🌍 *[Čeština](README-cs.md) ∙ [Deutsch](README-de.md) ∙ [Ελληνικά](README-el.md) ∙ [English](README.md) ∙ [Español](README-es.md) ∙ [Français](README-fr.md) ∙ [Indonesia](README-id.md) ∙ [Italiano](README-it.md) ∙ [日本語](README-ja.md) ∙ [한국어](README-ko.md) ∙ [polski](README-pl.md) ∙ [Português](README-pt.md) ∙ [Română](README-ro.md) ∙ [Русский](README-ru.md) ∙ [Slovenščina](README-sl.md) ∙ [Українська](README-uk.md) ∙ [简体中文](README-zh.md) ∙ [繁體中文](README-zh-Hant.md)* # The Art of Command Line *Note: I'm planning to revise this and looking for a new co-author to help with expanding this into a more comprehensive guide. While it's very popular, it could be broader and a bit deeper. If you like to write and are close to being an expert on this material and willing to consider helping, please drop me a note at josh (0x40) holloway.com. –[jlevy](https://github.com/jlevy), [Holloway](https://www.holloway.com). Thank you!* - [Meta](#meta) - [Basics](#basics) - [Everyday use](#everyday-use) - [Processing files and data](#processing-files-and-data) - [System debugging](#system-debugging) - [One-liners](#one-liners) - [Obscure but useful](#obscure-but-useful) - [macOS only](#macos-only) - [Windows only](#windows-only) - [More resources](#more-resources) - [Disclaimer](#disclaimer) ![curl -s 'https://raw.githubusercontent.com/jlevy/the-art-of-command-line/master/README.md' | egrep -o '`\w+`' | tr -d '`' | cowsay -W50](cowsay.png) Fluency on the command line is a skill often neglected or considered arcane, but it improves your flexibility and productivity as an engineer in both obvious and subtle ways. This is a selection of notes and tips on using the command-line that we've found useful when working on Linux. Some tips are elementary, and some are fairly specific, sophisticated, or obscure. This page is not long, but if you can use and recall all the items here, you know a lot. This work is the result of [many authors and translators](AUTHORS.md). Some of this [originally](http://www.quora.com/What-are-some-lesser-known-but-useful-Unix-commands) [appeared](http://www.quora.com/What-are-the-most-useful-Swiss-army-knife-one-liners-on-Unix) on [Quora](http://www.quora.com/What-are-some-time-saving-tips-that-every-Linux-user-should-know), but it has since moved to GitHub, where people more talented than the original author have made numerous improvements. [**Please submit a question**](https://airtable.com/shrzMhx00YiIVAWJg) if you have a question related to the command line. [**Please contribute**](/CONTRIBUTING.md) if you see an error or something that could be better! ## Meta Scope: - This guide is for both beginners and experienced users. The goals are *breadth* (everything important), *specificity* (give concrete examples of the most common case), and *brevity* (avoid things that aren't essential or digressions you can easily look up elsewhere). Every tip is essential in some situation or significantly saves time over alternatives. - This is written for Linux, with the exception of the "[macOS only](#macos-only)" and "[Windows only](#windows-only)" sections. Many of the other items apply or can be installed on other Unices or macOS (or even Cygwin). - The focus is on interactive Bash, though many tips apply to other shells and to general Bash scripting. - It includes both "standard" Unix commands as well as ones that require special package installs -- so long as they are important enough to merit inclusion. Notes: - To keep this to one page, content is implicitly included by reference. You're smart enough to look up more detail elsewhere once you know the idea or command to Google. Use `apt`, `yum`, `dnf`, `pacman`, `pip` or `brew` (as appropriate) to install new programs. - Use [Explainshell](http://explainshell.com/) to get a helpful breakdown of what commands, options, pipes etc. do. ## Basics - Learn basic Bash. Actually, type `man bash` and at least skim the whole thing; it's pretty easy to follow and not that long. Alternate shells can be nice, but Bash is powerful and always available (learning *only* zsh, fish, etc., while tempting on your own laptop, restricts you in many situations, such as using existing servers). - Learn at least one text-based editor well. The `nano` editor is one of the simplest for basic editing (opening, editing, saving, searching). However, for the power user in a text terminal, there is no substitute for Vim (`vi`), the hard-to-learn but venerable, fast, and full-featured editor. Many people also use the classic Emacs, particularly for larger editing tasks. (Of course, any modern software developer working on an