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Process-wide memory barrier

Build Status License Cargo Documentation

Memory barrier is one of the strongest synchronization primitives in modern relaxed-memory concurrency. In relaxed-memory concurrency, two threads may have different viewpoint on the underlying memory system, e.g. thread T1 may have recognized a value V at location X, while T2 does not know of X=V at all. This discrepancy is one of the main reasons why concurrent programming is hard. Memory barrier synchronizes threads in such a way that after memory barriers, threads have the same viewpoint on the underlying memory system.

Unfortunately, memory barrier is not cheap. Usually, in modern computer systems, there's a designated memory barrier instruction, e.g. MFENCE in x86 and DMB SY in ARM, and they may take more than 100 cycles. Use of memory barrier instruction may be tolerable for several use cases, e.g. context switching of a few threads, or synchronizing events that happen only once in the lifetime of a long process. However, sometimes memory barrier is necessary in a fast path, which significantly degrades the performance.

In order to reduce the synchronization cost of memory barrier, Linux and Windows provides process-wide memory barrier, which basically performs memory barrier for every thread in the process. Provided that it's even slower than the ordinary memory barrier instruction, what's the benefit? At the cost of process-wide memory barrier, other threads may be exempted from issuing a memory barrier instruction at all! In other words, by using process-wide memory barrier, you can optimize fast path at the performance cost of slow path.

For process-wide memory barrier, Linux recently introduced the sys_membarrier() system call, but it's known that in older Linux, the mprotect() system call with appropriate arguments provides process-wide memory barrier semantics. Windows provides FlushProcessWriteBuffers() API.

Usage

Use this crate as follows:

extern crate membarrier;
use std::sync::atomic::{fence, Ordering};

membarrier::light();     // light-weight barrier
membarrier::heavy();     // heavy-weight barrier
fence(Ordering::SeqCst); // normal barrier

Semantics

Formally, there are three kinds of memory barrier: light one (membarrier::light()), heavy one (membarrier::heavy()), and the normal one (fence(Ordering::SeqCst)). In an execution of a program, there is a total order over all instances of memory barrier. If thread A issues barrier X and thread B issues barrier Y and X is ordered before Y, then A's knowledge on the underlying memory system at the time of X is transferred to B after Y, provided that:

  • Either of A's or B's barrier is heavy; or
  • Both of A's and B's barriers are normal.

Reference

For more information, see the Linux man page for membarrier.

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Rust library for memory barrier

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