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28fc2ba7142654fa6e654926f96ff913027b200e
rust/library/std/src/thread/current.rs
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joboet 5a856b82f3 std: allow after-main use of synchronization primitives 
By creating an unnamed thread handle when the actual one has already been destroyed, synchronization primitives using thread parking can be used even outside the Rust runtime.

This also fixes an inefficiency in the queue-based `RwLock`: if `thread::current` was not initialized yet, it will create a new handle on every parking attempt without initializing `thread::current`. The private `current_or_unnamed` function introduced here fixes this.
2024-11-18 17:55:36 +01:00

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Rust
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use super::{Thread, ThreadId};
use crate::mem::ManuallyDrop;
use crate::ptr;
use crate::sys::thread_local::local_pointer;
const NONE: *mut () = ptr::null_mut();
const BUSY: *mut () = ptr::without_provenance_mut(1);
const DESTROYED: *mut () = ptr::without_provenance_mut(2);
local_pointer! {
static CURRENT;
}
/// Persistent storage for the thread ID.
///
/// We store the thread ID so that it never gets destroyed during the lifetime
/// of a thread, either using `#[thread_local]` or multiple `local_pointer!`s.
mod id {
use super::*;
cfg_if::cfg_if! {
if #[cfg(target_thread_local)] {
use crate::cell::Cell;
#[thread_local]
static ID: Cell<Option<ThreadId>> = Cell::new(None);
pub(super) const CHEAP: bool = true;
pub(super) fn get() -> Option<ThreadId> {
ID.get()
}
pub(super) fn set(id: ThreadId) {
ID.set(Some(id))
}
} else if #[cfg(target_pointer_width = "16")] {
local_pointer! {
static ID0;
static ID16;
static ID32;
static ID48;
}
pub(super) const CHEAP: bool = false;
pub(super) fn get() -> Option<ThreadId> {
let id0 = ID0.get().addr() as u64;
let id16 = ID16.get().addr() as u64;
let id32 = ID32.get().addr() as u64;
let id48 = ID48.get().addr() as u64;
ThreadId::from_u64((id48 << 48) + (id32 << 32) + (id16 << 16) + id0)
}
pub(super) fn set(id: ThreadId) {
let val = id.as_u64().get();
ID0.set(ptr::without_provenance_mut(val as usize));
ID16.set(ptr::without_provenance_mut((val >> 16) as usize));
ID32.set(ptr::without_provenance_mut((val >> 32) as usize));
ID48.set(ptr::without_provenance_mut((val >> 48) as usize));
}
} else if #[cfg(target_pointer_width = "32")] {
local_pointer! {
static ID0;
static ID32;
}
pub(super) const CHEAP: bool = false;
pub(super) fn get() -> Option<ThreadId> {
let id0 = ID0.get().addr() as u64;
let id32 = ID32.get().addr() as u64;
ThreadId::from_u64((id32 << 32) + id0)
}
pub(super) fn set(id: ThreadId) {
let val = id.as_u64().get();
ID0.set(ptr::without_provenance_mut(val as usize));
ID32.set(ptr::without_provenance_mut((val >> 32) as usize));
}
} else {
local_pointer! {
static ID;
}
pub(super) const CHEAP: bool = true;
pub(super) fn get() -> Option<ThreadId> {
let id = ID.get().addr() as u64;
ThreadId::from_u64(id)
}
pub(super) fn set(id: ThreadId) {
let val = id.as_u64().get();
ID.set(ptr::without_provenance_mut(val as usize));
}
}
}
#[inline]
pub(super) fn get_or_init() -> ThreadId {
get().unwrap_or_else(
#[cold]
|| {
let id = ThreadId::new();
id::set(id);
id
},
)
}
}
/// Tries to set the thread handle for the current thread. Fails if a handle was
/// already set or if the thread ID of `thread` would change an already-set ID.
pub(crate) fn set_current(thread: Thread) -> Result<(), Thread> {
if CURRENT.get() != NONE {
return Err(thread);
}
match id::get() {
Some(id) if id == thread.id() => {}
None => id::set(thread.id()),
_ => return Err(thread),
}
// Make sure that `crate::rt::thread_cleanup` will be run, which will
// call `drop_current`.
crate::sys::thread_local::guard::enable();
CURRENT.set(thread.into_raw().cast_mut());
Ok(())
}
/// Gets the id of the thread that invokes it.
