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Comment: [igli] declare seems safer?
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Remove redundant "quote"/"end quote"
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The `eval` command is extremely powerful and extremely easy to abuse. It causes your code to be parsed twice instead of once; this means that, for example, if your code has variable references in it, the shell's parser will evaluate the contents of that variable. If the variable contains a shell command, the shell might run that command, whether you wanted it to or not. This can lead to unexpected results, especially when variables can be read from untrusted sources (like users or user-created files). |
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"eval" is a common misspelling of "evil". The section dealing with spaces in file names used to include the following quote "helpful tool (which is probably not as safe as the \0 technique)", end quote. {{{ Syntax : nasty_find_all [path] [command] <maxdepth> }}} {{{ #This code is evil and must never be used export IFS=" " [ -z "$3" ] && set -- "$1" "$2" 1 FILES=`find "$1" -maxdepth "$3" -type f -printf "\"%p\" "` #warning, evilness eval FILES=($FILES) for ((I=0; I < ${#FILES[@]}; I++)) do eval "$2 \"${FILES[I]}\"" done unset IFS }}} This script is supposed to recursively search for files with newlines and/or spaces in them, arguing that {{{find -print0 | xargs -0}}} was unsuitable for some purposes such as multiple commands. It was followed by an instructional description on all the lines involved, which we'll skip. To its defense, it works: |
"eval" is a common misspelling of "evil". One of the most common reasons people try to use `eval` is because they want to pass the name of a variable to a function. Consider: {{{ # This code is evil and should never be used! fifth() { _fifth_array=$1 eval echo "\"The fifth element is \${$_fifth_array[4]}\"" # DANGER! } a=(zero one two three four five) fifth a }}} This breaks if the user is allowed to pass arbitary arguments to the function: {{{ $ fifth 'x}"; date; #' The fifth element is Thu Mar 27 16:13:47 EDT 2014 }}} We've just allowed arbitary code execution. Bash 4.3 introduced ''name references'' to try to solve this problem, but unfortunately they '''don't''' solve the problem! We'll discuss those in depth later. Now let's consider a more complicated example. The section of this FAQ dealing with [[BashFAQ/020|spaces in file names]] used to include the following "helpful tool (which is probably not as safe as the \0 technique)". {{{ Syntax : nasty_find_all <path> <command> [maxdepth] }}} {{{ # This code is evil and must never be used! export IFS=" " [ -z "$3" ] && set -- "$1" "$2" 1 FILES=`find "$1" -maxdepth "$3" -type f -printf "\"%p\" "` # warning, BAD code eval FILES=($FILES) for ((I=0; I < ${#FILES[@]}; I++)) do eval "$2 \"${FILES[I]}\"" done unset IFS }}} This script was supposed to recursively search for files and run a user-specified command on them, even if they had newlines and/or spaces in their names. The author thought that {{{find -print0 | xargs -0}}} was unsuitable for some purposes such as multiple commands. It was followed by an instructional description of all the lines involved, which we'll skip. To its defense, it worked: |
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One might think these circumstances are obscure, but one should not be tricked by this. All it takes is one malicious user, or perhaps more likely, a benign user who left the terminal unlocked when going to the bathroom, wrote a funny php uploading script that doesn't sanity check file names or who made the same mistake as oneself in allowing arbitrary code execution (now instead of being limited to the www-user, an attacker can use {{{nasty_find_all}}} to traverse chroot jails and/or gain additional privileges), uses an IRC or IM client that's too liberal in the filenames it accepts for file transfers or conversation logs, etc. | One might think these circumstances are obscure, but one should not be tricked by this. All it takes is one malicious user, or perhaps more likely, a benign user who left the terminal unlocked when going to the bathroom, or wrote a funny PHP uploading script that doesn't sanity check file names, or who made the same mistake as oneself in allowing arbitrary code execution (now instead of being limited to the www-user, an attacker can use {{{nasty_find_all}}} to traverse chroot jails and/or gain additional privileges), or uses