trust-dns 0.14.0

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 `trust-dns`

Dependencies

(15 total, 8 outdated, 4 possibly insecure)

Crate	Required	Latest	Status
chrono ⚠️	`^0.4`	`0.4.38`	maybe insecure
data-encoding	`^2.1.0`	`2.6.0`	up to date
data-encoding-macro	`^0.1.1`	`0.1.15`	up to date
error-chain	`^0.1.12`	`0.12.4`	out of date
futures	`^0.1.17`	`0.3.30`	out of date
lazy_static	`^1.0`	`1.4.0`	up to date
log	`^0.4.1`	`0.4.21`	up to date
openssl ⚠️	`^0.10`	`0.10.64`	maybe insecure
radix_trie	`^0.1.2`	`0.2.1`	out of date
rand	`^0.4`	`0.8.5`	out of date
ring	`^0.12`	`0.17.8`	out of date
tokio ⚠️	`^0.1.6`	`1.37.0`	out of date
tokio-tcp	`^0.1`	`0.1.4`	up to date
trust-dns-proto ⚠️	`^0.4`	`0.23.2`	out of date
untrusted	`^0.5`	`0.9.0`	out of date

Dev dependencies

(1 total, 1 possibly insecure)

Crate	Required	Latest	Status
openssl ⚠️	`^0.10`	`0.10.64`	maybe insecure

Security Vulnerabilities

`trust-dns-proto`: Stack overflow when parsing malicious DNS packet

RUSTSEC-2018-0007

There's a stack overflow leading to a crash when Trust-DNS's parses a malicious DNS packet.

Affected versions of this crate did not properly handle parsing of DNS message compression (RFC1035 section 4.1.4). The parser could be tricked into infinite loop when a compression offset pointed back to the same domain name to be parsed.

This allows an attacker to craft a malicious DNS packet which when consumed with Trust-DNS could cause stack overflow and crash the affected software.

The flaw was corrected by trust-dns-proto 0.4.3 and upcoming 0.5.0 release.

`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

time-rs/time#293

`tokio`: Data race when sending and receiving after closing a `oneshot` channel

RUSTSEC-2021-0124

If a tokio::sync::oneshot channel is closed (via the oneshot::Receiver::close method), a data race may occur if the oneshot::Sender::send method is called while the corresponding oneshot::Receiver is awaited or calling try_recv.

When these methods are called concurrently on a closed channel, the two halves of the channel can concurrently access a shared memory location, resulting in a data race. This has been observed to cause memory corruption.

Note that the race only occurs when both halves of the channel are used after the Receiver half has called close. Code where close is not used, or where the Receiver is not awaited and try_recv is not called after calling close, is not affected.

See tokio#4225 for more details.

`openssl`: `openssl` `X509VerifyParamRef::set_host` buffer over-read

RUSTSEC-2023-0044

When this function was passed an empty string, openssl would attempt to call strlen on it, reading arbitrary memory until it reached a NUL byte.