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 bollard

Dependencies

(37 total, 13 outdated, 5 possibly insecure)

CrateRequiredLatestStatus
 base64^0.210.22.1out of date
 bollard-buildkit-proto=0.1.00.4.0out of date
 bollard-stubs=1.42.0-rc.71.41.0up to date
 bytes^11.8.0up to date
 chrono ⚠️^0.40.4.38maybe insecure
 ct-logs^0.9.00.9.0up to date
 dirs-next^2.02.0.0up to date
 futures-core^0.30.3.31up to date
 futures-util^0.30.3.31up to date
 hex^0.4.20.4.3up to date
 http^0.21.1.0out of date
 hyper ⚠️^0.141.5.0out of date
 hyper-rustls^0.230.27.3out of date
 hyperlocal^0.8.00.9.1out of date
 log^0.40.4.22up to date
 num^0.40.4.3up to date
 pin-project-lite^0.2.80.2.15up to date
 rand^0.80.8.5up to date
 rustls ⚠️^0.200.23.16out of date
 rustls-native-certs^0.6.00.8.0out of date
 rustls-pemfile^1.02.2.0out of date
 serde^1.01.0.214up to date
 serde_derive^1.01.0.214up to date
 serde_json^1.01.0.132up to date
 serde_repr^0.1.60.1.19up to date
 serde_urlencoded^0.70.7.1up to date
 thiserror^1.02.0.0out of date
 time^0.30.3.36up to date
 tokio ⚠️^1.71.41.0maybe insecure
 tokio-util^0.70.7.12up to date
 tonic^0.80.12.3out of date
 tower^0.40.5.1out of date
 tower-service^0.30.3.3up to date
 url^2.22.5.3up to date
 webpki ⚠️^0.220.22.4maybe insecure
 webpki-roots^0.220.26.6out of date
 winapi^0.3.90.3.9up to date

Dev dependencies

(5 total, 2 outdated, 2 possibly insecure)

CrateRequiredLatestStatus
 flate2^1.01.0.34up to date
 tar ⚠️^0.40.4.43maybe insecure
 termion^2.04.0.3out of date
 tokio ⚠️^1.71.41.0maybe insecure
 yup-hyper-mock^6.0.08.0.0out 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

hyper: Lenient `hyper` header parsing of `Content-Length` could allow request smuggling

RUSTSEC-2021-0078

hyper's HTTP header parser accepted, according to RFC 7230, illegal contents inside Content-Length headers. Due to this, upstream HTTP proxies that ignore the header may still forward them along if it chooses to ignore the error.

To be vulnerable, hyper must be used as an HTTP/1 server and using an HTTP proxy upstream that ignores the header's contents but still forwards it. Due to all the factors that must line up, an attack exploiting this vulnerability is unlikely.

hyper: Integer overflow in `hyper`'s parsing of the `Transfer-Encoding` header leads to data loss

RUSTSEC-2021-0079

When decoding chunk sizes that are too large, hyper's code would encounter an integer overflow. Depending on the situation, this could lead to data loss from an incorrect total size, or in rarer cases, a request smuggling attack.

To be vulnerable, you must be using hyper for any HTTP/1 purpose, including as a client or server, and consumers must send requests or responses that specify a chunk size greater than 18 exabytes. For a possible request smuggling attack to be possible, any upstream proxies must accept a chunk size greater than 64 bits.

tar: Links in archive can create arbitrary directories

RUSTSEC-2021-0080

When unpacking a tarball that contains a symlink the tar crate may create directories outside of the directory it's supposed to unpack into.

The function errors when it's trying to create a file, but the folders are already created at this point.

use std::{io, io::Result};
use tar::{Archive, Builder, EntryType, Header};

fn main() -> Result<()> {
    let mut buf = Vec::new();

    {
        let mut builder = Builder::new(&mut buf);

        // symlink: parent -> ..
        let mut header = Header::new_gnu();
        header.set_path("symlink")?;
        header.set_link_name("..")?;
        header.set_entry_type(EntryType::Symlink);
        header.set_size(0);
        header.set_cksum();
        builder.append(&header, io::empty())?;

        // file: symlink/exploit/foo/bar
        let mut header = Header::new_gnu();
        header.set_path("symlink/exploit/foo/bar")?;
        header.set_size(0);
        header.set_cksum();
        builder.append(&header, io::empty())?;

        builder.finish()?;
    };

    Archive::new(&*buf).unpack("demo")
}

This has been fixed in https://github.com/alexcrichton/tar-rs/pull/259 and is published as tar 0.4.36. Thanks to Martin Michaelis (@mgjm) for discovering and reporting this, and Nikhil Benesch (@benesch) for the fix!

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);

webpki: webpki: CPU denial of service in certificate path building

RUSTSEC-2023-0052

When this crate is given a pathological certificate chain to validate, it will spend CPU time exponential with the number of candidate certificates at each step of path building.

Both TLS clients and TLS servers that accept client certificate are affected.

This was previously reported in https://github.com/briansmith/webpki/issues/69 and re-reported recently by Luke Malinowski.

webpki 0.22.1 included a partial fix and webpki 0.22.2 added further fixes.

rustls: `rustls::ConnectionCommon::complete_io` could fall into an infinite loop based on network input

RUSTSEC-2024-0336

If a close_notify alert is received during a handshake, complete_io does not terminate.

Callers which do not call complete_io are not affected.

rustls-tokio and rustls-ffi do not call complete_io and are not affected.

rustls::Stream and rustls::StreamOwned types use complete_io and are affected.