an IRC or IM client that's too liberal in the filenames it accepts for file transfers or conversation logs, etc. === The problem with bash's name references === Bash 4.3 introduced `declare -n` ("name references") to mimic Korn shell's `nameref` feature, which permits variables to hold references to other variables (see [[BashFAQ/006|FAQ 006]] to see these in action). Unfortunately, the implementation used in Bash has some issues. First, Bash's `declare -n` doesn't actually avoid the name collision issue: {{{ $ foo() { declare -n v=$1; } $ bar() { declare -n v=$1; foo v; } $ bar v bash: warning: v: circular name reference }}} In other words, there is no safe name we can give to the name reference. If the caller's variable happens to have the same name, we're screwed. Second, Bash's name reference implementation still allows ''arbitrary code execution'': {{{ $ foo() { declare -n var=$1; echo "$var"; } $ foo 'x[i=$(date)]' bash: i=Thu Mar 27 16:34:09 EDT 2014: syntax error in expression (error token is "Mar 27 16:34:09 EDT 2014") }}} It's not an elegant example, but you can clearly see that the `date` command was actually ''executed''. This is not at all what one wants. Now, despite these shortcomings, the `declare -n` feature is a step in the right direction. But you must be careful to select a name that the caller won't use (which means you need ''some'' control over the caller, if only to say "don't use variables that begin with _my_pkg"), and you must reject unsafe inputs. |
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Command ''eval'' has other uses especially when creating variables out of blue. Here is an example how to parse command line options that do not take parameters automatically: {{{ #!/bin/bash |
The most common correct use of `eval` is reading variables from the output of a program which is '''specifically ''designed'' to be used this way'''. For example, {{{ # On older systems, one must run this after resizing a window: eval "`resize`" # Less primitive: get a passphrase for an SSH private key. # This is typically executed from a .xsession or .profile type of file. # The variables produced by ssh-agent will be exported to all the processes in # the user's session, so that an eventual ssh will inherit them. eval "`ssh-agent -s`" }}} `eval` has other uses especially when creating variables out of the blue ([[BashFAQ/006|indirect variable references]]). Here is an example of one way to parse command line options that do not take parameters: {{{ # POSIX |
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So, why is this version acceptable? It's acceptable because we have restricted the `eval` command so that it will '''only''' be executed when the input is one of a finite set of known values. Therefore, it can't ever be abused by the user to cause arbitrary command execution -- any input with funny stuff in it wouldn't match one of the three predetermined possible inputs. This variant would ''not'' be acceptable: {{{ #!/bin/bash # Dangerous code. Do not use this. |
So, why is this version acceptable? It's acceptable because we have restricted the `eval` command so that it will '''only''' be executed when the input is one of a finite set of known values. Therefore, it can't ever be abused by the user to cause arbitrary command execution -- any input with funny stuff in it wouldn't match one of the three predetermined possible inputs. Note that this is '''still frowned upon''': It is a slippery slope and some later maintenance can easily turn this code into something dangerous. Eg. You want to ''add a feature'' that allows a bunch of different --test-xyz's to be passed. You change `--test` to `--test-*`, without going through the trouble of checking the implementation of the rest of the script. You test your use case and it all works. Unfortunately, '''you've just introduced arbitrary command execution''': {{{ $ ./foo --test-'; ls -l /etc/passwd;x=' -rw-r--r-- 1 root root 943 2007-03-28 12:03 /etc/passwd }}} Once again: by permitting the `eval` command to be used on unfiltered user input, we've permitted arbitrary command execution. '''AVOID PASSING DATA TO EVAL AT ALL COSTS''', even if your code seems to handle all the edge cases today. If you have thought really hard and asked #bash for an alternative way but there isn't any, skip ahead to "Robust eval usage". === The problem with declare === Could this not be done better with `declare`? {{{ |
