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I work on a few apps in rails, django (and a little bit of php), and one of the things that I started doing in some of them is storing database and other passwords as environment variables rather than plain text in certain config files (or in settings.py, for django apps).

In discussing this with one of my collaborators, he suggested this is a poor practice - that perhaps this isn't as perfectly secure as it might at first seem.

So, I would like to know - is this a secure practice? Is it more secure to store passwords as plain text in these files (making sure, of course, not to leave these files in public repos or anything)?

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  • Use HashiCorp Data Vault, hashicorp.com/products/vault. Commented May 18, 2021 at 15:51
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    It is not secure, there are many exploits to steal environment variables and there is 🦄🔒 Awesome list of secrets in environment variables 🖥️: github.com/Puliczek/… Commented Jan 4, 2022 at 16:15
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    A crucial distinction here is storing (just having them exported in your environment all the time) vs passing (and then immediately deleting them from your environment once you've passed or received them).
    – mtraceur
    Commented Jul 17, 2023 at 22:38

9 Answers 9

103

As mentioned before, both methods do not provide any layer of additional "security" once your system is compromised. I believe that one of the strongest reasons to favor environment variables is avoiding version control: I've seen way too many database configurations etc. being accidentially stored in the version control system like GIT for every other developer to see (and whoops! it happened to me as well ...).

Not storing your passwords in files makes it impossible for them to be stored in the version control system.

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    A pretty reasonable alternative to not storing secret configuration settings in version control is storing them in a version control repository or project separate from the repository for the code. Commented Jan 28, 2015 at 18:01
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    @KennyEvitt that still leaves unsecured, plaintext passwords in a shared location that anyone with access to the repository can find and no way to track who accessed it.
    – FistOfFury
    Commented Mar 15, 2017 at 13:33
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    @FistOfFury Sure, anyone with access to the repository ... can access the repository. The point of storing secrets in a separate repository is exactly so that one could control access to those secrets differently than the code itself. But repositories can be secured, e.g. you can store the secrets encrypted in the 'shared location'. And you could even track info about access to the repository in the shared location. But, of course, allowing anyone to access info implies that they can copy that info and thus access it anytime in the future without restriction or tracking. Commented Mar 15, 2017 at 15:40
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    Great reason to use a config management solution that lets you store encrypted secrets, then substituting them in config templates at render time. Chef has encrypted data bags, Ansible has vaults, etc. Commented Jun 28, 2017 at 16:35
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    This is called Privileged Access Management, where secrets are stored in a centralized PAM Vault with comprehensive access controls. Gartner lists some such products.
    – Amit Naidu
    Commented May 15, 2019 at 15:10
92

On a more theoretical level, I tend to think about levels for security in the following ways (in order of increasing strength) :

  • No security. Plain text. Anyone that knows where to look, can access the data.
  • Security by Obfuscation. You store the data (plaintext) someplace tricky, like an environment variable, or in a file that is meant to look like a configuration file. An attacker will eventually figure out what's going on, or stumble across it.
  • Security provided by encryption that is trivial to break, (think caesar cipher!).
  • Security provided by encryption that can be broken with some effort.
  • Security provided by encryption that is impractical to break given current hardware.
  • The most secure system is one that nobody can use! :)

Environment variables are more secure than plaintext files, because they are volatile/disposable, not saved; i.e. if you set only a local environment variable, like "set pwd=whatever," and then run the script, with something that exits your command shell at the end of the script, then the variable no longer exists. Your case falls into the first two, which I'd say is fairly insecure. If you were going to do this, I wouldn't recommend deploying outside your immediate intranet/home network, and then only for testing purposes.

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    It depends on the operating system -- At best case, environment variables are as vulnerable as plaintext files, but likely are worse. With plaintext files you can set the read permissions on the files/directories to protect them. IIRC for environment variables, they live in the memory space for the shell process, so an enterprising cracker could scan that space looking for them. Commented Sep 18, 2012 at 13:46
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    wait a minute: if you store the credential inside of an environment variable, they need to get there first. Either by hand, or by script. In order to automate startup of your software, I would recommend a script. But guess what, then you need to store them in a config file (for env variables) nonetheless. Unless you are not providing values for env variables by hand, I can see no security difference to config files.
    – math
    Commented Jun 30, 2020 at 6:38
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    @math it depends on the build/startup flow but there's a 3rd option - the startup script (whichever form it takes, whether a bash script or a IaC tool or whatever) fetching credentials from some kind of a (encrypted) secrets storage: Hashicorp Vault, Azure Vault, AWS Parameter Store.
    – Max Ivanov
    Commented Sep 30, 2020 at 10:47
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    @MaxIvanov : But in order to fetch (encrypted) credentials from a 3rd party provider, this startup script would need to provide credentials for authentication, right? Where would you put those, then?
    – TomDogg
    Commented Dec 30, 2021 at 19:50
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    The key thing with files vs environment variables is that environment variables leak by default into everything you call (any libraries, any child processes, any grandchild processes, and so on), but you can stop that entire category of insecurity by just grabbing and deleting the secret from the environment at program startup. At that point, it's at least as secure as a file with read permission for the user your program runs as. In order for a file to be more secure, we have to get into stuff like ACLs or SELinux labels - things which restrict read permissions more than per-user-granularity.
    – mtraceur
    Commented Jul 17, 2023 at 23:03
76

Anytime you have to store a password, it is insecure. Period. There's no way to store an un-encrypted password securely. Now which of environment variables vs. config files is more "secure" is perhaps debatable. IMHO, if your system is compromised, it doesn't really matter where it's stored, a diligent hacker can track it down.

