit($sensors->{'temp-unit'},$working_unit) if $working_unit; } # note: can be cpu fan:, cpu fan speed:, etc. elsif (!defined $sensors->{'fan-main'}->[1] && $_ =~ /^F?(CPU|Processor).*:([0-9]+)[\s]RPM/i){ $sensors->{'fan-main'}->[1] = $2 if $2 < $max_fan; } elsif (!defined $sensors->{'fan-main'}->[2] && $_ =~ /^F?(M\/B|MB|SYS|Motherboard).*:([0-9]+)[\s]RPM/i){ $sensors->{'fan-main'}->[2] = $2 if $2 < $max_fan; } elsif (!defined $sensors->{'fan-main'}->[3] && $_ =~ /F?(Power|P\/S|POWER).*:([0-9]+)[\s]RPM/i){ $sensors->{'fan-main'}->[3] = $2 if $2 < $max_fan; } elsif (!defined $sensors->{'fan-main'}->[4] && $_ =~ /F?(dimm|mem|sodimm).*:([0-9]+)[\s]RPM/i){ $sensors->{'fan-main'}->[4] = $2 if $2 < $max_fan; } # note that the counters are dynamically set for fan numbers here # otherwise you could overwrite eg aux fan2 with case fan2 in theory # note: cpu/mobo/ps/sodimm are 1/2/3/4 elsif ($_ =~ /^F?(AUX|CASE|CHASSIS|FRONT|REAR).*:([0-9]+)[\s]RPM/i){ next if $2 > $max_fan; $temp_working = $2; for (my $i = 5; $i < 30; $i++){ next if defined $sensors->{'fan-main'}->[$i]; if (!defined $sensors->{'fan-main'}->[$i]){ $sensors->{'fan-main'}->[$i] = $temp_working; last; } } } # in rare cases syntax is like: fan1: xxx RPM elsif ($_ =~ /^FAN(1)?:([0-9]+)[\s]RPM/i){ $sensors->{'fan-default'}->[1] = $2 if $2 < $max_fan; } elsif ($_ =~ /^FAN([2-9]|1[0-9]).*:([0-9]+)[\s]RPM/i){ next if $2 > $max_fan; $fan_working = $2; $sys_fan_nu = $1; if ($sys_fan_nu =~ /^([0-9]+)$/){ # add to array if array index does not exist OR if number is > existing number if (defined $sensors->{'fan-default'}->[$sys_fan_nu]){ if ($fan_working >= $sensors->{'fan-default'}->[$sys_fan_nu]){ $sensors->{'fan-default'}->[$sys_fan_nu] = $fan_working; } } else { $sensors->{'fan-default'}->[$sys_fan_nu] = $fan_working; } } } if ($extra > 0){ if ($_ =~ /^[+]?(12 Volt|12V|V\+?12).*:([0-9\.]+)\sV/i){ $sensors->{'volts-12'} = $2; } # note: 5VSB is a field name elsif ($_ =~ /^[+]?(5 Volt|5V|V\+?5):([0-9\.]+)\sV/i){ $sensors->{'volts-5'} = $2; } elsif ($_ =~ /^[+]?(3\.3 Volt|3\.3V|V\+?3\.3).*:([0-9\.]+)\sV/i){ $sensors->{'volts-3.3'} = $2; } elsif ($_ =~ /^(Vbat).*:([0-9\.]+)\sV/i){ $sensors->{'volts-vbat'} = $2; } elsif ($_ =~ /^v(dimm|mem|sodimm).*:([0-9\.]+)\sV/i){ $sensors->{'volts-mem'} = $2; } } } } foreach $adapter (keys %{$sensors_raw->{'pch'}}){ next if !$adapter || ref $sensors_raw->{'pch'}{$adapter} ne 'ARRAY'; if ((@sensors_use && !(grep {/$adapter/} @sensors_use)) || (@sensors_exclude && (grep {/$adapter/} @sensors_exclude))){ next; } $temp_working = ''; foreach (@{$sensors_raw->{'pch'}{$adapter}}){ if ($_ =~ /^[^:]+:([0-9\.]+)[\s°]*(C|F)/i){ $temp_working = $1; $working_unit = $2; if (!$sensors->{'pch-temp'} || (defined $temp_working && $temp_working > 0 && $temp_working > $sensors->{'pch-temp'})){ $sensors->{'pch-temp'} = $temp_working; } if (!$sensors->{'temp-unit'} && $working_unit){ $sensors->{'temp-unit'} = set_temp_unit($sensors->{'temp-unit'},$working_unit); } } } } print Data::Dumper::Dumper $sensors if $dbg[31]; process_data($sensors) if %$sensors; main::log_data('dump','lm-sensors: %sensors',$sensors) if $b_log; print Data::Dumper::Dumper $sensors if $dbg[31]; eval $end if $b_log; return $sensors; } sub load_lm_sensors { eval $start if $b_log; my (@sensors_data,@values); my ($adapter,$holder,$type) = ('','',''); if ($fake{'sensors'}){ # my $file; # $file = "$fake_data_dir/sensors/lm-sensors/amdgpu-w-fan-speed-stretch-k10.txt"; # $file = "$fake_data_dir/sensors/lm-sensors/peci-tin-geggo.txt"; # $file = "$fake_data_dir/sensors/lm-sensors/sensors-w-other-biker.txt"; # $file = "$fake_data_dir/sensors/lm-sensors/sensors-asus-chassis-1.txt"; # $file = "$fake_data_dir/sensors/lm-sensors/sensors-devnull-1.txt"; # $file = "$fake_data_dir/sensors/lm-sensors/sensors-jammin1.txt"; # $file = "$fake_data_dir/sensors/lm-sensors/sensors-mx-incorrect-1.txt"; # $file = "$fake_data_dir/sensors/lm-sensors/sensors-maximus-arch-1.txt"; # $file = "$fake_data_dir/sensors/lm-sensors/kernel-58-sensors-ant-1.txt"; # $file = "$fake_data_dir/sensors/lm-sensors/sensors-zenpower-nvme-2.txt"; # $file = "$fake_data_dir/sensors/lm-sensors/sensors-pch-intel-1.txt"; # $file = "$fake_data_dir/sensors/slm-sensors/ensors-ppc-sr71.txt"; # $file = "$fake_data_dir/sensors/lm-sensors/sensors-coretemp-acpitz-1.txt"; # $file = "$fake_data_dir/sensors/lm-sensors/sensors-applesmc-1.txt"; # @sensors_data = main::reader($file); } else { # only way to get sensor array data? Unless using sensors -j, but can't assume json @sensors_data = main::grabber($alerts{'sensors'}->{'path'} . ' 2>/dev/null'); } # print join("\n", @sensors_data), "\n"; if (@sensors_data){ @sensors_data = map {$_ =~ s/\s*:\s*\+?/:/;$_} @sensors_data; push(@sensors_data, 'END'); } # print Data::Dumper::Dumper \@sensors_data; foreach (@sensors_data){ # print 'st:', $_, "\n"; next if /^\s*$/; $_ = main::trimmer($_); if (@values && $adapter && (/^Adapter/ || $_ eq 'END')){ # note: drivetemp: known, but many others could exist if ($adapter =~ /^(drive|nvme)/){ $type = 'disk'; } elsif ($adapter =~ /^(BAT)/){ $type = 'bat'; } # intel on die io controller, like southbridge/northbridge used to be elsif ($adapter =~ /^(pch[_-])/){ $type = 'pch'; } elsif ($adapter =~ /^(.*hwmon)-/){ $type = 'hwmon'; } # ath/iwl: wifi; enp/eno/eth/i350bb: lan nic elsif ($adapter =~ /^(ath|i350bb|iwl|en[op][0-9]|eth)[\S]+-/){ $type = 'network'; } # put last just in case some other sensor type above had intel in name elsif ($adapter =~ /^(amdgpu|intel|nouveau|radeon)-/){ $type = 'gpu'; } elsif ($adapter =~ /^(acpitz)-/ && $adapter !~ /^(acpitz-virtual)-/ ){ $type = 'acpitz'; } else { $type = 'main'; } $sensors_raw->{$type}{$adapter} = [@values]; @values = (); $adapter = ''; } if (/^Adapter/){ $adapter = $holder; } elsif (/\S:\S/){ push(@values, $_); } else { $holder = $_; } } print 'lm sensors: ' , Data::Dumper::Dumper $sensors_raw if $dbg[18]; main::log_data('dump','lm-sensors data: %$sensors_raw',$sensors_raw) if $b_log; eval $end if $b_log; } sub load_sys_data { eval $start if $b_log; my ($device,$mon,$name,$label,$unit,$value,@values,%hwmons); my ($j,$holder,$sensor,$type) = (0,'','',''); my $glob = '/sys/class/hwmon/hwmon*/'; $glob .= '{name,device,{curr,fan,in,power,temp}*_{input,label}}'; my @hwmon = main::globber($glob); # print Data::Dumper::Dumper \@sensors_data; @hwmon = sort @hwmon; push(@hwmon,'END'); foreach my $item (@hwmon){ next if ! -e $item; $item =~ m|/sys/class/hwmon/(hwmon\d+)/|; $mon = $1; $mon =~ s/hwmon(\d)$/hwmon0$1/ if $mon =~ /hwmon\d$/; # if it's a new hwmon, dump all previous data to avoid carry-over if (!defined $hwmons{$mon}){ $sensor = ''; $holder = ''; $j = 0; } if ($item =~ m/([^\/]+)_input$/){ $sensor = $1; $value = main::reader($item,'strip',0);; } # add the label to the just created _input item, if valid elsif ($item =~ m/([^\/]+)_label$/){ print "3: mon: $mon id: $sensor holder: $holder file: $item\n" if $dbg[51]; # if this doesn't match, something unexpected happened, like no _input for # _label item. Seen that, real. next if !$holder || $1 ne $holder; if (defined $hwmons{$mon}->{'sensors'}[$j]{'id'}){ $sensor = $1; $hwmons{$mon}->{'sensors'}[$j]{'label'} = main::reader($item,'strip',0); } } if ($sensor && ($sensor ne $holder || $item eq 'END')){ print "2: mon: $mon id: $sensor holder: $holder file: $item\n" if $dbg[51]; # add the item, we'll add label after if it's located since it will be next # in loop due to sort order. if ($value){ push(@{$hwmons{$mon}->{'sensors'}},{ 'id' => $sensor, 'value' => $value, }); $j = $#{$hwmons{$mon}->{'sensors'}}; } $holder = $sensor; ($sensor,$value) = ('',undef,undef); } print "1: mon: $mon id: $sensor holder: $holder file: $item\n" if $dbg[51]; # print "$item\n"; if ($item =~ /name$/){ $name = main::reader($item,'strip',0); if ($name =~ /^(drive|nvme)/){ $type = 'disk'; } elsif ($name =~ /^(BAT)/i){ $type = 'bat'; } # intel on die io controller, like southbridge/northbridge used to be elsif ($name =~ /^(pch)/){ $type = 'pch'; } elsif ($name =~ /^(.*hwmon)/){ $type = 'hwmon'; } # ath/iwl: wifi; enp/eno/eth/i350bb: lan nic elsif ($name =~ /^(ath|i350|iwl|en[op][0-9]|eth)[\S]/){ $type = 'network'; } # put last just in case some other sensor type above had intel in name elsif ($name =~ /^(amdgpu|intel|nouveau|radeon)/){ $type = 'gpu'; } # not confirmed in /sys that name will be acpitz-virtual, verify elsif ($name =~ /^(acpitz)/ && $name !~ /^(acpitz-virtual)/ ){ $type = 'acpitz'; } else { $type = 'main'; } $hwmons{$mon}->{'name'} = $name; $hwmons{$mon}->{'type'} = $type; } elsif ($item =~ /device$/){ $device = readlink($item); print "device: $device\n" if $dbg[51]; $device =~ s|^.*/||; $hwmons{$mon}->{'device'} = $device; } } print '/sys/class/hwmon raw: ', Data::Dumper::Dumper \%hwmons if $dbg[18]; main::log_data('dump','/sys data raw: %hwmons',\%hwmons) if $b_log; # $sensors_raw->{$type}{$adapter} = [@values]; foreach my $hwmon (sort keys %hwmons){ my $adapter = $hwmons{$hwmon}->{'name'}; $hwmons{$hwmon}->{'device'} =~ s/^0000://; $adapter .= '-' . $hwmons{$hwmon}->{'device'}; ($unit,$value,@values) = (); foreach my $item (@{$hwmons{$hwmon}->{'sensors'}}){ next if !defined $item->{'id'}; my $name = ($item->{'label'}) ? $item->{'label'}: $item->{'id'}; if ($item->{'id'} =~ /^temp/){ $unit = 'C'; $value = sprintf('%0.1f',$item->{'value'}/1000); } elsif ($item->{'id'} =~ /^fan/){ $unit = 'rpm'; $value = $item->{'value'}; } # note: many sensors require further math on value, so these will be wrong # in many cases since this is not running the math on the results like # lm-sensors will do if sensors are detected and loaded and configured. elsif ($item->{'id'} =~ /^in\d/){ if ($item->{'value'} >= 1000){ $unit = 'V'; $value = sprintf('%0.2f',$item->{'value'}/1000) + 0; if ($hwmons{$hwmon}->{'type'} eq 'main' && $name =~ /^in\d/){ if ($value >= 10 && $value <= 14){ $name = '12V'; } elsif ($value >= 4 && $value <= 6){ $name = '5V'; } # vbat can be 3, 3.3, but so can 3.3V board } } else { $unit = 'mV'; $value = $item->{'value'}; } } elsif ($item->{'id'} =~ /^power/){ $unit = 'W'; $value = sprintf('%0.1f',$item->{'value'}/1000); } if (defined $value && defined $unit){ my $string = $name . ':' . $value . " $unit"; push(@values,$string); } } # if ($hwmons{$hwmon}->{'type'} eq 'acpitz' && $hwmons{$hwmon}->{'device'}){ # my $tz ='/sys/class/thermal/' . $hwmons{$hwmon}->{'device'} . '/type'; # if (-e $tz){ # my $tz_type = main::reader($tz,'strip',0),"\n"; # } # } if (@values){ $sensors_raw->{$hwmons{$hwmon}->{'type'}}{$adapter} = [@values]; } } print '/sys/class/hwmon processed: ' , Data::Dumper::Dumper $sensors_raw if $dbg[18]; main::log_data('dump','/sys data: %$sensors_raw',$sensors_raw) if $b_log; eval $end if $b_log; } # bsds sysctl may have hw.sensors data sub sysctl_data { eval $start if $b_log; my (@data); my $sensors = {}; # assume always starts at 0, can't do dynamic because freebsd shows tz1 first my $add = 1; print Data::Dumper::Dumper $sysctl{'sensor'} if $dbg[18];; foreach (@{$sysctl{'sensor'}}){ my ($sensor,$type,$number,$value); if (/^hw\.sensors\.([a-z]+)([0-9]+)\.(cpu|temp|fan|volt)([0-9])/){ $sensor = $1; $type = $3; $number = $4; # hw.sensors.cpu0.temp0:47.00 degC # hw.sensors.acpitz0.temp0:43.00 degC $type = 'cpu' if $sensor eq 'cpu'; } elsif (/^hw\.sensors\.(acpi)\.(thermal)\.(tz)([0-9]+)\.(temperature)/){ $sensor = $1 . $3; # eg acpitz $type = ($5 eq 'temperature') ? 'temp': $5; $number = $4; } elsif (/^dev\.(cpu)\.([0-9]+)\.(temperature)/){ $sensor = $1; $type = $3; $number = $2; $type = 'cpu' if $sensor eq 'cpu'; } if ($sensor && $type){ if ($sensor && ((@sensors_use && !(grep {/$sensor/} @sensors_use)) || (@sensors_exclude && (grep {/$sensor/} @sensors_exclude)))){ next; } my $working = (split(':\s*', $_))[1]; if (defined $working && $working =~ /^([0-9\.]+)\s?((deg)?([CF]))?\b/){ $value = $1 ; $sensors->{'temp-unit'} = $4 if $4 && !$sensors->{'temp-unit'}; } else { next; } $number += $add; if ($type eq 'cpu' && !defined $sensors->{'cpu-temp'}){ $sensors->{'cpu-temp'} = $value; } elsif ($type eq 'temp' && !defined $sensors->{'temp' . $number}){ $sensors->{'temp' . $number} = $value; } elsif ($type eq 'fan' && !defined $sensors->{'fan-main'}->[$number]){ $sensors->{'fan-main'}->[$number] = $value if $value < $max_fan; } elsif ($type eq 'volt'){ if ($working =~ /\+3\.3V/i){ $sensors->{'volts-3.3'} = $value; } elsif ($working =~ /\+5V/i){ $sensors->{'volts-5'} = $value; } elsif ($working =~ /\+12V/i){ $sensors->{'volts-12'} = $value; } elsif ($working =~ /VBAT/i){ $sensors->{'volts-vbat'} = $value; } } } } process_data($sensors) if %$sensors; main::log_data('dump','%$sensors',$sensors) if $b_log; print Data::Dumper::Dumper $sensors if $dbg[31];; eval $end if $b_log; return $sensors; } sub set_temp_unit { my ($sensors,$working) = @_; my $return_unit = ''; if (!$sensors && $working){ $return_unit = $working; } elsif ($sensors){ $return_unit = $sensors; } return $return_unit; } sub process_data { eval $start if $b_log; my ($sensors) = @_; my ($cpu_temp,$cpu2_temp,$cpu3_temp,$cpu4_temp,$mobo_temp,$pch_temp,$psu_temp); my ($fan_type,$i,$j,$index_count_fan_default,$index_count_fan_main) = (0,0,0,0,0); my $temp_diff = 20; # for C, handled for F after that is determined my (@fan_main,@fan_default); # kernel/sensors only show Tctl if Tctl == Tdie temp, sigh... if (!$sensors->{'cpu-temp'} && $sensors->{'tctl-temp'}){ $sensors->{'cpu-temp'} = $sensors->{'tctl-temp'}; undef $sensors->{'tctl-temp'}; } # first we need to handle the case where we have to determine which temp/fan to use for cpu and mobo: # note, for rare cases of weird cool cpus, user can override in their prefs and force the assignment # this is wrong for systems with > 2 tempX readings, but the logic is too complex with 3 variables # so have to accept that it will be wrong in some cases, particularly for motherboard temp readings. if ($sensors->{'temp1'} && $sensors->{'temp2'}){ if ($sensors_cpu_nu){ $fan_type = $sensors_cpu_nu; } else { # first some fringe cases with cooler cpu than mobo: assume which is cpu temp based on fan speed # but only if other fan speed is 0. if ($sensors->{'temp1'} >= $sensors->{'temp2'} && defined $fan_default[1] && defined $fan_default[2] && $fan_default[1] == 0 && $fan_default[2] > 0){ $fan_type = 2; } elsif ($sensors->{'temp2'} >= $sensors->{'temp1'} && defined $fan_default[1] && defined $fan_default[2] && $fan_default[2] == 0 && $fan_default[1] > 0){ $fan_type = 1; } # then handle the standard case if these fringe cases are false elsif ($sensors->{'temp1'} >= $sensors->{'temp2'}){ $fan_type = 1; } else { $fan_type = 2; } } } # need a case for no temps at all reported, like with old intels elsif (!$sensors->{'temp2'} && !$sensors->{'cpu-temp'}){ if (!$sensors->{'temp1'} && !$sensors->{'mobo-temp'}){ $fan_type = 1; } elsif ($sensors->{'temp1'} && !$sensors->{'mobo-temp'}){ $fan_type = 1; } elsif ($sensors->{'temp1'} && $sensors->{'mobo-temp'}){ $fan_type = 1; } } # convert the diff number for F, it needs to be bigger that is if ($sensors->{'temp-unit'} && $sensors->{'temp-unit'} eq "F"){ $temp_diff = $temp_diff * 1.8 } if ($sensors->{'cpu-temp'}){ # specific hack to handle broken CPUTIN temps with PECI if ($sensors->{'cpu-peci-temp'} && ($sensors->{'cpu-temp'} - $sensors->{'cpu-peci-temp'}) > $temp_diff){ $cpu_temp = $sensors->{'cpu-peci-temp'}; } # then get the real cpu temp, best guess is hottest is real, though only within narrowed diff range else { $cpu_temp = $sensors->{'cpu-temp'}; } } else { if ($fan_type){ # there are some weird scenarios if ($fan_type == 1){ if ($sensors->{'temp1'} && $sensors->{'temp2'} && $sensors->{'temp2'} > $sensors->{'temp1'}){ $cpu_temp = $sensors->{'temp2'}; } else { $cpu_temp = $sensors->{'temp1'}; } } else { if ($sensors->{'temp1'} && $sensors->{'temp2'} && $sensors->{'temp1'} > $sensors->{'temp2'}){ $cpu_temp = $sensors->{'temp1'}; } else { $cpu_temp = $sensors->{'temp2'}; } } } else { $cpu_temp = $sensors->{'temp1'}; # can be null, that is ok } if ($cpu_temp){ # using $sensors->{'temp3'} is just not reliable enough, more errors caused than fixed imo # if ($sensors->{'temp3'} && $sensors->{'temp3'} > $cpu_temp){ # $cpu_temp = $sensors->{'temp3'}; # } # there are some absurdly wrong $sensors->{'temp1'}: acpitz-virtual-0 $sensors->{'temp1'}: +13.8°C if ($sensors->{'core-0-temp'} && ($sensors->{'core-0-temp'} - $cpu_temp) > $temp_diff){ $cpu_temp = $sensors->{'core-0-temp'}; } } } # if all else fails, use core0/peci temp if present and cpu is null if (!