extensive project is unlikely to use only a pure text-based editor and should also be familiar with modern graphical IDEs and tools.) - Finding documentation: - Know how to read official documentation with `man` (for the inquisitive, `man man` lists the section numbers, e.g. 1 is "regular" commands, 5 is files/conventions, and 8 are for administration). Find man pages with `apropos`. - Know that some commands are not executables, but Bash builtins, and that you can get help on them with `help` and `help -d`. You can find out whether a command is an executable, shell builtin or an alias by using `type command`. - `curl cheat.sh/command` will give a brief "cheat sheet" with common examples of how to use a shell command. - Learn about redirection of output and input using `>` and `<` and pipes using `|`. Know `>` overwrites the output file and `>>` appends. Learn about stdout and stderr. - Learn about file glob expansion with `*` (and perhaps `?` and `[`...`]`) and quoting and the difference between double `"` and single `'` quotes. (See more on variable expansion below.) - Be familiar with Bash job management: `&`, **ctrl-z**, **ctrl-c**, `jobs`, `fg`, `bg`, `kill`, etc. - Know `ssh`, and the basics of passwordless authentication, via `ssh-agent`, `ssh-add`, etc. - Basic file management: `ls` and `ls -l` (in particular, learn what every column in `ls -l` means), `less`, `head`, `tail` and `tail -f` (or even better, `less +F`), `ln` and `ln -s` (learn the differences and advantages of hard versus soft links), `chown`, `chmod`, `du` (for a quick summary of disk usage: `du -hs *`). For filesystem management, `df`, `mount`, `fdisk`, `mkfs`, `lsblk`. Learn what an inode is (`ls -i` or `df -i`). - Basic network management: `ip` or `ifconfig`, `dig`, `traceroute`, `route`. - Learn and use a version control management system, such as `git`. - Know regular expressions well, and the various flags to `grep`/`egrep`. The `-i`, `-o`, `-v`, `-A`, `-B`, and `-C` options are worth knowing. - Learn to use `apt-get`, `yum`, `dnf` or `pacman` (depending on distro) to find and install packages. And make sure you have `pip` to install Python-based command-line tools (a few below are easiest to install via `pip`). ## Everyday use - In Bash, use **Tab** to complete arguments or list all available commands and **ctrl-r** to search through command history (after pressing, type to search, press **ctrl-r** repeatedly to cycle through more matches, press **Enter** to execute the found command, or hit the right arrow to put the result in the current line to allow editing). - In Bash, use **ctrl-w** to delete the last word, and **ctrl-u** to delete the content from current cursor back to the start of the line. Use **alt-b** and **alt-f** to move by word, **ctrl-a** to move cursor to beginning of line, **ctrl-e** to move cursor to end of line, **ctrl-k** to kill to the end of the line, **ctrl-l** to clear the screen. See `man readline` for all the default keybindings in Bash. There are a lot. For example **alt-.** cycles through previous arguments, and **alt-*** expands a glob. - Alternatively, if you love vi-style key-bindings, use `set -o vi` (and `set -o emacs` to put it back). - For editing long commands, after setting your editor (for example `export EDITOR=vim`), **ctrl-x** **ctrl-e** will open the current command in an editor for multi-line editing. Or in vi style, **escape-v**. - To see recent commands, use `history`. Follow with `!n` (where `n` is the command number) to execute again. There are also many abbreviations you can use, the most useful probably being `!$` for last argument and `!!` for last command (see "HISTORY EXPANSION" in the man page). However, these are often easily replaced with **ctrl-r** and **alt-.**. - Go to your home directory with `cd`. Access files relative to your home directory with the `~` prefix (e.g. `~/.bashrc`). In `sh` scripts refer to the home directory as `$HOME`. - To go back to the previous working directory: `cd -`. - If you are halfway through typing a command but change your mind, hit **alt-#** to add a `#` at the beginning and enter it as a comment (or use **ctrl-a**, **#**, **enter**). You can then return to it later via command history. - Use `xargs` (or `parallel`). It's very powerful. Note you can control how many items execute per line (`-L`) as well as parallelism (`-P`). If you're not sure if it'll do the right thing, use `xargs echo` first. Also, `-I{}` is handy. Examples: ```bash find . -name '*.py' | xargs grep some_function cat hosts | xargs -I{} ssh root@{} hostname ``` - `pstree -p` is a helpful display of the