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--test*|--verbose*|--debug*) shift # Remove option from command line name=${i#--} # Delete option prefix eval "$name='$name'" # make *new* variable ;; esac done }}} All that's changed is that we attempted to make the previous "good" example (which doesn't do very much) useful in some way, by letting it take things like `--test=foo`. But look at what this enables: {{{ $ ./foo --test='; ls -l /etc/passwd;x=' -rw-r--r-- 1 root root 943 2007-03-28 12:03 /etc/passwd }}} Once again: by permitting the `eval` command to be used on unfiltered user input, we've permitted arbitrary command execution. == Query == Could this not be done better with `declare`? eg: {{{ for i in "$@" do case "$i" in --test|--verbose|--debug) |
--test|--verbose|--debug) |
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--test=*|--verbose=*|--debug=*) | --test=*|--verbose=*|--debug=*) |
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Note that `--name` for a default, and `--name=value` are the required formats. | ''Note that `--name` for a default, and `--name=value` are the required formats.'' `declare` does work better for some inputs: {{{ griffon:~$ name='foo=x;date;x' griffon:~$ declare $name=Yes griffon:~$ echo $foo x;date;x=Yes }}} But it can still cause arbitary code execution with array variables: {{{ attoparsec:~$ echo $BASH_VERSION 4.2.24(1)-release attoparsec:~$ danger='( $(printf "%s!\n" DANGER >&2) )' attoparsec:~$ declare safe=${danger} attoparsec:~$ declare -a unsafe attoparsec:~$ declare unsafe=${danger} DANGER! }}} === Robust eval usage === Almost always (at least 99% or more of the time in Bash, but also in more minimal shells), the correct way to use `eval` is to produce abstractions hidden behind functions used in library code. This allows the function to: * present a well-defined interface to the function's caller that specifies which inputs must be strictly controlled by the programmer, and which may be unpredictable, such as side-effects influenced by user input. It's important to document which options and arguments are unsafe if left uncontrolled. * perform input validation on certain kinds of inputs where it's feasible to do so, such as integers -- where it's easy to bail out and return an error status which can be handled by the function caller. * create abstractions that hide ugly implementation details involving `eval`. Generally, `eval` is correct when at least all of the following are satisfied: * All possible arguments to `eval` are guaranteed not to produce harmful side-effects or result in execution of arbitrary code under any circumstance. The inputs are statically coded, free from interaction with uncontrolled dynamic code, and/or validated throughly. This is why functions are important, because YOU don't necessarily have to make that guarantee yourself. So long as your function documents what inputs can be dangerous, you can delegate that task to the function's caller. * The `eval` usage presents a clean interface to the user or programmer. * The `eval` makes possible what would otherwise be impossible without far more large, slow, complex, dangerous, ugly, less useful code. If for some reason you still need to dynamically build bash code and evaluate it, make certain you take these precautions: 1. Always '''quote''' the `eval` expression: `eval 'a=b'` 2. Always '''single-quote''' code and expand your data into it using `printf`'s `%q`: `eval "$(printf 'myvar=%q' "$value")"` 3. Do NOT use dynamic variable names. Even with careful `%q` usage, this can be exploited. Why take heed? Here's how your scripts can be exploited if they fail to take the above advice: * If you don't single-quote your code, you run the risk of expanding data into it that isn't `%q`'ed. Which means free executable reign for that data: . {{{ name='Bob; echo I am arbitrary code'; eval "user=$name" }}} * Even if you `%q` input data before treating it as a variable name, illegal variable names in assignments cause bash to search `PATH` for a command: . {{{ echo 'echo I am arbitrary code' > /usr/local/bin/a[1]=b; chmod +x /usr/local/bin/a[1]=b; var='a[1]' value=b; eval "$(printf '%q=%q' "$var" "$value")" }}} * For a list of ways to reference or to populate variables indirectly '''without''' using `eval`, please see [[BashFAQ/006]]. * For a list of ways to reference or to populate variables indirectly '''with''' `eval`, please see [[BashFAQ/006#eval]]. * [[http://wiki.bash-hackers.org/commands/builtin/eval | More examples]] ---- CategoryShell |
Eval command and security issues
The eval command is extremely powerful and extremely easy to abuse.