$cpu_temp){ if ($sensors->{'core-0-temp'}){ $cpu_temp = $sensors->{'core-0-temp'}; } # note that peci temp is known to be colder than the actual system # sometimes so it is the last fallback we want to use even though in theory # it is more accurate, but fact suggests theory wrong. elsif ($sensors->{'cpu-peci-temp'}){ $cpu_temp = $sensors->{'cpu-peci-temp'}; } } # then the real mobo temp if ($sensors->{'mobo-temp'}){ $mobo_temp = $sensors->{'mobo-temp'}; } elsif ($fan_type){ if ($fan_type == 1){ if ($sensors->{'temp1'} && $sensors->{'temp2'} && $sensors->{'temp2'} > $sensors->{'temp1'}){ $mobo_temp = $sensors->{'temp1'}; } else { $mobo_temp = $sensors->{'temp2'}; } } else { if ($sensors->{'temp1'} && $sensors->{'temp2'} && $sensors->{'temp1'} > $sensors->{'temp2'}){ $mobo_temp = $sensors->{'temp2'}; } else { $mobo_temp = $sensors->{'temp1'}; } } ## NOTE: not safe to assume $sensors->{'temp3'} is the mobo temp, sad to say # if ($sensors->{'temp1'} && $sensors->{'temp2'} && $sensors->{'temp3'} && $sensors->{'temp3'} < $mobo_temp){ # $mobo_temp = $sensors->{'temp3'}; # } } # in case with cpu-temp AND temp1 and not temp 2, or temp 2 only, fan type: 0 else { if ($sensors->{'cpu-temp'} && $sensors->{'temp1'} && $sensors->{'cpu-temp'} > $sensors->{'temp1'}){ $mobo_temp = $sensors->{'temp1'}; } elsif ($sensors->{'temp2'}){ $mobo_temp = $sensors->{'temp2'}; } } @fan_main = @{$sensors->{'fan-main'}} if $sensors->{'fan-main'}; $index_count_fan_main = (@fan_main) ? scalar @fan_main : 0; @fan_default = @{$sensors->{'fan-default'}} if $sensors->{'fan-default'}; $index_count_fan_default = (@fan_default) ? scalar @fan_default : 0; # then set the cpu fan speed if (!$fan_main[1]){ # note, you cannot test for $fan_default[1] or [2] != "" # because that creates an array item in gawk just by the test itself if ($fan_type == 1 && defined $fan_default[1]){ $fan_main[1] = $fan_default[1]; $fan_default[1] = undef; } elsif ($fan_type == 2 && defined $fan_default[2]){ $fan_main[1] = $fan_default[2]; $fan_default[2] = undef; } } # clear out any duplicates. Primary fan real trumps fan working always if same speed for ($i = 1; $i <= $index_count_fan_main; $i++){ if (defined $fan_main[$i] && $fan_main[$i]){ for ($j = 1; $j <= $index_count_fan_default; $j++){ if (defined $fan_default[$j] && $fan_main[$i] == $fan_default[$j]){ $fan_default[$j] = undef; } } } } # now see if you can find the fast little mobo fan, > 5000 rpm and put it as mobo # note that gawk is returning true for some test cases when $fan_default[j] < 5000 # which has to be a gawk bug, unless there is something really weird with arrays # note: 500 > $fan_default[j] < 1000 is the exact trigger, and if you manually # assign that value below, the > 5000 test works again, and a print of the value # shows the proper value, so the corruption might be internal in awk. # Note: gensub is the culprit I think, assigning type string for range 501-1000 but # type integer for all others, this triggers true for > for ($j = 1; $j <= $index_count_fan_default; $j++){ if (defined $fan_default[$j] && $fan_default[$j] > 5000 && !$fan_main[2]){ $fan_main[2] = $fan_default[$j]; $fan_default[$j] = undef; # then add one if required for output if ($index_count_fan_main < 2){ $index_count_fan_main = 2; } } } # if they are ALL null, print error message. psFan is not used in output currently if (!$cpu_temp && !$mobo_temp && !$fan_main[1] && !$fan_main[2] && !$fan_main[1] && !@fan_default){ %$sensors = (); } else { my ($ambient_temp,$psu_fan,$psu1_fan,$psu2_fan,$psu_temp,$sodimm_temp, $v_12,$v_5,$v_3_3,$v_dimm_p1,$v_dimm_p2,$v_soc_p1,$v_soc_p2,$v_vbat); $psu_temp = $sensors->{'psu-temp'} if $sensors->{'psu-temp'}; # sodimm fan is fan_main[4] $sodimm_temp = $sensors->{'sodimm-temp'} if $sensors->{'sodimm-temp'}; $cpu2_temp = $sensors->{'cpu2-temp'} if $sensors->{'cpu2-temp'}; $cpu3_temp = $sensors->{'cpu3-temp'} if $sensors->{'cpu3-temp'}; $cpu4_temp = $sensors->{'cpu4-temp'} if $sensors->{'cpu4-temp'}; $ambient_temp = $sensors->{'ambient-temp'} if $sensors->{'ambient-temp'}; $pch_temp = $sensors->{'pch-temp'} if $sensors->{'pch-temp'}; $psu_fan = $sensors->{'fan-psu'} if $sensors->{'fan-psu'}; $psu1_fan = $sensors->{'fan-psu-1'} if $sensors->{'fan-psu-1'}; $psu2_fan = $sensors->{'fan-psu-2'} if $sensors->{'fan-psu-2'}; # so far only for ipmi, sensors data is junk for volts if ($extra > 0 && ($sensors->{'volts-12'} || $sensors->{'volts-5'} || $sensors->{'volts-3.3'} || $sensors->{'volts-vbat'})){ $v_12 = $sensors->{'volts-12'} if $sensors->{'volts-12'}; $v_5 = $sensors->{'volts-5'} if $sensors->{'volts-5'}; $v_3_3 = $sensors->{'volts-3.3'} if $sensors->{'volts-3.3'}; $v_vbat = $sensors->{'volts-vbat'} if $sensors->{'volts-vbat'}; $v_dimm_p1 = $sensors->{'volts-dimm-p1'} if $sensors->{'volts-dimm-p1'}; $v_dimm_p2 = $sensors->{'volts-dimm-p2'} if $sensors->{'volts-dimm-p2'}; $v_soc_p1 = $sensors->{'volts-soc-p1'} if $sensors->{'volts-soc-p1'}; $v_soc_p2 = $sensors->{'volts-soc-p2'} if $sensors->{'volts-soc-p2'}; } %$sensors = ( 'ambient-temp' => $ambient_temp, 'cpu-temp' => $cpu_temp, 'cpu2-temp' => $cpu2_temp, 'cpu3-temp' => $cpu3_temp, 'cpu4-temp' => $cpu4_temp, 'mobo-temp' => $mobo_temp, 'pch-temp' => $pch_temp, 'psu-temp' => $psu_temp, 'temp-unit' => $sensors->{'temp-unit'}, 'fan-main' => \@fan_main, 'fan-default' => \@fan_default, 'fan-psu' => $psu_fan, 'fan-psu1' => $psu1_fan, 'fan-psu2' => $psu2_fan, ); if ($psu_temp){ $sensors->{'psu-temp'} = $psu_temp; } if ($sodimm_temp){ $sensors->{'sodimm-temp'} = $sodimm_temp; } if ($extra > 0 && ($v_12 || $v_5 || $v_3_3 || $v_vbat)){ $sensors->{'volts-12'} = $v_12; $sensors->{'volts-5'} = $v_5; $sensors->{'volts-3.3'} = $v_3_3; $sensors->{'volts-vbat'} = $v_vbat; $sensors->{'volts-dimm-p1'} = $v_dimm_p1; $sensors->{'volts-dimm-p2'} = $v_dimm_p2; $sensors->{'volts-soc-p1'} = $v_soc_p1; $sensors->{'volts-soc-p2'} = $v_soc_p2; } } eval $end if $b_log; } sub gpu_sensor_data { eval $start if $b_log; my ($cmd,@data,@data2,$path,@screens,$temp); my $j = 0; $loaded{'gpu-data'} = 1; if ($path = main::check_program('nvidia-settings')){ # first get the number of screens. This only work if you are in X if ($b_display){ @data = main::grabber("$path -q screens 2>/dev/null"); foreach (@data){ if (/(:[0-9]\.[0-9])/){ push(@screens, $1); } } } # do a guess, this will work for most users, it's better than nothing for out of X else { $screens[0] = ':0.0'; } # now we'll get the gpu temp for each screen discovered. The print out function # will handle removing screen data for single gpu systems. -t shows only data we want # GPUCurrentClockFreqs: 520,600 # GPUCurrentFanSpeed: 50 0-100, not rpm, percent I think # VideoRam: 1048576 # CUDACores: 16 # PCIECurrentLinkWidth: 16 # PCIECurrentLinkSpeed: 5000 # RefreshRate: 60.02 Hz [oer screen] # ViewPortOut=1280x1024+0+0}, DPY-1: nvidia-auto-select @1280x1024 +1280+0 {ViewPortIn=1280x1024, # ViewPortOut=1280x1024+0+0} # ThermalSensorReading: 50 # PCIID: 4318,2661 - the pci stuff doesn't appear to work # PCIBus: 2 # PCIDevice: 0 # Irq: 30 foreach my $screen (@screens){ my $screen2 = $screen; $screen2 =~ s/\.[0-9]$//; $cmd = '-q GPUCoreTemp -q VideoRam -q GPUCurrentClockFreqs -q PCIECurrentLinkWidth '; $cmd .= '-q Irq -q PCIBus -q PCIDevice -q GPUCurrentFanSpeed'; $cmd = "$path -c $screen2 $cmd 2>/dev/null"; @data = main::grabber($cmd); main::log_data('cmd',$cmd) if $b_log; push(@data,@data2); $j = scalar @$gpu_data; foreach my $item (@data){ if ($item =~ /^\s*Attribute\s\'([^']+)\'\s.*:\s*([\S]+)\.$/){ my $attribute = $1; my $value = $2; $gpu_data->[$j]{'type'} = 'nvidia'; $gpu_data->[$j]{'speed-unit'} = '%'; $gpu_data->[$j]{'screen'} = $screen; if (!$gpu_data->[$j]{'temp'} && $attribute eq 'GPUCoreTemp'){ $gpu_data->[$j]{'temp'} = $value; } elsif (!$gpu_data->[$j]{'ram'} && $attribute eq 'VideoRam'){ $gpu_data->[$j]{'ram'} = $value; } elsif (!$gpu_data->[$j]{'clock'} && $attribute eq 'GPUCurrentClockFreqs'){ $gpu_data->[$j]{'clock'} = $value; } elsif (!$gpu_data->[$j]{'bus'} && $attribute eq 'PCIBus'){ $gpu_data->[$j]{'bus'} = $value; } elsif (!$gpu_data->[$j]{'bus-id'} && $attribute eq 'PCIDevice'){ $gpu_data->[$j]{'bus-id'} = $value; } elsif (!$gpu_data->[$j]{'fan-speed'} && $attribute eq 'GPUCurrentFanSpeed'){ $gpu_data->[$j]{'fan-speed'} = $value; } } } } } if ($path = main::check_program('aticonfig')){ # aticonfig --adapter=0 --od-gettemperature @data = main::grabber("$path --adapter=all --od-gettemperature 2>/dev/null"); foreach (@data){ if (/Sensor [^0-9]*([0-9\.]+) /){ $j = scalar @$gpu_data; my $value = $1; $gpu_data->[$j]{'type'} = 'amd'; $gpu_data->[$j]{'temp'} = $value; } } } if ($sensors_raw->{'gpu'}){ # my ($b_found,$holder) = (0,''); foreach my $adapter (keys %{$sensors_raw->{'gpu'}}){ $j = scalar @$gpu_data; $gpu_data->[$j]{'type'} = $adapter; $gpu_data->[$j]{'type'} =~ s/^(amdgpu|intel|nouveau|radeon)-.*/$1/; # print "ad: $adapter\n"; foreach (@{$sensors_raw->{'gpu'}{$adapter}}){ # print "val: $_\n"; if (/^[^:]*mem[^:]*:([0-9\.]+).*\b(C|F)\b/i){ $gpu_data->[$j]{'temp-mem'} = $1; $gpu_data->[$j]{'unit'} = $2; # print "temp: $_\n"; } elsif (/^[^:]+:([0-9\.]+).*\b(C|F)\b/i){ $gpu_data->[$j]{'temp'} = $1; $gpu_data->[$j]{'unit'} = $2; # print "temp: $_\n"; } # speeds can be in percents or rpms, so need the 'fan' in regex elsif (/^.*?fan.*?:([0-9\.]+).*(RPM)?/i){ $gpu_data->[$j]{'fan-speed'} = $1; # NOTE: we test for nvidia %, everything else stays with nothing $gpu_data->[$j]{'speed-unit'} = ''; } elsif (/^[^:]+:([0-9\.]+)\s+W\s/i){ $gpu_data->[$j]{'watts'} = $1; } elsif (/^[^:]+:([0-9\.]+)\s+(m?V)\s/i){ $gpu_data->[$j]{'volts-gpu'} = [$1,$2]; } } } } main::log_data('dump','sensors output: video: @$gpu_data',$gpu_data) if $b_log; print 'gpu_data: ', Data::Dumper::Dumper $gpu_data if $dbg[18]; eval $end if $b_log; } } ## SlotItem { package SlotItem; my ($sys_slots); sub get { eval $start if $b_log; my ($data,$key1,$val1); my $rows = []; my $num = 0; if ($fake{'dmidecode'} || ($alerts{'dmidecode'}->{'action'} eq 'use' && (!%risc || $use{'slot-tool'}))){ if ($b_admin && -e '/sys/devices/pci0000:00'){ slot_data_sys(); } $data = slot_data_dmi(); slot_output($rows,$data) if @$data; if (!@$rows){ my $key = 'Message'; push(@$rows, { main::key($num++,0,1,$key) => main::message('pci-slot-data','') }); } } elsif (%risc && !$use{'slot-tool'}){ $key1 = 'Message'; $val1 = main::message('risc-pci',$risc{'id'}); @$rows = ({main::key($num++,0,1,$key1) => $val1}); } elsif ($alerts{'dmidecode'}->{'action'} ne 'use'){ $key1 = $alerts{'dmidecode'}->{'action'}; $val1 = $alerts{'dmidecode'}->{'message'}; $key1 = ucfirst($key1); @$rows = ({main::key($num++,0,1,$key1) => $val1}); } eval $end if $b_log; return $rows; } sub slot_output { eval $start if $b_log; my ($rows,$data) = @_; my $num = 1; foreach my $slot_data (@$data){ next if !$slot_data || ref $slot_data ne 'HASH'; $num = 1; my $j = scalar @$rows; $slot_data->{'id'} = 'N/A' if !defined $slot_data->{'id'}; # can be 0 $slot_data->{'pci'} ||= 'N/A'; push(@$rows, { main::key($num++,1,1,'Slot') => $slot_data->{'id'}, main::key($num++,0,2,'type') => $slot_data->{'pci'}, },); # PCIe only if ($extra > 1 && $slot_data->{'gen'}){ $rows->[$j]{main::key($num++,0,2,'gen')} = $slot_data->{'gen'}; } if ($slot_data->{'lanes-phys'} && $slot_data->{'lanes-active'} && $slot_data->{'lanes-phys'} ne $slot_data->{'lanes-active'}){ $rows->[$j]{main::key($num++,1,2,'lanes')} = ''; $rows->[$j]{main::key($num++,0,3,'phys')} = $slot_data->{'lanes-phys'}; $rows->[$j]{main::key($num++,0,3,'active')} = $slot_data->{'lanes-active'}; } elsif ($slot_data->{'lanes-phys'}){ $rows->[$j]{main::key($num++,0,2,'lanes')} = $slot_data->{'lanes-phys'}; } # Non PCIe only if ($extra > 1 && $slot_data->{'bits'}){ $rows->[$j]{main::key($num++,0,2,'bits')} = $slot_data->{'bits'}; } # PCI-X and PCI only if ($extra > 1 && $slot_data->{'mhz'}){ $rows->[$j]{main::key($num++,0,2,'MHz')} = $slot_data->{'mhz'}; } $rows->[$j]{main::key($num++,0,2,'status')} = $slot_data->{'usage'}; if ($slot_data->{'extra'}){ $rows->[$j]{main::key($num++,0,2,'info')} = join(', ', @{$slot_data->{'extra'}}); } if ($extra > 1){ $slot_data->{'length'} ||= 'N/A'; $rows->[$j]{main::key($num++,0,2,'length')} = $slot_data->{'length'}; if ($slot_data->{'cpu'}){ $rows->[$j]{main::key($num++,0,2,'cpu')} = $slot_data->{'cpu'}; } if ($slot_data->{'volts'}){ $rows->[$j]{main::key($num++,0,2,'volts')} = $slot_data->{'volts'}; } } if ($extra > 0){ $slot_data->{'bus_address'} ||= 'N/A'; $rows->[$j]{main::key($num++,1,2,'bus-ID')} = $slot_data->{'bus_address'}; if ($b_admin && $slot_data->{'children'}){ children_output($rows,$j,\$num,$slot_data->{'children'},3); } } } eval $end if $b_log; } sub children_output { my ($rows,$j,$num,$children,$ind) = @_; my $cnt = 0; $rows->[$j]{main::key($$num++,1,$ind,'children')} = ''; $ind++; foreach my $id (sort keys %{$children}){ $cnt++; $rows->[$j]{main::key($$num++,1,$ind,$cnt)} = $id; if ($children->{$id}{'class-id'} && $children->{$id}{'class-id-sub'}){ my $class = $children->{$id}{'class-id'} . $children->{$id}{'class-id-sub'}; $rows->[$j]{main::key($$num++,0,($ind + 1),'class-ID')} = $class; if ($children->{$id}{'class'}){ $rows->[$j]{main::key($$num++,0,($ind + 1),'type')} = $children->{$id}{'class'}; } } if ($children->{$id}{'children'}){ children_output($rows,$j,$num,$children->{$id}{'children'},$ind + 1); } } } sub slot_data_dmi { eval $start if $b_log; my $i = 0; my $slots = []; foreach my $slot_data (@dmi){ next if $slot_data->[0] != 9; my (%data,@extra); # skip first two row, we don't need that data foreach my $item (@$slot_data[2 .. $#$slot_data]){ if ($item !~ /^~/){ # skip the indented rows my @value = split(/:\s+/, $item, 2); if ($value[0] eq 'Type'){ $data{'type'} = $value[1]; } if ($value[0] eq 'Designation'){ $data{'designation'} = $value[1]; } if ($value[0] eq 'Current Usage'){ $data{'usage'} = lc($value[1]); } if ($value[0] eq 'ID'){ $data{'id'} = $value[1]; } if ($value[0] eq 'Length'){ $data{'length'} = lc($value[1]); } if ($value[0] eq 'Bus Address'){ $value[1] =~ s/^0000://; $data{'bus_address'} = $value[1]; if ($b_admin && $sys_slots){ $data{'children'} = slot_children($data{'bus_address'},$sys_slots); } } } elsif ($item =~ /^~([\d.]+)[\s-]?V is provided/){ $data{'volts'} = $1; } } if ($data{'type'} eq 'Other' && $data{'designation'}){ $data{'type'} = $data{'designation'}; undef $data{'designation'}; } foreach my $string (($data{'type'},$data{'designation'})){ next if !$string; print "st: $string\n" if $dbg[48]; $string =~ s/(PCI[\s_-]?Express|Pci[_-]?e)/PCIe /ig; $string =~ s/PCI[\s_-]?X/PCIX /ig; $string =~ s/Mini[\s_-]?PCI/MiniPCI /ig; $string =~ s/Media[\s_-]?Card/MediaCard/ig; $string =~ s/Express[\s_-]?Card/ExpressCard/ig; $string =~ s/Card[\s_-]?Bus/CardBus/ig; $string =~ s/PCMCIA/PCMCIA /ig; if (!$data{'pci'} && $string =~ /(AGP|ISA|MiniPCI|PCIe|PCIX|PCMCIA|PCI)/){ $data{'pci'} = $1; # print "pci: $data{'pci'}\n"; } if ($string =~ /(MiniPCI|PCMCIA)/){ $data{'pci'} = $1; # print "pci: $data{'pci'}\n"; } # legacy format: PCIE#3-x8 if (!$data{'lanes-phys'} && $string =~ /(^x|#\d+-x)(\d+)/){ $data{'lanes-phys'} = $2; } if (!$data{'lanes-active'} && $string =~ /^x\d+ .*? x(\d+)/){ $data{'lanes-active'} = $1; } # legacy format, seens with PCI-X/PCIe mobos: PCIX#2-100MHz, PCIE#3-x8 if (!defined $data{'id'} && $string =~ /(#|PCI)(\d+)\b/){ $data{'id'} = $2; } if (!defined $data{'id'} && $string =~ /SLOT[\s-]?(\d+)\b/i){ $data{'id'} = $1; } if ($string =~ s/\bJ-?(\S+)\b//){ push(@extra,'J' . $1) if ! grep {$_ eq 'J' . $1} @extra; } if ($string =~ s/\bM\.?2\b//){ push(@extra,'M.2') if ! grep {$_ eq 'M.2'} @extra; } if ($string =~ /(ExpressCard|MediaCard|CardBus)/){ push(@extra,$1) if ! grep {$_ eq $1} @extra; } if (!$data{'cpu'} && $string =~ s/CPU-?(\d+)\b//){ $data{'cpu'} = $1; } if (!$data{'gen'} && $data{'pci'} && $data{'pci'} eq 'PCIe' && $string =~ /PCIe[\s_-]*([\d.]+)/){ $data{'gen'} = $1 + 0; } if (!$data{'mhz'} && $data{'pci'} && $string =~ /(\d+)[\s_-]?MHz/){ $data{'mhz'} = $1; } if (!$data{'bits'} && $data{'pci'} && $string =~ /\b(\d+)[\s_-]?bit/){ $data{'bits'} = $1; } $i++; } if (!$data{'pci'} && $data{'type'} && $data{'type'} =~ /(ExpressCard|MediaCard|CardBus)/){ $data{'pci'} = $1; @extra = grep {$_ ne $data{'pci'}} @extra; } $data{'extra'} = [@extra] if @extra; push(@$slots,{%data}) if %data; } print '@$slots: ', Data::Dumper::Dumper $slots if $dbg[48]; main::log_data('dump','@$slots final',$slots) if $b_log; eval $end if $b_log; return $slots; } sub slot_data_sys { eval $start if $b_log; my $path = '/sys/devices/pci0000:*/00*'; my @data = main::globber($path); my ($full,$id); foreach $full (@data){ $id = $full; $id =~ s/^.