Shell Style Guide

Shell Style Guide

Revision 1.26

Paul Armstrong
Too many more to mention

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Table of Contents


Shell Files and Interpreter Invocation

File Extensions SUID/SGID

Environment

STDOUT vs STDERR

Comments

File Header Function Comments Implementation Comments TODO Comments

Formatting

Indentation Line Length and Long Strings Pipelines Loops Case statementVariable expansion Quoting

Features and Bugs

Command Substitution Test, [ and [[ Testing StringsWildcard Expansion of Filenames Eval Pipes to While

Naming Conventions

Function Names Variable Names Constants and Environment Variable NamesSource Filenames Read-only Variables Use Local Variables Function Locationmain

Calling Commands

Checking Return Values Builtin Commands vs. External Commands

Conclusion
 

Background【背景】

Which Shell to Use【用哪种Shell】

Bash is the only shell scripting language permitted for executables.

【Bash是唯一一种被允许用于可执行的脚本语言】(注释:只是说google只用Bash作为可执行的脚本语言,其他像python,perl也可执行只是不用)

Executables must start with #!/bin/bash and a minimum number of flags. Use set to set shell options so that calling your script as bash <script_name> does not break its functionality.

【可执行文件必定以#!/bin/bash开头,以及很少的标识。使用set命令来设置Shell选项,这样的好处就是当你用bash <script_name>来调用你自己的脚本的时候不会破坏脚本的功能。】

Restricting all executable shell scripts to bash gives us a consistent shell language that‘s installed on all our machines.

【】

The only exception to this is where you‘re forced to by whatever you‘re coding for. One example of this is Solaris SVR4 packages which require plain Bourne shell for any scripts.

When to use Shell

Shell should only be used for small utilities or simple wrapper scripts.

While shell scripting isn‘t a development language, it is used for writing various utility scripts throughout Google. This style guide is more a recognition of its use rather than a suggestion that it be used for widespread deployment.

Some guidelines:

  • If you‘re mostly calling other utilities and are doing relatively little data manipulation, shell is an acceptable choice for the task.
  • If performance matters, use something other than shell.
  • If you find you need to use arrays for anything more than assignment of ${PIPESTATUS}, you should use Python.
  • If you are writing a script that is more than 100 lines long, you should probably be writing it in Python instead. Bear in mind that scripts grow. Rewrite your script in another language early to avoid a time-consuming rewrite at a later date.

Shell Files and Interpreter Invocation

File Extensions

Executables should have no extension (strongly preferred) or a .sh extension. Libraries must have a .shextension and should not be executable.

It is not necessary to know what language a program is written in when executing it and shell doesn‘t require an extension so we prefer not to use one for executables.

However, for libraries it‘s important to know what language it is and sometimes there‘s a need to have similar libraries in different languages. This allows library files with identical purposes but different languages to be identically named except for the language-specific suffix.

SUID/SGID

SUID and SGID are forbidden on shell scripts.

There are too many security issues with shell that make it nearly impossible to secure sufficiently to allow SUID/SGID. While bash does make it difficult to run SUID, it‘s still possible on some platforms which is why we‘re being explicit about banning it.

Use sudo to provide elevated access if you need it.

Environment

STDOUT vs STDERR

All error messages should go to STDERR.

This makes it easier to separate normal status from actual issues.

A function to print out error messages along with other status information is recommended.

err() {
  echo "[$(date +‘%Y-%m-%dT%H:%M:%S%z‘)]: [email protected]" >&2
}

if ! do_something; then
  err "Unable to do_something"
  exit "${E_DID_NOTHING}"
fi

Comments

File Header

Start each file with a description of its contents.

Every file must have a top-level comment including a brief overview of its contents. A copyright notice and author information are optional.

Example:

#!/bin/bash
#
# Perform hot backups of Oracle databases.

Function Comments

Any function that is not both obvious and short must be commented. Any function in a library must be commented regardless of length or complexity.

It should be possible for someone else to learn how to use your program or to use a function in your library by reading the comments (and self-help, if provided) without reading the code.

All function comments should contain:

  • Description of the function
  • Global variables used and modified
  • Arguments taken
  • Returned values other than the default exit status of the last command run

Example:

#!/bin/bash
#
# Perform hot backups of Oracle databases.

export PATH=‘/usr/xpg4/bin:/usr/bin:/opt/csw/bin:/opt/goog/bin‘

#######################################
# Cleanup files from the backup dir
# Globals:
#   BACKUP_DIR
#   ORACLE_SID
# Arguments:
#   None
# Returns:
#   None
#######################################
cleanup() {
  ...
}

Implementation Comments

Comment tricky, non-obvious, interesting or important parts of your code.

