Vulnerabilities affecting this package (0)
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This package is not known to be affected by vulnerabilities.
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Vulnerabilities fixed by this package (2)
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VCID-19kb-chr9-x7fm
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Malicious dependencies can inject arbitrary JavaScript into cargo-generated timing reports
The Rust Security Response WG was notified that Cargo did not escape Cargo feature names when including them in the report generated by `cargo build --timings`. A malicious package included as a dependency may inject nearly arbitrary HTML here, potentially leading to XSS if the report is subsequently uploaded somewhere.
The severity of this vulnerability is "low" for users relying on dependencies from git, local paths, or alternative registries. Users who solely depend on crates.io are unaffected.
Note that **by design** Cargo allows code execution at build time, due to build scripts and procedural macros. The vulnerability in this advisory allows performing a subset of the possible damage in a harder to track down way. Your dependencies must still be trusted if you want to be protected from attacks, as it's possible to perform the same attacks with build scripts and procedural macros.
# Overview
Rust 1.60.0 [introduced](https://blog.rust-lang.org/2022/04/07/Rust-1.60.0.html#cargo---timings) `cargo build --timings`, which produces a report of how long the different steps of the build process took. It includes lists of Cargo features for each crate.
Prior to Rust 1.72, Cargo feature names were allowed to contain almost any characters (with some exceptions as used by the feature syntax), but it would produce a future incompatibility warning about them [since Rust 1.49](https://github.com/rust-lang/cargo/pull/8814). crates.io is far more stringent about what it considers a valid feature name and has not allowed such feature names.
As the feature names defined in the `Cargo.toml` file were included unescaped in the timings report, they could be used to inject Javascript into the page. For example with a feature name like `features = ["<img src='' onerror=alert(0)"]`. If this report were subsequently uploaded to a domain that uses credentials, the injected Javascript could access resources from the website visitor.
This issue was fixed by [turning the future incompatibility warning into an error](https://github.com/rust-lang/cargo/pull/12291).
# Affected versions
The vulnerability is present in all versions of Cargo after and including 1.60.0. Rust 1.72, to be released on August 24, will include a fix for it.
Users whose dependencies are entirely on crates.io are unaffected.
# Mitigations
We recommend users always excercise care in which package they download, by only including trusted dependencies in their projects. Please note that even with these vulnerabilities fixed, by design Cargo allows arbitrary code execution at build time thanks to build scripts and procedural macros: a malicious dependency will be able to cause damage regardless of these vulnerabilities.
crates.io has server-side checks preventing this attack, and there are no packages on crates.io exploiting these vulnerabilities. crates.io users still need to excercise care in choosing their dependencies though, as remote code execution is allowed by design there as well.
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CVE-2023-40030
GHSA-wrrj-h57r-vx9p
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VCID-fa6z-bb5y-jbg8
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Cargo not respecting umask when extracting crate archives
The Rust Security Response WG was notified that Cargo did not respect the umask when extracting crate archives on UNIX-like systems. If the user downloaded a crate containing files writeable by any local user, another local user could exploit this to change the source code compiled and executed by the current user.
This vulnerability has been assigned CVE-2023-38497.
## Overview
In UNIX-like systems, each file has three sets of permissions: for the user owning the file, for the group owning the file, and for all other local users. The "[umask][1]" is configured on most systems to limit those permissions during file creation, removing dangerous ones. For example, the default umask on macOS and most Linux distributions only allow the user owning a file to write to it, preventing the group owning it or other local users from doing the same.
When a dependency is downloaded by Cargo, its source code has to be extracted on disk to allow the Rust compiler to read as part of the build. To improve performance, this extraction only happens the first time a dependency is used, caching the pre-extracted files for future invocations.
Unfortunately, it was discovered that Cargo did not respect the umask during extraction, and propagated the permissions stored in the crate archive as-is. If an archive contained files writeable by any user on the system (and the system configuration didn't prevent writes through other security measures), another local user on the system could replace or tweak the source code of a dependency, potentially achieving code execution the next time the project is compiled.
## Affected Versions
All Rust versions before 1.71.1 on UNIX-like systems (like macOS and Linux) are affected. Note that additional system-dependent security measures configured on the local system might prevent the vulnerability from being exploited.
Users on Windows and other non-UNIX-like systems are not affected.
## Mitigations
We recommend all users to update to Rust 1.71.1, which will be released later today, as it fixes the vulnerability by respecting the umask when extracting crate archives. If you build your own toolchain, patches for 1.71.0 source tarballs are [available here][2].
To prevent existing cached extractions from being exploitable, the Cargo binary included in Rust 1.71.1 or later will purge the caches it tries to access if they were generated by older Cargo versions.
If you cannot update to Rust 1.71.1, we recommend configuring your system to prevent other local users from accessing the Cargo directory, usually located in `~/.cargo`:
```
chmod go= ~/.cargo
```
## Acknowledgments
We want to thank Addison Crump for responsibly disclosing this to us according to the [Rust security policy][3].
We also want to thank the members of the Rust project who helped us disclose the vulnerability: Weihang Lo for developing the fix; Eric Huss for reviewing the fix; Pietro Albini for writing this advisory; Pietro Albini, Manish Goregaokar and Josh Stone for coordinating this disclosure; Josh Triplett, Arlo Siemen, Scott Schafer, and Jacob Finkelman for advising during the disclosure.
[1]: https://en.wikipedia.org/wiki/Umask
[2]: https://github.com/rust-lang/wg-security-response/tree/main/patches/CVE-2023-38497
[3]: https://www.rust-lang.org/policies/security
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CVE-2023-38497
GHSA-j3xp-wfr4-hx87
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