*\/\S+:([0-9a-f]{2}:[0-9a-f]{2}\.[0-9a-f]+)$/$1/; $sys_slots->{$id} = slot_data_recursive($full); } print 'sys_slots: ', Data::Dumper::Dumper $sys_slots if $dbg[49]; main::log_data('dump','$sys_slots',$sys_slots) if $b_log; eval $end if $b_log; } sub slot_data_recursive { eval $start if $b_log; my $path = shift @_; my $info = {}; my $id = $path; $id =~ s/^.*\/\S+:(\S{2}:\S{2}\.\S+)$/$1/; my ($content,$id2,@files); # @files = main::globber("$full/{class,current_link_speed,current_link_width,max_link_speed,max_link_width,00*}"); if (-e "$path/class" && ($content = main::reader("$path/class",'strip',0))){ if ($content =~ /^0x(\S{2})(\S{2})/){ $info->{'class-id'} = $1; $info->{'class-id-sub'} = $2; $info->{'class'} = DeviceData::pci_class($1); if ($info->{'class-id'} eq '06'){ my @files = main::globber("$path/00*:[0-9a-f][0-9a-f]:[0-9a-f][0-9a-f].[0-9a-f]"); foreach my $item (@files){ $id = $item; $id =~ s/^.*\/[0-9a-f]+:([0-9a-f]{2}:[0-9a-f]{2}\.[0-9a-f]+)$/$1/; $info->{'children'}{$id} = slot_data_recursive($item); } } } } if (-e "$path/current_link_speed" && ($content = main::reader("$path/current_link_speed",'strip',0))){ $content =~ s/\sPCIe//i; $info->{'current-link-speed'} = main::clean_dmi($content); } if (-e "$path/current_link_width" && ($content = main::reader("$path/current_link_width",'strip',0))){ $info->{'current-link-width'} = $content; } eval $end if $b_log; return $info; } sub slot_children { eval $start if $b_log; my ($bus_id,$slots) = @_; my $children = slot_children_recursive($bus_id,$slots); # $children->{'0a:00.0'}{'children'} = {'3423' => { # 'class' => 'test','class-id' => '05','class-id-sub' => '10'}}; print $bus_id, ' children: ', Data::Dumper::Dumper $children if $dbg[49]; main::log_data('dump','$children',$children) if $b_log; eval $end if $b_log; return $children; } sub slot_children_recursive { my ($bus_id,$slots) = @_; my $children; foreach my $key (keys %{$slots}){ if ($slots->{$bus_id}){ $children = $slots->{$bus_id}{'children'} if $slots->{$bus_id}{'children'}; last; } elsif ($slots->{$key}{'children'}){ slot_children_recursive($bus_id,$slots->{$key}{'children'}); } } return $children; } } ## SwapItem { package SwapItem; sub get { eval $start if $b_log; my $rows = []; my $num = 0; create_output($rows); if (!@$rows){ @$rows = ({main::key($num++,0,1,'Alert') => main::message('swap-data')}); } eval $end if $b_log; return $rows; } sub create_output { eval $start if $b_log; my $rows = $_[0]; my $num = 0; my $j = 0; my (@rows,$dev,$percent,$raw_size,$size,$used); PartitionData::set() if !$bsd_type && !$loaded{'partition-data'}; DiskDataBSD::set() if $bsd_type && !$loaded{'disk-data-bsd'}; main::set_mapper() if !$loaded{'mapper'}; PartitionItem::swap_data() if !$loaded{'set-swap'}; foreach my $row (@swaps){ $num = 1; $size = ($row->{'size'}) ? main::get_size($row->{'size'},'string') : 'N/A'; $used = main::get_size($row->{'used'},'string','N/A'); # used can be 0 $percent = (defined $row->{'percent-used'}) ? ' (' . $row->{'percent-used'} . '%)' : ''; $dev = ($row->{'swap-type'} eq 'file') ? 'file' : 'dev'; $row->{'swap-type'} = ($row->{'swap-type'}) ? $row->{'swap-type'} : 'N/A'; if ($b_admin && !$bsd_type && $j == 0){ $j = scalar @rows; if (defined $row->{'swappiness'} || defined $row->{'cache-pressure'}){ $rows->[$j]{main::key($num++,1,1,'Kernel')} = ''; if (defined $row->{'swappiness'}){ $rows->[$j]{main::key($num++,0,2,'swappiness')} = $row->{'swappiness'}; } if (defined $row->{'cache-pressure'}){ $rows->[$j]{main::key($num++,0,2,'cache-pressure')} = $row->{'cache-pressure'}; } $row->{'zswap-enabled'} ||= 'N/A'; $rows->[$j]{main::key($num++,1,2,'zswap')} = $row->{'zswap-enabled'}; if ($row->{'zswap-enabled'} eq 'yes'){ if (defined $row->{'zswap-compressor'}){ $rows->[$j]{main::key($num++,0,1,'compressor')} = $row->{'zswap-compressor'}; } if (defined $row->{'zswap-max-pool-percent'}){ $rows->[$j]{main::key($num++,0,1,'max-pool')} = $row->{'zswap-max-pool-percent'} . '%'; } } } else { $rows->[$j]{main::key($num++,0,1,'Message')} = main::message('swap-admin'); } } $j = scalar @$rows; push(@$rows, { main::key($num++,1,1,'ID') => $row->{'id'}, main::key($num++,0,2,'type') => $row->{'swap-type'}, }); # not used for swap as far as I know if ($b_admin && $row->{'raw-size'}){ # It's an error! permissions or missing tool $raw_size = main::get_size($row->{'raw-size'},'string'); $rows->[$j]{main::key($num++,0,2,'raw-size')} = $raw_size; } # not used for swap as far as I know if ($b_admin && $row->{'raw-available'} && $size ne 'N/A'){ $size .= ' (' . $row->{'raw-available'} . '%)'; } $rows->[$j]{main::key($num++,0,2,'size')} = $size; $rows->[$j]{main::key($num++,0,2,'used')} = $used . $percent; # not used for swap as far as I know if ($b_admin && $row->{'block-size'}){ $rows->[$j]{main::key($num++,0,2,'block-size')} = $row->{'block-size'} . ' B';; #$rows->[$j]{main::key($num++,0,2,'physical')} = $row->{'block-size'} . ' B'; #$rows->[$j]{main::key($num++,0,2,'logical')} = $row->{'block-logical'} . ' B'; } if ($extra > 1 && defined $row->{'priority'}){ $rows->[$j]{main::key($num++,0,2,'priority')} = $row->{'priority'}; } if ($b_admin && $row->{'swap-type'} eq 'zram'){ if ($row->{'zram-comp'}){ $rows->[$j]{main::key($num++,1,2,'comp')} = $row->{'zram-comp'}; if ($row->{'zram-comp-avail'}){ $rows->[$j]{main::key($num++,0,3,'avail')} = $row->{'zram-comp-avail'}; } } if ($row->{'zram-max-comp-streams'}){ $rows->[$j]{main::key($num++,0,3,'max-streams')} = $row->{'zram-max-comp-streams'}; } } $row->{'mount'} =~ s|/home/[^/]+/(.*)|/home/$filter_string/$1| if $row->{'mount'} && $use{'filter'}; $rows->[$j]{main::key($num++,1,2,$dev)} = ($row->{'mount'}) ? $row->{'mount'} : 'N/A'; if ($b_admin && $row->{'maj-min'}){ $rows->[$j]{main::key($num++,0,3,'maj-min')} = $row->{'maj-min'}; } if ($extra > 0 && $row->{'dev-mapped'}){ $rows->[$j]{main::key($num++,0,3,'mapped')} = $row->{'dev-mapped'}; } if ($show{'label'} && ($row->{'label'} || $row->{'swap-type'} eq 'partition')){ if ($use{'filter-label'}){ $row->{'label'} = main::filter_partition('part', $row->{'label'}, ''); } $row->{'label'} ||= 'N/A'; $rows->[$j]{main::key($num++,0,2,'label')} = $row->{'label'}; } if ($show{'uuid'} && ($row->{'uuid'} || $row->{'swap-type'} eq 'partition')){ if ($use{'filter-uuid'}){ $row->{'uuid'} = main::filter_partition('part', $row->{'uuid'}, ''); } $row->{'uuid'} ||= 'N/A'; $rows->[$j]{main::key($num++,0,2,'uuid')} = $row->{'uuid'}; } } eval $end if $b_log; } } ## UnmountedItem { package UnmountedItem; sub get { eval $start if $b_log; my ($data,$key1,$val1); my $rows = []; my $num = 0; if ($bsd_type){ DiskDataBSD::set() if !$loaded{'disk-data-bsd'}; if (%disks_bsd && ($alerts{'disklabel'}->{'action'} eq 'use' || $alerts{'gpart'}->{'action'} eq 'use')){ $data = bsd_data(); if (!@$data){ $key1 = 'Message'; $val1 = main::message('unmounted-data'); } else { create_output($rows,$data); } } else { if ($alerts{'disklabel'}->{'action'} eq 'permissions'){ $key1 = 'Message'; $val1 = $alerts{'disklabel'}->{'message'}; } else { $key1 = 'Message'; $val1 = main::message('unmounted-data-bsd',$uname[0]); } } } else { if ($system_files{'proc-partitions'}){ $data = proc_data(); if (!@$data){ $key1 = 'Message'; $val1 = main::message('unmounted-data'); } else { create_output($rows,$data); } } else { $key1 = 'Message'; $val1 = main::message('unmounted-file'); } } if (!@$rows && $key1){ @$rows = ({main::key($num++,0,1,$key1) => $val1}); } eval $end if $b_log; return $rows; } sub create_output { eval $start if $b_log; my ($rows,$unmounted) = @_; my ($fs); my ($j,$num) = (0,0); @$unmounted = sort { $a->{'dev-base'} cmp $b->{'dev-base'} } @$unmounted; my $fs_skip = PartitionItem::get_filters('fs-skip'); foreach my $row (@$unmounted){ $num = 1; my $size = ($row->{'size'}) ? main::get_size($row->{'size'},'string') : 'N/A'; if ($row->{'fs'}){ $fs = lc($row->{'fs'}); } else { if ($bsd_type){ $fs = 'N/A'; } elsif (main::check_program('file')){ $fs = ($b_root) ? 'N/A' : main::message('root-required'); } else { $fs = main::message('tool-missing-basic','file'); } } $j = scalar @$rows; push(@$rows, { main::key($num++,1,1,'ID') => "/dev/$row->{'dev-base'}", }); if ($b_admin && $row->{'maj-min'}){ $rows->[$j]{main::key($num++,0,2,'maj-min')} = $row->{'maj-min'}; } if ($extra > 0 && $row->{'dev-mapped'}){ $rows->[$j]{main::key($num++,0,2,'mapped')} = $row->{'dev-mapped'}; } $row->{'label'} ||= 'N/A'; $row->{'uuid'} ||= 'N/A'; $rows->[$j]{main::key($num++,0,2,'size')} = $size; $rows->[$j]{main::key($num++,0,2,'fs')} = $fs; # don't show for fs known to not have label/uuid if (($show{'label'} || $show{'uuid'}) && $fs !~ /^$fs_skip$/){ if ($show{'label'}){ if ($use{'filter-label'}){ $row->{'label'} = main::filter_partition('part', $row->{'label'}, ''); } $row->{'label'} ||= 'N/A'; $rows->[$j]{main::key($num++,0,2,'label')} = $row->{'label'}; } if ($show{'uuid'}){ if ($use{'filter-uuid'}){ $row->{'uuid'} = main::filter_partition('part', $row->{'uuid'}, ''); } $row->{'uuid'} ||= 'N/A'; $rows->[$j]{main::key($num++,0,2,'uuid')} = $row->{'uuid'}; } } } eval $end if $b_log; } sub proc_data { eval $start if $b_log; my ($dev_mapped,$fs,$label,$maj_min,$size,$uuid,$part); my $unmounted = []; # last filters to make sure these are dumped my @filters = ('scd[0-9]+','sr[0-9]+','cdrom[0-9]*','cdrw[0-9]*', 'dvd[0-9]*','dvdrw[0-9]*','fd[0-9]','ram[0-9]*'); my $num = 0; # set labels, uuid, gpart PartitionItem::set_partitions() if !$loaded{'set-partitions'}; RaidItem::raid_data() if !$loaded{'raid'}; my $mounted = get_mounted(); # print join("\n",(@filters,@$mounted)),"\n"; foreach my $row (@proc_partitions){ ($dev_mapped,$fs,$label,$maj_min,$uuid,$size) = ('','','','','',''); # note that size 1 means it is a logical extended partition container # lvm might have dm-1 type syntax # need to exclude loop type file systems, squashfs for example # NOTE: nvme needs special treatment because the main device is: nvme0n1 # note: $working[2] != 1 is wrong, it's not related # note: for zfs using /dev/sda no partitions, previous rule would have removed # the unmounted report because sdb was found in sdb1, but match of eg sdb1 and sdb12 # makes this a problem, so using zfs_member test instead to filter out zfs members. # For zfs using entire disk, ie, sda, in that case, all partitions sda1 sda9 (8BiB) # belong to zfs, and aren't unmmounted, so if sda and partition sda9, # remove from list. this only works for sdxx drives, but is better than no fix # This logic may also end up working for btrfs partitions, and maybe hammer? # In arm/android seen /dev/block/mmcblk0p12 # print "mount: $row->[-1]\n"; if ($row->[-1] !~ /^(nvme[0-9]+n|mmcblk|mtdblk|mtdblock)[0-9]+$/ && $row->[-1] =~ /[a-z][0-9]+$|dm-[0-9]+$/ && $row->[-1] !~ /\bloop/ && !(grep {$row->[-1] =~ /$_$/} (@filters,@$mounted)) && !(grep {$_ =~ /(block\/)?$row->[-1]$/} @$mounted) && !(grep {$_ =~ /^sd[a-z]+$/ && $row->[-1] =~ /^$_[0-9]+/} @$mounted)){ $dev_mapped = $dmmapper{$row->[-1]} if $dmmapper{$row->[-1]}; if (@lsblk){ my $id = ($dev_mapped) ? $dev_mapped: $row->[-1]; $part = LsblkData::get($id); if (%$part){ $fs = $part->{'fs'}; $label = $part->{'label'}; $maj_min = $part->{'maj-min'}; $uuid = $part->{'uuid'}; $size = $part->{'size'} if $part->{'size'} && !$row->[2]; } } $size ||= $row->[2]; $fs = unmounted_filesystem($row->[-1]) if !$fs; # seen: (zfs|lvm2|linux_raid)_member; crypto_luks # note: lvm, raid members are never mounted. luks member is never mounted. next if $fs && $fs =~ /(bcache|crypto|luks|_member)$/i; # these components of lvm raid will show as partitions byt are reserved private lvm member # See man lvm for all current reserved private volume names next if $dev_mapped && $dev_mapped =~ /_([ctv]data|corig|[mr]image|mlog|[crt]meta|pmspare|pvmove|vorigin)(_[0-9]+)?$/; if (!$bsd_type){ $label = PartitionItem::get_label("/dev/$row->[-1]") if !$label; $uuid = PartitionItem::get_uuid("/dev/$row->[-1]") if !$uuid; } else { my @temp = GpartData::get($row->[-1]); $label = $temp[1] if $temp[1]; $uuid = $temp[2] if $temp[2]; } $maj_min = "$row->[0]:$row->[1]" if !$maj_min; push(@$unmounted, { 'dev-base' => $row->[-1], 'dev-mapped' => $dev_mapped, 'fs' => $fs, 'label' => $label, 'maj-min' => $maj_min, 'size' => $size, 'uuid' => $uuid, }); } } print Data::Dumper::Dumper $unmounted if $dbg[35]; main::log_data('dump','@$unmounted',$unmounted) if $b_log; eval $end if $b_log; return $unmounted; } sub bsd_data { eval $start if $b_log; my ($fs,$label,$size,$uuid,%part); my $unmounted = []; PartitionItem::set_partitions() if !$loaded{'set-partitions'}; RaidItem::raid_data() if !$loaded{'raid'}; my $mounted = get_mounted(); foreach my $id (sort keys %disks_bsd){ next if !$disks_bsd{$id}->{'partitions'}; foreach my $part (sort keys %{$disks_bsd{$id}->{'partitions'}}){ if (!(grep {$_ =~ /$part$/} @$mounted)){ $fs = $disks_bsd{$id}->{'partitions'}{$part}{'fs'}; next if $fs && $fs =~ /(raid|_member)$/i; $label = $disks_bsd{$id}->{'partitions'}{$part}{'label'}; $size = $disks_bsd{$id}->{'partitions'}{$part}{'size'}; $uuid = $disks_bsd{$id}->{'partitions'}{$part}{'uuid'}; # $fs = unmounted_filesystem($part) if !$fs; push(@$unmounted, { 'dev-base' => $part, 'dev-mapped' => '', 'fs' => $fs, 'label' => $label, 'maj-min' => '', 'size' => $size, 'uuid' => $uuid, }); } } } print Data::Dumper::Dumper $unmounted if $dbg[35]; main::log_data('dump','@$unmounted',$unmounted) if $b_log; eval $end if $b_log; return $unmounted; } sub get_mounted { eval $start if $b_log; my (@arrays); my $mounted = []; foreach my $row (@partitions){ push(@$mounted, $row->{'dev-base'}) if $row->{'dev-base'}; } # print Data::Dumper::Dumper \@zfs_raid; foreach my $row ((@btrfs_raid,@lvm_raid,@md_raid,@soft_raid,@zfs_raid)){ # we want to not show md0 etc in unmounted report push(@$mounted, $row->{'id'}) if $row->{'id'}; # print Data::Dumper::Dumper $row; # row->arrays->components: zfs; row->components: lvm,mdraid,softraid if ($row->{'arrays'} && ref $row->{'arrays'} eq 'ARRAY'){ push(@arrays,@{$row->{'arrays'}}); } elsif ($row->{'components'} && ref $row->{'components'} eq 'ARRAY'){ push(@arrays,$row); } @arrays = grep {defined $_} @arrays; # print Data::Dumper::Dumper \@arrays; foreach my $item (@arrays){ # print Data::Dumper::Dumper $item; my @components = (ref $item->{'components'} eq 'ARRAY') ? @{$item->{'components'}} : (); foreach my $component (@components){ # md has ~, not zfs,lvm,softraid my $temp = (split('~', $component->[0]))[0]; push(@$mounted, $temp); } } } eval $end if $b_log; return $mounted; } # bsds do not seem to return any useful data so only for linux sub unmounted_filesystem { eval $start if $b_log; my ($item) = @_; my ($data,%part); my ($file,$fs,$path) = ('','',''); if ($path = main::check_program('file')){ $file = $path; } # order matters in this test! my @filesystems = ('ext2','ext3','ext4','ext5','ext','ntfs', 'fat32','fat16','FAT\s\(.*\)','vfat','fatx','tfat','exfat','swap','btrfs', 'ffs','hammer','hfs\+','hfs\splus','hfs\sextended\sversion\s[1-9]','hfsj', 'hfs','apfs','jfs','nss','reiserfs','reiser4','ufs2','ufs','xfs','zfs'); if ($file){ # this will fail if regular user and no sudo present, but that's fine, it will just return null # note the hack that simply slices out the first line if > 1 items found in string # also, if grub/lilo is on partition boot sector, no file system data is available $data = (main::grabber("$sudoas$file -s /dev/$item 2>/dev/null"))[0]; if ($data){ foreach (@filesystems){ if ($data =~ /($_)[\s,]/i){ $fs = $1; $fs = main::trimmer($fs); last; } } } } main::log_data('data',"fs: $fs") if $b_log; eval $end if $b_log; return $fs; } } ## UsbItem { package UsbItem; sub get { eval $start if $b_log; my ($key1,$val1); my $rows = []; my $num = 0; if (!$usb{'main'} && $alerts{'lsusb'}->{'action'} ne 'use' && $alerts{'usbdevs'}->{'action'} ne 'use' && $alerts{'usbconfig'}->{'action'} ne 'use'){ if ($os eq 'linux'){ $key1 = $alerts{'lsusb'}->{'action'}; $val1 = $alerts{'lsusb'}->{'message'}; } else { # note: usbdevs only has 'missing', usbconfig has missing/permissions # both have platform, but irrelevant since testing for linux here if ($alerts{'usbdevs'}->{'action'} eq 'missing' && $alerts{'usbconfig'}->{'action'} eq 'missing'){ $key1 = $alerts{'usbdevs'}->{'action'}; $val1 = main::message('tools-missing-bsd','usbdevs/usbconfig'); } elsif ($alerts{'usbconfig'}->{'action'} eq 'permissions'){ $key1 = $alerts{'usbconfig'}->{'action'}; $val1 = $alerts{'usbconfig'}->{'message'}; } # elsif ($alerts{'lsusb'}->{'action'} eq 'missing'){ # $key1 = $alerts{'lsusb'}->{'action'}; # $val1 = $alerts{'lsusb'}->{'message'}; # } } $key1 = ucfirst($key1); @$rows = ({main::key($num++,0,1,$key1) => $val1}); } else { usb_output($rows); if (!