process tree. - Use `pgrep` and `pkill` to find or signal processes by name (`-f` is helpful). - Know the various signals you can send processes. For example, to suspend a process, use `kill -STOP [pid]`. For the full list, see `man 7 signal` - Use `nohup` or `disown` if you want a background process to keep running forever. - Check what processes are listening via `netstat -lntp` or `ss -plat` (for TCP; add `-u` for UDP) or `lsof -iTCP -sTCP:LISTEN -P -n` (which also works on macOS). - See also `lsof` and `fuser` for open sockets and files. - See `uptime` or `w` to know how long the system has been running. - Use `alias` to create shortcuts for commonly used commands. For example, `alias ll='ls -latr'` creates a new alias `ll`. - Save aliases, shell settings, and functions you commonly use in `~/.bashrc`, and [arrange for login shells to source it](http://superuser.com/a/183980/7106). This will make your setup available in all your shell sessions. - Put the settings of environment variables as well as commands that should be executed when you login in `~/.bash_profile`. Separate configuration will be needed for shells you launch from graphical environment logins and `cron` jobs. - Synchronize your configuration files (e.g. `.bashrc` and `.bash_profile`) among various computers with Git. - Understand that care is needed when variables and filenames include whitespace. Surround your Bash variables with quotes, e.g. `"$FOO"`. Prefer the `-0` or `-print0` options to enable null characters to delimit filenames, e.g. `locate -0 pattern | xargs -0 ls -al` or `find / -print0 -type d | xargs -0 ls -al`. To iterate on filenames containing whitespace in a for loop, set your IFS to be a newline only using `IFS=$'\n'`. - In Bash scripts, use `set -x` (or the variant `set -v`, which logs raw input, including unexpanded variables and comments) for debugging output. Use strict modes unless you have a good reason not to: Use `set -e` to abort on errors (nonzero exit code). Use `set -u` to detect unset variable usages. Consider `set -o pipefail` too, to abort on errors within pipes (though read up on it more if you do, as this topic is a bit subtle). For more involved scripts, also use `trap` on EXIT or ERR. A useful habit is to start a script like this, which will make it detect and abort on common errors and print a message: ```bash set -euo pipefail trap "echo 'error: Script failed: see failed command above'" ERR ``` - In Bash scripts, subshells (written with parentheses) are convenient ways to group commands. A common example is to temporarily move to a different working directory, e.g. ```bash # do something in current dir (cd /some/other/dir && other-command) # continue in original dir ``` - In Bash, note there are lots of kinds of variable expansion. Checking a variable exists: `${name:?error message}`. For example, if a Bash script requires a single argument, just write `input_file=${1:?usage: $0 input_file}`. Using a default value if a variable is empty: `${name:-default}`. If you want to have an additional (optional) parameter added to the previous example, you can use something like `output_file=${2:-logfile}`. If `$2` is omitted and thus empty, `output_file` will be set to `logfile`. Arithmetic expansion: `i=$(( (i + 1) % 5 ))`. Sequences: `{1..10}`. Trimming of strings: `${var%suffix}` and `${var#prefix}`. For example if `var=foo.pdf`, then `echo ${var%.pdf}.txt` prints `foo.txt`. - Brace expansion using `{`...`}` can reduce having to re-type similar text and automate combinations of items. This is helpful in examples like `mv foo.{txt,pdf} some-dir` (which moves both files), `cp somefile{,.bak}` (which expands to `cp somefile somefile.bak`) or `mkdir -p test-{a,b,c}/subtest-{1,2,3}` (which expands all possible combinations and creates a directory tree). Brace expansion is performed before any other expansion. - The order of expansions is: brace expansion; tilde expansion, parameter and variable expansion, arithmetic expansion, and command substitution (done in a left-to-right fashion); word splitting; and filename expansion. (For example, a range like `{1..20}` cannot be expressed with variables using `{$a..