This follows general Google coding comment practice. Don‘t comment everything. If there‘s a complex algorithm or you‘re doing something out of the ordinary, put a short comment in.

TODO Comments

Use TODO comments for code that is temporary, a short-term solution, or good-enough but not perfect.

This matches the convention in the C++ Guide.

TODOs should include the string TODO in all caps, followed by your username in parentheses. A colon is optional. It‘s preferable to put a bug/ticket number next to the TODO item as well.

Examples:

# TODO(mrmonkey): Handle the unlikely edge cases (bug ####)

Formatting

While you should follow the style that‘s already there for files that you‘re modifying, the following are required for any new code.

Indentation

Indent 2 spaces. No tabs.

Use blank lines between blocks to improve readability. Indentation is two spaces. Whatever you do, don‘t use tabs. For existing files, stay faithful to the existing indentation.

Line Length and Long Strings

Maximum line length is 80 characters.

If you have to write strings that are longer than 80 characters, this should be done with a here document or an embedded newline if possible. Literal strings that have to be longer than 80 chars and can‘t sensibly be split are ok, but it‘s strongly preferred to find a way to make it shorter.

# DO use ‘here document‘s
cat <<END;
I am an exceptionally long
string.
END

# Embedded newlines are ok too
long_string="I am an exceptionally
  long string."

Pipelines

Pipelines should be split one per line if they don‘t all fit on one line.

If a pipeline all fits on one line, it should be on one line.

If not, it should be split at one pipe segment per line with the pipe on the newline and a 2 space indent for the next section of the pipe. This applies to a chain of commands combined using ‘|‘ as well as to logical compounds using ‘||‘ and ‘&&‘.

# All fits on one line
command1 | command2

# Long commands
command1   | command2   | command3   | command4

Loops

Put ; do and ; then on the same line as the whilefor or if.

Loops in shell are a bit different, but we follow the same principles as with braces when declaring functions. That is: ; then and ; do should be on the same line as the if/for/while. else should be on its own line and closing statements should be on their own line vertically aligned with the opening statement.

Example:

for dir in ${dirs_to_cleanup}; do
  if [[ -d "${dir}/${ORACLE_SID}" ]]; then
    log_date "Cleaning up old files in ${dir}/${ORACLE_SID}"
    rm "${dir}/${ORACLE_SID}/"*
    if [[ "$?" -ne 0 ]]; then
      error_message
    fi
  else
    mkdir -p "${dir}/${ORACLE_SID}"
    if [[ "$?" -ne 0 ]]; then
      error_message
    fi
  fi
done

Case statement

  • Indent alternatives by 2 spaces.
  • A one-line alternative needs a space after the close parenthesis of the pattern and before the ;;.
  • Long or multi-command alternatives should be split over multiple lines with the pattern, actions, and ;; on separate lines.

The matching expressions are indented one level from the ‘case‘ and ‘esac‘. Multiline actions are indented another level. In general, there is no need to quote match expressions. Pattern expressions should not be preceded by an open parenthesis. Avoid the ;& and ;;& notations.

case "${expression}" in
  a)
    variable="..."
    some_command "${variable}" "${other_expr}" ...
    ;;
  absolute)
    actions="relative"
    another_command "${actions}" "${other_expr}" ...
    ;;
  *)
    error "Unexpected expression ‘${expression}‘"
    ;;
esac

Simple commands may be put on the same line as the pattern and ;; as long as the expression remains readable. This is often appropriate for single-letter option processing. When the actions don‘t fit on a single line, put the pattern on a line on its own, then the actions, then ;; also on a line of its own. When on the same line as the actions, use a space after the close parenthesis of the pattern and another before the ;;.

verbose=‘false‘
aflag=‘‘
bflag=‘‘
files=‘‘
while getopts ‘abf:v‘ flag; do
  case "${flag}" in
    a) aflag=‘true‘ ;;
    b) bflag=‘true‘ ;;
    f) files="${OPTARG}" ;;
    v) verbose=‘true‘ ;;
    *) error "Unexpected option ${flag}" ;;
  esac
done

Variable expansion

In order of precedence: Stay consistent with what you find; quote your variables; prefer "${var}" over "$var", but see details.

These are meant to be guidelines, as the topic seems too controversial for a mandatory regulation. 
They are listed in order of precedence.