@$rows){ my $key = 'Message'; @$rows = ({ main::key($num++,0,1,$key) => main::message('usb-data','') }); } } eval $end if $b_log; return $rows; } sub usb_output { eval $start if $b_log; return if !$usb{'main'}; my $rows = $_[0]; my ($b_hub,$bus_id,$chip_id,$driver,$ind_rc,$ind_sc,$path_id,$ports,$product, $rev,$serial,$speed_si,$type); my $num = 0; my $j = 0; # note: the data has been presorted in UsbData: # bus alpah id, so we don't need to worry about the order foreach my $id (@{$usb{'main'}}){ $j = scalar @$rows; ($b_hub,$ind_rc,$ind_sc,$num) = (0,4,3,1); ($driver,$path_id,$ports,$product,$rev,$serial,$speed_si, $type) = ('','','','','','','','',''); $rev = $id->[8] if $id->[8]; $product = main::clean($id->[13]) if $id->[13]; $serial = main::filter($id->[16]) if $id->[16]; $product ||= 'N/A'; $rev ||= 'N/A'; $path_id = $id->[2] if $id->[2]; $bus_id = "$path_id:$id->[1]"; # it's a hub if ($id->[4] eq '09'){ $ports = $id->[10] if $id->[10]; $ports ||= 'N/A'; # print "pt0:$protocol\n"; push(@$rows, { main::key($num++,1,1,'Hub') => $bus_id, main::key($num++,0,2,'info') => $product, main::key($num++,0,2,'ports') => $ports, },); $b_hub = 1; $ind_rc =3; $ind_sc =2; } # it's a device else { $type = $id->[14] if $id->[14]; $driver = $id->[15] if $id->[15]; $type ||= 'N/A'; $driver ||= 'N/A'; # print "pt3:$class:$product\n"; $rows->[$j]{main::key($num++,1,2,'Device')} = $bus_id; $rows->[$j]{main::key($num++,0,3,'info')} = $product; $rows->[$j]{main::key($num++,0,3,'type')} = $type; if ($extra > 0){ $rows->[$j]{main::key($num++,0,3,'driver')} = $driver; } if ($extra > 2 && $id->[9]){ $rows->[$j]{main::key($num++,0,3,'interfaces')} = $id->[9]; } } # for either hub or device $rows->[$j]{main::key($num++,1,$ind_sc,'rev')} = $rev; if ($extra > 0){ $speed_si = ($id->[17]) ? $id->[17] : 'N/A'; $speed_si .= " ($id->[25])" if ($b_admin && $id->[25]); $rows->[$j]{main::key($num++,0,$ind_rc,'speed')} = $speed_si; if ($extra > 1){ if ($id->[24]){ if ($id->[23] == $id->[24]){ $rows->[$j]{main::key($num++,0,$ind_rc,'lanes')} = $id->[24]; } else { $rows->[$j]{main::key($num++,1,$ind_rc,'lanes')} = ''; $rows->[$j]{main::key($num++,0,($ind_rc+1),'rx')} = $id->[23]; $rows->[$j]{main::key($num++,0,($ind_rc+1),'tx')} = $id->[24]; } } } # 22 is only available if 23 and 24 are present as well if ($b_admin && $id->[22]){ $rows->[$j]{main::key($num++,0,$ind_rc,'mode')} = $id->[22]; } if ($extra > 2 && $id->[19] && $id->[19] ne '0mA'){ $rows->[$j]{main::key($num++,0,$ind_sc,'power')} = $id->[19]; } $chip_id = $id->[7]; $chip_id ||= 'N/A'; $rows->[$j]{main::key($num++,0,$ind_sc,'chip-ID')} = $chip_id; if ($extra > 2 && defined $id->[5] && $id->[5] ne ''){ my $id = sprintf("%02s",$id->[4]) . sprintf("%02s", $id->[5]); $rows->[$j]{main::key($num++,0,$ind_sc,'class-ID')} = $id; } if (!$b_hub && $extra > 2){ if ($serial){ $rows->[$j]{main::key($num++,0,$ind_sc,'serial')} = main::filter($serial); } } } } # print Data::Dumper::Dumper \@rows; eval $end if $b_log; } } ## WeatherItem # add metric / imperial (us) switch { package WeatherItem; sub get { eval $start if $b_log; my $rows = []; my $num = 0; my $location = []; location_data($location); # print Data::Dumper::Dumper $location;exit; if (!$location->[0]){ @$rows = ({ main::key($num++,0,1,'Message') => main::message('weather-null','current location') }); } else { my $weather = get_weather($location); if ($weather->{'error'}){ @$rows = ({ main::key($num++,0,1,'Message') => main::message('weather-error',$weather->{'error'}) }); } elsif (!$weather->{'weather'}){ @$rows = ({ main::key($num++,0,1,'Message') => main::message('weather-null','weather data') }); } else { weather_output($rows,$location,$weather); } } if (!@$rows){ @$rows = ({ main::key($num++,0,1,'Message') => main::message('weather-null','weather data') }); } eval $end if $b_log; return $rows; } sub weather_output { eval $start if $b_log; my ($rows,$location,$weather) = @_; my ($j,$num) = (0,0); my ($value); my ($conditions) = ('NA'); $conditions = "$weather->{'weather'}"; my $temp = process_unit( $weather->{'temp'}, $weather->{'temp-c'},'C', $weather->{'temp-f'},'F'); $j = scalar @$rows; push(@$rows, { main::key($num++,1,1,'Report') => '', main::key($num++,0,2,'temperature') => $temp, main::key($num++,0,2,'conditions') => $conditions, },); if ($extra > 0){ my $pressure = process_unit( $weather->{'pressure'}, $weather->{'pressure-mb'},'mb', $weather->{'pressure-in'},'in'); my $wind = process_wind( $weather->{'wind'}, $weather->{'wind-direction'}, $weather->{'wind-mph'}, $weather->{'wind-ms'}, $weather->{'wind-gust-mph'}, $weather->{'wind-gust-ms'}); $rows->[$j]{main::key($num++,0,2,'wind')} = $wind; if ($extra > 1){ if (defined $weather->{'cloud-cover'}){ $rows->[$j]{main::key($num++,0,2,'cloud cover')} = $weather->{'cloud-cover'} . '%'; } if ($weather->{'precip-1h-mm'} && defined $weather->{'precip-1h-in'}){ $value = process_unit('',$weather->{'precip-1h-mm'},'mm', $weather->{'precip-1h-in'},'in'); $rows->[$j]{main::key($num++,0,2,'precipitation')} = $value; } if ($weather->{'rain-1h-mm'} && defined $weather->{'rain-1h-in'}){ $value = process_unit('',$weather->{'rain-1h-mm'},'mm', $weather->{'rain-1h-in'},'in'); $rows->[$j]{main::key($num++,0,2,'rain')} = $value; } if ($weather->{'snow-1h-mm'} && defined $weather->{'snow-1h-in'}){ $value = process_unit('',$weather->{'snow-1h-mm'},'mm', $weather->{'snow-1h-in'},'in'); $rows->[$j]{main::key($num++,0,2,'snow')} = $value; } } $rows->[$j]{main::key($num++,0,2,'humidity')} = $weather->{'humidity'} . '%'; if ($extra > 1){ if ($weather->{'dewpoint'} || (defined $weather->{'dewpoint-c'} && defined $weather->{'dewpoint-f'})){ $value = process_unit( $weather->{'dewpoint'}, $weather->{'dewpoint-c'}, 'C', $weather->{'dewpoint-f'}, 'F'); $rows->[$j]{main::key($num++,0,2,'dew point')} = $value; } } $rows->[$j]{main::key($num++,0,2,'pressure')} = $pressure; } if ($extra > 1){ if ($weather->{'heat-index'} || (defined $weather->{'heat-index-c'} && defined $weather->{'heat-index-f'})){ $value = process_unit( $weather->{'heat-index'}, $weather->{'heat-index-c'},'C', $weather->{'heat-index-f'},'F'); $rows->[$j]{main::key($num++,0,2,'heat index')} = $value; } if ($weather->{'windchill'} || (defined $weather->{'windchill-c'} && defined $weather->{'windchill-f'})){ $value = process_unit( $weather->{'windchill'}, $weather->{'windchill-c'},'C', $weather->{'windchill-f'},'F'); $rows->[$j]{main::key($num++,0,2,'wind chill')} = $value; } if ($extra > 2){ if ($weather->{'forecast'}){ $j = scalar @$rows; push(@$rows, { main::key($num++,1,1,'Forecast') => $weather->{'forecast'}, },); } } } $j = scalar @$rows; if ($extra > 2 && !$use{'filter'}){ complete_location( $location, $weather->{'city'}, $weather->{'state'}, $weather->{'country'}); } push(@$rows, { main::key($num++,1,1,'Locale') => $location->[1], },); if ($extra > 2 && !$use{'filter'} && ($weather->{'elevation-m'} || $weather->{'elevation-ft'})){ $rows->[$j]{main::key($num++,0,2,'altitude')} = process_elevation( $weather->{'elevation-m'}, $weather->{'elevation-ft'}); } $rows->[$j]{main::key($num++,0,2,'current time')} = $weather->{'date-time'},; if ($extra > 2){ $weather->{'observation-time-local'} = 'N/A' if !$weather->{'observation-time-local'}; $rows->[$j]{main::key($num++,0,2,'observation time')} = $weather->{'observation-time-local'}; if ($weather->{'sunrise'}){ $rows->[$j]{main::key($num++,0,2,'sunrise')} = $weather->{'sunrise'}; } if ($weather->{'sunset'}){ $rows->[$j]{main::key($num++,0,2,'sunset')} = $weather->{'sunset'}; } if ($weather->{'moonphase'}){ $value = $weather->{'moonphase'} . '%'; $value .= ($weather->{'moonphase-graphic'}) ? ' ' . $weather->{'moonphase-graphic'} :''; $rows->[$j]{main::key($num++,0,2,'moonphase')} = $value; } } if ($weather->{'api-source'}){ $rows->[$j]{main::key($num++,0,1,'Source')} = $weather->{'api-source'}; } eval $end if $b_log; } sub process_elevation { eval $start if $b_log; my ($meters,$feet) = @_; my ($result,$i_unit,$m_unit) = ('','ft','m'); $feet = sprintf("%.0f", 3.28 * $meters) if defined $meters && !$feet; $meters = sprintf("%.1f", $feet/3.28) if defined $feet && !$meters; $meters = sprintf("%.0f", $meters) if $meters; if (defined $meters && $weather_unit eq 'mi'){ $result = "$meters $m_unit ($feet $i_unit)"; } elsif (defined $meters && $weather_unit eq 'im'){ $result = "$feet $i_unit ($meters $m_unit)"; } elsif (defined $meters && $weather_unit eq 'm'){ $result = "$meters $m_unit"; } elsif (defined $feet && $weather_unit eq 'i'){ $result = "$feet $i_unit"; } else { $result = 'N/A'; } eval $end if $b_log; return $result; } sub process_unit { eval $start if $b_log; my ($primary,$metric,$m_unit,$imperial,$i_unit) = @_; my $result = ''; if (defined $metric && defined $imperial && $weather_unit eq 'mi'){ $result = "$metric $m_unit ($imperial $i_unit)"; } elsif (defined $metric && defined $imperial && $weather_unit eq 'im'){ $result = "$imperial $i_unit ($metric $m_unit)"; } elsif (defined $metric && $weather_unit eq 'm'){ $result = "$metric $m_unit"; } elsif (defined $imperial && $weather_unit eq 'i'){ $result = "$imperial $i_unit"; } elsif ($primary){ $result = $primary; } else { $result = 'N/A'; } eval $end if $b_log; return $result; } sub process_wind { eval $start if $b_log; my ($primary,$direction,$mph,$ms,$gust_mph,$gust_ms) = @_; my ($result,$gust_kmh,$kmh,$i_unit,$m_unit,$km_unit) = ('','','','mph','m/s','km/h'); # get rid of possible gust values if they are the same as wind values $gust_mph = undef if $gust_mph && $mph && $mph eq $gust_mph; $gust_ms = undef if $gust_ms && $ms && $ms eq $gust_ms; # calculate and round, order matters so that rounding only happens after math done $ms = 0.44704 * $mph if defined $mph && !defined $ms; $mph = $ms * 2.23694 if defined $ms && !defined $mph; $kmh = sprintf("%.0f", 18*$ms/5) if defined $ms; $ms = sprintf("%.1f", $ms) if defined $ms; # very low mph speeds yield 0, which is wrong $mph = sprintf("%.0f", $mph) if defined $mph; $gust_ms = 0.44704 * $gust_mph if $gust_mph && !$gust_ms; $gust_kmh = 18 * $gust_ms / 5 if $gust_ms; $gust_mph = $gust_ms * 2.23694 if $gust_ms && !$gust_mph; $gust_mph = sprintf("%.0f", $gust_mph) if $gust_mph; $gust_kmh = sprintf("%.0f", $gust_kmh) if $gust_kmh; $gust_ms = sprintf("%.0f", $gust_ms) if $gust_ms; if (!defined $mph && $primary){ $result = $primary; } elsif (defined $mph && defined $direction){ if ($weather_unit eq 'mi'){ $result = "from $direction at $ms $m_unit ($kmh $km_unit, $mph $i_unit)"; } elsif ($weather_unit eq 'im'){ $result = "from $direction at $mph $i_unit ($ms $m_unit, $kmh $km_unit)"; } elsif ($weather_unit eq 'm'){ $result = "from $direction at $ms $m_unit ($kmh $km_unit)"; } elsif ($weather_unit eq 'i'){ $result = "from $direction at $mph $i_unit"; } if ($gust_mph){ if ($weather_unit eq 'mi'){ $result .= ". Gusting to $ms $m_unit ($kmh $km_unit, $mph $i_unit)"; } elsif ($weather_unit eq 'im'){ $result .= ". Gusting to $mph $i_unit ($ms $m_unit, $kmh $km_unit)"; } elsif ($weather_unit eq 'm'){ $result .= ". Gusting to $ms $m_unit ($kmh $km_unit)"; } elsif ($weather_unit eq 'i'){ $result .= ". Gusting to $mph $i_unit"; } } } elsif ($primary){ $result = $primary; } else { $result = 'N/A'; } eval $end if $b_log; return $result; } sub get_weather { eval $start if $b_log; my ($location) = @_; my $now = POSIX::strftime "%Y%m%d%H%M", localtime; my ($date_time,$freshness,$tz,$weather_data); my $weather = {}; my $loc_name = lc($location->[0]); $loc_name =~ s/-\/|\s|,/-/g; $loc_name =~ s/--/-/g; my $file_cached = "$user_data_dir/weather-$loc_name-$weather_source.txt"; if (-r $file_cached){ @$weather_data = main::reader($file_cached); $freshness = (split(/\^\^/, $weather_data->[0]))[1]; # print "$now:$freshness\n"; } if (!$freshness || $freshness < ($now - 60)){ $weather_data = download_weather($now,$file_cached,$location); } # print join("\n", @weather_data), "\n"; # NOTE: because temps can be 0, we can't do if value tests foreach (@$weather_data){ my @working = split(/\s*\^\^\s*/, $_); next if ! defined $working[1] || $working[1] eq ''; if ($working[0] eq 'api_source'){ $weather->{'api-source'} = $working[1]; } elsif ($working[0] eq 'city'){ $weather->{'city'} = $working[1]; } elsif ($working[0] eq 'cloud_cover'){ $weather->{'cloud-cover'} = $working[1]; } elsif ($working[0] eq 'country'){ $weather->{'country'} = $working[1]; } elsif ($working[0] eq 'dewpoint_string'){ $weather->{'dewpoint'} = $working[1]; $working[1] =~ /^([0-9\.]+)\sF\s\(([0-9\.]+)\sC\)/; $weather->{'dewpoint-c'} = $2;; $weather->{'dewpoint-f'} = $1;; } elsif ($working[0] eq 'dewpoint_c'){ $weather->{'dewpoint-c'} = $working[1]; } elsif ($working[0] eq 'dewpoint_f'){ $weather->{'dewpoint-f'} = $working[1]; } # WU: there are two elevations, we want the first one elsif (!$weather->{'elevation-m'} && $working[0] eq 'elevation'){ # note: bug in source data uses ft for meters, not 100% of time, but usually $weather->{'elevation-m'} = $working[1]; $weather->{'elevation-m'} =~ s/\s*(ft|m).*$//; } elsif ($working[0] eq 'error'){ $weather->{'error'} = $working[1]; } elsif ($working[0] eq 'forecast'){ $weather->{'forecast'} = $working[1]; } elsif ($working[0] eq 'heat_index_string'){ $weather->{'heat-index'} = $working[1]; $working[1] =~ /^([0-9\.]+)\sF\s\(([0-9\.]+)\sC\)/; $weather->{'heat-index-c'} = $2;; $weather->{'heat-index-f'} = $1; } elsif ($working[0] eq 'heat_index_c'){ $weather->{'heat-index-c'} = $working[1]; } elsif ($working[0] eq 'heat_index_f'){ $weather->{'heat-index-f'} = $working[1]; } elsif ($working[0] eq 'relative_humidity'){ $working[1] =~ s/%$//; $weather->{'humidity'} = $working[1]; } elsif ($working[0] eq 'local_time'){ $weather->{'local-time'} = $working[1]; } elsif ($working[0] eq 'local_epoch'){ $weather->{'local-epoch'} = $working[1]; } elsif ($working[0] eq 'moonphase'){ $weather->{'moonphase'} = $working[1]; } elsif ($working[0] eq 'moonphase_graphic'){ $weather->{'moonphase-graphic'} = $working[1]; } elsif ($working[0] eq 'observation_time_rfc822'){ $weather->{'observation-time-rfc822'} = $working[1]; } elsif ($working[0] eq 'observation_epoch'){ $weather->{'observation-epoch'} = $working[1]; } elsif ($working[0] eq 'observation_time'){ $weather->{'observation-time-local'} = $working[1]; $weather->{'observation-time-local'} =~ s/Last Updated on //; } elsif ($working[0] eq 'precip_mm'){ $weather->{'precip-1h-mm'} = $working[1]; } elsif ($working[0] eq 'precip_in'){ $weather->{'precip-1h-in'} = $working[1]; } elsif ($working[0] eq 'pressure_string'){ $weather->{'pressure'} = $working[1]; } elsif ($working[0] eq 'pressure_mb'){ $weather->{'pressure-mb'} = $working[1]; } elsif ($working[0] eq 'pressure_in'){ $weather->{'pressure-in'} = $working[1]; } elsif ($working[0] eq 'rain_1h_mm'){ $weather->{'rain-1h-mm'} = $working[1]; } elsif ($working[0] eq 'rain_1h_in'){ $weather->{'rain-1h-in'} = $working[1]; } elsif ($working[0] eq 'snow_1h_mm'){ $weather->{'snow-1h-mm'} = $working[1]; } elsif ($working[0] eq 'snow_1h_in'){ $weather->{'snow-1h-in'} = $working[1]; } elsif ($working[0] eq 'state_name'){ $weather->{'state'} = $working[1]; } elsif ($working[0] eq 'sunrise'){ if ($working[1]){ if ($working[1] !~ /^[0-9]+$/){ $weather->{'sunrise'} = $working[1]; } # trying to figure out remote time from UTC is too hard elsif (!$show{'weather-location'}){ $weather->{'sunrise'} = POSIX::strftime "%T", localtime($working[1]); } } } elsif ($working[0] eq 'sunset'){ if ($working[1]){ if ($working[1] !~ /^[0-9]+$/){ $weather->{'sunset'} = $working[1]; } # trying to figure out remote time from UTC is too hard elsif (!$show{'weather-location'}){ $weather->{'sunset'} = POSIX::strftime "%T", localtime($working[1]); } } } elsif ($working[0] eq 'temperature_string'){ $weather->{'temp'} = $working[1]; $working[1] =~ /^([0-9\.]+)\sF\s\(([0-9\.]