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|
// Copyright 2013 The Rust Project Developers. See the COPYRIGHT
// file at the top-level directory of this distribution and at
// http://rust-lang.org/COPYRIGHT.
//
// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.
//! Access to a single thread-local pointer.
//!
//! The runtime will use this for storing ~Task.
//!
//! XXX: Add runtime checks for usage of inconsistent pointer types.
//! and for overwriting an existing pointer.
#[allow(dead_code)];
use cast;
use ops::Drop;
use ptr::RawPtr;
#[cfg(windows)] // mingw-w32 doesn't like thread_local things
#[cfg(target_os = "android")] // see #10686
pub use self::native::*;
#[cfg(not(windows), not(target_os = "android"))]
pub use self::compiled::*;
/// Encapsulates a borrowed value. When this value goes out of scope, the
/// pointer is returned.
pub struct Borrowed<T> {
priv val: *(),
}
#[unsafe_destructor]
impl<T> Drop for Borrowed<T> {
fn drop(&mut self) {
unsafe {
if self.val.is_null() {
rtabort!("Aiee, returning null borrowed object!");
}
let val: ~T = cast::transmute(self.val);
put::<T>(val);
rtassert!(exists());
}
}
}
impl<T> Borrowed<T> {
pub fn get<'a>(&'a mut self) -> &'a mut T {
unsafe {
let val_ptr: &mut ~T = cast::transmute(&mut self.val);
let val_ptr: &'a mut T = *val_ptr;
val_ptr
}
}
}
/// Borrow the thread-local value from thread-local storage.
/// While the value is borrowed it is not available in TLS.
///
/// # Safety note
///
/// Does not validate the pointer type.
#[inline]
pub unsafe fn borrow<T>() -> Borrowed<T> {
let val: *() = cast::transmute(take::<T>());
Borrowed {
val: val,
}
}
/// Compiled implementation of accessing the runtime local pointer. This is
/// implemented using LLVM's thread_local attribute which isn't necessarily
/// working on all platforms. This implementation is faster, however, so we use
/// it wherever possible.
#[cfg(not(windows), not(target_os = "android"))]
pub mod compiled {
use cast;
use option::{Option, Some, None};
use ptr::RawPtr;
#[cfg(not(test))] use libc::c_void;
#[cfg(test)]
pub use realstd::rt::shouldnt_be_public::RT_TLS_PTR;
#[cfg(not(test))]
#[thread_local]
pub static mut RT_TLS_PTR: *mut c_void = 0 as *mut c_void;
pub fn init() {}
pub unsafe fn cleanup() {}
/// Give a pointer to thread-local storage.
///
/// # Safety note
///
/// Does not validate the pointer type.
#[inline]
pub unsafe fn put<T>(sched: ~T) {
RT_TLS_PTR = cast::transmute(sched)
}
/// Take ownership of a pointer from thread-local storage.
///
/// # Safety note
///
/// Does not validate the pointer type.
#[inline]
pub unsafe fn take<T>() -> ~T {
let ptr = RT_TLS_PTR;
rtassert!(!ptr.is_null());
let ptr: ~T = cast::transmute(ptr);
// can't use `as`, due to type not matching with `cfg(test)`
RT_TLS_PTR = cast::transmute(0);
ptr
}
/// Optionally take ownership of a pointer from thread-local storage.
///
/// # Safety note
///
/// Does not validate the pointer type.
#[inline]
pub unsafe fn try_take<T>() -> Option<~T> {
let ptr = RT_TLS_PTR;
if ptr.is_null() {
None
} else {
let ptr: ~T = cast::transmute(ptr);
// can't use `as`, due to type not matching with `cfg(test)`
RT_TLS_PTR = cast::transmute(0);
Some(ptr)
}
}
/// Take ownership of a pointer from thread-local storage.
///
/// # Safety note
///
/// Does not validate the pointer type.
/// Leaves the old pointer in TLS for speed.
