CVE-2024-45305

CVE-2024-45305 is a low-severity security vulnerability in gix-path (rust), affecting versions < 0.10.10. It is fixed in 0.10.10.

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Summary

gix-path uses local config across repos when it is the highest scope

gix-path executes git to find the path of a configuration file that belongs to the git installation itself, but mistakenly treats the local repository's configuration as system-wide if no higher scoped configuration is found. In rare cases, this causes a less trusted repository to be treated as more trusted, or leaks sensitive information from one repository to another, such as sending credentials to another repository's remote.

Details

In gix_path::env, the underlying implementation of the installation_config and installation_config_prefix functions calls git config -l --show-origin and parses the first line of the output to extract the path to the configuration file holding the configuration variable of highest scope:

https://github.com/Byron/gitoxide/blob/12251eb052df30105538fa831e641eea557f13d8/gix-path/src/env/git/mod.rs#L91

https://github.com/Byron/gitoxide/blob/12251eb052df30105538fa831e641eea557f13d8/gix-path/src/env/git/mod.rs#L112

While the configuration variable of highest scope is not usually in the local scope, there are practical situations where this occurs:

  • A configuration file truly associated with the installation is not present on all systems and can occasionally be empty. Likewise, there may be no variables in the global scope.
  • Configuration files associated with those higher scopes may be deliberately skipped by setting the GIT_CONFIG_SYSTEM and GIT_CONFIG_GLOBAL environment variables to /dev/null (or to NUL on Windows). This prevents gix-path from finding the path of configuration files for those scopes, while not preventing downstream components such as the function in gix-config from reporting a local path as being associated with the installation.
  • The GIT_CONFIG_NOSYSTEM environment variable can be used to disable configuration associated with the installation. (GIT_CONFIG_NOSYSTEM=1 is more powerful than GIT_CONFIG_SYSTEM=/dev/null on systems where an additional "unknown" scope is associated with the installation, as occurs on macOS with Apple Git.) This will cause the local scope to be the highest nonempty scope under even more situations, though in practice it is less dangerous because most, though possibly not all, downstream components would disregard the value.

A user may use either or both of the latter two techniques to turn off an undesired configuration or to create a more replicable environment. Such a user would expect that this results in a more controlled configuration.

Often, when located inside one repository, a user performs operations on that repository or that are not specific to any repository. In such use, local configuration is typically desired or at least acceptable, and mistaking it as coming from another scope is not typically harmful.

However, sometimes a user is in one repository and operates on another repository. A major case where this occurs is cloning one repository while located in another. This can be done in an ad-hoc fashion, including when cloning the repository outside of the one we are inside. It may also potentially be automated by an application for purposes such as submodule handling. Two kinds of problems are anticipated:

  • A less secure configuration may be set for a specific repository where it is judged acceptable, even though it would not be wanted for other repositories, such as to enable a protocol or set up debugging.
  • More likely, a configuration that supplies secrets for use in one repository's remote can be used to send those secrets to another repository's remote.

PoC

In this example, we send mock Authorization: Basic ... credentials meant for one repository's remote to another remote, by running gix while inside the first repository to clone the second repository.

These instructions are written for a Unix shell, but they will work in other shells, including in PowerShell on Windows if the method of setting environment variables is adapted and /dev/null is replaced with NUL. This procedure is likely to demonstrate the problem on all systems except macOS. This is due to the high-scoped "unknown" configuration that usually accompanies Apple Git, and reflects that gix-path is in practice much less vulnerable on macOS (though still potentially vulnerable).

  1. Install dummyhttp to serve as a local HTTP server for the demonstration.

  2. Obtain a build of gitoxide with the max feature set enabled. While this vulnerability affects other builds, this example requires max for http.extraHeader support.

    Running cargo install gitoxide will install such a build though it may build against a patched version of gix-path. Cloning the repository (12251eb052df30105538fa831e641eea557f13d8 and earlier are affected) and building with cargo build or cargo install --path . are also sufficient. In contrast, installing from published binaries with binstall or quickinstall does not provide the max feature, as of this writing.

  3. Run: dummyhttp -i 127.0.0.1 -c 403 -v

  4. In a separate terminal, create a new local repository and set up a mock remote and http.extraHeader configuration:

    git init myrepo
    cd myrepo
    git remote add origin http://127.0.0.1:8080/mygit.git
    git config --local http.extraHeader 'Authorization: Basic abcde'
    
  5. Make sure the testing setup is working by running gix fetch in the repository and checking that it fails in the expected way. In the terminal where that is run, a message should be shown indicating an HTTP 403 error. The more interesting output is in the terminal where dummyhttp is running, which should look like this:

    2024-30-30 03:30:16 127.0.0.1:55689 GET /myrepo.git/info/refs?service=git-upload-pack HTTP/1.1
    ┌─Incoming request
    │ GET /myrepo.git/info/refs?service=git-upload-pack HTTP/1.1
    │ Accept: */*
    │ Authorization: Basic abcde
    │ Git-Protocol: version=2
    │ Host: 127.0.0.1:8080
    │ User-Agent: git/oxide-0.42.2
    ┌─Outgoing response
    │ HTTP/1.1 403 Forbidden
    │ Content-Length: 9
    │ Content-Type: text/plain; charset=utf-8
    │ Date: Fri, 30 Aug 2024 03:30:16 -0400
    

    Some details may differ, especially dates and times. But Authorization: Basic abcde should be shown.