+)\sC\)/; $weather->{'temp-c'} = $2;; $weather->{'temp-f'} = $1; # $weather->{'temp'} =~ s/\sF/\xB0 F/; # B0 # $weather->{'temp'} =~ s/\sF/\x{2109}/; # $weather->{'temp'} =~ s/\sC/\x{2103}/; } elsif ($working[0] eq 'temp_f'){ $weather->{'temp-f'} = $working[1]; } elsif ($working[0] eq 'temp_c'){ $weather->{'temp-c'} = $working[1]; } elsif ($working[0] eq 'timezone'){ $weather->{'timezone'} = $working[1]; } elsif ($working[0] eq 'visibility'){ $weather->{'visibility'} = $working[1]; } elsif ($working[0] eq 'visibility_km'){ $weather->{'visibility-km'} = $working[1]; } elsif ($working[0] eq 'visibility_mi'){ $weather->{'visibility-mi'} = $working[1]; } elsif ($working[0] eq 'weather'){ $weather->{'weather'} = $working[1]; } elsif ($working[0] eq 'wind_degrees'){ $weather->{'wind-degrees'} = $working[1]; } elsif ($working[0] eq 'wind_dir'){ $weather->{'wind-direction'} = $working[1]; } elsif ($working[0] eq 'wind_mph'){ $weather->{'wind-mph'} = $working[1]; } elsif ($working[0] eq 'wind_gust_mph'){ $weather->{'wind-gust-mph'} = $working[1]; } elsif ($working[0] eq 'wind_gust_ms'){ $weather->{'wind-gust-ms'} = $working[1]; } elsif ($working[0] eq 'wind_ms'){ $weather->{'wind-ms'} = $working[1]; } elsif ($working[0] eq 'wind_string'){ $weather->{'wind'} = $working[1]; } elsif ($working[0] eq 'windchill_string'){ $weather->{'windchill'} = $working[1]; $working[1] =~ /^([0-9\.]+)\sF\s\(([0-9\.]+)\sC\)/; $weather->{'windchill-c'} = $2; $weather->{'windchill-f'} = $1; } elsif ($working[0] eq 'windchill_c'){ $weather->{'windchill-c'} = $working[1]; } elsif ($working[0] eq 'windchill_f'){ $weather->{'windchill_f'} = $working[1]; } } if ($show{'weather-location'}){ if ($weather->{'observation-time-local'} && $weather->{'observation-time-local'} =~ /^(.*)\s([a-z_]+\/[a-z_]+)$/i){ $tz = $2; } if (!$tz && $weather->{'timezone'}){ $tz = $weather->{'timezone'}; $weather->{'observation-time-local'} .= ' (' . $weather->{'timezone'} . ')' if $weather->{'observation-time-local'}; } # very clever trick, just make the system think it's in the # remote timezone for this local block only local $ENV{'TZ'} = $tz if $tz; $date_time = POSIX::strftime "%c", localtime(); $date_time = test_locale_date($date_time,'',''); $weather->{'date-time'} = $date_time; # only wu has rfc822 value, and we want the original observation time then if ($weather->{'observation-epoch'} && $tz){ $date_time = POSIX::strftime "%Y-%m-%d %T ($tz %z)", localtime($weather->{'observation-epoch'}); $date_time = test_locale_date($date_time,$show{'weather-location'},$weather->{'observation-epoch'}); $weather->{'observation-time-local'} = $date_time; } } else { $date_time = POSIX::strftime "%c", localtime(); $date_time = test_locale_date($date_time,'',''); $tz = ($location->[2]) ? " ($location->[2])" : ''; $weather->{'date-time'} = $date_time . $tz; } # we get the wrong time using epoch for remote -W location if (!$show{'weather-location'} && $weather->{'observation-epoch'}){ $date_time = POSIX::strftime "%c", localtime($weather->{'observation-epoch'}); $date_time = test_locale_date($date_time,$show{'weather-location'},$weather->{'observation-epoch'}); $weather->{'observation-time-local'} = $date_time; } eval $end if $b_log; return $weather; } sub download_weather { eval $start if $b_log; my ($now,$file_cached,$location) = @_; my ($temp,$ua,$url); my $weather = []; $url = "https://smxi.org/opt/xr2.php?loc=$location->[0]&src=$weather_source"; $ua = 'weather'; if ($fake{'weather'}){ # my $file2 = "$fake_data_dir/weather/weather-1.xml"; # my $file2 = "$fake_data_dir/weather/feed-oslo-1.xml"; # local $/; # my $file = "$fake_data_dir/weather/weather-1.xml"; # open(my $fh, '<', $file) or die "can't open $file: $!"; # $temp = <$fh>; } else { $temp = main::download_file('stdout',$url,'',$ua); } @$weather = split('\n', $temp) if $temp; unshift(@$weather, "timestamp^^$now"); main::writer($file_cached,$weather); # print "$file_cached: download/cleaned\n"; eval $end if $b_log; return $weather; } # Rsolve wide character issue, if detected, switch to iso # date format, we won't try to be too clever here. sub test_locale_date { my ($date_time,$location,$epoch) = @_; # $date_time .= 'дек'; # print "1: $date_time\n"; if ($date_time =~ m/[^\x00-\x7f]/){ if (!$location && $epoch){ $date_time = POSIX::strftime "%Y-%m-%d %H:%M:%S", localtime($epoch); } else { $date_time = POSIX::strftime "%Y-%m-%d %H:%M:%S", localtime(); } } $date_time =~ s/\s+$//; # print "2: $date_time\n"; return $date_time; } ## Location Data ## sub location_data { eval $start if $b_log; my $location = $_[0]; if ($show{'weather-location'}){ my $location_string; $location_string = $show{'weather-location'}; $location_string =~ s/\+/ /g; if ($location_string =~ /,/){ my @temp = split(',', $location_string); my $sep = ''; my $string = ''; foreach (@temp){ $_ = ucfirst($_); $string .= $sep . $_; $sep = ', '; } $location_string = $string; } $location_string = main::filter($location_string); @$location = ($show{'weather-location'},$location_string,''); } else { get_location($location); } eval $end if $b_log; } sub get_location { eval $start if $b_log; my $location = $_[0]; my ($city,$country,$freshness,%loc,$loc_arg,$loc_string,@loc_data,$state); my $now = POSIX::strftime "%Y%m%d%H%M", localtime; my $file_cached = "$user_data_dir/location-main.txt"; if (-r $file_cached){ @loc_data = main::reader($file_cached); $freshness = (split(/\^\^/, $loc_data[0]))[1]; } if (!$freshness || $freshness < $now - 90){ my $temp; my $url = "http://geoip.ubuntu.com/lookup"; # { # local $/; # my $file = "$fake_data_dir/weather/location-1.xml"; # open(my $fh, '<', $file) or die "can't open $file: $!"; # $temp = <$fh>; # } $temp = main::download_file('stdout',$url); @loc_data = split('\n', $temp); @loc_data = map { s/<\?.*//; s/<\/[^>]+>/\n/g; s/>/^^/g; s/[1] && $location->[1] =~ /[0-9+-]/ && $city){ $location->[1] = $country . ', ' . $location->[1] if $country && $location->[1] !~ m|$country|i; $location->[1] = $state . ', ' . $location->[1] if $state && $location->[1] !~ m|$state|i; $location->[1] = $city . ', ' . $location->[1] if $city && $location->[1] !~ m|$city|i; } eval $end if $b_log; } } #### ------------------------------------------------------------------- #### ITEM UTILITIES #### ------------------------------------------------------------------- # android only, for distro / OS id and machine data sub set_build_prop { eval $start if $b_log; my $path = '/system/build.prop'; $loaded{'build-prop'} = 1; return if ! -r $path; my @data = reader($path,'strip'); foreach (@data){ my @working = split('=', $_); next if $working[0] !~ /^ro\.(build|product)/; if ($working[0] eq 'ro.build.date.utc'){ $build_prop{'build-date'} = strftime "%F", gmtime($working[1]); } # ldgacy, replaced by ro.product.device elsif ($working[0] eq 'ro.build.product'){ $build_prop{'build-product'} = $working[1]; } # this can be brand, company, android, it varies, but we don't want android value elsif ($working[0] eq 'ro.build.user'){ $build_prop{'build-user'} = $working[1] if $working[1] !~ /android/i; } elsif ($working[0] eq 'ro.build.version.release'){ $build_prop{'build-version'} = $working[1]; } elsif ($working[0] eq 'ro.product.board'){ $build_prop{'product-board'} = $working[1]; } elsif ($working[0] eq 'ro.product.brand'){ $build_prop{'product-brand'} = $working[1]; } elsif ($working[0] eq 'ro.product.device'){ $build_prop{'product-device'} = $working[1]; } elsif ($working[0] eq 'ro.product.manufacturer'){ $build_prop{'product-manufacturer'} = $working[1]; } elsif ($working[0] eq 'ro.product.model'){ $build_prop{'product-model'} = $working[1]; } elsif ($working[0] eq 'ro.product.name'){ $build_prop{'product-name'} = $working[1]; } elsif ($working[0] eq 'ro.product.screensize'){ $build_prop{'product-screensize'} = $working[1]; } } log_data('dump','%build_prop',\%build_prop) if $b_log; print Dumper \%build_prop if $dbg[20]; eval $end if $b_log; } ## CompilerVersion { package CompilerVersion; sub get { eval $start if $b_log; my $compiler = []; # we want an array ref to return if not set if (my $file = $system_files{'proc-version'}){ version_proc($compiler,$file); } elsif ($bsd_type){ version_bsd($compiler); } eval $end if $b_log; return $compiler; } # args: 0: compiler by ref sub version_bsd { eval $start if $b_log; my $compiler = $_[0]; if ($alerts{'sysctl'}->{'action'} && $alerts{'sysctl'}->{'action'} eq 'use'){ if ($sysctl{'kernel'}){ my @working; foreach (@{$sysctl{'kernel'}}){ # Not every line will have a : separator though the processor should make # most have it. This appears to be 10.x late feature add, I don't see it # on earlier BSDs if (/^kern.compiler_version/){ @working = split(/:\s*/, $_); $working[1] =~ /.*(gcc|clang)\sversion\s([\S]+)\s.*/; @$compiler = ($1,$2); last; } } } # OpenBSD doesn't show compiler data in sysctl or dboot but it's going to # be Clang until way into the future, and it will be the installed version. if (ref $compiler ne 'ARRAY' || !@$compiler){ if (my $path = main::check_program('clang')){ $compiler->[0] = 'clang'; $compiler->[1] =main::program_version($path,'clang',3,'--version'); } } } main::log_data('dump','@$compiler',$compiler) if $b_log; eval $end if $b_log; } # args: 0: compiler by ref; 1: proc file name sub version_proc { eval $start if $b_log; my ($compiler,$file) = @_; if (my $result = main::reader($file,'',0)){ my $version; if ($fake{'compiler'}){ # $result = $result =~ /\*(gcc|clang)\*eval\*/; # $result='Linux version 5.4.0-rc1 (sourav@archlinux-pc) (clang version 9.0.0 (tags/RELEASE_900/final)) #1 SMP PREEMPT Sun Oct 6 18:02:41 IST 2019'; # $result='Linux version 5.8.3-fw1 (fst@x86_64.frugalware.org) ( OpenMandriva 11.0.0-0.20200819.1 clang version 11.0.0 (/builddir/build/BUILD/llvm-project-release-11.x/clang 2a0076812cf106fcc34376d9d967dc5f2847693a), LLD 11.0.0)'; # $result='Linux version 5.8.0-18-generic (buildd@lgw01-amd64-057) (gcc (Ubuntu 10.2.0-5ubuntu2) 10.2.0, GNU ld (GNU Binutils for Ubuntu) 2.35) #19-Ubuntu SMP Wed Aug 26 15:26:32 UTC 2020'; # $result='Linux version 5.8.9-fw1 (fst@x86_64.frugalware.org) (gcc (Frugalware Linux) 9.2.1 20200215, GNU ld (GNU Binutils) 2.35) #1 SMP PREEMPT Tue Sep 15 16:38:57 CEST 2020'; # $result='Linux version 5.8.0-2-amd64 (debian-kernel@lists.debian.org) (gcc-10 (Debian 10.2.0-9) 10.2.0, GNU ld (GNU Binutils for Debian) 2.35) #1 SMP Debian 5.8.10-1 (2020-09-19)'; # $result='Linux version 5.9.0-5-amd64 (debian-kernel@lists.debian.org) (gcc-10 (Debian 10.2.1-1) 10.2.1 20201207, GNU ld (GNU Binutils for Debian) 2.35.1) #1 SMP Debian 5.9.15-1 (2020-12-17)'; # $result='Linux version 2.6.1 (GNU 0.9 GNU-Mach 1.8+git20201007-486/Hurd-0.9 i686-AT386)'; # $result='NetBSD version 9.1 (netbsd@localhost) (gcc version 7.5.0) NetBSD 9.1 (GENERIC) #0: Sun Oct 18 19:24:30 UTC 2020'; # $result='Linux version 6.0.8-0-generic (chimera@chimera) (clang version 15.0.4, LLD 15.0.4) #1 SMP PREEMPT_DYNAMIC Fri Nov 11 13:45:29 UTC 2022'; } if ($result =~ /(gcc|clang).*version\s([^,\s\)]+)/){ $version = $2; $version ||= 'N/A'; @$compiler = ($1,$version); } elsif ($result =~ /\((gcc|clang)[^\(]*\([^\)]+\)\s+([0-9\.]+)(\s[^.]*)?,\s*/){ $version = $2; $version ||= 'N/A'; @$compiler = ($1,$version); } } main::log_data('dump','@$compiler',$compiler) if $b_log; eval $end if $b_log; } } sub set_dboot_data { eval $start if $b_log; $loaded{'dboot'} = 1; my ($file,@db_data,@dm_data,@temp); my ($counter) = (0); if (!$fake{'dboot'}){ $file = $system_files{'dmesg-boot'}; } else { # $file = "$fake_data_dir/bsd/dmesg-boot/bsd-disks-diabolus.txt"; # $file = "$fake_data_dir/bsd/dmesg-boot/freebsd-disks-solestar.txt"; # $file = "$fake_data_dir/bsd/dmesg-boot/freebsd-enceladus-1.txt"; ## matches: toshiba: openbsd-5.6-sysctl-2.txt # $file = "$fake_data_dir/bsd/dmesg-boot/openbsd-5.6-dmesg.boot-1.txt"; ## matches: compaq: openbsd-5.6-sysctl-1.txt" # $file = "$fake_data_dir/bsd/dmesg-boot/openbsd-dmesg.boot-1.txt"; # $file = "$fake_data_dir/bsd/dmesg-boot/openbsd-6.8-battery-sensors-1.txt"; } if ($file){ return if ! -r $file; @db_data = reader($file); # sometimes > 1 sessions stored, dump old ones for (@db_data){ if (/^(Dragonfly|OpenBSD|NetBSD|FreeBSD is a registered trademark|Copyright.*Midnight)/){ $counter++; undef @temp if $counter > 1; } push(@temp,$_); } @db_data = @temp; undef @temp; my @dm_data = grabber('dmesg 2>/dev/null'); # clear out for netbsd, only 1 space following or lines won't match @dm_data = map {$_ =~ s/^\[[^\]]+\]\s//;$_} @dm_data; $counter = 0; # dump previous sessions, and also everything roughly before dmesg.boot # ends, it does't need to be perfect, we just only want the actual post # boot data for (@dm_data){ if (/^(Dragonfly|OpenBSD|NetBSD|FreeBSD is a registered trademark|Copyright.*Midnight)/ || /^(smbus[0-9]:|Security policy loaded|root on)/){ $counter++; undef @temp if $counter > 1; } push(@temp,$_); } @dm_data = @temp; undef @temp; push(@db_data,'~~~~~',@dm_data); # uniq(\@db_data); # get rid of duplicate lines # some dmesg repeats, so we need to dump the second and > iterations # replace all indented items with ~ so we can id them easily while # processing note that if user, may get error of read permissions # for some weird reason, real mem and avail mem are use a '=' separator, # who knows why, the others are ':' foreach (@db_data){ $_ =~ s/\s*=\s*|:\s*/:/; $_ =~ s/\"//g; $_ =~ s/^\s+/~/; $_ =~ s/\s\s/ /g; $_ =~ s/^(\S+)\sat\s/$1:at /; # ada0 at ahcich0 push(@{$dboot{'main'}}, $_); if ($use{'bsd-battery'} && /^acpi(bat|cmb)/){ push(@{$sysctl{'battery'}}, $_); } # ~Debug Features 0:<2 CTX BKPTs,4 Watchpoints,6 Breakpoints,PMUv3,Debugv8> elsif ($use{'bsd-cpu'} && (!/^~(Debug|Memory)/ && /(^cpu[0-9]+:|Features|^~*Origin:\s*)/)){ push(@{$dboot{'cpu'}}, $_); } # FreeBSD: 'da*' is a USB device 'ada*' is a SATA device 'mmcsd*' is an SD card # OpenBSD: 'sd' is usb device, 'wd' normal drive. OpenBSD uses sd for nvme drives # but also has the nvme data: # nvme1 at pci6 dev 0 function 0 vendor "Phison", unknown product 0x5012 rev 0x01: msix, NVMe 1.3 # nvme1: OWC Aura P12 1.0TB, firmware ECFM22.6, serial 2003100010208 # scsibus2 at nvme1: 2 targets, initiator 0 # sd1 at scsibus2 targ 1 lun 0: # sd1: 915715MB, 4096 bytes/sector, 234423126 sectors elsif ($use{'bsd-disk'} && /^(ad|ada|da|mmcblk|mmcsd|nvme([0-9]+n)?|sd|wd)[0-9]+(:|\sat\s|.*?\sdetached$)/){ $_ =~ s/^\(//; push (@{$dboot{'disk'}},$_); } if ($use{'bsd-machine'} && /^bios[0-9]:(at|vendor)/){ push(@{$sysctl{'machine'}}, $_); } elsif ($use{'bsd-machine'} && !$dboot{'machine-vm'} && /(\bhvm\b|innotek|\bkvm\b|microsoft.*virtual machine|openbsd[\s-]vmm|qemu|qumranet|vbox|virtio|virtualbox|vmware)/i){ push(@{$dboot{'machine-vm'}}, $_); } elsif ($use{'bsd-optical'} && /^(cd)[0-9]+(\([^)]+\))?(:|\sat\s)/){ push(@{$dboot{'optical'}},$_); } elsif ($use{'bsd-pci'} && /^(pci[0-9]+:at|\S+:at pci)/){ push(@{$dboot{'pci'}},$_); } elsif ($use{'bsd-ram'} && /(^spdmem)/){ push(@{$dboot{'ram'}}, $_); } } log_data('dump','$dboot{main}',$dboot{'main'}) if $b_log; print Dumper $dboot{'main'} if $dbg[11]; if ($dboot{'main'} && $b_log){ log_data('dump','$dboot{cpu}',$dboot{'cpu'}); log_data('dump','$dboot{disk}',$dboot{'disk'}); log_data('dump','$dboot{machine-vm}',$dboot{'machine-vm'}); log_data('dump','$dboot{optical}',$dboot{'optical'}); log_data('dump','$dboot{ram}',$dboot{'ram'}); log_data('dump','$dboot{usb}',$dboot{'usb'}); log_data('dump','$sysctl{battery}',$sysctl{'battery'}); log_data('dump','$sysctl{machine}',$sysctl{'machine'}); } if ($dboot{'main'} && $dbg[11]){ print("cpu:\n", Dumper $dboot{'cpu'}); print("disk:\n", Dumper $dboot{'disk'}); print("machine vm:\n", Dumper $dboot{'machine-vm'}); print("optical:\n", Dumper $dboot{'optical'}); print("ram:\n", Dumper $dboot{'ram'}); print("usb:\n", Dumper $dboot{'usb'}); print("sys battery:\n", Dumper $sysctl{'battery'}); print("sys machine:\n", Dumper $sysctl{'machine'}); } # this should help get rid of dmesg usb mounts not present # note if you take out one, put in another, it will always show the first # one, I think. Not great. Not using this means all drives attached # current session are shown, using it, possibly wrong drive shown, which is bad # not using this for now: && (my @disks = grep {/^hw\.disknames/} @{$dboot{'disk'}} if ($dboot{'disk'}){ # hw.disknames:sd0:,sd1:3242432,sd2: #$disks[0] =~ s/(^hw\.disknames:|:[^,]*)//g; #@disks = split(',',$disks[0]) if $disks[0]; my ($id,$value,%dboot_disks,@disks_live,@temp); # first, since openbsd has this, let's use it foreach (@{$dboot{'disk'}}){ if (!@disks_live && /^hw\.disknames/){ $_ =~ s/(^hw\.disknames:|:[^,]*)//g; @disks_live = split(/[,\s]/,$_) if $_; } else { push(@temp,$_); } } @{$dboot{'disk'}} = @temp if @temp; foreach my $row (@temp){ $row =~ /^([^:\s]+)[:\s]+(.+)/; $id = $1; $value = $2; push(@{$dboot_disks{$id}},$value); # get rid of detached or non present drives if ((@disks_live && !