#!/bin/bash # This is just a little script that can be downloaded from the internet to # install rustup. It just does platform detection, downloads the installer # and runs it. set -u # If RUSTUP_UPDATE_ROOT is unset or empty, default it. RUSTUP_UPDATE_ROOT="${RUSTUP_UPDATE_ROOT:-https://static.rust-lang.org/rustup}" #XXX: If you change anything here, please make the same changes in setup_mode.rs usage() { cat 1>&2 < Choose a default host triple --default-toolchain Choose a default toolchain to install --default-toolchain none Do not install any toolchains --profile [minimal|default|complete] Choose a profile -c, --component ... Component name to also install -t, --target ... Target name to also install EOF } main() { downloader --check need_cmd uname need_cmd mktemp need_cmd chmod need_cmd mkdir need_cmd rm need_cmd rmdir get_architecture || return 1 local _arch="$RETVAL" assert_nz "$_arch" "arch" local _ext="" case "$_arch" in *windows*) _ext=".exe" ;; esac local _url="${RUSTUP_UPDATE_ROOT}/dist/${_arch}/rustup-init${_ext}" local _dir _dir="$(mktemp -d 2>/dev/null || ensure mktemp -d -t rustup)" local _file="${_dir}/rustup-init${_ext}" local _ansi_escapes_are_valid=false if [ -t 2 ]; then if [ "${TERM+set}" = 'set' ]; then case "$TERM" in xterm*|rxvt*|urxvt*|linux*|vt*) _ansi_escapes_are_valid=true ;; esac fi fi # check if we have to use /dev/tty to prompt the user local need_tty=yes for arg in "$@"; do case "$arg" in -h|--help) usage exit 0 ;; -y) # user wants to skip the prompt -- we don't need /dev/tty need_tty=no ;; *) ;; esac done if $_ansi_escapes_are_valid; then printf "\33[1minfo:\33[0m downloading installer\n" 1>&2 else printf '%s\n' 'info: downloading installer' 1>&2 fi ensure mkdir -p "$_dir" ensure downloader "$_url" "$_file" ensure chmod u+x "$_file" if [ ! -x "$_file" ]; then printf '%s\n' "Cannot execute $_file (likely because of mounting /tmp as noexec)." 1>&2 printf '%s\n' "Please copy the file to a location where you can execute binaries and run ./rustup-init${_ext}." 1>&2 exit 1 fi if [ "$need_tty" = "yes" ]; then # The installer is going to want to ask for confirmation by # reading stdin. This script was piped into `sh` though and # doesn't have stdin to pass to its children. Instead we're going # to explicitly connect /dev/tty to the installer's stdin. if [ ! -t 1 ]; then err "Unable to run interactively. Run with -y to accept defaults, --help for additional options" fi ignore "$_file" "$@" < /dev/tty else ignore "$_file" "$@" fi local _retval=$? ignore rm "$_file" ignore rmdir "$_dir" return "$_retval" } get_bitness() { need_cmd head # Architecture detection without dependencies beyond coreutils. # ELF files start out "\x7fELF", and the following byte is # 0x01 for 32-bit and # 0x02 for 64-bit. # The printf builtin on some shells like dash only supports octal # escape sequences, so we use those. local _current_exe_head _current_exe_head=$(head -c 5 /proc/self/exe ) if [ "$_current_exe_head" = "$(printf '\177ELF\001')" ]; then echo 32 elif [ "$_current_exe_head" = "$(printf '\177ELF\002')" ]; then echo 64 else err "unknown platform bitness" fi } get_endianness() { local cputype=$1 local suffix_eb=$2 local suffix_el=$3 # detect endianness without od/hexdump, like get_bitness() does. need_cmd head need_cmd tail local _current_exe_endianness _current_exe_endianness="$(head -c 6 /proc/self/exe | tail -c 1)" if [ "$_current_exe_endianness" = "$(printf '\001')" ]; then echo "${cputype}${suffix_el}" elif [ "$_current_exe_endianness" = "$(printf '\002')" ]; then echo "${cputype}${suffix_eb}" else err "unknown platform endianness" fi } get_architecture() { local _ostype _cputype _bitness _arch _clibtype _ostype="$(uname -s)" _cputype="$(uname -m)" _clibtype="gnu" if [ "$_ostype" = Linux ]; then if [ "$(uname -o)" = Android ]; then _ostype=Android fi if ldd --version 2>&1 | grep -q 'musl'; then _clibtype="musl" fi fi if [ "$_ostype" = Darwin ] && [ "$_cputype" = i386 ]; then # Darwin `uname -m` lies