  1. Stay consistent with what you find for existing code.
  2. Quote variables, see Quoting section below.
  3. Don‘t brace-quote single character shell specials / positional parameters, unless strictly necessary or avoiding deep confusion. 
    Prefer brace-quoting all other variables.
    # Section of recommended cases.
    
    # Preferred style for ‘special‘ variables:
    echo "Positional: $1" "$5" "$3"
    echo "Specials: !=$!, -=$-, _=$_. ?=$?, #=$# *=$* @[email protected] \$=$$ ..."
    
    # Braces necessary:
    echo "many parameters: ${10}"
    
    # Braces avoiding confusion:
    # Output is "a0b0c0"
    set -- a b c
    echo "${1}0${2}0${3}0"
    
    # Preferred style for other variables:
    echo "PATH=${PATH}, PWD=${PWD}, mine=${some_var}"
    while read f; do
      echo "file=${f}"
    done < <(ls -l /tmp)
    
    # Section of discouraged cases
    
    # Unquoted vars, unbraced vars, brace-quoted single letter
    # shell specials.
    echo a=$avar "b=$bvar" "PID=${$}" "${1}"
    
    # Confusing use: this is expanded as "${1}0${2}0${3}0",
    # not "${10}${20}${30}
    set -- a b c
    echo "$10$20$30"

Quoting

  • Always quote strings containing variables, command substitutions, spaces or shell meta characters, unless careful unquoted expansion is required.
  • Prefer quoting strings that are "words" (as opposed to command options or path names).
  • Never quote literal integers.
  • Be aware of the quoting rules for pattern matches in [[.
  • Use "[email protected]" unless you have a specific reason to use $*.
# ‘Single‘ quotes indicate that no substitution is desired.
# "Double" quotes indicate that substitution is required/tolerated.

# Simple examples
# "quote command substitutions"
flag="$(some_command and its args "[email protected]" ‘quoted separately‘)"

# "quote variables"
echo "${flag}"

# "never quote literal integers"
value=32
# "quote command substitutions", even when you expect integers
number="$(generate_number)"

# "prefer quoting words", not compulsory
readonly USE_INTEGER=‘true‘

# "quote shell meta characters"
echo ‘Hello stranger, and well met. Earn lots of $$$‘
echo "Process $$: Done making \$\$\$."

# "command options or path names"
# ($1 is assumed to contain a value here)
grep -li Hugo /dev/null "$1"

# Less simple examples
# "quote variables, unless proven false": ccs might be empty
git send-email --to "${reviewers}" ${ccs:+"--cc" "${ccs}"}

# Positional parameter precautions: $1 might be unset
# Single quotes leave regex as-is.
grep -cP ‘([Ss]pecial|\|?characters*)$‘ ${1:+"$1"}

# For passing on arguments,
# "[email protected]" is right almost everytime, and
# $* is wrong almost everytime:
#
# * $* and [email protected] will split on spaces, clobbering up arguments
#   that contain spaces and dropping empty strings;
# * "[email protected]" will retain arguments as-is, so no args
#   provided will result in no args being passed on;
#   This is in most cases what you want to use for passing
#   on arguments.
# * "$*" expands to one argument, with all args joined
#   by (usually) spaces,
#   so no args provided will result in one empty string
#   being passed on.
# (Consult ‘man bash‘ for the nit-grits ;-)

set -- 1 "2 two" "3 three tres"; echo $# ; set -- "$*"; echo "$#, [email protected]")
set -- 1 "2 two" "3 three tres"; echo $# ; set -- "[email protected]"; echo "$#, [email protected]")

Features and Bugs

Command Substitution

Use $(command) instead of backticks.

Nested backticks require escaping the inner ones with \. The $(command) format doesn‘t change when nested and is easier to read.

Example:

# This is preferred:
var="$(command "$(command1)")"

# This is not:
var="`command \`command1\``"

Test, [ and [[

[[ ... ]] is preferred over [test and /usr/bin/[.

[[ ... ]] reduces errors as no pathname expansion or word splitting takes place between [[ and ]] and [[ ... ]] allows for regular expression matching where [ ... ] does not.

# This ensures the string on the left is made up of characters in the
# alnum character class followed by the string name.
# Note that the RHS should not be quoted here.
# For the gory details, see
# E14 at https://tiswww.case.edu/php/chet/bash/FAQ
if [[ "filename" =~ ^[[:alnum:]]+name ]]; then
  echo "Match"
fi

# This matches the exact pattern "f*" (Does not match in this case)
if [[ "filename" == "f*" ]]; then
  echo "Match"
fi

# This gives a "too many arguments" error as f* is expanded to the
# contents of the current directory
if [ "filename" == f* ]; then
  echo "Match"
fi

Testing Strings

Use quotes rather than filler characters where possible.