$b}`. Use `seq` or a `for` loop instead, e.g., `seq $a $b` or `for((i=a; i<=b; i++)); do ... ; done`.) - The output of a command can be treated like a file via `<(some command)` (known as process substitution). For example, compare local `/etc/hosts` with a remote one: ```sh diff /etc/hosts <(ssh somehost cat /etc/hosts) ``` - When writing scripts you may want to put all of your code in curly braces. If the closing brace is missing, your script will be prevented from executing due to a syntax error. This makes sense when your script is going to be downloaded from the web, since it prevents partially downloaded scripts from executing: ```bash { # Your code here } ``` - A "here document" allows [redirection of multiple lines of input](https://www.tldp.org/LDP/abs/html/here-docs.html) as if from a file: ``` cat <logfile 2>&1` or `some-command &>logfile`. Often, to ensure a command does not leave an open file handle to standard input, tying it to the terminal you are in, it is also good practice to add `>> 2+3 5 ``` ## Processing files and data - To locate a file by name in the current directory, `find . -iname '*something*'` (or similar). To find a file anywhere by name, use `locate something` (but bear in mind `updatedb` may not have indexed recently created files). - For general searching through source or data files, there are several options more advanced or faster than `grep -r`, including (in rough order from older to newer) [`ack`](https://github.com/beyondgrep/ack2), [`ag`](https://github.com/ggreer/the_silver_searcher) ("the silver searcher"), and [`rg`](https://github.com/BurntSushi/ripgrep) (ripgrep). - To convert HTML to text: `lynx -dump -stdin` - For Markdown, HTML, and all kinds of document conversion, try [`pandoc`](http://pandoc.org/). For example, to convert a Markdown document to Word format: `pandoc README.md --from markdown --to docx -o temp.docx` - If you must handle XML, `xmlstarlet` is old but good. - For JSON, use [`jq`](http://stedolan.github.io/jq/). For interactive use, also see [`jid`](https://github.com/simeji/jid) and [`jiq`](https://github.com/fiatjaf/jiq). - For YAML, use [`shyaml`](https://github.com/0k/shyaml). - For Excel or CSV files, [csvkit](https://github.com/onyxfish/csvkit) provides `in2csv`, `csvcut`, `csvjoin`, `csvgrep`, etc. - For Amazon S3, [`s3cmd`](https://github.com/s3tools/s3cmd) is convenient and [`s4cmd`](https://github.com/bloomreach/s4cmd) is faster. Amazon's [`aws`](https://github.com/aws/aws-cli) and the improved [`saws`](https://github.com/donnemartin/saws) are essential for other AWS-related tasks. - Know about `sort` and `uniq`, including uniq's `-u` and `-d` options -- see one-liners below. See also `comm`. - Know about `cut`, `paste`, and `join` to manipulate text files. Many people use `cut` but forget about `join`. - Know about `wc` to count newlines (`-l`), characters (`-m`), words (`-w`) and bytes (`-c`). - Know about `tee` to copy from stdin to a file and also to stdout, as in `ls -al | tee file.txt`. - For more complex calculations, including grouping, reversing fields, and statistical calculations, consider [`datamash`](https://www.gnu.org/software/datamash/). - Know that locale affects a lot of command line tools in subtle ways, including sorting order (collation) and performance. Most Linux installations will set `LANG` or other locale variables to a local setting like US English. But be aware sorting will change if you change locale. And know i18n routines can make sort or other commands run *many times* slower. In some situations (such as the set operations or uniqueness operations below) you can safely ignore slow i18n routines entirely and use traditional byte-based sort order, using `export LC_ALL=C`. - You can set a specific command's environment by prefixing its invocation with the environment variable settings, as in `TZ=Pacific/Fiji date`. - Know basic `awk` and `sed` for simple data munging. See [One-liners](#one-liners) for examples. - To replace all occurrences of a string in place, in one or more files: ```sh perl -pi.bak -e 's/old-string/new-string/g' my-files-*.txt ``` - To rename multiple files and/or search and replace within files, try [`repren`](https://github.com/jlevy/repren). (In some cases the `rename` command also allows multiple renames, but be careful as its functionality is not the same on all Linux distributions.) ```sh # Full rename of filenames, directories, and contents foo -> bar: repren --full --preserve-case --from foo --to bar . # Recover backup files whatever.bak -> whatever: repren --renames --from '(.