Crates.io | mcslock |
lib.rs | mcslock |
version | 0.4.0 |
source | src |
created_at | 2023-12-14 22:34:04.072859 |
updated_at | 2024-11-04 20:43:42.431025 |
description | An implementation of Mellor-Crummey and Scott contention-free lock for mutual exclusion, referred to as MCS lock. |
homepage | |
repository | https://github.com/pedromfedricci/mcslock |
max_upload_size | |
id | 1070338 |
size | 213,903 |
MCS lock is a List-Based Queuing Lock that avoids network contention by having threads spin on local memory locations. The main properties of this mechanism are:
This algorithm and several others were introduced by Mellor-Crummey and Scott paper. And a simpler correctness proof of the MCS lock was proposed by Johnson and Harathi.
It is noteworthy to mention that spinlocks are usually not what you want. The
majority of use cases are well covered by OS-based mutexes like std::sync::Mutex
and parking_lot::Mutex
. These implementations will notify the system that the
waiting thread should be parked, freeing the processor to work on something else.
Spinlocks are only efficient in very few circumstances where the overhead
of context switching or process rescheduling are greater than busy waiting
for very short periods. Spinlocks can be useful inside operating-system kernels,
on embedded systems or even complement other locking designs. As a reference
use case, some Linux kernel mutexes run an customized MCS lock specifically
tailored for optimistic spinning during contention before actually sleeping.
This implementation is no_std
by default, so it's useful in those environments.
Run the following Cargo command in your project directory:
cargo add mcslock
Or add a entry under the [dependencies]
section in your Cargo.toml
:
# Cargo.toml
[dependencies]
# Available features: `yield`, `barging`, `thread_local` and `lock_api`.
mcslock = { version = "0.4", features = ["thread_local"] }
This project documentation is hosted at docs.rs. Or you can build it locally with the following command:
RUSTDOCFLAGS="--cfg docsrs" cargo +nightly doc --all-features --open
This implementation operates under FIFO. Raw locking APIs require exclusive
access to a locally accessible queue node. This node is represented by the
raw::MutexNode
type. Callers are responsible for instantiating the queue
nodes themselves. This implementation is no_std
compatible. See the raw
module for more information.
use std::sync::Arc;
use std::thread;
// `spins::Mutex` simply spins during contention.
use mcslock::raw::{spins::Mutex, MutexNode};
fn main() {
let mutex = Arc::new(Mutex::new(0));
let c_mutex = Arc::clone(&mutex);
thread::spawn(move || {
// A queue node must be mutably accessible.
// Critical section must be defined as a closure.
let mut node = MutexNode::new();
c_mutex.lock_with_then(&mut node, |data| {
*data = 10;
});
})
.join().expect("thread::spawn failed");
// A node is transparently allocated in the stack.
// Critical section must be defined as a closure.
assert_eq!(*mutex.try_lock_then(|data| *data.unwrap()), 10);
}
Enables raw::Mutex
locking APIs that operate over queue nodes that are
stored at the thread local storage. These locking APIs require a static
reference to a raw::LocalMutexNode
key. Keys must be generated by the
thread_local_node!
macro. Thread local nodes are not no_std
compatible
and can be enabled through the thread_local
feature.
use std::sync::Arc;
use std::thread;
// `spins::Mutex` simply spins during contention.
use mcslock::raw::spins::Mutex;
// Requires `thread_local` feature.
mcslock::thread_local_node!(static NODE);
fn main() {
let mutex = Arc::new(Mutex::new(0));
let c_mutex = Arc::clone(&mutex);
thread::spawn(move || {
// Local node handles are provided by reference.
// Critical section must be defined as a closure.
c_mutex.lock_with_local_then(&NODE, |data| *data = 10);
})
.join().expect("thread::spawn failed");
// Local node handles are provided by reference.
// Critical section must be defined as a closure.
assert_eq!(mutex.try_lock_with_local_then(&NODE, |data| *data.unwrap()), 10);
}
This implementation will have non-waiting threads race for the lock against
the front of the waiting queue thread, which means this it is an unfair lock.
This implementation is suitable for no_std
environments, and the locking
APIs are compatible with the lock_api crate. See barging
and
barging::lock_api
modules for more information.
use std::sync::Arc;
use std::thread;
// Requires `barging` feature.
// `spins::backoff::Mutex` spins with exponential backoff during contention.
use mcslock::barging::spins::backoff::Mutex;
fn main() {
let mutex = Arc::new(Mutex::new(0));
let c_mutex = Arc::clone(&mutex);
thread::spawn(move || {
*c_mutex.lock() = 10;
})
.join().expect("thread::spawn failed");
assert_eq!(*mutex.try_lock().unwrap(), 10);
}
This crate dos not provide any default features. Features that can be enabled are:
The yield
feature requires linking to the standard library, so it is not
suitable for no_std
environments. By enabling the yield
feature, instead
of busy-waiting during lock acquisitions and releases, this will call
std::thread::yield_now
, which cooperatively gives up a timeslice to the
OS scheduler. This may cause a context switch, so you may not want to enable
this feature if your intention is to to actually do optimistic spinning. The
default implementation calls core::hint::spin_loop
, which does in fact
just simply busy-waits. This feature is not no_std
compatible.
The thread_local
feature enables raw::Mutex
locking APIs that operate over
queue nodes that are stored at the thread local storage. These locking APIs
require a static reference to a raw::LocalMutexNode
key. Keys must be generated
by the thread_local_node!
macro. This feature is not no_std
compatible.
The barging
feature provides locking APIs that are compatible with the lock_api
crate. It does not require node allocations from the caller. The barging
module
is suitable for no_std
environments. This implementation is not fair (does not
guarantee FIFO), but can improve throughput when the lock is heavily contended.
This feature implements the RawMutex
trait from the lock_api crate for
barging::Mutex
. Aliases are provided by the barging::lock_api
(no_std
)
module.
This crate is guaranteed to compile on a Minimum Supported Rust Version (MSRV) of 1.65.0 and above. This version will not be changed without a minor version bump. If you intend to use this crate but can only target a older Rust version, feel free to open a issue with your specific target, it is possible to lower this crate MSRV substantially, it just has not been explored yet.
These projects provide MCS lock implementations with slightly different APIs, implementation details or compiler requirements, you can check their repositories:
Licensed under either of
Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in the work by you, as defined in the Apache-2.0 license, shall be dual licensed as above, without any additional terms or conditions.
It is recommended to always use cargo-crev to verify the trustworthiness of each of your dependencies, including this one.