Bash is smart enough to deal with an empty string in a test. So, given that the code is much easier to read, use tests for empty/non-empty strings or empty strings rather than filler characters.

# Do this:
if [[ "${my_var}" = "some_string" ]]; then
  do_something
fi

# -z (string length is zero) and -n (string length is not zero) are
# preferred over testing for an empty string
if [[ -z "${my_var}" ]]; then
  do_something
fi

# This is OK (ensure quotes on the empty side), but not preferred:
if [[ "${my_var}" = "" ]]; then
  do_something
fi

# Not this:
if [[ "${my_var}X" = "some_stringX" ]]; then
  do_something
fi

To avoid confusion about what you‘re testing for, explicitly use -z or -n.

# Use this
if [[ -n "${my_var}" ]]; then
  do_something
fi

# Instead of this as errors can occur if ${my_var} expands to a test
# flag
if [[ "${my_var}" ]]; then
  do_something
fi

Wildcard Expansion of Filenames

Use an explicit path when doing wildcard expansion of filenames.

As filenames can begin with a -, it‘s a lot safer to expand wildcards with ./* instead of *.

# Here‘s the contents of the directory:
# -f  -r  somedir  somefile

# This deletes almost everything in the directory by force
[email protected]$ rm -v *
removed directory: `somedir‘
removed `somefile‘

# As opposed to:
[email protected]$ rm -v ./*
removed `./-f‘
removed `./-r‘
rm: cannot remove `./somedir‘: Is a directory
removed `./somefile‘

Eval

eval should be avoided.

Eval munges the input when used for assignment to variables and can set variables without making it possible to check what those variables were.

# What does this set?
# Did it succeed? In part or whole?
eval $(set_my_variables)

# What happens if one of the returned values has a space in it?
variable="$(eval some_function)"

Pipes to While

Use process substitution or for loops in preference to piping to while. Variables modified in a while loop do not propagate to the parent because the loop‘s commands run in a subshell.

The implicit subshell in a pipe to while can make it difficult to track down bugs.

last_line=‘NULL‘
your_command | while read line; do
  last_line="${line}"
done

# This will output ‘NULL‘
echo "${last_line}"

Use a for loop if you are confident that the input will not contain spaces or special characters (usually, this means not user input).

total=0
# Only do this if there are no spaces in return values.
for value in $(command); do
  total+="${value}"
done

Using process substitution allows redirecting output but puts the commands in an explicit subshell rather than the implicit subshell that bash creates for the while loop.

total=0
last_file=
while read count filename; do
  total+="${count}"
  last_file="${filename}"
done < <(your_command | uniq -c)

# This will output the second field of the last line of output from
# the command.
echo "Total = ${total}"
echo "Last one = ${last_file}"

Use while loops where it is not necessary to pass complex results to the parent shell - this is typically where some more complex "parsing" is required. Beware that simple examples are probably more easily done with a tool such as awk. This may also be useful where you specifically don‘t want to change the parent scope variables.

# Trivial implementation of awk expression:
#   awk ‘$3 == "nfs" { print $2 " maps to " $1 }‘ /proc/mounts
cat /proc/mounts | while read src dest type opts rest; do
  if [[ ${type} == "nfs" ]]; then
    echo "NFS ${dest} maps to ${src}"
  fi
done

Naming Conventions

Function Names

Lower-case, with underscores to separate words. Separate libraries with ::. Parentheses are required after the function name. The keyword function is optional, but must be used consistently throughout a project.

If you‘re writing single functions, use lowercase and separate words with underscore. If you‘re writing a package, separate package names with ::. Braces must be on the same line as the function name (as with other languages at Google) and no space between the function name and the parenthesis.

# Single function
my_func() {
  ...
}

# Part of a package
mypackage::my_func() {
  ...
}

The function keyword is extraneous when "()" is present after the function name, but enhances quick identification of functions.

Variable Names

As for function names.

Variables names for loops should be similarly named for any variable you‘re looping through.

for zone in ${zones}; do
  something_with "${zone}"
done

Constants and Environment Variable Names

All caps, separated with underscores, declared at the top of the file.

Constants and anything exported to the environment should be capitalized.

# Constant
readonly PATH_TO_FILES=‘/some/path‘

# Both constant and environment
declare -xr ORACLE_SID=‘PROD‘

Some things become constant at their first setting (for example, via getopts). Thus, it‘s OK to set a constant in getopts or based on a condition, but it should be made readonly immediately afterwards. Note that declare doesn‘t operate on global variables within functions, so readonly or export is recommended instead.

