2

In the bash shell, arrays can be easily quoted with declare -p, then evaled later to return them to normal. This seems acceptable for passing an array (as part of a script) to a remote machine over SSH.

The problem is, going the other way across the wire I don't want to expect the same level of trust. If the remote machine was compromised, an infection could spread to the local machine through unsanitised eval statements.

Currently, to pass arrays between machines I use an approach like this:

#!/bin/bash

# Define the modules we expect to find installed on the remote machine
expected_modules=(foo-module bar 'baz 2.0')

# SSH into the remote machine, send the arrays back and forth with "declare -p"
unparsed_missing_modules=$(ssh remote-machine /bin/bash << EOF
    check_for_module() {
        # Placeholder so that this can be tested locally
        case \$1 in
            foo*) true;;
            *) false;;
        esac
    }

    $(declare -p expected_modules)
    missing_modules=()
    for module in "\${expected_modules[@]}"; do
        if ! check_for_module "\$module"; then
            missing_modules+=( "\$module" )
        fi
    done

    declare -p missing_modules
EOF
)

# Unpack the result (this is what I want to find an alternative to)
eval "$unparsed_missing_modules"

# Do something with the result after unpacking into an array
for module in "${missing_modules[@]}"; do
    echo "Warning: Remote machine is missing $module" >&2
done

The primary insecurity in this script is near the end, when the output of a ssh session is passed directly to eval. How can I sanitise this input in bash?

  • Is it safe to assume that no expected module contains a newline in its name? If so, I wouldn't bother trying to encode an array in either direction; just use a multi-line list of module names instead. – chepner May 26 '15 at 21:40
  • 1
    As an aside, instead of << EOF, you may be better off using <<'EOF' to pass the script literally, and passing arguments in literally on the remote shell's command line rather than substituting them into the script text; less room for data on your local machine to expand into code on the remote end. – Charles Duffy May 26 '15 at 21:52
  • ...a technique I'm demonstrating in my answer. :) – Charles Duffy May 26 '15 at 22:00
  • @chepner, sure, that's presumably safe (certainly safe from a security perspective), but since the question may be reused by someone who doesn't have that guarantee wrt range of valid data, why not do it right and cover all valid C strings? – Charles Duffy May 26 '15 at 22:28
  • I didn't feel like writing up a fully correct answer (I was pretty sure I'd get some detail wrong), so I just wanted to suggest an alternative that was easier to implement. Plus, I was pretty sure you'd be along soon to provide the right answer :) – chepner May 26 '15 at 22:31
5

The generic, safe answer is to NUL-delimit your array's entries, pass the literal NUL-delimited data over stdout, and use a while read loop to interpret it.

Observe:

get_remote_array() {
  local args
  local hostname=$1; shift
  printf -v args '%q ' "$@"
  ssh "$hostname" "bash -s $args" <<'EOF'
# in real-world use, print something more useful than the arguments we were started with
# ...but for here, this demonstrates the point:
printf '%s\0' "$@" 
EOF
}

array=( )
while IFS= read -r -d ''; do
  array+=( "$REPLY" )
done < <(get_remote_array "localhost" \
            $'I\ncontain\nnewlines' \
            'I want to $(touch /tmp/security-fail)' \
            "'"'I REALLY want to $(touch /tmp/security-fail), even in single quotes'"'")

echo "---- Shell-escaped content"
printf '%q\n' "${array[@]}"

echo "---- Unescaped content"
printf '<<%s>>\n' "${array[@]}"

This demonstration passes potentially malicious data in both directions, and demonstrates that it survives the round-trip unharmed.

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