It causes your code to be parsed twice instead of once; this means that, for example, if your code has variable references in it, the shell's parser will evaluate the contents of that variable. If the variable contains a shell command, the shell might run that command, whether you wanted it to or not. This can lead to unexpected results, especially when variables can be read from untrusted sources (like users or user-created files).
Examples of bad use of eval
"eval" is a common misspelling of "evil".
One of the most common reasons people try to use eval is because they want to pass the name of a variable to a function. Consider:
# This code is evil and should never be used! fifth() { _fifth_array=$1 eval echo "\"The fifth element is \${$_fifth_array[4]}\"" # DANGER! } a=(zero one two three four five) fifth a
This breaks if the user is allowed to pass arbitary arguments to the function:
$ fifth 'x}"; date; #' The fifth element is Thu Mar 27 16:13:47 EDT 2014
We've just allowed arbitary code execution. Bash 4.3 introduced name references to try to solve this problem, but unfortunately they don't solve the problem! We'll discuss those in depth later.
Now let's consider a more complicated example. The section of this FAQ dealing with spaces in file names used to include the following "helpful tool (which is probably not as safe as the \0 technique)".
Syntax : nasty_find_all <path> <command> [maxdepth]
# This code is evil and must never be used! export IFS=" " [ -z "$3" ] && set -- "$1" "$2" 1 FILES=`find "$1" -maxdepth "$3" -type f -printf "\"%p\" "` # warning, BAD code eval FILES=($FILES) for ((I=0; I < ${#FILES[@]}; I++)) do eval "$2 \"${FILES[I]}\"" done unset IFS
This script was supposed to recursively search for files and run a user-specified command on them, even if they had newlines and/or spaces in their names. The author thought that find -print0 | xargs -0 was unsuitable for some purposes such as multiple commands. It was followed by an instructional description of all the lines involved, which we'll skip.
To its defense, it worked:
$ ls -lR .: total 8 drwxr-xr-x 2 vidar users 4096 Nov 12 21:51 dir with spaces -rwxr-xr-x 1 vidar users 248 Nov 12 21:50 nasty_find_all ./dir with spaces: total 0 -rw-r--r-- 1 vidar users 0 Nov 12 21:51 file?with newlines $ ./nasty_find_all . echo 3 ./nasty_find_all ./dir with spaces/file with newlines $
But consider this:
$ touch "\"); ls -l $'\x2F'; #"
You just created a file called "); ls -l $'\x2F'; #
Now FILES will contain ""); ls -l $'\x2F'; #. When we do eval FILES=($FILES), it becomes
FILES=(""); ls -l $'\x2F'; #"
Which becomes the two statements FILES=(""); and ls -l / . Congratulations, you just allowed execution of arbitrary commands.
$ touch "\"); ls -l $'\x2F'; #" $ ./nasty_find_all . echo 3 total 1052 -rw-r--r-- 1 root root 1018530 Apr 6 2005 System.map drwxr-xr-x 2 root root 4096 Oct 26 22:05 bin drwxr-xr-x 3 root root 4096 Oct 26 22:05 boot drwxr-xr-x 17 root root 29500 Nov 12 20:52 dev drwxr-xr-x 68 root root 4096 Nov 12 20:54 etc drwxr-xr-x 9 root root 4096 Oct 5 11:37 home drwxr-xr-x 10 root root 4096 Oct 26 22:05 lib drwxr-xr-x 2 root root 4096 Nov 4 00:14 lost+found drwxr-xr-x 6 root root 4096 Nov 4 18:22 mnt drwxr-xr-x 11 root root 4096 Oct 26 22:05 opt dr-xr-xr-x 82 root root 0 Nov 4 00:41 proc drwx------ 26 root root 4096 Oct 26 22:05 root drwxr-xr-x 2 root root 4096 Nov 4 00:34 sbin drwxr-xr-x 9 root root 0 Nov 4 00:41 sys drwxrwxrwt 8 root root 4096 Nov 12 21:55 tmp drwxr-xr-x 15 root root 4096 Oct 26 22:05 usr drwxr-xr-x 13 root root 4096 Oct 26 22:05 var ./nasty_find_all ./dir with spaces/file with newlines ./ $
It doesn't take much imagination to replace ls -l with rm -rf or worse.