#[inline]
pub unsafe fn unsafe_take<T>() -> ~T {
cast::transmute(RT_TLS_PTR)
}
/// Check whether there is a thread-local pointer installed.
pub fn exists() -> bool {
unsafe {
RT_TLS_PTR.is_not_null()
}
}
pub unsafe fn unsafe_borrow<T>() -> *mut T {
if RT_TLS_PTR.is_null() {
rtabort!("thread-local pointer is null. bogus!");
}
RT_TLS_PTR as *mut T
}
pub unsafe fn try_unsafe_borrow<T>() -> Option<*mut T> {
if RT_TLS_PTR.is_null() {
None
} else {
Some(RT_TLS_PTR as *mut T)
}
}
}
/// Native implementation of having the runtime thread-local pointer. This
/// implementation uses the `thread_local_storage` module to provide a
/// thread-local value.
pub mod native {
use cast;
use libc::c_void;
use option::{Option, Some, None};
use ptr;
use ptr::RawPtr;
use tls = rt::thread_local_storage;
static mut RT_TLS_KEY: tls::Key = -1;
/// Initialize the TLS key. Other ops will fail if this isn't executed
/// first.
pub fn init() {
unsafe {
tls::create(&mut RT_TLS_KEY);
}
}
pub unsafe fn cleanup() {
rtassert!(RT_TLS_KEY != -1);
tls::destroy(RT_TLS_KEY);
}
/// Give a pointer to thread-local storage.
///
/// # Safety note
///
/// Does not validate the pointer type.
#[inline]
pub unsafe fn put<T>(sched: ~T) {
let key = tls_key();
let void_ptr: *mut c_void = cast::transmute(sched);
tls::set(key, void_ptr);
}
/// Take ownership of a pointer from thread-local storage.
///
/// # Safety note
///
/// Does not validate the pointer type.
#[inline]
pub unsafe fn take<T>() -> ~T {
let key = tls_key();
let void_ptr: *mut c_void = tls::get(key);
if void_ptr.is_null() {
rtabort!("thread-local pointer is null. bogus!");
}
let ptr: ~T = cast::transmute(void_ptr);
tls::set(key, ptr::mut_null());
return ptr;
}
/// Optionally take ownership of a pointer from thread-local storage.
///
/// # Safety note
///
/// Does not validate the pointer type.
#[inline]
pub unsafe fn try_take<T>() -> Option<~T> {
match maybe_tls_key() {
Some(key) => {
let void_ptr: *mut c_void = tls::get(key);
if void_ptr.is_null() {
None
} else {
let ptr: ~T = cast::transmute(void_ptr);
tls::set(key, ptr::mut_null());
Some(ptr)
}
}
None => None
}
}
/// Take ownership of a pointer from thread-local storage.
///
/// # Safety note
///
/// Does not validate the pointer type.
/// Leaves the old pointer in TLS for speed.
#[inline]
pub unsafe fn unsafe_take<T>() -> ~T {
let key = tls_key();
let void_ptr: *mut c_void = tls::get(key);
if void_ptr.is_null() {
rtabort!("thread-local pointer is null. bogus!");
}
let ptr: ~T = cast::transmute(void_ptr);
return ptr;
}
/// Check whether there is a thread-local pointer installed.
pub fn exists() -> bool {
unsafe {
match maybe_tls_key() {
Some(key) => tls::get(key).is_not_null(),
None => false
}
}
}
/// Borrow a mutable reference to the thread-local value
///
/// # Safety Note
///
/// Because this leaves the value in thread-local storage it is possible
/// For the Scheduler pointer to be aliased
pub unsafe fn unsafe_borrow<T>() -> *mut T {
let key = tls_key();
let void_ptr = tls::get(key);
if void_ptr.is_null() {
rtabort!("thread-local pointer is null. bogus!");
}
void_ptr as *mut T
}
pub unsafe fn try_unsafe_borrow<T>() -> Option<*mut T> {
match maybe_tls_key() {
Some(key) => {
let void_ptr = tls::get(key);
if void_ptr.is_null() {
None
} else {
Some(void_ptr as *mut T)
}
}
None => None
}
}
#[inline]
fn tls_key() -> tls::Key {
match maybe_tls_key() {
Some(key) => key,
None => rtabort!("runtime tls key not initialized")
}
}
#[inline]
#[cfg(not(test))]
pub fn maybe_tls_key() -> Option<tls::Key> {
unsafe {
// NB: This is a little racy because, while the key is
// initalized under a mutex and it's assumed to be initalized
// in the Scheduler ctor by any thread that needs to use it,
// we are not accessing the key under a mutex. Threads that
// are not using the new Scheduler but still *want to check*
// whether they are running under a new Scheduler may see a 0
// value here that is in the process of being initialized in
// another thread. I think this is fine since the only action
// they could take if it was initialized would be to check the
// thread-local value and see that it's not set.
if RT_TLS_KEY != -1 {
return Some(RT_TLS_KEY);
} else {
return None;
}
}
}
#[inline] #[cfg(test)]
pub fn maybe_tls_key() -> Option<tls::Key> {
use realstd;
unsafe {
cast::transmute(realstd::rt::shouldnt_be_public::maybe_tls_key())
}
}
}
|