///
/// This function will always succeed, will always return the same value for
/// one thread and is guaranteed not to call the global allocator.
#[inline]
pub(crate) fn current_id() -> ThreadId {
// If accessing the persistant thread ID takes multiple TLS accesses, try
// to retrieve it from the current thread handle, which will only take one
// TLS access.
if !id::CHEAP {
let current = CURRENT.get();
if current > DESTROYED {
unsafe {
let current = ManuallyDrop::new(Thread::from_raw(current));
return current.id();
}
}
}
id::get_or_init()
}
/// Gets a handle to the thread that invokes it, if the handle has been initialized.
pub(crate) fn try_current() -> Option<Thread> {
let current = CURRENT.get();
if current > DESTROYED {
unsafe {
let current = ManuallyDrop::new(Thread::from_raw(current));
Some((*current).clone())
}
} else {
None
}
}
/// Gets a handle to the thread that invokes it. If the handle stored in thread-
/// local storage was already destroyed, this creates a new unnamed temporary
/// handle to allow thread parking in nearly all situations.
pub(crate) fn current_or_unnamed() -> Thread {
let current = CURRENT.get();
if current > DESTROYED {
unsafe {
let current = ManuallyDrop::new(Thread::from_raw(current));
(*current).clone()
}
} else if current == DESTROYED {
Thread::new_unnamed(id::get_or_init())
} else {
init_current(current)
}
}
/// Gets a handle to the thread that invokes it.
///
/// # Examples
///
/// Getting a handle to the current thread with `thread::current()`:
///
/// ```
/// use std::thread;
///
/// let handler = thread::Builder::new()
/// .name("named thread".into())
/// .spawn(|| {
/// let handle = thread::current();
/// assert_eq!(handle.name(), Some("named thread"));
/// })
/// .unwrap();
///
/// handler.join().unwrap();
/// ```
#[must_use]
#[stable(feature = "rust1", since = "1.0.0")]
pub fn current() -> Thread {
let current = CURRENT.get();
if current > DESTROYED {
unsafe {
let current = ManuallyDrop::new(Thread::from_raw(current));
(*current).clone()
}
} else {
init_current(current)
}
}
#[cold]
fn init_current(current: *mut ()) -> Thread {
if current == NONE {
CURRENT.set(BUSY);
// If the thread ID was initialized already, use it.
let id = id::get_or_init();
let thread = Thread::new_unnamed(id);
// Make sure that `crate::rt::thread_cleanup` will be run, which will
// call `drop_current`.
crate::sys::thread_local::guard::enable();
CURRENT.set(thread.clone().into_raw().cast_mut());
thread
} else if current == BUSY {
// BUSY exists solely for this check, but as it is in the slow path, the
// extra TLS write above shouldn't matter. The alternative is nearly always
// a stack overflow.
// If you came across this message, contact the author of your allocator.
// If you are said author: A surprising amount of functions inside the
// standard library (e.g. `Mutex`, `thread_local!`, `File` when using long
// paths, even `panic!` when using unwinding), need memory allocation, so
// you'll get circular dependencies all over the place when using them.
// I (joboet) highly recommend using only APIs from core in your allocator
// and implementing your own system abstractions. Still, if you feel that
// a particular API should be entirely allocation-free, feel free to open
// an issue on the Rust repository, we'll see what we can do.
rtabort!(
"\n
Attempted to access thread-local data while allocating said data.\n
Do not access functions that allocate in the global allocator!\n
This is a bug in the global allocator.\n
"
)
} else {
debug_assert_eq!(current, DESTROYED);
panic!(
"use of std::thread::current() is not possible after the thread's
local data has been destroyed"
)
}
}
/// This should be run in [`crate::rt::thread_cleanup`] to reset the thread
/// handle.
pub(crate) fn drop_current() {
let current = CURRENT.get();
if current > DESTROYED {
unsafe {
CURRENT.set(DESTROYED);
drop(Thread::from_raw(current));
}
}
}
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