One might think these circumstances are obscure, but one should not be tricked by this. All it takes is one malicious user, or perhaps more likely, a benign user who left the terminal unlocked when going to the bathroom, or wrote a funny PHP uploading script that doesn't sanity check file names, or who made the same mistake as oneself in allowing arbitrary code execution (now instead of being limited to the www-user, an attacker can use nasty_find_all to traverse chroot jails and/or gain additional privileges), or uses an IRC or IM client that's too liberal in the filenames it accepts for file transfers or conversation logs, etc.
The problem with bash's name references
Bash 4.3 introduced declare -n ("name references") to mimic Korn shell's nameref feature, which permits variables to hold references to other variables (see FAQ 006 to see these in action). Unfortunately, the implementation used in Bash has some issues.
First, Bash's declare -n doesn't actually avoid the name collision issue:
$ foo() { declare -n v=$1; } $ bar() { declare -n v=$1; foo v; } $ bar v bash: warning: v: circular name reference
In other words, there is no safe name we can give to the name reference. If the caller's variable happens to have the same name, we're screwed.
Second, Bash's name reference implementation still allows arbitrary code execution:
$ foo() { declare -n var=$1; echo "$var"; } $ foo 'x[i=$(date)]' bash: i=Thu Mar 27 16:34:09 EDT 2014: syntax error in expression (error token is "Mar 27 16:34:09 EDT 2014")
It's not an elegant example, but you can clearly see that the date command was actually executed. This is not at all what one wants.
Now, despite these shortcomings, the declare -n feature is a step in the right direction. But you must be careful to select a name that the caller won't use (which means you need some control over the caller, if only to say "don't use variables that begin with _my_pkg"), and you must reject unsafe inputs.
Examples of good use of eval
The most common correct use of eval is reading variables from the output of a program which is specifically designed to be used this way. For example,
# On older systems, one must run this after resizing a window: eval "`resize`" # Less primitive: get a passphrase for an SSH private key. # This is typically executed from a .xsession or .profile type of file. # The variables produced by ssh-agent will be exported to all the processes in # the user's session, so that an eventual ssh will inherit them. eval "`ssh-agent -s`"
eval has other uses especially when creating variables out of the blue (indirect variable references). Here is an example of one way to parse command line options that do not take parameters:
# POSIX # # Create option variables dynamically. Try call: # # sh -x example.sh --verbose --test --debug for i in "$@" do case "$i" in --test|--verbose|--debug) shift # Remove option from command line name=${i#--} # Delete option prefix eval "$name='$name'" # make *new* variable ;; esac done echo "verbose: $verbose" echo "test: $test" echo "debug: $debug"
So, why is this version acceptable? It's acceptable because we have restricted the eval command so that it will only be executed when the input is one of a finite set of known values. Therefore, it can't ever be abused by the user to cause arbitrary command execution -- any input with funny stuff in it wouldn't match one of the three predetermined possible inputs.