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    For environment variables, I am expecting unix here... Environment variables are way less secure than files. Anyone can check the environment of a running process, but files can at least have ACLs.
    – Vatine
    Commented Sep 17, 2012 at 14:44
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    Given that the developer has to store these passwords this isn't a terrifically helpful answer. Where do you suggest that he does store them? Commented Aug 19, 2013 at 11:47
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    @Vatine Places exposing environment variables have permissions, too. Try cat /proc/1/environ for example.
    – Chris Down
    Commented Jun 2, 2016 at 15:51
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    @Vatine Really? I don't see any environment for processes not owned by me in ps axe. strace -e open ps axe shows it's getting this info from /proc/[pid]/environ, which has permission enforcement (hence a bunch of open("/proc/19795/environ", O_RDONLY) = -1 EACCES (Permission denied)).
    – Chris Down
    Commented Jun 2, 2016 at 23:18
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    Huh. Look at that, a problem has finally been fixed (used to be that ps was setuid and would happily show you the environment of pretty much everything).
    – Vatine
    Commented Jun 3, 2016 at 8:09
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Sorry I didn't have enough rep to comment, but I also wanted to add that if you're not careful, your shell might capture that password in it's command history as well. So running something like $ pwd=mypassword my_prog manually isn't as ephemeral as you might have hoped.

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    if you prefix the whole "env var + command" with a space, then it doesn't get stored in the history
    – Shadi
    Commented Jun 22, 2017 at 8:32
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    thanks @shadi. Learn something new every day! I wonder if that's shell specific/easy to turn off or if it's something one can expect pretty consistently? Commented Sep 7, 2017 at 21:48
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    Another way is to use read -s MY_PASS_VAR which will protect from both shell-history searches and shoulder surfers. Commented Jun 27, 2018 at 13:52
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    @brianclements I would like to add that prefixing the command with a space only works if the current shell's HISTCONTROL is set to ignorespace or ignoreboth , so technically it can be turned on/off. Commented Nov 21, 2019 at 16:29
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    @Shadi Oh my god. THAT'S why half the things I copy/paste never show up in my history?! Where have you been all my life!? Commented Feb 20 at 10:56
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I think when possible you should store your credentials in a gitignored file and not as environment variables.

One of the things to consider when storing credentials in ENV (environment) variables vs a file is that ENV variables can very easily be inspected by any library or dependency you use.

This can be done maliciously or not. For example a library author could email stack traces plus the ENV variables to themselves for debugging (not best practice, but it's possible to do).

If your credentials are in a file, then peaking into them is much harder.

Specifically, think about an npm in node. For an npm to look at your credentials if they are in the ENV is a simple matter of process.ENV. If on the other hand they are in a file, it's a lot more work.

Whether your credentials file is version controlled or not is a separate question. Not version controlling your credentials file exposes it to fewer people. There's no need for all devs to know the production credentials. Since this lives up to the principle of least privilege, I would suggest git ignoring your credentials file.

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    +1 for "a library author could email stack traces plus the ENV variables to themselves for debugging". Never thought about this scenario.
    – netishix
    Commented Sep 24, 2019 at 4:20
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    Wouldn't it be rather simple to encrypt env variables and then decrypt them when reading it out later? In that way, reading all env variables only gives you jibberish. Seems to me encrypting env variables give you the best of both words.
    – n3rd
    Commented Aug 2, 2022 at 10:57
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It depends on your threat model.

Are you trying to prevent your users from sprinkling passwords all over their file systems where they are likely to be forgotten and mishandled? If so, then yes, because environmental variables are less persistent than files.

Are you trying to secure against something malicious that is directly targeting your program? If so, then no, because environment variables do not have the same level of access control that files do.

Personally, I think that negligent users are more common than motivated adversaries, so I'd go with the environment variable approach.

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  • +1 Threat Model reference. Each solution has its pros and cons, and sometimes the env var are fine if they're just storing creds for a read-only data cache. I'd say for the OP to ask the 'So what' question to being exposed to a) an external attacker, and b) an internal attacker, and c) a corrupt employee. The re-architecture may not be worth it. One huge advantage of vaults tho is their ability to rotate creds immediately, and everywhere. Think of all the redeployments needed if a rotation was required. Commented Jun 28 at 19:00
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Among others, an issue with using environment variables to store secrets is that they can be leaked unintentionally:

  • Messy code displaying raw error messages with context (env vars) to a user
  • Monitoring tool capturing the error and context and sending/storing it for future investigation
  • Developer logging environment variables which persists them to disk (and potentially to some log processing tool e.g. Logstash)
  • Compromised dependency sending all of the global variables it can reach, including env vars to the attacker
  • Setting the env variable leaving traces in the shell history

Potential issues with secrets stored in config files:

  • Misconfigured file permissions allowing access to a random OS user
  • Developer adding config files to version control
    • Intentionally (not knowing it's bad)
    • By accident. Even when the file is removed (during a PR review maybe), if not done properly, it may still live in the Git commit history.