(grep {$id =~ /^$_/} @disks_live)) || $value =~ /\b(destroyed|detached)$/){ delete $dboot_disks{$id}; } } $dboot{'disk'} = \%dboot_disks; log_data('dump','post: $dboot{disk}',$dboot{'disk'}) if $b_log; print("post: disk:\n",Dumper $dboot{'disk'}) if $dbg[11]; } if ($use{'bsd-pci'} && $dboot{'pci'}){ my $bus_id = 0; foreach (@{$dboot{'pci'}}){ if (/^pci[0-9]+:at.*?bus\s([0-9]+)/){ $bus_id = $1; next; } elsif (/:at pci[0-9]+\sdev/){ $_ =~ s/^(\S+):at.*?dev\s([0-9]+)\sfunction\s([0-9]+)\s/$bus_id:$2:$3:$1:/; push(@temp,$_); } } $dboot{'pci'} = [@temp]; log_data('dump','$dboot{pci}',$dboot{'pci'}) if $b_log; print("pci:\n",Dumper $dboot{'pci'}) if $dbg[11]; } } eval $end if $b_log; } ## DesktopEnvironment # returns array: # 0: desktop name # 1: version # 2: toolkit # 3: toolkit version # 4: info extra desktop data # 5: wm # 6: wm version { package DesktopEnvironment; my ($b_gtk,$b_qt,$b_xprop,$desktop_session,$gdmsession,$kde_session_version, $xdg_desktop,@data,@xprop); my $desktop = []; sub get { eval $start if $b_log; set_desktop_values(); main::set_ps_gui() if !$loaded{'ps-gui'}; get_kde_trinity_data(); if (!@$desktop){ get_env_de_data(); } if (!@$desktop){ get_env_xprop_gnome_based_data(); } if (!@$desktop){ get_env_xfce_data(); } if (!@$desktop){ get_env_xprop_misc_data(); } if (!@$desktop){ get_ps_de_data(); } if ($extra > 2 && @$desktop){ set_info_data(); } if ($b_display && !$force{'display'} && $extra > 1){ get_wm(); } set_gtk_data() if $b_gtk && $extra > 1; set_qt_data() if $b_qt && $extra > 1; main::log_data('dump','@$desktop', $desktop) if $b_log; # ($b_xprop,$kde_session_version,$xdg_desktop,@data,@xprop) = (); eval $end if $b_log; return $desktop; } sub set_desktop_values { # NOTE $XDG_CURRENT_DESKTOP envvar is not reliable, but it shows certain desktops better. # most desktops are not using it as of 2014-01-13 (KDE, UNITY, LXDE. Not Gnome) $desktop_session = ($ENV{'DESKTOP_SESSION'}) ? prep_desktop_value($ENV{'DESKTOP_SESSION'}) : ''; $xdg_desktop = ($ENV{'XDG_CURRENT_DESKTOP'}) ? prep_desktop_value($ENV{'XDG_CURRENT_DESKTOP'}) : ''; $kde_session_version = ($ENV{'KDE_SESSION_VERSION'}) ? $ENV{'KDE_SESSION_VERSION'} : ''; # for fallback to fallback protections re false gnome id $gdmsession = ($ENV{'GDMSESSION'}) ? prep_desktop_value($ENV{'GDMSESSION'}) : ''; } # Note: an ubuntu regresssion replaces or adds 'ubuntu' string to # real value. Since ubuntu is the only distro I know that does this, # will add more distro type filters as/if we come across them sub prep_desktop_value { $_[0] = lc(main::trimmer($_[0])); $_[0] =~ s/\b(arch|debian|fedora|manjaro|mint|opensuse|ubuntu):?\s*//i; return $_[0]; } sub get_kde_trinity_data { eval $start if $b_log; my ($kded,$kded_name,$program,@version_data,@version_data2); my $kde_full_session = ($ENV{'KDE_FULL_SESSION'}) ? $ENV{'KDE_FULL_SESSION'} : ''; # we can't rely on 3 using kded3, it could be kded if ($kde_full_session && ($program = main::check_program('kded' . $kde_full_session))){ $kded = $program; $kded_name = 'kded' . $kde_full_session; } elsif ($program = main::check_program('kded')){ $kded = $program; $kded_name = 'kded'; } # note: if TDM is used to start kde, can pass ps tde test if ($desktop_session eq 'trinity' || $xdg_desktop eq 'trinity' || (!$desktop_session && !$xdg_desktop && (grep {/^tde/} @ps_gui))){ $desktop->[0] = 'Trinity'; if ($program = main::check_program('kdesktop')){ @version_data = main::grabber("$program --version 2>/dev/null"); $desktop->[1] = main::awk(\@version_data,'^TDE:',2,'\s+') if @version_data; } if ($extra > 1 && @version_data){ $desktop->[2] = 'Qt'; $desktop->[3] = main::awk(\@version_data,'^Qt:',2,'\s+') if @version_data; } } # works on 4, assume 5 will id the same, why not, no need to update in future # KDE_SESSION_VERSION is the integer version of the desktop # NOTE: as of plasma 5, the tool: about-distro MAY be available, that will show # actual desktop data, so once that's in debian/ubuntu, if it gets in, add that test elsif ($desktop_session eq 'kde-plasma' || $xdg_desktop eq 'kde' || $kde_session_version){ if ($kde_session_version && $kde_session_version <= 4){ @data = ($kded_name) ? main::program_values($kded_name) : (); if (@data){ $desktop->[0] = $data[3]; $desktop->[1] = main::program_version($kded,$data[0],$data[1],$data[2],$data[5],$data[6]); # kded exists, so we can now get the qt data string as well if ($desktop->[1] && $kded){ @version_data = main::grabber("$kded --version 2>/dev/null"); } } $desktop->[0] = 'KDE' if !$desktop->[0]; } else { # NOTE: this command string is almost certain to change, and break, with next # major plasma desktop, ie, 6. # qdbus org.kde.plasmashell /MainApplication org.qtproject.Qt.QCoreApplication.applicationVersion # Qt: 5.4.2 # KDE Frameworks: 5.11.0 # kf5-config: 1.0 # for QT, and Frameworks if we use it if (!@version_data && ($program = main::check_program("kf$kde_session_version-config"))){ @version_data = main::grabber("$program --version 2>/dev/null"); } if (!@version_data && ($program = main::check_program("kf-config"))){ @version_data = main::grabber("$program --version 2>/dev/null"); } # hope we don't use this fallback, not the same version as kde always if (!@version_data && $kded){ @version_data = main::grabber("$kded --version 2>/dev/null"); } if ($program = main::check_program("plasmashell")){ @version_data2 = main::grabber("$program --version 2>/dev/null"); $desktop->[1] = main::awk(\@version_data2,'^plasmashell',-1,'\s+'); } $desktop->[0] = 'KDE Plasma'; } if (!$desktop->[1]){ $desktop->[1] = ($kde_session_version) ? $kde_session_version : main::message('unknown-desktop-version'); } # print Data::Dumper::Dumper \@version_data; if ($extra > 1){ if (@version_data){ $desktop->[3] = main::awk(\@version_data,'^Qt:', 2,'\s+'); } # qmake can have variants, qt4-qmake, qt5-qmake, also qt5-default but not tested if (!$desktop->[3] && main::check_program("qmake")){ # note: this program has issues, it may appear to be in /usr/bin, but it # often fails to execute, so the below will have null output, but use as a # fall back test anyway. ($desktop->[2],$desktop->[3]) = main::program_data('qmake'); } $desktop->[2] ||= 'Qt'; } } # KDE_FULL_SESSION property is only available since KDE 3.5.5. elsif ($kde_full_session eq 'true'){ @version_data = ($kded) ? main::grabber("$kded --version 2>/dev/null") : (); $desktop->[0] = 'KDE'; $desktop->[1] = main::awk(\@version_data,'^KDE:',2,'\s+') if @version_data; if (!$desktop->[1]){ $desktop->[1] = '3.5'; } if ($extra > 1 && @version_data){ $desktop->[2] = 'Qt'; $desktop->[3] = main::awk(\@version_data,'^Qt:',2,'\s+') if @version_data; } } eval $end if $b_log; } sub get_env_de_data { eval $start if $b_log; my ($program,@version_data); if (!$desktop->[0]){ # 0: 1/0; 1: env var search; 2: data; 3: gtk tk; 4: qt tk; 5: ps_gui search my @desktops =( [1,'unity','unity',0,0], [0,'budgie','budgie-desktop',0,0], # debian package: lxde-core. # NOTE: some distros fail to set XDG data for root [1,'lxde','lxpanel',0,0,',^lxsession$'], [1,'razor','razor-session',0,1,'^razor-session$'], # BAD: lxqt-about opens dialogue, sigh. # Checked, lxqt-panel does show same version as lxqt-about [1,'lxqt','lxqt-panel',0,1,'^lxqt-session$'], [0,'^(razor|lxqt)$','lxqt-variant',0,1,'^(razor-session|lxqt-session)$'], # note, X-Cinnamon value strikes me as highly likely to change, so just # search for the last part [0,'cinnamon','cinnamon',1,0], # these so far have no cli version data [1,'deepin','deepin',0,1], # version comes from file read [1,'leftwm','leftwm',0,0], [1,'pantheon','pantheon',0,0], [1,'penrose','penrose',0,0],# unknown, just guessing [1,'lumina','lumina-desktop',0,1], [0,'manokwari','manokwari',1,0], [1,'ukui','ukui-session',0,1], ); foreach my $item (@desktops){ # Check if in xdg_desktop OR desktop_session OR if in $item->[6] and in ps_gui if ((($item->[0] && ($xdg_desktop eq $item->[1] || $desktop_session eq $item->[1])) || (!$item->[0] && ($xdg_desktop =~ /$item->[1]/ || $desktop_session =~ /$item->[1]/))) || ($item->[5] && @ps_gui && (grep {/$item->[5]/} @ps_gui))){ ($desktop->[0],$desktop->[1]) = main::program_data($item->[2]); $b_gtk = $item->[3]; $b_qt = $item->[4]; last; } } } eval $end if $b_log; } sub get_env_xprop_gnome_based_data { eval $start if $b_log; my ($program,$value,@version_data); # NOTE: Always add to set_prop the search term if you add an item!! set_xprop(); # add more as discovered return if $xdg_desktop eq 'xfce' || $gdmsession eq 'xfce'; # note that cinnamon split from gnome, and and can now be id'ed via xprop, # but it will still trigger the next gnome true case, so this needs to go # before gnome test eventually this needs to be better organized so all the # xprop tests are in the same section, but this is good enough for now. # NOTE: was checking for 'muffin' but that's not part of cinnamon if ($xdg_desktop eq 'cinnamon' || $gdmsession eq 'cinnamon' || ($b_xprop && (main::check_program('muffin') || main::check_program('cinnamon-session')) && main::awk(\@xprop,'_muffin'))){ ($desktop->[0],$desktop->[1]) = main::program_data('cinnamon','cinnamon',0); $b_gtk = 1; $desktop->[0] ||= 'Cinnamon'; } elsif ($xdg_desktop eq 'mate' || $gdmsession eq 'mate' || ($b_xprop && main::awk(\@xprop,'_marco'))){ # NOTE: mate-about and mate-sesssion vary which has the higher number, neither # consistently corresponds to the actual MATE version, so check both. my %versions = ('mate-about' => '','mate-session' => ''); foreach my $key (keys %versions){ if ($program = main::check_program($key)){ @data = main::program_data($key,$program,0); $desktop->[0] = $data[0]; $versions{$key} = $data[1]; } } # no consistent rule about which version is higher, so just compare them and take highest $desktop->[1] = main::compare_versions($versions{'mate-about'},$versions{'mate-session'}); # $b_gtk = 1; $desktop->[0] ||= 'MATE'; } # See sub for logic and comments elsif (check_gnome()){ if (main::check_program('gnome-about')){ ($desktop->[0],$desktop->[1]) = main::program_data('gnome-about'); } elsif (main::check_program('gnome-shell')){ ($desktop->[0],$desktop->[1]) = main::program_data('gnome','gnome-shell'); } $b_gtk = 1; $desktop->[0] ||= 'GNOME'; } eval $end if $b_log; } # Note, GNOME_DESKTOP_SESSION_ID is deprecated so we'll see how that works out # https://bugzilla.gnome.org/show_bug.cgi?id=542880. # NOTE: manjaro is leaving XDG data null, which forces the manual check for gnome, sigh... # some gnome programs can trigger a false xprop gnome ID # _GNOME_BACKGROUND_REPRESENTATIVE_COLORS(STRING) = "rgb(23,31,35)" sub check_gnome { eval $start if $b_log; my ($b_gnome,$detection) = (0,''); if ($xdg_desktop && $xdg_desktop =~ /gnome/){ $detection = 'xdg_current_desktop'; $b_gnome = 1; } # should work as long as string contains gnome, eg: peppermint:gnome # filtered explicitly in set_desktop_values elsif ($xdg_desktop && $xdg_desktop !~ /gnome/){ $detection = 'xdg_current_desktop'; } # possible values: lightdm-xsession, only positive match tests will work elsif ($gdmsession && $gdmsession eq 'gnome'){ $detection = 'gdmsession'; $b_gnome = 1; } # risky: Debian: $DESKTOP_SESSION = lightdm-xsession; Manjaro/Arch = xfce # note that mate/cinnamon would already have been caught so no need to add # explicit tests for them elsif ($desktop_session && $desktop_session eq 'gnome'){ $detection = 'desktop_session'; $b_gnome = 1; } # possible value: this-is-deprecated, but I believe only gnome based desktops # set this variable, so it doesn't matter what it contains elsif ($ENV{'GNOME_DESKTOP_SESSION_ID'}){ $detection = 'gnome_destkop_session_id'; $b_gnome = 1; } # maybe use ^_gnome_session instead? try it for a while elsif ($b_xprop && main::check_program('gnome-shell') && main::awk(\@xprop,'^_gnome_session')){ $detection = 'xprop-root'; $b_gnome = 1; } main::log_data('data','$detection:$b_gnome>>' . $detection . ":$b_gnome") if $b_log; eval $end if $b_log; return $b_gnome; } # Not strictly dependent on xprop data, which is not necessarily always present sub get_env_xfce_data { eval $start if $b_log; my (@version_data); # print join("\n", @xprop), "\n"; # String: "This is xfdesktop version 4.2.12" # alternate: xfce4-about --version > xfce4-about 4.10.0 (Xfce 4.10) # note: some distros/wm (e.g. bunsen) set $xdg_desktop to xfce to solve some # other issues so but are OpenBox. Not inxi issue. # $xdg_desktop can be /usr/bin/startxfce4 # print "xdg_d: $xdg_desktop gdms: $gdmsession\n"; if ($xdg_desktop eq 'xfce' || $gdmsession eq 'xfce' || ($b_xprop && main::check_program('xfdesktop')) && main::awk(\@xprop,'^(xfdesktop|xfce)')){ @data = main::program_values('xfdesktop'); $desktop->[0] = $data[3]; # xfdesktop --version out of x fails to get display, so no data @version_data = main::grabber('xfdesktop --version 2>/dev/null'); # out of x, this error goes to stderr, so it's an empty result $desktop->[1] = main::awk(\@version_data,$data[0],$data[1],'\s+'); #$desktop->[1] = main::program_version('xfdesktop',$data[0],$data[1],$data[2],$data[5],$data[6]); if (!$desktop->[1]){ my $version = '4'; # just assume it's 4, we tried if (main::check_program('xfce4-panel')){ $version = '4'; } # talk to xfce to see what id they will be using for xfce 5 elsif (main::check_program('xfce5-panel')){ $version = '5'; } # they might get rid of number, we'll see elsif (main::check_program('xfce-panel')){ $version = ''; } @data = main::program_values("xfce${version}-panel"); # print Data::Dumper::Dumper \@data; # this returns an error message to stdout in x, which breaks the version # xfce4-panel --version out of x fails to get display, so no data $desktop->[1] = main::program_version("xfce${version}-panel",$data[0],$data[1],$data[2],$data[5],$data[6]); # out of x this kicks out an error: xfce4-panel: Cannot open display $desktop->[1] = '' if $desktop->[1] !~ /[0-9]\./; } $desktop->[0] ||= 'Xfce'; $desktop->[1] ||= ''; # xfce isn't going to be 4 forever if ($extra > 1){ @data = main::program_values('xfdesktop-toolkit'); #$desktop->[3] = main::program_version('xfdesktop',$data[0],$data[1],$data[2],$data[5],$data[6]); $desktop->[3] = main::awk(\@version_data,$data[0],$data[1],'\s+'); $desktop->[2] = $data[3]; } } eval $end if $b_log; } # These require data from xprop, at least partially sub get_env_xprop_misc_data { eval $start if $b_log; # print join("\n", @xprop), "\n"; if ($xdg_desktop eq 'moksha' || $gdmsession eq 'moksha' || ($b_xprop && (main::check_program('enlightenment') || main::check_program('moksha')) && main::awk(\@xprop,'moksha'))){ # no -v or --version but version is in xprop -root # ENLIGHTENMENT_VERSION(STRING) = "Moksha 0.2.0.15989" $desktop->[0] = 'Moksha'; if ($b_xprop){ $desktop->[1] = main::awk(\@xprop,'(enlightenment|moksha)_version',2,'\s+=\s+'); $desktop->[1] =~ s/"?(Moksha|Enlightenment)\s([^"]+)"?/$2/i if $desktop->[1]; } } elsif ($xdg_desktop eq 'enlightenment' || $gdmsession eq 'enlightenment' || ($b_xprop && main::check_program('enlightenment') && main::awk(\@xprop,'enlightenment'))){ # no -v or --version but version is in xprop -root # ENLIGHTENMENT_VERSION(STRING) = "Enlightenment 0.16.999.49898" $desktop->[0] = 'Enlightenment'; if ($b_xprop){ $desktop->[1] = main::awk(\@xprop,'(enlightenment|moksha)_version',2,'\s+=\s+'); $desktop->[1] =~ s/"?(Moksha|Enlightenment)\s([^"]+)"?/$2/i if $desktop->[1]; } } # the sequence here matters, some desktops like icewm, razor, let you set different # wm, so we want to get the main controlling desktop first, then fall back to the wm # detections. get_ps_de_data() and get_wm() will handle alternate wm detections. # I believe all these will be X only wm, so xprop tests fine here. if ($b_xprop && !$desktop->[0]){ # 0 check program; 1 xprop search; 2: data; 3 - optional: ps_gui search my @desktops =( ['icewm','icewm','icewm'], # debian package: i3-wm ['i3','i3','i3'], ['mwm','^_motif','mwm'], # debian package name: wmaker ['WindowMaker','^_?windowmaker','wmaker'], ['wm2','^_wm2','wm2'], ['herbstluftwm','herbstluftwm','herbstluftwm'], ['fluxbox','blackbox_pid','fluxbox','^fluxbox$'], ['blackbox','blackbox_pid','blackbox'], ['openbox','openbox_pid','openbox'], ['amiwm','amiwm','amiwm'], ); foreach my $item (@desktops){ if (main::check_program($item->[0]) && main::awk(\@xprop,$item->[1]) && (!$item->[4] || (@ps_gui && (grep {/$item->[4]/} @ps_gui)))){ ($desktop->[0],$desktop->[1]) = main::program_data($item->[2]); last; } } } # need to check starts line because it's so short eval $end if $b_log; } sub get_ps_de_data { eval $start if $b_log; my ($program,@version_data); main::set_ps_gui() if !