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67 lines
3.0 KiB
67 lines
3.0 KiB
10 years ago
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% Data Races and Race Conditions
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Safe Rust guarantees an absence of data races, which are defined as:
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* two or more threads concurrently accessing a location of memory
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* one of them is a write
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* one of them is unsynchronized
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A data race has Undefined Behaviour, and is therefore impossible to perform
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in Safe Rust. Data races are *mostly* prevented through rust's ownership system:
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it's impossible to alias a mutable reference, so it's impossible to perform a
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data race. Interior mutability makes this more complicated, which is largely why
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we have the Send and Sync traits (see below).
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However Rust *does not* prevent general race conditions. This is
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pretty fundamentally impossible, and probably honestly undesirable. Your hardware
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is racy, your OS is racy, the other programs on your computer are racy, and the
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world this all runs in is racy. Any system that could genuinely claim to prevent
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*all* race conditions would be pretty awful to use, if not just incorrect.
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So it's perfectly "fine" for a Safe Rust program to get deadlocked or do
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something incredibly stupid with incorrect synchronization. Obviously such a
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program isn't very good, but Rust can only hold your hand so far. Still, a
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race condition can't violate memory safety in a Rust program on
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its own. Only in conjunction with some other unsafe code can a race condition
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actually violate memory safety. For instance:
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```rust
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use std::thread;
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use std::sync::atomic::{AtomicUsize, Ordering};
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use std::sync::Arc;
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let data = vec![1, 2, 3, 4];
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// Arc so that the memory the AtomicUsize is stored in still exists for
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// the other thread to increment, even if we completely finish executing
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// before it. Rust won't compile the program without it, because of the
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// lifetime requirements of thread::spawn!
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let idx = Arc::new(AtomicUsize::new(0));
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let other_idx = idx.clone();
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// `move` captures other_idx by-value, moving it into this thread
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thread::spawn(move || {
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// It's ok to mutate idx because this value
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// is an atomic, so it can't cause a Data Race.
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other_idx.fetch_add(10, Ordering::SeqCst);
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});
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// Index with the value loaded from the atomic. This is safe because we
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// read the atomic memory only once, and then pass a *copy* of that value
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// to the Vec's indexing implementation. This indexing will be correctly
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// bounds checked, and there's no chance of the value getting changed
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// in the middle. However our program may panic if the thread we spawned
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// managed to increment before this ran. A race condition because correct
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// program execution (panicing is rarely correct) depends on order of
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// thread execution.
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println!("{}", data[idx.load(Ordering::SeqCst)]);
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if idx.load(Ordering::SeqCst) < data.len() {
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unsafe {
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// Incorrectly loading the idx *after* we did the bounds check.
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// It could have changed. This is a race condition, *and dangerous*
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// because we decided to do `get_unchecked`, which is `unsafe`.
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println!("{}", data.get_unchecked(idx.load(Ordering::SeqCst)));
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}
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}
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```
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