if sysctl hw.optional.x86_64 | grep -q ': 1'; then _cputype=x86_64 fi fi case "$_ostype" in Android) _ostype=linux-android ;; Linux) _ostype=unknown-linux-$_clibtype _bitness=$(get_bitness) ;; FreeBSD) _ostype=unknown-freebsd ;; NetBSD) _ostype=unknown-netbsd ;; DragonFly) _ostype=unknown-dragonfly ;; Darwin) _ostype=apple-darwin ;; MINGW* | MSYS* | CYGWIN*) _ostype=pc-windows-gnu ;; *) err "unrecognized OS type: $_ostype" ;; esac case "$_cputype" in i386 | i486 | i686 | i786 | x86) _cputype=i686 ;; xscale | arm) _cputype=arm if [ "$_ostype" = "linux-android" ]; then _ostype=linux-androideabi fi ;; armv6l) _cputype=arm if [ "$_ostype" = "linux-android" ]; then _ostype=linux-androideabi else _ostype="${_ostype}eabihf" fi ;; armv7l | armv8l) _cputype=armv7 if [ "$_ostype" = "linux-android" ]; then _ostype=linux-androideabi else _ostype="${_ostype}eabihf" fi ;; aarch64) _cputype=aarch64 ;; x86_64 | x86-64 | x64 | amd64) _cputype=x86_64 ;; mips) _cputype=$(get_endianness mips '' el) ;; mips64) if [ "$_bitness" -eq 64 ]; then # only n64 ABI is supported for now _ostype="${_ostype}abi64" _cputype=$(get_endianness mips64 '' el) fi ;; ppc) _cputype=powerpc ;; ppc64) _cputype=powerpc64 ;; ppc64le) _cputype=powerpc64le ;; s390x) _cputype=s390x ;; *) err "unknown CPU type: $_cputype" esac # Detect 64-bit linux with 32-bit userland if [ "${_ostype}" = unknown-linux-gnu ] && [ "${_bitness}" -eq 32 ]; then case $_cputype in x86_64) _cputype=i686 ;; mips64) _cputype=$(get_endianness mips '' el) ;; powerpc64) _cputype=powerpc ;; esac fi # Detect armv7 but without the CPU features Rust needs in that build, # and fall back to arm. # See https://github.com/rust-lang/rustup.rs/issues/587. if [ "$_ostype" = "unknown-linux-gnueabihf" ] && [ "$_cputype" = armv7 ]; then if ensure grep '^Features' /proc/cpuinfo | grep -q -v neon; then # At least one processor does not have NEON. _cputype=arm fi fi _arch="${_cputype}-${_ostype}" RETVAL="$_arch" } say() { printf 'rustup: %s\n' "$1" } err() { say "$1" >&2 exit 1 } need_cmd() { if ! check_cmd "$1"; then err "need '$1' (command not found)" fi } check_cmd() { command -v "$1" > /dev/null 2>&1 } assert_nz() { if [ -z "$1" ]; then err "assert_nz $2"; fi } # Run a command that should never fail. If the command fails execution # will immediately terminate with an error showing the failing # command. ensure() { if ! "$@"; then err "command failed: $*"; fi } # This is just for indicating that commands' results are being # intentionally ignored. Usually, because it's being executed # as part of error handling. ignore() { "$@" } # This wraps curl or wget. Try curl first, if not installed, # use wget instead. downloader() { local _dld if check_cmd curl; then _dld=curl elif check_cmd wget; then _dld=wget else _dld='curl or wget' # to be used in error message of need_cmd fi if [ "$1" = --check ]; then need_cmd "$_dld" elif [ "$_dld" = curl ]; then if ! check_help_for curl --proto --tlsv1.2; then echo "Warning: Not forcing TLS v1.2, this is potentially less secure" curl --silent --show-error --fail --location "$1" --output "$2" else curl --proto '=https' --tlsv1.2 --silent --show-error --fail --location "$1" --output "$2" fi elif [ "$_dld" = wget ]; then if ! check_help_for wget --https-only --secure-protocol; then echo "Warning: Not forcing TLS v1.2, this is potentially less secure" wget "$1" -O "$2" else wget --https-only --secure-protocol=TLSv1_2 "$1" -O "$2" fi else err "Unknown downloader" # should not reach here fi } check_help_for() { local _cmd local _arg local _ok _cmd="$1" _ok="y" shift # If we're running on OS-X, older than 10.13, then we always # fail to find these options to force fallback if check_cmd sw_vers; then if [ "$(sw_vers -productVersion | cut -d. -f2)" -lt 13 ]; then # Older than 10.13 echo "Warning: Detected OS X platform older than 10.13" _ok="n" fi fi for _arg in "$@"; do if ! "$_cmd" --help | grep -q -- "$_arg"; then _ok="n" fi done test "$_ok" = "y" } main "$@" || exit 1