$loaded{'ps-gui'}; if (@ps_gui){ # the sequence here matters, some desktops like icewm, razor, let you set different # wm, so we want to get the main controlling desktop first # icewm and any other that permits alternate wm to be used need to go first # in this list. # unverfied: 2bwm catwm mcwm penrose snapwm uwm wmfs wmfs2 wingo wmii2 # xfdesktoo is fallback in case not in xprop my @wms = qw(icewm 2bwm 9wm aewm aewm\+\+ afterstep amiwm antiwm awesome blackbox bspwm calmwm catwm cde ctwm dwm echinus evilwm fluxbox fvwm hackedbox herbstluftwm instantwm i3 ion3 jbwm jwm larswm leftwm lwm matchbox-window-manager mcwm mini musca mvwm mwm nawm notion nscde openbox pekwm penrose qvwm ratpoison sawfish scrotwm snapwm spectrwm tinywm tvtwm twm uwm windowlab wmfs wmfs2 wingo wmii2 wmii wmx xmonad yeahwm); my $matches = join('|',@wms) . $wl_compositors; # note: use my $psg to avoid bizarre return from program_data to ps_gui write foreach my $psg (@ps_gui){ # no need to use check program with short list of ps_gui if ($psg =~ /^($matches)$/){ my $item = $1; ($desktop->[0],$desktop->[1]) = main::program_data($item); if ($extra > 1 && $item eq 'xfdesktop'){ ($desktop->[2],$desktop->[3]) = main::program_data('xfdesktop-toolkit',$item,1); } last; } } if (!$desktop->[0]){ # order matters, these have alternate search patterns from default name # 1 check program; 2 ps_gui search; 3 data; 4: trigger alternate values/version @wms =( ['WindowMaker','WindowMaker','wmaker',''], ['clfswm','.*(sh|c?lisp)?.*clfswm','clfswm',''], ['cwm','(openbsd-)?cwm','cwm',''], ['flwm','flwm','flwm',''], ['flwm','flwm_topside','flwm',''], ['fvwm-crystal','fvwm.*-crystal','fvwm-crystal','fvwm'], ['fvwm1','fvwm1','fvwm1',''], ['fvwm2','fvwm2','fvwm2',''], ['fvwm3','fvwm3','fvwm3',''], ['fvwm95','fvwm95','fvwm95',''], ['qtile','.*(python.*)?qtile','qtile',''], ['stumpwm','(sh|c?lisp)?.*stumpwm','stumpwm',''], ); foreach my $item (@wms){ # no need to use check program with short list of ps_gui if (grep {/^$item->[1]$/} @ps_gui){ ($desktop->[0],$desktop->[1]) = main::program_data($item->[2],$item->[3]); if ($extra > 1 && $item->[0] eq 'xfdesktop'){ ($desktop->[2],$desktop->[3]) = main::program_data('xfdesktop-toolkit',$item->[0],1); } last; } } } } eval $end if $b_log; } # NOTE: used to use a super slow method here, but gtk-launch returns # the gtk version I believe sub set_gtk_data { eval $start if $b_log; if (main::check_program('gtk-launch')){ ($desktop->[2],$desktop->[3]) = main::program_data('gtk-launch'); } eval $end if $b_log; } sub set_qt_data { eval $start if $b_log; my ($program,@data,@version_data); my $kde_version = $kde_session_version; $program = ''; if (!$kde_version){ if ($program = main::check_program("kded6")){$kde_version = 6;} elsif ($program = main::check_program("kded5")){$kde_version = 5;} elsif ($program = main::check_program("kded4")){$kde_version = 4;} elsif ($program = main::check_program("kded")){$kde_version = '';} } # alternate: qt4-default, qt4-qmake or qt5-default, qt5-qmake # often this exists, is executable, but actually is nothing, shows error if (!$desktop->[3] && main::check_program('qmake')){ ($desktop->[2],$desktop->[3]) = main::program_data('qmake'); } if (!$desktop->[3] && main::check_program('qtdiag')){ ($desktop->[2],$desktop->[3]) = main::program_data('qtdiag'); } if (!$desktop->[3] && ($program = main::check_program("kf$kde_version-config"))){ @version_data = main::grabber("$program --version 2>/dev/null"); $desktop->[2] = 'Qt'; $desktop->[3] = main::awk(\@version_data,'^Qt:',2) if @version_data; } # note: qt 5 does not show qt version in kded5, sigh if (!$desktop->[3] && ($program = main::check_program("kded$kde_version"))){ @version_data = main::grabber("$program --version 2>/dev/null"); $desktop->[2] = 'Qt'; $desktop->[3] = main::awk(\@version_data,'^Qt:',2) if @version_data; } eval $end if $b_log; } sub get_wm { eval $start if $b_log; if (!$force{'wmctrl'}){ get_wm_main(); } # note, some wm, like cinnamon muffin, do not appear in ps aux, but do in wmctrl if ((!$desktop->[5] || $force{'wmctrl'}) && (my $program = main::check_program('wmctrl'))){ get_wm_wmctrl($program); } eval $end if $b_log; } sub get_wm_main { eval $start if $b_log; my ($wms,$working); # xprop is set only if not kde/gnome/cinnamon/mate/budgie/lx.. if ($b_xprop){ #KWIN_RUNNING $wms = 'amiwm|blackbox|bspwm|compiz|kwin_wayland|kwin_x11|kwinft|kwin|marco|'; $wms .= 'motif|muffin|openbox|herbstluftwm|twin|ukwm|wm2|windowmaker|i3'; foreach (@xprop){ if (/($wms)/){ $working = $1; $working = 'wmaker' if $working eq 'windowmaker'; last; } } } if (!$desktop->[5]){ main::set_ps_gui() if !$loaded{'ps-gui'}; # order matters, see above logic # due to lisp/python starters, clfswm/stumpwm/qtile will not detect here my @wms = qw(2bwm 9wm aewm aewm\+\+ afterstep amiwm antiwm awesome blackbox calmwm catwm clfswm compiz ctwm (openbsd-)?cwm fluxbox bspwm budgie-wm deepin-wm dwm echinus evilwm flwm fvwm-crystal fvwm1 fvwm2 fvwm3 fvwm95 fvwm gala gnome-shell hackedbox i3 instantwm ion3 jbwm jwm twin kwin_wayland kwin_x11 kwinft kwin larswm leftwm lwm matchbox-window-manager marco mcwm mini muffin musca deepin-mutter mutter deepin-metacity metacity mvwm mwm nawm notion openbox qtile qvwm penrose ratpoison sawfish scrotwm snapwm spectrwm stumpwm tinywm tvtwm twm ukwm windowlab WindowMaker wingo wmfs2? wmii2? wmx xfwm[45]? xmonad yeahwm); my $wms = join('|',@wms) . $wl_compositors; foreach my $psg (@ps_gui){ if ($psg =~ /^($wms)$/){ $working = $1; last; } } } get_wm_version('manual',$working) if $working; $desktop->[5] = $working if !$desktop->[5] && $working; eval $end if $b_log; } sub get_wm_wmctrl { eval $start if $b_log; my ($program) = @_; my $cmd = "$program -m 2>/dev/null"; my @data = main::grabber($cmd,'','strip'); main::log_data('dump','@data',\@data) if $b_log; $desktop->[5] = main::awk(\@data,'^Name',2,'\s*:\s*'); $desktop->[5] = '' if $desktop->[5] && $desktop->[5] eq 'N/A'; if ($desktop->[5]){ # variants: gnome shell; # IceWM 1.3.8 (Linux 3.2.0-4-amd64/i686) ; Metacity (Marco) ; Xfwm4 $desktop->[5] =~ s/\d+\.\d\S+|[\[\(].*\d+\.\d.*[\)\]]//g; $desktop->[5] = main::trimmer($desktop->[5]); # change Metacity (Marco) to marco if ($desktop->[5] =~ /marco/i){$desktop->[5] = 'marco'} elsif ($desktop->[5] =~ /muffin/i){$desktop->[5] = 'muffin'} elsif (lc($desktop->[5]) eq 'gnome shell'){$desktop->[5] = 'gnome-shell'} elsif ($desktop_session eq 'trinity' && lc($desktop->[5]) eq 'kwin'){$desktop->[5] = 'Twin'} get_wm_version('wmctrl',$desktop->[5]); } eval $end if $b_log; } sub get_wm_version { eval $start if $b_log; my ($type,$wm) = @_; # we don't want the gnome-shell version, and the others have no --version # we also don't want to run --version again on stuff we already have tested return if !$wm || $wm =~ /^(budgie-wm|gnome-shell)$/ || ($desktop->[0] && lc($desktop->[0]) eq lc($wm)); my $temp = (split(/\s+/, $wm))[0]; if ($temp){ $temp = (split(/\s+/, $temp))[0]; $temp = lc($temp); $temp = 'wmaker' if $temp eq 'windowmaker'; my @data = main::program_data($temp,$temp,3); return if !$data[0]; # print Data::Dumper::Dumper \@data; $desktop->[5] = $data[0] if $type eq 'manual'; $desktop->[6] = $data[1] if $data[1]; } eval $end if $b_log; } sub set_info_data { eval $start if $b_log; main::set_ps_gui() if !$loaded{'ps-gui'}; my (@data,@info,$item); my $pattern = 'alltray|awn|bar|bmpanel|bmpanel2|budgie-panel|cairo-dock|'; $pattern .= 'dde-dock|dmenu|dockbarx|docker|docky|dzen|dzen2|'; $pattern .= 'fancybar|fbpanel|fspanel|glx-dock|gnome-panel|hpanel|'; $pattern .= 'i3bar|i3status|i3-status-rs|icewmtray|'; $pattern .= 'kdocker|kicker|'; $pattern .= 'latte|latte-dock|lemonbar|ltpanel|luastatus|lxpanel|lxqt-panel|'; $pattern .= 'matchbox-panel|mate-panel|nwg-bar|nwg-dock|nwg-panel|ourico|'; $pattern .= 'perlpanel|plank|plasma-desktop|plasma-netbook|polybar|pypanel|'; $pattern .= 'razor-panel|razorqt-panel|rootbar|sfwbar|stalonetray|swaybar|'; $pattern .= 'taskbar|tint2|trayer|'; $pattern .= 'ukui-panel|vala-panel|wapanel|waybar|wbar|wharf|wingpanel|witray|'; $pattern .= 'xfce4-panel|xfce5-panel|xmobar|yabar|yambar'; if (@data = grep {/^($pattern)$/} @ps_gui){ # only one entry per type, can be multiple foreach $item (@data){ if (! grep {$item =~ /$_/} @info){ $item = main::trimmer($item); $item =~ s/.*\///; push(@info, (split(/\s+/, $item))[0]); } } } if (@info){ main::uniq(\@info); $desktop->[4] = join(', ', @info); } eval $end if $b_log; } sub set_xprop { eval $start if $b_log; if (my $program = main::check_program('xprop')){ @xprop = main::grabber("xprop -root $display_opt 2>/dev/null"); if (@xprop){ # add wm / de as required, but only add what is really tested for above # XFDESKTOP_IMAGE_FILE; XFCE_DESKTOP my $pattern = '^amiwm|blackbox_pid|bspwm|compiz|enlightenment|^_gnome|'; $pattern .= 'herbstluftwm|^kwin_|^i3_|icewm|_marco|moksha|^_motif|_muffin|'; $pattern .= 'openbox_pid|^_ukwm|^_?windowmaker|^_wm2|^(xfdesktop|xfce)'; # let's only do these searches once @xprop = grep {/^\S/ && /($pattern)/i} @xprop; $_ = lc for @xprop; $b_xprop = 1 if scalar @xprop > 0; } } # print "@xprop\n"; eval $end if $b_log; } } ## DeviceData # creates arrays: $devices{'audio'}; $devices{'graphics'}; $devices{'hwraid'}; # $devices{'network'}; $devices{'timer'} and local @devices for logging/debugging # 0: type # 1: type_id # 2: bus_id # 3: sub_id # 4: device # 5: vendor_id # 6: chip_id # 7: rev # 8: port # 9: driver # 10: modules # 11: driver_nu [bsd, like: em0 - driver em; nu 0. Used to match IF in -n # 12: subsystem/vendor # 13: subsystem vendor_id:chip id # 14: soc handle # 15: serial number { package DeviceData; my (@bluetooth,@devices,@files,@full_names,@pcis,@temp,@temp2,@temp3,%lspci_n); my ($b_bt_check,$b_lspci_n); my ($busid,$busid_nu,$chip_id,$content,$device,$driver,$driver_nu,$file, $handle,$modules,$port,$rev,$serial,$temp,$type,$type_id,$vendor,$vendor_id); sub set { eval $start if $b_log; ${$_[0]} = 1; # set check by reference if ($use{'pci'}){ if (!$bsd_type){ if ($alerts{'lspci'}->{'action'} eq 'use'){ lspci_data(); } # ! -d '/proc/bus/pci' # this is sketchy, a sbc won't have pci, but a non sbc arm may have it, so # build up both and see what happens if (%risc){ soc_data(); } } else { # if (1 == 1){ if ($alerts{'pciconf'}->{'action'} eq 'use'){ pciconf_data(); } elsif ($alerts{'pcidump'}->{'action'} eq 'use'){ pcidump_data(); } elsif ($alerts{'pcictl'}->{'action'} eq 'use'){ pcictl_data(); } } if ($dbg[9]){ print Data::Dumper::Dumper $devices{'audio'}; print Data::Dumper::Dumper $devices{'bluetooth'}; print Data::Dumper::Dumper $devices{'graphics'}; print Data::Dumper::Dumper $devices{'network'}; print Data::Dumper::Dumper $devices{'hwraid'}; print Data::Dumper::Dumper $devices{'timer'}; print "vm: $device_vm\n"; } if ($b_log){ main::log_data('dump','$devices{audio}',$devices{'audio'}); main::log_data('dump','$devices{bluetooth}',$devices{'bluetooth'}); main::log_data('dump','$devices{graphics}',$devices{'graphics'}); main::log_data('dump','$devices{hwraid}',$devices{'hwraid'}); main::log_data('dump','$devices{network}',$devices{'network'}); main::log_data('dump','$devices{timer}',$devices{'timer'}); } } undef @devices; eval $end if $b_log; } sub lspci_data { eval $start if $b_log; my ($busid_full,$subsystem,$subsystem_id); my $data = pci_grabber('lspci'); # print Data::Dumper::Dumper $data; foreach (@$data){ # print "$_\n"; if ($device){ if ($_ eq '~'){ @temp = ($type,$type_id,$busid,$busid_nu,$device,$vendor_id,$chip_id, $rev,$port,$driver,$modules,$driver_nu,$subsystem,$subsystem_id); assign_data('pci',\@temp); $device = ''; # print "$busid $device_id r:$rev p: $port\n$type\n$device\n"; } elsif ($_ =~ /^Subsystem.*\[([a-f0-9]{4}:[a-f0-9]{4})\]/){ $subsystem_id = $1; $subsystem = (split(/^Subsystem:\s*/, $_))[1]; $subsystem =~ s/(\s?\[[^\]]+\])+$//g; $subsystem = main::clean($subsystem); $subsystem = main::clean_pci($subsystem,'pci'); $subsystem = main::clean_pci_subsystem($subsystem); # print "ss:$subsystem\n"; } elsif ($_ =~ /^I\/O\sports/){ $port = (split(/\s+/, $_))[3]; # print "p:$port\n"; } elsif ($_ =~ /^Kernel\sdriver\sin\suse/){ $driver = (split(/:\s*/, $_))[1]; } elsif ($_ =~ /^Kernel\smodules/i){ $modules = (split(/:\s*/, $_))[1]; } } # note: arm servers can have more complicated patterns # 0002:01:02.0 Ethernet controller [0200]: Cavium, Inc. THUNDERX Network Interface Controller virtual function [177d:a034] (rev 08) # seen cases of lspci trimming too long lines like this: # 01:00.0 Display controller [0380]: Advanced Micro Devices, Inc. [AMD/ATI] Topaz XT [Radeon R7 M260/M265 / M340/M360 / M440/M445 / 530/535 / 620/625 Mobile] [10... (rev c3) (prog-if 00 [Normal decode]) # \s(.*)\s\[([0-9a-f]{4}):([0-9a-f]{4})\](\s\(rev\s([^\)]+)\))? elsif ($_ =~ /^((([0-9a-f]{2,4}:)?[0-9a-f]{2}:[0-9a-f]{2})[.:]([0-9a-f]+))\s+/){ $busid_full = $1; $busid = $2; $busid_nu = hex($4); ($chip_id,$rev,$type,$type_id,$vendor_id) = ('','','','',''); $_ =~ s/^\Q$busid_full\E\s+//; # old systems didn't use [...] but type will get caught in lspci_n check if ($_ =~ /^(([^\[]+?)\s+\[([a-f0-9]{4})\]:\s+)/){ $type = $2; $type_id = $3; $_ =~ s/^\Q$1\E//; $type = lc($type); $type = main::clean_pci($type,'pci'); $type =~ s/\s+$//; } # trim off end prog-if and rev items if ($_ =~ /(\s+\(prog[^\)]+\))/){ $_ =~ s/\Q$1\E//; } if ($_ =~ /(\s+\(rev\s+[^\)]+\))/){ $rev = $2; $_ =~ s/\Q$1\E//; } # get rid of anything in parentheses at end in case other variants show # up, which they probably will. if ($_ =~ /((\s+\([^\)]+\))+)$/){ $_ =~ s/\Q$1\E//; } if ($_ =~ /(\s+\[([0-9a-f]{4}):([0-9a-f]{4})\])$/){ $vendor_id = $2; $chip_id = $3; $_ =~ s/\Q$1\E//; } # lspci -nnv string trunctation bug elsif ($_ =~ /(\s+\[[^\]]*\.\.\.)$/){ $_ =~ s/\Q$1\E//; } $device = $_; # cases of corrupted string set to '' $device = main::clean($device); # corrupted lspci truncation bug; and ancient lspci, 2.4 kernels if (!$vendor_id){ my $temp = lspci_n_data($busid_full); if (@$temp){ $type_id = $temp->[0] if !$type_id; $vendor_id = $temp->[1]; $chip_id = $temp->[2]; $rev = $temp->[3] if !$rev && $temp->[3]; } } $use{'hardware-raid'} = 1 if $type_id eq '0104'; ($driver,$driver_nu,$modules,$port,$subsystem,$subsystem_id) = ('','','','','',''); } } print Data::Dumper::Dumper \@devices if $dbg[4]; main::log_data('dump','lspci @devices',\@devices) if $b_log; eval $end if $b_log; } # args: 0: busID # returns if valid busID: (classID,vendorID,productID,revNu) # almost never used, only in case of lspci -nnv line truncation bug sub lspci_n_data { eval $start if $b_log; my ($bus_id) = @_; if (!$b_lspci_n){ $b_lspci_n = 1; my (@data); if ($fake{'lspci'}){ # my $file = "$fake_data_dir/pci/lspci/steve-mint-topaz-lspci-n.txt"; # my $file = "$fake_data_dir/pci/lspci/ben81-hwraid-lspci-n.txt"; # @data = main::reader($file,'strip'); } else { @data = main::grabber($alerts{'lspci'}->{'path'} . ' -n 2>/dev/null','','strip'); } foreach (@data){ if (/^([a-f0-9:\.]+)\s+([a-f0-9]{4}):\s+([a-f0-9]{4}):([a-f0-9]{4})(\s+\(rev\s+([0-9a-z\.]+)\))?/){ my $rev = (defined $6) ? $6 : ''; $lspci_n{$1} = [$2,$3,$4,$rev]; } } print Data::Dumper::Dumper \%lspci_n if $dbg[4]; main::log_data('dump','%lspci_n',\%lspci_n) if $b_log; } my $return = ($lspci_n{$bus_id}) ? $lspci_n{$bus_id}: []; print Data::Dumper::Dumper $return if $dbg[50]; main::log_data('dump','@$return') if $b_log; eval $end if $b_log; return $return; } # em0@pci0:6:0:0: class=0x020000 card=0x10d315d9 chip=0x10d38086 rev=0x00 hdr=0x00 # vendor = 'Intel Corporation' # device = 'Intel 82574L Gigabit Ethernet Controller (82574L)' # class = network # subclass = ethernet sub pciconf_data { eval $start if $b_log; my $data = pci_grabber('pciconf'); foreach (@$data){ if ($driver){ if ($_ eq '~'){ $vendor = main::clean($vendor); $device = main::clean($device); # handle possible regex in device name, like [ConnectX-3] # and which could make matches fail my $device_temp = main::clean_regex($device); if ($vendor && $device){ if (main::clean_regex($vendor) !~ /\Q$device_temp\E/i){ $device = "$vendor $device"; } } elsif (!