*)\.bak' --to '\1' *.bak # Same as above, using rename, if available: rename 's/\.bak$//' *.bak ``` - As the man page says, `rsync` really is a fast and extraordinarily versatile file copying tool. It's known for synchronizing between machines but is equally useful locally. When security restrictions allow, using `rsync` instead of `scp` allows recovery of a transfer without restarting from scratch. It also is among the [fastest ways](https://web.archive.org/web/20130929001850/http://linuxnote.net/jianingy/en/linux/a-fast-way-to-remove-huge-number-of-files.html) to delete large numbers of files: ```sh mkdir empty && rsync -r --delete empty/ some-dir && rmdir some-dir ``` - For monitoring progress when processing files, use [`pv`](http://www.ivarch.com/programs/pv.shtml), [`pycp`](https://github.com/dmerejkowsky/pycp), [`pmonitor`](https://github.com/dspinellis/pmonitor), [`progress`](https://github.com/Xfennec/progress), `rsync --progress`, or, for block-level copying, `dd status=progress`. - Use `shuf` to shuffle or select random lines from a file. - Know `sort`'s options. For numbers, use `-n`, or `-h` for handling human-readable numbers (e.g. from `du -h`). Know how keys work (`-t` and `-k`). In particular, watch out that you need to write `-k1,1` to sort by only the first field; `-k1` means sort according to the whole line. Stable sort (`sort -s`) can be useful. For example, to sort first by field 2, then secondarily by field 1, you can use `sort -k1,1 | sort -s -k2,2`. - If you ever need to write a tab literal in a command line in Bash (e.g. for the -t argument to sort), press **ctrl-v** **[Tab]** or write `$'\t'` (the latter is better as you can copy/paste it). - The standard tools for patching source code are `diff` and `patch`. See also `diffstat` for summary statistics of a diff and `sdiff` for a side-by-side diff. Note `diff -r` works for entire directories. Use `diff -r tree1 tree2 | diffstat` for a summary of changes. Use `vimdiff` to compare and edit files. - For binary files, use `hd`, `hexdump` or `xxd` for simple hex dumps and `bvi`, `hexedit` or `biew` for binary editing. - Also for binary files, `strings` (plus `grep`, etc.) lets you find bits of text. - For binary diffs (delta compression), use `xdelta3`. - To convert text encodings, try `iconv`. Or `uconv` for more advanced use; it supports some advanced Unicode things. For example: ```sh # Displays hex codes or actual names of characters (useful for debugging): uconv -f utf-8 -t utf-8 -x '::Any-Hex;' < input.txt uconv -f utf-8 -t utf-8 -x '::Any-Name;' < input.txt # Lowercase and removes all accents (by expanding and dropping them): uconv -f utf-8 -t utf-8 -x '::Any-Lower; ::Any-NFD; [:Nonspacing Mark:] >; ::Any-NFC;' < input.txt > output.txt ``` - To split files into pieces, see `split` (to split by size) and `csplit` (to split by a pattern). - Date and time: To get the current date and time in the helpful [ISO 8601](https://en.wikipedia.org/wiki/ISO_8601) format, use `date -u +"%Y-%m-%dT%H:%M:%SZ"` (other options [are](https://stackoverflow.com/questions/7216358/date-command-on-os-x-doesnt-have-iso-8601-i-option) [problematic](https://unix.stackexchange.com/questions/164826/date-command-iso-8601-option)). To manipulate date and time expressions, use `dateadd`, `datediff`, `strptime` etc. from [`dateutils`](http://www.fresse.org/dateutils/). - Use `zless`, `zmore`, `zcat`, and `zgrep` to operate on compressed files. - File attributes are settable via `chattr` and offer a lower-level alternative to file permissions. For example, to protect against accidental file deletion the immutable flag: `sudo chattr +i /critical/directory/or/file` - Use `getfacl` and `setfacl` to save and restore file permissions. For example: ```sh getfacl -R /some/path > permissions.txt setfacl --restore=permissions.txt ``` - To create empty files quickly, use `truncate` (creates [sparse file](https://en.wikipedia.org/wiki/Sparse_file)), `fallocate` (ext4, xfs, btrfs and ocfs2 filesystems), `xfs_mkfile` (almost any filesystems, comes in xfsprogs package), `mkfile` (for Unix-like systems like Solaris, Mac OS). ## System debugging - For web debugging, `curl` and `curl -I` are handy, or their `wget` equivalents, or the more modern [`httpie`](https://github.com/jkbrzt/httpie). - To know current cpu/disk status, the classic tools are `top` (or the better `htop`), `iostat`, and `iotop`. Use `iostat -mxz 15` for basic CPU and detailed per-partition disk stats and performance insight. - For network connection details, use `netstat` and `ss`. - For a quick overview of what's happening on a system, `dstat` is especially useful. For broadest overview with details, use [`glances`](https://github.com/nicolargo/glances). - To know memory status, run and understand the output of `free` and `vmstat`. In particular, be aware the "cached" value is memory held by the Linux kernel as file cache, so effectively counts toward the "free" value. - Java system debugging is a different kettle of fish, but a simple trick on Oracle's and some other JVMs is that you can run `kill -3 ` and a full stack