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We are writing a Linux bash shell script that receives arguments. We wanted to fail the script when it receives possible shell injections commands as parameters. I have added some commands below using regex. Can someone give me possible list of all such commands so that we can avoid threats

invalid_format="(^.*[;&|].*$)|(\brmdir\b)|(\bls\b)|(rm\s-)|(\bping\b)"

if [[ $LOCAL_DIR =~ $invalid_format ]]; then

echo "Error! LOCAL_DIR cannot contain command chaining characters like ; && || or possible shell injection commands"

exit 1
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    There is no limit to the list. Don't try to filter out things that are known to be bad; accept only things that are known to be good. Jun 20, 2019 at 14:19
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    Even better, handle the data correctly so it can't do damage even if it does include shell syntax. Jun 20, 2019 at 14:20
  • ...forgetting to quote isn't really the problem here -- the problem is getting content into a context where it'll be evaled. The fix is to never substitute any data into a string that will be evaluated as code, but only pass that data out-of-band from the code itself. Jun 20, 2019 at 14:20
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    Also note that if your shell script is invoked from a non-shell language, much of the critical work is how you write the code in that non-shell language; once the script is invoked, it's too late to do anything there (if its parameter list was unsafely substituted into a shell generating a command line). Jun 20, 2019 at 14:57

1 Answer 1

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Don't Use Blacklists.

A blacklist of content that is explicitly disallowed in your data is just an invitation for someone to come up with a vulnerability that isn't on it, or to obfuscate their code so a regex can't match it, or to find an oddball syntax honored by your actual shell but not by the one the blacklist/validator was written for.

Don't fight that losing battle; instead, write code that's safe no matter what content your data contains, by never injecting data in a context where it could be evaluated and executed as code.


Using Arguments In Shell Scripts Safely

  • This is inherently unsafe:

    eval "grep -e \"$1\" /var/log/*"         ## DO NOT EVER DO THIS
    eval "grep -e '$1' /var/log/*"           ## DO NOT EVER DO THIS EITHER
    sh -c "grep -e \"$1\" /var/log/*"        ## DO NOT EVER DO THIS EITHER
    sh -c "grep -e '$1' /var/log/*"          ## DO NOT EVER DO THIS EITHER
    ssh somehost "grep -e \"$1\" /var/log/*" ## DO NOT EVER DO THIS EITHER
    ssh somehost "grep -e '$1' /var/log/*"   ## DO NOT EVER DO THIS EITHER
    

    In all of these cases, a user-provided value ($1) is used in a context where it will be parsed by the shell as code. In all of those cases, a value could thus run arbitrary commands.

  • This is always safe:

    grep -e "$1" /var/log/*          ## ALWAYS DO THIS INSTEAD
    

    Again, this is always safe. Even if there's something like $(rm -rf ~)\'$(rm -rf ~\)' inside your $1, the shell doesn't evaluate any of that content as syntax, so the values are inherently incapable of being parsed as code.

Generating Shell Command Lines Safely

If forced to use system() or some equivalent

  • This is inherently unsafe:

    system("grep -e \"" + input + "\" /var/log/*")                 /* DO NOT EVER DO THIS */
    system("grep -e '" + input + "' /var/log/*")            /* DO NOT EVER DO THIS EITHER */
    
  • This is inherently safe:

    setenv("logs_to_grep", input);           /* IF YOU MUST USE system(), DO THIS INSTEAD */
    system("grep -e \"$logs_to_grep\" /var/log/*")    
    

    Note how we didn't put the value inside of the string passed to a shell at all, but passed it out-of-band, in an environment variable (using a lower-case name, so it couldn't overwrite any of the environment variables with security-sensitive meaning to the operating system and supporting tools).

Generating Safe Command Lines From Another Shell Script

Let's say you need to run a command with untrusted input over SSH. printf %q can help:

printf -v args_q '%q ' "$@"
ssh somehost 'bash -s' <<EOF
command_with $args_q
EOF

Why the bash -s? To ensure your args_str is parsed by bash, as printf %q does not guarantee POSIX-safe output.

But The Better Option? Don't Invoke Extra Shells.

Instead of using system() or anything that invokes sh -c, use language-level facilities that directly use the execve() syscall to invoke your script. For example, in Python:

# BAD/EVIL/INSECURE
subprocess.Popen('yourscript ' + arg, shell=True)  ## DO NOT EVER DO THIS

# GOOD/SECURE
subprocess.Popen(['yourscript', arg])              ## DO THIS INSTEAD.

Don't Do Other Unsafe Things

  • xargs -I{} sh -c 'something_with {}' -- because your placeholder, {}, substitutes into a value parsed by sh as code, it's parsed as code, not data. Don't do that.

    Instead, pass your data out-of-band: xargs -d $'\n' sh -c 'for arg; do something_with "$arg"; done' _ (if your data is inherently incapable of containing newline literals; if you can't prove that to be true, use NUL delimiters and xargs -0 instead).

  • find . -type f -exec sh -c 'something_with {}' \; -- same problem as with xargs above, with the same solution: find . -exec sh -c 'for arg; do something_with "$arg"; done' _ {} +

  • Don't use eval, or source, or anything else that parses a non-constant string as code. Again, these values are all perfectly fine and safe inside your data; you simply shouldn't ever use them in your code.

  • Don't make assumptions about filenames, except those that your operating system enforces itself. Don't use ls in scripts. Don't separate filenames with newlines -- use NULs instead.

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    Excellent writeup!
    – user2849202
    Jun 20, 2019 at 15:30

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