Irrelevant to the way you store secrets, if your system is compromised you're screwed. Extracting those is just a matter of time and effort.

So what can we do to minimize the risks?

Don't store/pass around secrets in plain text. One way to approach the problem is to use an external (managed or self-hosted) secrets storage solution (e.g. AWS Parameter Store, Azure Vault, Hashicorp Vault) and fetch sensitive data at runtime (possibly caching in memory). This way your secrets are encrypted in transit and at rest.

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    The Vault also require some secrets to be opened. Where to store theses secrets?
    – Sindre
    Commented Nov 8, 2022 at 11:58
  • And how passwords/secrets for AWS/Azure/HC vaults will be secured?
    – bjan
    Commented May 3 at 6:12
  • @bjan: The AWS and Azure solutions use the identity of the instance as authentication. It means you can only retrieve the secrets from that exact instance, and permitted only to specific keys. It's automatic and requires zero setup. It mitigates against basic SSRF and LFI attacks. But if the attacker is on the box or has RCE, it's still game over. Commented Jun 28 at 18:46
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AFAICT, there are two reasons people recommend storing secrets in environment variables:

  1. It's too easy to inadvertently commit secret flat files to a repo. (And if it's a public repo, you're toast.)
  2. It prevents password clutter i.e., having the same key in many different project directory files is itself a security risk since developers will eventually lose track of where secrets are located.

These two issues can be solved in better ways. The former should be solved by a git commit hook that checks for things that look like passwords (e.g., gitleaks). I wish Linus built such a tool into the git library's source code but, alas, that didn't happen. (Needless to say, secret files should always be added to .gitignore, but you need a hook in case someone forgets to do so.)

The latter can be solved by having a global company secrets file, which is ideally stored on a read-only shared drive. So, in Python, you could have something like from company_secrets import *.

More importantly, as pointed out by others, it's way too easy to hack secrets stored in environment variables. For example, in Python, a library author could insert send_email(address="[email protected]", text=json.dumps(os.environ)) and then you're toast if you execute this code. Hacking is much more challenging if you have a file on your system called ~/secret_company_stuff/.my_very_secret_company_stuff.

Django users only:
Django (in DEBUG mode) shows the raw value of an environment variable in the browser if there is an exception (in DEBUG mode). This seems highly insecure if, for example, a developer accidentally sets DEBUG=True in production. In contrast, Django DOES obfuscate password settings variables by looking for the strings API, TOKEN, KEY, SECRET, PASS or SIGNATURE in the framework's settings.py file's variable names.

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    "and then you're toast if you execute this code" <- Well but you are always toast if you execute untrusted code. An attacker does not need to know the credentials if they have the means to run arbitrary code on the system in question, no?
    – timgeb
    Commented Nov 2, 2020 at 14:40
  • @timgeb Yes but the point is some untrusted code is much easier to write and much more effective than others. Therefore by using one method (env variables) over another (not obviously named files) you're increasing your attack surface from "cleverly written code which searches within your codebase for references to things which look like secrets files, then reads them" which is quite small, to "a oneliner anyone can copy and paste from stackexchange".
    – Gostega
    Commented Nov 29, 2021 at 0:40
  • AFAICT really? not everyone is good at anagrams.
    – Eric
    Commented Apr 6, 2023 at 6:20
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All the answers so far have too many hypotheticals and not enough solutions: Store passwords in pass, unix password manager: https://www.passwordstore.org/

I recently needed a way to store log access credentials to Loki for several different deployments. they consist of three vars:

LOKI_ADDR=https://loki.<environment>.domain
LOKI_USERNAME=<username>
LOKI_PASSWORD=<password>

Normal trick I use is to shove the whole environment into a secret, and load it in with command pass show <secret_name> | source. This anoints the current session with the secret vars, which I can then use to run whatever I need, closing it after to clear them.

But to make this easier to use, I want to call logcli with different credentials based on a single command.

#!/usr/bin/env bash
# loki <environment> <rest of logcli args>
# loki prod query '{app=+".+"}' --tail --no-labels

ENVNAME=$1
shift 1
env LOKI_USERNAME=<loki_username> LOKI_PASSWORD=$(pass show work/loki/$ENVNAME) LOKI_ADDR=https://loki.$ENVNAME.domain logcli "${@}"

Result is being able to do:

loki dev query '{app=+".+"}' --tail --no-labels

And have the script read loki password from work/loki/dev secret.

Just as a passing note, I make no claims about increased security beyond what is obvious. Other answers correctly point out the non-obvious.

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