$device){ $device = $vendor; } @temp = ($type,$type_id,$busid,$busid_nu,$device,$vendor_id,$chip_id, $rev,$port,$driver,$modules,$driver_nu); assign_data('pci',\@temp); $driver = ''; # print "$busid $device_id r:$rev p: $port\n$type\n$device\n"; } elsif ($_ =~ /^vendor/){ $vendor = (split(/\s+=\s+/, $_))[1]; # print "p:$port\n"; } elsif ($_ =~ /^device/){ $device = (split(/\s+=\s+/, $_))[1]; } elsif ($_ =~ /^class/i){ $type = (split(/\s+=\s+/, $_))[1]; } } # pre freebsd 13, note chip is product+vendor # atapci0@pci0:0:1:1: class=0x01018a card=0x00000000 chip=0x71118086 rev=0x01 hdr=0x00 # freebsd 13 # isab0@pci0:0:1:0: class=0x060100 rev=0x00 hdr=0x00 vendor=0x8086 device=0x7000 subvendor=0x0000 subdevice=0x0000 if (/^([^@]+)\@pci([0-9]{1,3}:[0-9]{1,3}:[0-9]{1,3}):([0-9]{1,3}):/){ $driver = $1; $busid = $2; $busid_nu = $3; $driver = $1; $driver =~ s/([0-9]+)$//; $driver_nu = $1; # we don't use the sub sub class part of the class id, just first 4 if (/\bclass=0x([\S]{4})\S*\b/){ $type_id = $1; } if (/\brev=0x([\S]+)\b/){ $rev = $1; } if (/\bvendor=0x([\S]+)\b/){ $vendor_id = $1; } if (/\bdevice=0x([\S]+)\b/){ $chip_id = $1; } # yes, they did it backwards, product+vendor id if (/\bchip=0x([a-f0-9]{4})([a-f0-9]{4})\b/){ $chip_id = $1; $vendor_id = $2; } ($device,$type,$vendor) = ('','',''); } } print Data::Dumper::Dumper \@devices if $dbg[4]; main::log_data('dump','pciconf @devices',\@devices) if $b_log; eval $end if $b_log; } sub pcidump_data { eval $start if $b_log; my $data = pci_grabber('pcidump'); main::set_dboot_data() if !$loaded{'dboot'}; foreach (@$data){ if ($_ eq '~' && $busid && $device){ @temp = ($type,$type_id,$busid,$busid_nu,$device,$vendor_id,$chip_id, $rev,$port,$driver,$modules,$driver_nu,'','','',$serial); assign_data('pci',\@temp); ($type,$type_id,$busid,$busid_nu,$device,$vendor_id,$chip_id, $rev,$port,$driver,$modules,$driver_nu,$serial) = (); next; } if ($_ =~ /^([0-9a-f:]+):([0-9]+):\s([^:]+)$/i){ $busid = $1; $busid_nu = $2; ($driver,$driver_nu) = pcidump_driver("$busid:$busid_nu") if $dboot{'pci'}; $device = main::clean($3); } elsif ($_ =~ /^0x[\S]{4}:\s+Vendor ID:\s+([0-9a-f]{4}),?\s+Product ID:\s+([0-9a-f]{4})/){ $vendor_id = $1; $chip_id = $2; } elsif ($_ =~ /^0x[\S]{4}:\s+Class:\s+([0-9a-f]{2})(\s[^,]+)?,?\s+Subclass:\s+([0-9a-f]{2})(\s+[^,]+)?,?(\s+Interface: ([0-9a-f]+),?\s+Revision: ([0-9a-f]+))?/){ $type = pci_class($1); $type_id = "$1$3"; } elsif (/^Serial Number:\s*(\S+)/){ $serial = $1; } } print Data::Dumper::Dumper \@devices if $dbg[4]; main::log_data('dump','pcidump @devices',\@devices) if $b_log; eval $end if $b_log; } sub pcidump_driver { eval $start if $b_log; my $bus_id = $_[0]; my ($driver,$nu); for (@{$dboot{'pci'}}){ if (/^$bus_id:([^0-9]+)([0-9]+):/){ $driver = $1; $nu = $2; last; } } eval $end if $b_log; return ($driver,$nu); } sub pcictl_data { eval $start if $b_log; my $data = pci_grabber('pcictl'); my $data2 = pci_grabber('pcictl-n'); foreach (@$data){ if ($_ eq '~' && $busid && $device){ @temp = ($type,$type_id,$busid,$busid_nu,$device,$vendor_id,$chip_id, $rev,$port,$driver,$modules,$driver_nu); assign_data('pci',\@temp); ($type,$type_id,$busid,$busid_nu,$device,$vendor_id,$chip_id, $rev,$port,$driver,$modules,$driver_nu) = (); next; } # it's too fragile to get these in one matching so match, trim, next match if (/\s+\[([^\]0-9]+)([0-9]+)\]$/){ $driver = $1; $driver_nu = $2; $_ =~ s/\s+\[[^\]]+\]$//; } if (/\s+\(.*?(revision 0x([^\)]+))?\)/){ $rev = $2 if $2; $_ =~ s/\s+\([^\)]+?\)$//; } if ($_ =~ /^([0-9a-f:]+):([0-9]+):\s+([^.]+?)$/i){ $busid = $1; $busid_nu = $2; $device = main::clean($3); my $working = (grep {/^${busid}:${busid_nu}:\s/} @$data2)[0]; if ($working && $working =~ /^${busid}:${busid_nu}:\s+0x([0-9a-f]{4})([0-9a-f]{4})\s+\(0x([0-9a-f]{2})([0-9a-f]{2})[0-9a-f]+\)/){ $vendor_id = $1; $chip_id = $2; $type = pci_class($3); $type_id = "$3$4"; } } } print Data::Dumper::Dumper \@devices if $dbg[4]; main::log_data('dump','pcidump @devices',\@devices) if $b_log; eval $end if $b_log; } sub pci_grabber { eval $start if $b_log; my ($program) = @_; my ($args,$path,$pattern,$data); my $working = []; if ($program eq 'lspci'){ # 2.2.8 lspci did not support -k, added in 2.2.9, but -v turned on -k $args = ' -nnv'; $path = $alerts{'lspci'}->{'path'}; $pattern = q/^[0-9a-f]+:/; # i only added perl 5.14, don't use qr/ } elsif ($program eq 'pciconf'){ $args = ' -lv'; $path = $alerts{'pciconf'}->{'path'}; $pattern = q/^([^@]+)\@pci/; # i only added perl 5.14, don't use qr/ } elsif ($program eq 'pcidump'){ $args = ' -v'; $path = $alerts{'pcidump'}->{'path'}; $pattern = q/^[0-9a-f]+:/; # i only added perl 5.14, don't use qr/ } elsif ($program eq 'pcictl'){ $args = ' pci0 list -N'; $path = $alerts{'pcictl'}->{'path'}; $pattern = q/^[0-9a-f:]+:/; # i only added perl 5.14, don't use qr/ } elsif ($program eq 'pcictl-n'){ $args = ' pci0 list -n'; $path = $alerts{'pcictl'}->{'path'}; $pattern = q/^[0-9a-f:]+:/; # i only added perl 5.14, don't use } if ($fake{'lspci'} || $fake{'pciconf'} || $fake{'pcictl'} || $fake{'pcidump'}){ # my $file = "$fake_data_dir/pci/pciconf/pci-freebsd-8.2-2"; # my $file = "$fake_data_dir/pci/pcidump/pci-openbsd-6.1-vm.txt"; # my $file = "$fake_data_dir/pci/pcictl/pci-netbsd-9.1-vm.txt"; # my $file = "$fake_data_dir/pci/lspci/racermach-1-knnv.txt"; # my $file = "$fake_data_dir/pci/lspci/rk016013-knnv.txt"; # my $file = "$fake_data_dir/pci/lspci/kot--book-lspci-nnv.txt"; # my $file = "$fake_data_dir/pci/lspci/steve-mint-topaz-lspci-nnkv.txt"; # my $file = "$fake_data_dir/pci/lspci/ben81-hwraid-lspci-nnv.txt"; # my $file = "$fake_data_dir/pci/lspci/gx78b-lspci-nnv.txt"; # $data = main::reader($file,'strip','ref'); } else { $data = main::grabber("$path $args 2>/dev/null",'','strip','ref'); } if (@$data){ $use{'pci-tool'} = 1 if scalar @$data > 10; foreach (@$data){ # this is the group separator and assign trigger if ($_ =~ /$pattern/i){ push(@$working, '~'); } push(@$working, $_); } push(@$working, '~'); } print Data::Dumper::Dumper $working if $dbg[30]; eval $end if $b_log; return $working; } sub soc_data { eval $start if $b_log; soc_devices_files(); soc_devices(); soc_devicetree(); print Data::Dumper::Dumper \@devices if $dbg[4]; main::log_data('dump','soc @devices',\@devices) if $b_log; eval $end if $b_log; } # 1: /sys/devices/platform/soc/1c30000.ethernet/uevent:["DRIVER=dwmac-sun8i", "OF_NAME=ethernet", # "OF_FULLNAME=/soc/ethernet@1c30000", "OF_COMPATIBLE_0=allwinner,sun8i-h3-emac", # "OF_COMPATIBLE_N=1", "OF_ALIAS_0=ethernet0", # "MODALIAS=of:NethernetTCallwinner,sun8i-h3-emac"] # 2: /sys/devices/platform/soc:audio/uevent:["DRIVER=bcm2835_audio", "OF_NAME=audio", "OF_FULLNAME=/soc/audio", # "OF_COMPATIBLE_0=brcm,bcm2835-audio", "OF_COMPATIBLE_N=1", "MODALIAS=of:NaudioTCbrcm,bcm2835-audio"] # 3: /sys/devices/platform/soc:fb/uevent:["DRIVER=bcm2708_fb", "OF_NAME=fb", "OF_FULLNAME=/soc/fb", # "OF_COMPATIBLE_0=brcm,bcm2708-fb", "OF_COMPATIBLE_N=1", "MODALIAS=of:NfbTCbrcm,bcm2708-fb"] # 4: /sys/devices/platform/soc/1c40000.gpu/uevent:["OF_NAME=gpu", "OF_FULLNAME=/soc/gpu@1c40000", # "OF_COMPATIBLE_0=allwinner,sun8i-h3-mali", "OF_COMPATIBLE_1=allwinner,sun7i-a20-mali", # "OF_COMPATIBLE_2=arm,mali-400", "OF_COMPATIBLE_N=3", # "MODALIAS=of:NgpuTCallwinner,sun8i-h3-maliCallwinner,sun7i-a20-maliCarm,mali-400"] # 5: /sys/devices/platform/soc/soc:internal-regs/d0018180.gpio/uevent # 6: /sys/devices/soc.0/1180000001800.mdio/8001180000001800:05/uevent # ["DRIVER=AR8035", "OF_NAME=ethernet-phy" # 7: /sys/devices/soc.0/1c30000.eth/uevent # 8: /sys/devices/wlan.26/uevent [from pine64] # 9: /sys/devices/platform/audio/uevent:["DRIVER=bcm2835_AUD0", "OF_NAME=audio" # 10: /sys/devices/vio/71000002/uevent:["DRIVER=ibmveth", "OF_NAME=l-lan" # 11: /sys/devices/platform/soc:/soc:i2c-hdmi:/i2c-2/2-0050/uevent:['OF_NAME=hdmiddc' # 12: /sys/devices/platform/soc:/soc:i2c-hdmi:/uevent:['DRIVER=i2c-gpio', 'OF_NAME=i2c-hdmi' # 13: /sys/devices/platform/scb/fd580000.ethernet/uevent # 14: /sys/devices/platform/soc/fe300000.mmcnr/mmc_host/mmc1/mmc1:0001/mmc1:0001:1/uevent (wifi, pi 3,4) # 15: Pi BT: /sys/devices/platform/soc/fe201000.serial/uevent # 16: Pi BT: /sys/devices/platform/soc/fe201000.serial/tty/ttyAMA0/hci0 sub soc_devices_files { eval $start if $b_log; if (-d '/sys/devices/platform/'){ @files = main::globber('/sys/devices/platform/soc*/*/uevent'); @temp2 = main::globber('/sys/devices/platform/soc*/*/*/uevent'); push(@files,@temp2) if @temp2; if (-e '/sys/devices/platform/scb'){ @temp2 = main::globber('/sys/devices/platform/scb/*/uevent'); push(@files,@temp2) if @temp2; @temp2 = main::globber('/sys/devices/platform/scb/*/*/uevent'); push(@files,@temp2) if @temp2; } @temp2 = main::globber('/sys/devices/platform/*/uevent'); push(@files,@temp2) if @temp2; } if (main::globber('/sys/devices/soc*')){ @temp2 = main::globber('/sys/devices/soc*/*/uevent'); push(@files,@temp2) if @temp2; @temp2 = main::globber('/sys/devices/soc*/*/*/uevent'); push(@files,@temp2) if @temp2; } @temp2 = main::globber('/sys/devices/*/uevent'); # see case 8 push(@files,@temp2) if @temp2; @temp2 = main::globber('/sys/devices/*/*/uevent'); # see case 10 push(@files,@temp2) if @temp2; undef @temp2; # not sure why, but even as root/sudo, /subsystem|driver/uevent are unreadable with -r test true @files = grep {!/\/(subsystem|driver)\//} @files if @files; main::uniq(\@files); eval $end if $b_log; } sub soc_devices { eval $start if $b_log; my (@working); set_bluetooth() if !$b_bt_check; foreach $file (@files){ next if -z $file; $chip_id = $file; # variants: /soc/20100000.ethernet/ /soc/soc:audio/ /soc:/ /soc@0/ /soc:/12cb0000.i2c:/ # mips: /sys/devices/soc.0/1180000001800.mdio/8001180000001800:07/ # ppc: /sys/devices/vio/71000002/ $chip_id =~ /\/sys\/devices\/(platform\/)?(soc[^\/]*\/)?([^\/]+\/)?([^\/]+\/)?([^\/\.:]+)([\.:])?([^\/:]+)?:?\/uevent$/; $chip_id = $5; $temp = $7; @working = main::reader($file, 'strip') if -r $file; ($device,$driver,$handle,$type,$vendor_id) = (); foreach my $data (@working){ @temp2 = split('=', $data); if ($temp2[0] eq 'DRIVER'){ $driver = $temp2[1]; $driver =~ s/-/_/g if $driver; # kernel uses _, not - in module names } elsif ($temp2[0] eq 'OF_NAME'){ $type = $temp2[1]; } # we'll use these paths to test in device tree pci completer elsif ($temp2[0] eq 'OF_FULLNAME' && $temp2[1]){ # we don't want the short names like /soc, /led and so on push(@full_names, $temp2[1]) if (() = $temp2[1] =~ /\//g) > 1; $handle = (split('@', $temp2[1]))[-1] if $temp2[1] =~ /@/; } elsif ($temp2[0] eq 'OF_COMPATIBLE_0'){ @temp3 = split(',', $temp2[1]); $device = $temp3[-1]; $vendor_id = $temp3[0]; } } # it's worthless, we can't use it next if ! defined $type; $type_id = $type; if (@bluetooth && $type eq 'serial'){ my $file_temp = $file; $file_temp =~ s/uevent$//; $type = 'bluetooth' if grep {/$file_temp/} @bluetooth; } $chip_id = '' if ! defined $chip_id; $vendor_id = '' if ! defined $vendor_id; $driver = '' if ! defined $driver; $handle = '' if ! defined $handle; $busid = (defined $temp && main::is_int($temp)) ? $temp: 0; $type = soc_type($type,$vendor_id,$driver); ($busid_nu,$modules,$port,$rev) = (0,'','',''); @temp3 = ($type,$type_id,$busid,$busid_nu,$device,$vendor_id,$chip_id,$rev, $port,$driver,$modules,'','','',$handle); assign_data('soc',\@temp3); main::log_data('dump','soc devices: @devices @temp3',\@temp3) if $b_log; } eval $end if $b_log; } sub soc_devicetree { eval $start if $b_log; # now we want to fill in stuff that was not in /sys/devices/ if (-d '/sys/firmware/devicetree/base/soc'){ @files = main::globber('/sys/firmware/devicetree/base/soc/*/compatible'); my $test = (@full_names) ? join('|', sort @full_names) : 'xxxxxx'; set_bluetooth() if !$b_bt_check; foreach $file (@files){ if ($file !~ m%$test%){ ($handle,$content,$device,$type,$type_id,$vendor_id) = ('','','','','',''); $content = main::reader($file, 'strip',0) if -r $file; $file =~ m%soc/([^@]+)@([^/]+)/compatible$%; $type = $1; next if !$type || !$content; $handle = $2 if $2; $type_id = $type; if (@bluetooth && $type eq 'serial'){ my $file_temp = $file; $file_temp =~ s/uevent$//; $type = 'bluetooth' if grep {/$file_temp/} @bluetooth; } if ($content){ @temp3 = split(',', $content); $vendor_id = $temp3[0]; $device = $temp3[-1]; # strip off those weird device tree special characters $device =~ s/\x01|\x02|\x03|\x00//g; } $type = soc_type($type,$vendor_id,''); @temp3 = ($type,$type_id,0,0,$device,$vendor_id,'soc','','','','','','','',$handle); assign_data('soc',\@temp3); main::log_data('dump','devicetree: @devices @temp3',\@temp3) if $b_log; } } } eval $end if $b_log; } sub set_bluetooth { # special case of pi bt on ttyAMA0 $b_bt_check = 1; @bluetooth = main::globber('/sys/class/bluetooth/*') if -e '/sys/class/bluetooth'; @bluetooth = map {$_ = Cwd::abs_path($_);$_} @bluetooth if @bluetooth; @bluetooth = grep {!/usb/} @bluetooth if @bluetooth; # we only want non usb bt main::log_data('dump','soc bt: @bluetooth', \@bluetooth) if $b_log; } sub assign_data { my ($tool,$data) = @_; if (check_graphics($data->[0],$data->[1])){ push(@{$devices{'graphics'}},[@$data]); $use{'soc-gfx'} = 1 if $tool eq 'soc'; } # for hdmi, we need gfx/audio both if (check_audio($data->[0],$data->[1])){ push(@{$devices{'audio'}},[@$data]); $use{'soc-audio'} = 1 if $tool eq 'soc'; } if (check_bluetooth($data->[0],$data->[1])){ push(@{$devices{'bluetooth'}},[@$data]); $use{'soc-bluetooth'} = 1 if $tool eq 'soc'; } elsif (check_hwraid($data->[0],$data->[1])){ push(@{$devices{'hwraid'}},[@$data]); $use{'soc-hwraid'} = 1 if $tool eq 'soc'; } elsif (check_network($data->[0],$data->[1])){ push(@{$devices{'network'}},[@$data]); $use{'soc-network'} = 1 if $tool eq 'soc'; } elsif (check_timer($data->[0],$data->[1])){ push(@{$devices{'timer'}},[@$data]); $use{'soc-timer'} = 1 if $tool eq 'soc'; } # not used at this point, -M comes before ANG # $device_vm = check_vm($data[4]) if ((!$risc{'ppc'} && !$risc{'mips'}) && !$device_vm); push(@devices,[@$data]); } # Note: for SOC these have been converted in soc_type() sub check_audio { if (($_[1] && length($_[1]) == 4 && $_[1] =~ /^04/) || ($_[0] && $_[0] =~ /^(audio|hdmi|multimedia|sound)$/i)){ return 1; } else {return 0} } sub check_bluetooth { if (($_[1] && length($_[1]) == 4 && $_[1] eq '0d11') || ($_[0] && $_[0] =~ /^(bluetooth)$/i)){ return 1; } else {return 0} } sub check_graphics { # note: multimedia class 04 is video if 0400. 'tv' is risky I think if (($_[1] && length($_[1]) == 4 && ($_[1] =~ /^03/ || $_[1] eq '0400' || $_[1] eq '0d80')) || ($_[0] && $_[0] =~ /^(vga|display|hdmi|3d|video|tv|television)$/i)){ return 1; } else {return 0} } sub check_hwraid { return 1 if ($_[1] && $_[1] eq '0104'); } # NOTE: class 06 subclass 80 # https://www-s.acm.illinois.edu/sigops/2007/roll_your_own/7.c.1.html # 0d20: 802.11a 0d21: 802.11b 0d80: other wireless sub check_network { if (($_[1] && length($_[1]) == 4 && ($_[1] =~/^02/ || $_[1] =~ /^0d2/ || $_[1] eq '0680')) || ($_[0] && $_[0] =~ /^(ethernet|network|wifi|wlan)$/i)){ return 1; } else {return 0} } sub check_timer { return 1 if ($_[0] && $_[0] eq 'timer'); } sub check_vm { if ($_[0] && $_[0] =~ /(innotek|vbox|virtualbox|vmware|qemu)/i){ return $1 } else {return ''} } sub soc_type { my ($type,$info,$driver) = @_; # I2S or i2s. I2C is i2 controller |[iI]2[Ss]. note: odroid hdmi item is sound only # snd_soc_dummy. simple-audio-amplifier driver: speaker_amp if (($driver && $driver =~ /codec/) || ($info && $info =~ /codec/) || ($type && $type =~ /codec/)){ $type = 'codec'; } elsif (($driver && $driver =~ /dummy/i) || ($info && $info =~ /dummy/i)){ $type = 'dummy'; } # rome_vreg reg_fixed_voltage regulator-fixed wlan_en_vreg elsif (($driver && $driver =~ /\bv?reg(ulat|_)|voltage/i) || ($info && $info =~ /_v?reg|\bv?reg(ulat|_)|voltage/i)){ $type = 'regulator'; } elsif ($type =~ /^(daudio|.*hifi.*|.*sound[_-]card|.*dac[0-9]?)$/i || ($info && $info !~ /amp/i && $info =~ /(sound|audio)/i) || ($driver && $driver =~ /(audio|snd|sound)/i)){ $type = 'audio'; } # no need for bluetooth since that's only found in pi, handled above elsif ($type =~ /^((meson-?)?fb|disp|display(-[^\s]+)?|gpu|.*mali|vpu)$/i){ $type = 'display'; } # includes ethernet-phy, meson-eth elsif ($type =~ /^(([^\s]+-)?eth|ethernet(-[^\s]+)?|lan|l-lan)$/i){ $type = 'ethernet'; } elsif ($type =~ /^(.*wlan.*|.*wifi.*|.*mmcnr.*)$/i){ $type = 'wifi'; } # needs to catch variants like hdmi-tx but not hdmi-connector elsif ($type =~ /^(.*hdmi(-?tx)?)$/i){ $type = 'hdmi'; } elsif ($type =~ /^timer$/i){ $type = 'timer'; } return $type; } sub pci_class { eval $start if $b_log; my ($id) = @_; $id = lc($id); my %classes = ( '00' => 'unclassified', '01' => 'mass-storage', '02' => 'network', '03' => 'display', '04' => 'audio', '05' => 'memory', '06' => 'bridge', '07' => 'communication', '08' => 'peripheral', '09' => 'input', '0a' => 'docking', '0b' => 'processor', '0c' => 'serialbus', '0d' => 'wireless', '0e' => 'intelligent', '0f' => 'satellite',