trace and heap summary (including generational garbage collection details, which can be highly informative) will be dumped to stderr/logs. The JDK's `jps`, `jstat`, `jstack`, `jmap` are useful. [SJK tools](https://github.com/aragozin/jvm-tools) are more advanced. - Use [`mtr`](http://www.bitwizard.nl/mtr/) as a better traceroute, to identify network issues. - For looking at why a disk is full, [`ncdu`](https://dev.yorhel.nl/ncdu) saves time over the usual commands like `du -sh *`. - To find which socket or process is using bandwidth, try [`iftop`](http://www.ex-parrot.com/~pdw/iftop/) or [`nethogs`](https://github.com/raboof/nethogs). - The `ab` tool (comes with Apache) is helpful for quick-and-dirty checking of web server performance. For more complex load testing, try `siege`. - For more serious network debugging, [`wireshark`](https://wireshark.org/), [`tshark`](https://www.wireshark.org/docs/wsug_html_chunked/AppToolstshark.html), or [`ngrep`](http://ngrep.sourceforge.net/). - Know about `strace` and `ltrace`. These can be helpful if a program is failing, hanging, or crashing, and you don't know why, or if you want to get a general idea of performance. Note the profiling option (`-c`), and the ability to attach to a running process (`-p`). Use trace child option (`-f`) to avoid missing important calls. - Know about `ldd` to check shared libraries etc — but [never run it on untrusted files](http://www.catonmat.net/blog/ldd-arbitrary-code-execution/). - Know how to connect to a running process with `gdb` and get its stack traces. - Use `/proc`. It's amazingly helpful sometimes when debugging live problems. Examples: `/proc/cpuinfo`, `/proc/meminfo`, `/proc/cmdline`, `/proc/xxx/cwd`, `/proc/xxx/exe`, `/proc/xxx/fd/`, `/proc/xxx/smaps` (where `xxx` is the process id or pid). - When debugging why something went wrong in the past, [`sar`](http://sebastien.godard.pagesperso-orange.fr/) can be very helpful. It shows historic statistics on CPU, memory, network, etc. - For deeper systems and performance analyses, look at `stap` ([SystemTap](https://sourceware.org/systemtap/wiki)), [`perf`](https://en.wikipedia.org/wiki/Perf_%28Linux%29), and [`sysdig`](https://github.com/draios/sysdig). - Check what OS you're on with `uname` or `uname -a` (general Unix/kernel info) or `lsb_release -a` (Linux distro info). - Use `dmesg` whenever something's acting really funny (it could be hardware or driver issues). - If you delete a file and it doesn't free up expected disk space as reported by `du`, check whether the file is in use by a process: `lsof | grep deleted | grep "filename-of-my-big-file"` ## One-liners A few examples of piecing together commands: - It is remarkably helpful sometimes that you can do set intersection, union, and difference of text files via `sort`/`uniq`. Suppose `a` and `b` are text files that are already uniqued. This is fast, and works on files of arbitrary size, up to many gigabytes. (Sort is not limited by memory, though you may need to use the `-T` option if `/tmp` is on a small root partition.) See also the note about `LC_ALL` above and `sort`'s `-u` option (left out for clarity below). ```sh sort a b | uniq > c # c is a union b sort a b | uniq -d > c # c is a intersect b sort a b b | uniq -u > c # c is set difference a - b ``` - Pretty-print two JSON files, normalizing their syntax, then coloring and paginating the result: ``` diff <(jq --sort-keys . < file1.json) <(jq --sort-keys . < file2.json) | colordiff | less -R ``` - Use `grep . *` to quickly examine the contents of all files in a directory (so each line is paired with the filename), or `head -100 *` (so each file has a heading). This can be useful for directories filled with config settings like those in `/sys`, `/proc`, `/etc`. - Summing all numbers in the third column of a text file (this is probably 3X faster and 3X less code than equivalent Python): ```sh awk '{ x += $3 } END { print x }' myfile ``` - To see sizes/dates on a tree of files, this is like a recursive `ls -l` but is easier to read than `ls -lR`: ```sh find . -type f -ls ``` - Say you have a text file, like a web server log, and a certain value that appears on some lines, such as an `acct_id` parameter that is present in the URL. If you want a tally of how many requests for each `acct_id`: ```sh egrep -o 'acct_id=[0-9]+' access.log | cut -d= -f2 | sort | uniq -c | sort -rn ``` - To continuously monitor changes, use `watch`, e.g. check changes to files in a directory with `watch -d -n 2 'ls -rtlh | tail'` or to network settings while troubleshooting your wifi settings with `watch -d -n 2 ifconfig`. - Run