Forcing cURL to get a password from the environment
Is there a way to pass credentials to
curl
solely through the environment?
No, I don't think there is.
The CURLOPT_USERPWD documentation I think describes what you need, but this is an option that would be available using the curl library in some other language. PHP, Perl, C, etc.
The curl binary you run from your shell is just another front end on that library, but the way things like CURLOPT_USERPWD get passed to the library through the curl binary is by use of command line options on the binary.
You could theoretically write your own binary as a front end to the curl library, and write in support for environment variables.
You could alternately hack environment support as you're hoping to see it into the existing curl binary, and compile your own with local functions.
Beware, though, that even environment variables may be leaked by your shell into the process table. (What do you see when you run ps ewwp $$
?)
Perhaps a .netrc file with restricted permissions will be the safest way to go. Perhaps you will need to generate a temporary .netrc file to be used by the --netrc-file
curl option.
I think you either have to pick the least risky solution for your environment, or write something in a real language that does security properly.
This bash
solution appears to best fit my needs. It's decently secure, portable, and fast.
#!/bin/bash
SRV="example.com"
URL="https://$SRV/path"
curl --netrc-file <(cat <<<"machine $SRV login $USER password $PASSWORD") "$URL"
This uses process substitution (<( command )
runs command
in a sub-shell to populate a file descriptor to be handed as a "file" to the parent command, which in this case is curl
). The process substitution contains a here-string (cat <<< text
, a variant of echo text
that won't put anything into your process list), creating a file descriptor for the netrc file in order to pass credentials to the remote web server.
The security afforded by process substitution is actually pretty sound: its file descriptor is not a temporary file and is unavailable from even other calls in the same shell instance, so this appears secure in this context; an adversary would have to dig through memory or launch a complicated attack to find its contents. Since the $PASSWORD
environment variable is also in memory, this should not increase the attack surface.
As long as you haven't used export PASSWORD
, a trick like ps ewwp $$
shouldn't reveal the password (as noted in this comment). It'd also be wise to use some less obvious variable name.
Here is a simplified insecure version of the above code that may help explain how it works:
#!/bin/sh
# INSECURE VERSION, DO NOT USE
SRV=example.com
URL="https://$SRV/path"
TMP=$(mktemp)
printf "machine %s login %s password %s\n" "$SRV" "$USER" "$PASSWORD" > "$TMP"
curl --netrc-file "$TMP" "$URL"
rm -f "$TMP"
This insecure version has lots of flaws, all of which are solved in the previous version:
- It stores the password in a file (though that file is only readable to you)
- It very briefly has the password in a command line
- The temporary file remains until after
curl
exits - Ctrl+c will quit without removing the temporary file
Some of that could be solved by:
#!/bin/sh
SRV=example.com
URL="https://$SRV/path"
TMP=$(mktemp /dev/shm/.XXXXX) # assumes /dev/shm is a ramdisk
trap "rm -f $TMP" 0 18
cat << EOF > "$TMP"
machine $SRV login $USER password $PASSWORD
EOF
(sleep 0.1; rm -f "$TMP") & # queue removing temp file in 0.1 seconds
curl --netrc-file "$TMP" "$URL"
I consider this version to be messy, suboptimal, and possibly less secure (though it is more portable). It also requires a version of sleep
that understands decimals (and 0.1 seconds may be too fast if the system is heavily loaded).
I had originally posted a workaround that included a perl
one-liner in my question, then (with help from Etan Reisner) I worked through a few better methods before settling on this here-string method, which is both lighter-weight (faster) and more portable.
At this point, it's elegant enough that I'd consider it the "answer" rather than an "ugly workaround," so I've migrated it to be this official answer. I've given @ghoti a +1 for his answer, which correctly states that cURL's command line program is incapable of doing what I want on its own, but I'm not "accepting" that answer because it doesn't help solve the issue.