Note that this is still frowned upon: It is a slippery slope and some later maintenance can easily turn this code into something dangerous. Eg. You want to add a feature that allows a bunch of different --test-xyz's to be passed. You change --test to --test-*, without going through the trouble of checking the implementation of the rest of the script. You test your use case and it all works. Unfortunately, you've just introduced arbitrary command execution:
$ ./foo --test-'; ls -l /etc/passwd;x=' -rw-r--r-- 1 root root 943 2007-03-28 12:03 /etc/passwd
Once again: by permitting the eval command to be used on unfiltered user input, we've permitted arbitrary command execution.
AVOID PASSING DATA TO EVAL AT ALL COSTS, even if your code seems to handle all the edge cases today.
If you have thought really hard and asked #bash for an alternative way but there isn't any, skip ahead to "Robust eval usage".
The problem with declare
Could this not be done better with declare?
for i in "$@" do case "$i" in --test|--verbose|--debug) shift # Remove option from command line name=${i#--} # Delete option prefix declare $name=Yes # set default value ;; --test=*|--verbose=*|--debug=*) shift name=${i#--} value=${name#*=} # value is whatever's after first word and = name=${name%%=*} # restrict name to first word only (even if there's another = in the value) declare $name="$value" # make *new* variable ;; esac done
Note that --name for a default, and --name=value are the required formats.
declare does work better for some inputs:
griffon:~$ name='foo=x;date;x' griffon:~$ declare $name=Yes griffon:~$ echo $foo x;date;x=Yes
But it can still cause arbitary code execution with array variables:
attoparsec:~$ echo $BASH_VERSION 4.2.24(1)-release attoparsec:~$ danger='( $(printf "%s!\n" DANGER >&2) )' attoparsec:~$ declare safe=${danger} attoparsec:~$ declare -a unsafe attoparsec:~$ declare unsafe=${danger} DANGER!
Robust eval usage
Almost always (at least 99% or more of the time in Bash, but also in more minimal shells), the correct way to use eval is to produce abstractions hidden behind functions used in library code. This allows the function to:
- present a well-defined interface to the function's caller that specifies which inputs must be strictly controlled by the programmer, and which may be unpredictable, such as side-effects influenced by user input. It's important to document which options and arguments are unsafe if left uncontrolled.
- perform input validation on certain kinds of inputs where it's feasible to do so, such as integers -- where it's easy to bail out and return an error status which can be handled by the function caller.
create abstractions that hide ugly implementation details involving eval.
Generally, eval is correct when at least all of the following are satisfied:
All possible arguments to eval are guaranteed not to produce harmful side-effects or result in execution of arbitrary code under any circumstance. The inputs are statically coded, free from interaction with uncontrolled dynamic code, and/or validated throughly. This is why functions are important, because YOU don't necessarily have to make that guarantee yourself. So long as your function documents what inputs can be dangerous, you can delegate that task to the function's caller.
The eval usage presents a clean interface to the user or programmer.
The eval makes possible what would otherwise be impossible without far more large, slow, complex, dangerous, ugly, less useful code.
If for some reason you still need to dynamically build bash code and evaluate it, make certain you take these precautions:
Always quote the eval expression: eval 'a=b'
Always single-quote code and expand your data into it using printf's %q: eval "$(printf 'myvar=%q' "$value")"
Do NOT use dynamic variable names. Even with careful %q usage, this can be exploited.
Why take heed? Here's how your scripts can be exploited if they fail to take the above advice:
If you don't single-quote your code, you run the risk of expanding data into it that isn't %q'ed. Which means free executable reign for that data:
name='Bob; echo I am arbitrary code'; eval "user=$name"
Even if you %q input data before treating it as a variable name, illegal variable names in assignments cause bash to search PATH for a command:
echo 'echo I am arbitrary code' > /usr/local/bin/a[1]=b; chmod +x /usr/local/bin/a[1]=b; var='a[1]' value=b; eval "$(printf '%q=%q' "$var" "$value")"
For a list of ways to reference or to populate variables indirectly without using eval, please see BashFAQ/006.
For a list of ways to reference or to populate variables indirectly with eval, please see BashFAQ/006#eval.