Deps.rs

faststr 0.2.34

[![dependency status](https://deps.rs/crate/faststr/0.2.34/status.svg)](https://deps.rs/crate/faststr/0.2.34)

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 faststr

Dependencies

(12 total, 1 outdated, 3 possibly insecure)

CrateRequiredLatestStatus
 bytes ⚠️^11.11.1maybe insecure
 itoa^11.0.17up to date
 redis^1.01.0.5up to date
 rkyv ⚠️^0.80.8.15maybe insecure
 ryu^11.0.23up to date
 sea-orm^1.11.1.19up to date
 serde^11.0.228up to date
 simdutf8^0.10.1.5up to date
 sqlx ⚠️^0.80.8.6maybe insecure
 sqlx-mysql^0.80.8.6up to date
 sqlx-postgres^0.8.60.8.6up to date
 ts-rs^1112.0.1out of date

Dev dependencies

(4 total, 1 outdated, 1 possibly insecure)

CrateRequiredLatestStatus
 criterion^0.70.8.2out of date
 sea-orm^1.11.1.19up to date
 static_assertions^11.1.0up to date
 tokio ⚠️^11.50.0maybe insecure

Security Vulnerabilities

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);

sqlx: Binary Protocol Misinterpretation caused by Truncating or Overflowing Casts

RUSTSEC-2024-0363

The following presentation at this year's DEF CON was brought to our attention on the SQLx Discord:

SQL Injection isn't Dead: Smuggling Queries at the Protocol Level
http://web.archive.org/web/20240812130923/https://media.defcon.org/DEF%20CON%2032/DEF%20CON%2032%20presentations/DEF%20CON%2032%20-%20Paul%20Gerste%20-%20SQL%20Injection%20Isn't%20Dead%20Smuggling%20Queries%20at%20the%20Protocol%20Level.pdf
(Archive link for posterity.)

Essentially, encoding a value larger than 4GiB can cause the length prefix in the protocol to overflow, causing the server to interpret the rest of the string as binary protocol commands or other data.

It appears SQLx does perform truncating casts in a way that could be problematic, for example: https://github.com/launchbadge/sqlx/blob/6f2905695b9606b5f51b40ce10af63ac9e696bb8/sqlx-postgres/src/arguments.rs#L163

This code has existed essentially since the beginning, so it is reasonable to assume that all published versions <= 0.8.0 are affected.

Mitigation

As always, you should make sure your application is validating untrustworthy user input. Reject any input over 4 GiB, or any input that could encode to a string longer than 4 GiB. Dynamically built queries are also potentially problematic if it pushes the message size over this 4 GiB bound.

Encode::size_hint() can be used for sanity checks, but do not assume that the size returned is accurate. For example, the Json<T> and Text<T> adapters have no reasonable way to predict or estimate the final encoded size, so they just return size_of::<T>() instead.

For web application backends, consider adding some middleware that limits the size of request bodies by default.

Resolution

sqlx 0.8.1 has been released with the fix: https://github.com/launchbadge/sqlx/blob/main/CHANGELOG.md#081---2024-08-23

Postgres users are advised to upgrade ASAP as a possible exploit has been demonstrated: https://github.com/launchbadge/sqlx/issues/3440#issuecomment-2307956901

MySQL and SQLite do not appear to be exploitable, but upgrading is recommended nonetheless.

rkyv: Potential Undefined Behaviors in `Arc<T>`/`Rc<T>` impls of `from_value` on OOM

RUSTSEC-2026-0001

The SharedPointer::alloc implementation for sync::Arc<T> and rc::Rc<T> in rkyv/src/impls/alloc/rc/atomic.rs (and rc.rs) does not check if the allocator returns a null pointer on OOM (Out of Memory).

This null pointer can flow through to SharedPointer::from_value, which calls Box::from_raw(ptr) with the null pointer. This triggers undefined behavior when utilizing safe deserialization APIs (such as rkyv::from_bytes or rkyv::deserialize_using) if an OOM condition occurs during the allocation of the shared pointer.

The issue is reachable through safe code and violates Rust's safety guarantees.

bytes: Integer overflow in `BytesMut::reserve`

RUSTSEC-2026-0007

In the unique reclaim path of BytesMut::reserve, the condition

if v_capacity >= new_cap + offset

uses an unchecked addition. When new_cap + offset overflows usize in release builds, this condition may incorrectly pass, causing self.cap to be set to a value that exceeds the actual allocated capacity. Subsequent APIs such as spare_capacity_mut() then trust this corrupted cap value and may create out-of-bounds slices, leading to UB.

This behavior is observable in release builds (integer overflow wraps), whereas debug builds panic due to overflow checks.

PoC

use bytes::*;

fn main() {
    let mut a = BytesMut::from(&b"hello world"[..]);
    let mut b = a.split_off(5);

    // Ensure b becomes the unique owner of the backing storage
    drop(a);

    // Trigger overflow in new_cap + offset inside reserve
    b.reserve(usize::MAX - 6);

    // This call relies on the corrupted cap and may cause UB & HBO
    b.put_u8(b'h');
}

Workarounds

Users of BytesMut::reserve are only affected if integer overflow checks are configured to wrap. When integer overflow is configured to panic, this issue does not apply.