VERBOSE=‘false‘
while getopts ‘v‘ flag; do
  case "${flag}" in
    v) VERBOSE=‘true‘ ;;
  esac
done
readonly VERBOSE

Source Filenames

Lowercase, with underscores to separate words if desired.

This is for consistency with other code styles in Google: maketemplate or make_template but not make-template.

Read-only Variables

Use readonly or declare -r to ensure they‘re read only.

As globals are widely used in shell, it‘s important to catch errors when working with them. When you declare a variable that is meant to be read-only, make this explicit.

zip_version="$(dpkg --status zip | grep Version: | cut -d ‘ ‘ -f 2)"
if [[ -z "${zip_version}" ]]; then
  error_message
else
  readonly zip_version
fi

Use Local Variables

Declare function-specific variables with local. Declaration and assignment should be on different lines.

Ensure that local variables are only seen inside a function and its children by using local when declaring them. This avoids polluting the global name space and inadvertently setting variables that may have significance outside the function.

Declaration and assignment must be separate statements when the assignment value is provided by a command substitution; as the ‘local‘ builtin does not propagate the exit code from the command substitution.

my_func2() {
  local name="$1"

  # Separate lines for declaration and assignment:
  local my_var
  my_var="$(my_func)" || return

  # DO NOT do this: $? contains the exit code of ‘local‘, not my_func
  local my_var="$(my_func)"
  [[ $? -eq 0 ]] || return

  ...
}

Function Location

Put all functions together in the file just below constants. Don‘t hide executable code between functions.

If you‘ve got functions, put them all together near the top of the file. Only includes, set statements and setting constants may be done before declaring functions.

Don‘t hide executable code between functions. Doing so makes the code difficult to follow and results in nasty surprises when debugging.

main

A function called main is required for scripts long enough to contain at least one other function.

In order to easily find the start of the program, put the main program in a function called main as the bottom most function. This provides consistency with the rest of the code base as well as allowing you to define more variables as local (which can‘t be done if the main code is not a function). The last non-comment line in the file should be a call to main:

main "[email protected]"

Obviously, for short scripts where it‘s just a linear flow, main is overkill and so is not required.

Calling Commands

Checking Return Values

Always check return values and give informative return values.

For unpiped commands, use $? or check directly via an if statement to keep it simple.

Example:

if ! mv "${file_list}" "${dest_dir}/" ; then
  echo "Unable to move ${file_list} to ${dest_dir}" >&2
  exit "${E_BAD_MOVE}"
fi

# Or
mv "${file_list}" "${dest_dir}/"
if [[ "$?" -ne 0 ]]; then
  echo "Unable to move ${file_list} to ${dest_dir}" >&2
  exit "${E_BAD_MOVE}"
fi

Bash also has the PIPESTATUS variable that allows checking of the return code from all parts of a pipe. If it‘s only necessary to check success or failure of the whole pipe, then the following is acceptable:

tar -cf - ./* | ( cd "${dir}" && tar -xf - )
if [[ "${PIPESTATUS[0]}" -ne 0 || "${PIPESTATUS[1]}" -ne 0 ]]; then
  echo "Unable to tar files to ${dir}" >&2
fi

However, as PIPESTATUS will be overwritten as soon as you do any other command, if you need to act differently on errors based on where it happened in the pipe, you‘ll need to assign PIPESTATUS to another variable immediately after running the command (don‘t forget that [ is a command and will wipe out PIPESTATUS).

tar -cf - ./* | ( cd "${DIR}" && tar -xf - )
return_codes=(${PIPESTATUS[*]})
if [[ "${return_codes[0]}" -ne 0 ]]; then
  do_something
fi
if [[ "${return_codes[1]}" -ne 0 ]]; then
  do_something_else
fi

Builtin Commands vs. External Commands

Given the choice between invoking a shell builtin and invoking a separate process, choose the builtin.

We prefer the use of builtins such as the Parameter Expansion functions in bash(1) as it‘s more robust and portable (especially when compared to things like sed).

Example:

# Prefer this:
addition=$((${X} + ${Y}))
substitution="${string/#foo/bar}"

# Instead of this:
addition="$(expr ${X} + ${Y})"
substitution="$(echo "${string}" | sed -e ‘s/^foo/bar/‘)"

Conclusion

Use common sense and BE CONSISTENT.

Please take a few minutes to read the Parting Words section at the bottom of the C++ Guide.

Revision 1.26

时间: 2024-10-11 22:03:20

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