This project might be open to known security vulnerabilities, which can be prevented by tightening the version range of affected dependencies. Find detailed information at the bottom.

Crate hdfs-native

Dependencies

(34 total, 6 outdated, 4 possibly insecure)

CrateRequiredLatestStatus
 aes^0.80.8.4up to date
 base64^0.210.22.1out of date
 bitflags^22.6.0up to date
 bytes^11.9.0up to date
 cbc^0.10.1.2up to date
 chrono ⚠️^0.40.4.39maybe insecure
 cipher^0.40.4.4up to date
 crc^3.23.2.1up to date
 ctr^0.90.9.2up to date
 des^0.80.8.1up to date
 dns-lookup^22.0.4up to date
 fs-hdfs3^0.1.120.1.12up to date
 futures^0.30.3.31up to date
 g2p^11.1.0up to date
 hex^0.40.4.3up to date
 hmac^0.120.12.1up to date
 libc^0.20.2.169up to date
 libloading^0.80.8.6up to date
 log^0.40.4.22up to date
 md-5^0.100.10.6up to date
 num-traits^0.20.2.19up to date
 once_cell^11.20.2up to date
 prost^0.120.13.4out of date
 prost-types^0.120.13.4out of date
 rand^0.80.8.5up to date
 regex ⚠️^11.11.1maybe insecure
 roxmltree^0.180.20.0out of date
 socket2^0.50.5.8up to date
 thiserror^12.0.9out of date
 tokio ⚠️^11.42.0maybe insecure
 url^22.5.4up to date
 uuid^11.11.0up to date
 which^47.0.1out of date
 whoami ⚠️^11.5.2maybe insecure

Dev dependencies

(5 total, 3 outdated)

CrateRequiredLatestStatus
 criterion^0.50.5.1up to date
 env_logger^0.100.11.6out of date
 serial_test^23.2.0out of date
 tempfile^33.14.0up to date
 which^47.0.1out of date

Security Vulnerabilities

chrono: Potential segfault in `localtime_r` invocations

RUSTSEC-2020-0159

Impact

Unix-like operating systems may segfault due to dereferencing a dangling pointer in specific circumstances. This requires an environment variable to be set in a different thread than the affected functions. This may occur without the user's knowledge, notably in a third-party library.

Workarounds

No workarounds are known.

References

regex: Regexes with large repetitions on empty sub-expressions take a very long time to parse

RUSTSEC-2022-0013

The Rust Security Response WG was notified that the regex crate did not properly limit the complexity of the regular expressions (regex) it parses. An attacker could use this security issue to perform a denial of service, by sending a specially crafted regex to a service accepting untrusted regexes. No known vulnerability is present when parsing untrusted input with trusted regexes.

This issue has been assigned CVE-2022-24713. The severity of this vulnerability is "high" when the regex crate is used to parse untrusted regexes. Other uses of the regex crate are not affected by this vulnerability.

Overview

The regex crate features built-in mitigations to prevent denial of service attacks caused by untrusted regexes, or untrusted input matched by trusted regexes. Those (tunable) mitigations already provide sane defaults to prevent attacks. This guarantee is documented and it's considered part of the crate's API.

Unfortunately a bug was discovered in the mitigations designed to prevent untrusted regexes to take an arbitrary amount of time during parsing, and it's possible to craft regexes that bypass such mitigations. This makes it possible to perform denial of service attacks by sending specially crafted regexes to services accepting user-controlled, untrusted regexes.

Affected versions

All versions of the regex crate before or equal to 1.5.4 are affected by this issue. The fix is include starting from regex 1.5.5.

Mitigations

We recommend everyone accepting user-controlled regexes to upgrade immediately to the latest version of the regex crate.

Unfortunately there is no fixed set of problematic regexes, as there are practically infinite regexes that could be crafted to exploit this vulnerability. Because of this, we do not recommend denying known problematic regexes.

Acknowledgements

We want to thank Addison Crump for responsibly disclosing this to us according to the Rust security policy, and for helping review the fix.

We also want to thank Andrew Gallant for developing the fix, and Pietro Albini for coordinating the disclosure and writing this advisory.

tokio: reject_remote_clients Configuration corruption

RUSTSEC-2023-0001

On Windows, configuring a named pipe server with pipe_mode will force ServerOptions::reject_remote_clients as false.

This drops any intended explicit configuration for the reject_remote_clients that may have been set as true previously.

The default setting of reject_remote_clients is normally true meaning the default is also overridden as false.

Workarounds

Ensure that pipe_mode is set first after initializing a ServerOptions. For example:

let mut opts = ServerOptions::new();
opts.pipe_mode(PipeMode::Message);
opts.reject_remote_clients(true);

whoami: Stack buffer overflow with whoami on several Unix platforms

RUSTSEC-2024-0020

With versions of the whoami crate >= 0.5.3 and < 1.5.0, calling any of these functions leads to an immediate stack buffer overflow on illumos and Solaris:

  • whoami::username
  • whoami::realname
  • whoami::username_os
  • whoami::realname_os

With versions of the whoami crate >= 0.5.3 and < 1.0.1, calling any of the above functions also leads to a stack buffer overflow on these platforms:

  • Bitrig
  • DragonFlyBSD
  • FreeBSD
  • NetBSD
  • OpenBSD

This occurs because of an incorrect definition of the passwd struct on those platforms.

As a result of this issue, denial of service and data corruption have both been observed in the wild. The issue is possibly exploitable as well.

This vulnerability also affects other Unix platforms that aren't Linux or macOS.

This issue has been addressed in whoami 1.5.0.

For more information, see this GitHub issue.