  6. Now, in the terminal where you ran gix fetch, try cloning a separate repository:

    gix clone http://127.0.0.1:8080/other.git
    

    Check the output appended in the terminal where dummyhttp is running. This is to observe that Authorization: Basic abcde was rightly not sent.

    Alternatively, if it does appear, then your system may be in one of the uncommon configurations that is vulnerable without further action.

  7. Now rerun that command, but with a modified environment, to cause gix-path to wrongly treat configuration from the local scope as being associated with the git installation:

    env GIT_CONFIG_SYSTEM=/dev/null GIT_CONFIG_GLOBAL=/dev/null gix clone http://127.0.0.1:8080/other.git
    

    Check the output appended in the terminal where dummyhttp is running. Observe that Authorization: Basic abcde was wrongly sent.

While this procedure uses the same remote host for both repositories, this is not a required element. If the second repository had a different, untrusted host, the extra header would still be sent.

Impact

It is believed to be very difficult to exploit this vulnerability deliberately, due to the need either to anticipate a situation in which higher-scoped configuration variables would be absent, or to arrange for this to happen. Although any operating system may be affected, users running Apple Git on macOS are much less likely to be affected.

In the example shown above, more secure general practices would avoid it: using a credential manager, or even using http.<url>.extraHeader with as specific a <url> as possible, rather than the more general http.extraHeader. Many scenarios are analogous: if each repository's configuration is as secure as possible for how the repository is used, and secrets are stored securely and separately, then the circumstances under which an unacceptably unsecure configuration is used, or under which a leak of credentials would occur, become unlikely.

CVE-2024-45305 has a CVSS score of 2.5 (Low). The vector is requires local access, no privileges required, and user interaction required. A CVSS score reflects the worst-case severity of the vulnerability, not your specific exposure. Whether this affects your application depends on whether the vulnerable code is present and reachable in your environment. A fixed version is available (0.10.10); upgrading removes the vulnerable code path.

Affected versions

gix-path (< 0.10.10)

Security releases

gix-path → 0.10.10 (rust)

Kodem intelligence

Severity tells you how bad this could be in the worst case. It does not tell you whether you are exposed. Exploitability and impact are functions of runtime truth: whether the vulnerable code is present, reachable, and actually executes in your application. A vulnerable package can sit in your dependency tree and never run.

Kodem, an Intelligent Application Security platform, uses runtime intelligence to reveal which vulnerabilities actually execute in production, so teams prioritize the ones that genuinely matter. Kodem's runtime-powered SCA identifies whether this CVE is reachable in your applications.

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Remediation advice

Upgrade gix-path to 0.10.10 or later to resolve this vulnerability.

Kodem Kai can prioritize this vulnerability in your dependency tree and generate a fix recommendation.

Frequently Asked Questions

  1. What is CVE-2024-45305? CVE-2024-45305 is a low-severity security vulnerability in gix-path (rust), affecting versions < 0.10.10. It is fixed in 0.10.10.
  2. How severe is CVE-2024-45305? CVE-2024-45305 has a CVSS score of 2.5 (Low). This score reflects the worst-case severity of the vulnerability, not your specific exposure. Whether it represents real risk in your environment depends on whether the vulnerable code is present and reachable.
  3. Which versions of gix-path are affected by CVE-2024-45305? gix-path (rust) versions < 0.10.10 is affected.
  4. Is there a fix for CVE-2024-45305? Yes. CVE-2024-45305 is fixed in 0.10.10. Upgrade to this version or later.
  5. Is CVE-2024-45305 exploitable, and should I be worried? Whether CVE-2024-45305 is exploitable in your environment depends on whether the vulnerable code is present and reachable. A CVSS score is a worst-case rating; it does not account for your specific deployment, configuration, or usage patterns. Kodem, an Intelligent Application Security platform, uses runtime intelligence to show which vulnerabilities actually execute in production, so you can focus on the ones that represent real risk. Get a demo
  6. What actually determines whether CVE-2024-45305 is exploitable, and how bad it is? Exploitability and impact are not fixed properties of a CVE. They depend on runtime truth: whether the vulnerable code is present, reachable, and actually executes in your application. A high CVSS score on a dependency that never runs is not the same as real risk. Kodem, an Intelligent Application Security platform, uses runtime intelligence to reveal which vulnerabilities actually execute in production, so teams prioritize the ones that genuinely matter.
  7. How do I fix CVE-2024-45305? Upgrade gix-path to 0.10.10 or later.

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