this function to get a random tip from this document (parses Markdown and extracts an item): ```sh function taocl() { curl -s https://raw.githubusercontent.com/jlevy/the-art-of-command-line/master/README.md | sed '/cowsay[.]png/d' | pandoc -f markdown -t html | xmlstarlet fo --html --dropdtd | xmlstarlet sel -t -v "(html/body/ul/li[count(p)>0])[$RANDOM mod last()+1]" | xmlstarlet unesc | fmt -80 | iconv -t US } ``` ## Obscure but useful - `expr`: perform arithmetic or boolean operations or evaluate regular expressions - `m4`: simple macro processor - `yes`: print a string a lot - `cal`: nice calendar - `env`: run a command (useful in scripts) - `printenv`: print out environment variables (useful in debugging and scripts) - `look`: find English words (or lines in a file) beginning with a string - `cut`, `paste` and `join`: data manipulation - `fmt`: format text paragraphs - `pr`: format text into pages/columns - `fold`: wrap lines of text - `column`: format text fields into aligned, fixed-width columns or tables - `expand` and `unexpand`: convert between tabs and spaces - `nl`: add line numbers - `seq`: print numbers - `bc`: calculator - `factor`: factor integers - [`gpg`](https://gnupg.org/): encrypt and sign files - `toe`: table of terminfo entries - `nc`: network debugging and data transfer - `socat`: socket relay and tcp port forwarder (similar to `netcat`) - [`slurm`](https://github.com/mattthias/slurm): network traffic visualization - `dd`: moving data between files or devices - `file`: identify type of a file - `tree`: display directories and subdirectories as a nesting tree; like `ls` but recursive - `stat`: file info - `time`: execute and time a command - `timeout`: execute a command for specified amount of time and stop the process when the specified amount of time completes. - `lockfile`: create semaphore file that can only be removed by `rm -f` - `logrotate`: rotate, compress and mail logs. - `watch`: run a command repeatedly, showing results and/or highlighting changes - [`when-changed`](https://github.com/joh/when-changed): runs any command you specify whenever it sees file changed. See `inotifywait` and `entr` as well. - `tac`: print files in reverse - `comm`: compare sorted files line by line - `strings`: extract text from binary files - `tr`: character translation or manipulation - `iconv` or `uconv`: conversion for text encodings - `split` and `csplit`: splitting files - `sponge`: read all input before writing it, useful for reading from then writing to the same file, e.g., `grep -v something some-file | sponge some-file` - `units`: unit conversions and calculations; converts furlongs per fortnight to twips per blink (see also `/usr/share/units/definitions.units`) - `apg`: generates random passwords - `xz`: high-ratio file compression - `ldd`: dynamic library info - `nm`: symbols from object files - `ab` or [`wrk`](https://github.com/wg/wrk): benchmarking web servers - `strace`: system call debugging - [`mtr`](http://www.bitwizard.nl/mtr/): better traceroute for network debugging - `cssh`: visual concurrent shell - `rsync`: sync files and folders over SSH or in local file system - [`wireshark`](https://wireshark.org/) and [`tshark`](https://www.wireshark.org/docs/wsug_html_chunked/AppToolstshark.html): packet capture and network debugging - [`ngrep`](http://ngrep.sourceforge.net/): grep for the network layer - `host` and `dig`: DNS lookups - `lsof`: process file descriptor and socket info - `dstat`: useful system stats - [`glances`](https://github.com/nicolargo/glances): high level, multi-subsystem overview - `iostat`: Disk usage stats - `mpstat`: CPU usage stats - `vmstat`: Memory usage stats - `htop`: improved version of top - `last`: login history - `w`: who's logged on - `id`: user/group identity info - [`sar`](http://sebastien.godard.pagesperso-orange.fr/): historic system stats - [`iftop`](http://www.ex-parrot.com/~pdw/iftop/) or [`nethogs`](https://github.com/raboof/nethogs): network utilization by socket or process - `ss`: socket statistics - `dmesg`: boot and system error messages - `sysctl`: view and configure Linux kernel parameters at run time - `hdparm`: SATA/ATA disk manipulation/performance - `lsblk`: list block devices: a tree view of your disks and disk partitions - `lshw`, `lscpu`, `lspci`, `lsusb`, `dmidecode`: hardware information, including CPU, BIOS, RAID, graphics, devices, etc. - `lsmod` and `modinfo`: List and show details of kernel modules. - `fortune`, `ddate`, and `sl`: um, well, it depends on whether you consider steam locomotives and Zippy quotations "useful" ## macOS only These are items relevant *only* on macOS. - Package management with `brew` (Homebrew) and/or `port` (MacPorts). These can be used to install on macOS many of the above commands. - Copy output of any command to a desktop app with `pbcopy` and paste input from one with `pbpaste`. - To enable the Option key in macOS Terminal as an alt key (such as used in the commands above like **alt-b**, **alt-f**, etc.), open Preferences -> Profiles -> Keyboard and select "Use Option as Meta key". - To open a file with a desktop app, use `open` or `open -a /Applications/Whatever.app`. - Spotlight: Search files with `mdfind` and list metadata (such as photo EXIF info) with `mdls`. - Be aware macOS is based on BSD Unix, and many commands (for example `ps`, `ls`, `tail`, `awk`, `sed`) have many subtle variations from Linux, which is largely influenced by System V-style Unix and GNU tools. You can often tell the difference by noting a man page has the heading "BSD General Commands Manual." In some cases GNU versions can be installed, too (such as `gawk` and `gsed` for GNU awk and sed). If writing cross-platform Bash scripts, avoid such commands (for example, consider Python or `perl`) or test carefully. - To get macOS release information, use `sw_vers`. ## Windows only These items are relevant *only* on Windows. ### Ways to obtain Unix tools under Windows - Access the power of the Unix shell under Microsoft Windows by installing [Cygwin](https://cygwin.com/). Most of the things described in this document will work out of the box. - On Windows 10, you can use [Windows Subsystem for Linux (WSL)](https://msdn.microsoft.com/commandline/wsl/about), which provides a familiar Bash environment with Unix command line utilities. - If you mainly want to use GNU developer tools (such as GCC) on Windows, consider [MinGW](http://www.mingw.org/) and its [MSYS](http://www.mingw.org/wiki/msys) package, which provides utilities such as bash, gawk, make and grep. MSYS doesn't have all the features compared to Cygwin. MinGW is particularly useful for creating native Windows ports of Unix tools. - Another option to get Unix look and feel under Windows is [Cash](https://github.com/dthree/cash). Note that only very few Unix commands and command-line options are available in this environment. ### Useful Windows command-line tools - You can perform and script most Windows system administration tasks from the command line by learning and using `wmic`. - Native command-line Windows networking tools you may find useful include `ping`, `ipconfig`, `tracert`, and `netstat`. - You can perform [many useful Windows tasks](http://www.thewindowsclub.com/rundll32-shortcut-commands-windows) by invoking the `Rundll32` command. ### Cygwin tips and tricks - Install additional Unix programs with the Cygwin's package manager. - Use `mintty` as your command-line window. - Access the Windows clipboard through `/dev/clipboard`. - Run `cygstart` to open an arbitrary file through its registered application. - Access the Windows registry with `regtool`. - Note that a `C:\` Windows drive path becomes `/cygdrive/c` under Cygwin, and that Cygwin's `/` appears under `C:\cygwin` on Windows. Convert between Cygwin and Windows-style file paths with `cygpath`. This is most useful in scripts that invoke Windows programs. ## More resources - [awesome-shell](https://github.com/alebcay/awesome-shell): A curated list of shell tools and resources. - [awesome-osx-command-line](https://github.com/herrbischoff/awesome-osx-command-line): A more in-depth guide for the macOS command line. - [Strict mode](http://redsymbol.net/articles/unofficial-bash-strict-mode/) for writing better shell scripts. - [shellcheck](https://github.com/koalaman/shellcheck): A shell script static analysis tool. Essentially, lint for bash/sh/zsh. - [Filenames and Pathnames in Shell](http://www.dwheeler.com/essays/filenames-in-shell.html): The sadly complex minutiae on how to handle filenames correctly in shell scripts. - [Data Science at the Command Line](http://datascienceatthecommandline.com/#tools): More commands and tools helpful for doing data science, from the book of the same name ## Disclaimer With the exception of very small tasks, code is written so others can read it. With power comes responsibility. The fact you *can* do something in Bash doesn't necessarily mean you should! ;) ## License [![Creative Commons License](https://i.creativecommons.org/l/by-sa/4.0/88x31.png)](http://creativecommons.org/licenses/by-sa/4.0/) This work is licensed under a [Creative Commons Attribution-ShareAlike 4.0 International License](http://creativecommons.org/licenses/by-sa/4.0/).