diff --git a/std/src/sys/pal/hermit/mod.rs b/std/src/sys/pal/hermit/mod.rs index a64323a3a296e..9818cf9c4e787 100644 --- a/std/src/sys/pal/hermit/mod.rs +++ b/std/src/sys/pal/hermit/mod.rs @@ -33,9 +33,6 @@ pub mod pipe; pub mod process; pub mod stdio; pub mod thread; -pub mod thread_local_dtor; -#[path = "../unsupported/thread_local_key.rs"] -pub mod thread_local_key; pub mod time; use crate::io::ErrorKind; @@ -98,7 +95,6 @@ pub unsafe extern "C" fn runtime_entry( argv: *const *const c_char, env: *const *const c_char, ) -> ! { - use thread_local_dtor::run_dtors; extern "C" { fn main(argc: isize, argv: *const *const c_char) -> i32; } @@ -108,7 +104,7 @@ pub unsafe extern "C" fn runtime_entry( let result = main(argc as isize, argv); - run_dtors(); + crate::sys::thread_local::destructors::run(); hermit_abi::exit(result); } diff --git a/std/src/sys/pal/hermit/thread.rs b/std/src/sys/pal/hermit/thread.rs index b336dcd6860e4..da349f314a824 100644 --- a/std/src/sys/pal/hermit/thread.rs +++ b/std/src/sys/pal/hermit/thread.rs @@ -1,7 +1,6 @@ #![allow(dead_code)] use super::hermit_abi; -use super::thread_local_dtor::run_dtors; use crate::ffi::CStr; use crate::io; use crate::mem; @@ -50,7 +49,7 @@ impl Thread { Box::from_raw(ptr::with_exposed_provenance::>(main).cast_mut())(); // run all destructors - run_dtors(); + crate::sys::thread_local::destructors::run(); } } } diff --git a/std/src/sys/pal/hermit/thread_local_dtor.rs b/std/src/sys/pal/hermit/thread_local_dtor.rs deleted file mode 100644 index 98adaf4bff1aa..0000000000000 --- a/std/src/sys/pal/hermit/thread_local_dtor.rs +++ /dev/null @@ -1,29 +0,0 @@ -#![cfg(target_thread_local)] -#![unstable(feature = "thread_local_internals", issue = "none")] - -// Simplify dtor registration by using a list of destructors. -// The this solution works like the implementation of macOS and -// doesn't additional OS support - -use crate::cell::RefCell; - -#[thread_local] -static DTORS: RefCell> = RefCell::new(Vec::new()); - -pub unsafe fn register_dtor(t: *mut u8, dtor: unsafe extern "C" fn(*mut u8)) { - match DTORS.try_borrow_mut() { - Ok(mut dtors) => dtors.push((t, dtor)), - Err(_) => rtabort!("global allocator may not use TLS"), - } -} - -// every thread call this function to run through all possible destructors -pub unsafe fn run_dtors() { - let mut list = DTORS.take(); - while !list.is_empty() { - for (ptr, dtor) in list { - dtor(ptr); - } - list = DTORS.take(); - } -} diff --git a/std/src/sys/pal/itron/thread.rs b/std/src/sys/pal/itron/thread.rs index 205226ce1da80..11f941e07f8e2 100644 --- a/std/src/sys/pal/itron/thread.rs +++ b/std/src/sys/pal/itron/thread.rs @@ -14,7 +14,6 @@ use crate::{ num::NonZero, ptr::NonNull, sync::atomic::{AtomicUsize, Ordering}, - sys::thread_local_dtor::run_dtors, time::Duration, }; @@ -116,7 +115,7 @@ impl Thread { // Run TLS destructors now because they are not // called automatically for terminated tasks. - unsafe { run_dtors() }; + unsafe { crate::sys::thread_local::destructors::run() }; let old_lifecycle = inner .lifecycle diff --git a/std/src/sys/pal/sgx/mod.rs b/std/src/sys/pal/sgx/mod.rs index d30976ec15149..851ab9b9f9767 100644 --- a/std/src/sys/pal/sgx/mod.rs +++ b/std/src/sys/pal/sgx/mod.rs @@ -26,7 +26,6 @@ pub mod pipe; pub mod process; pub mod stdio; pub mod thread; -pub mod thread_local_key; pub mod thread_parking; pub mod time; pub mod waitqueue; diff --git a/std/src/sys/pal/solid/mod.rs b/std/src/sys/pal/solid/mod.rs index 3f6ff37903ac6..9a7741ddda71e 100644 --- a/std/src/sys/pal/solid/mod.rs +++ b/std/src/sys/pal/solid/mod.rs @@ -33,8 +33,6 @@ pub mod pipe; pub mod process; pub mod stdio; pub use self::itron::thread; -pub mod thread_local_dtor; -pub mod thread_local_key; pub use self::itron::thread_parking; pub mod time; diff --git a/std/src/sys/pal/solid/thread_local_dtor.rs b/std/src/sys/pal/solid/thread_local_dtor.rs deleted file mode 100644 index 26918a4fcb012..0000000000000 --- a/std/src/sys/pal/solid/thread_local_dtor.rs +++ /dev/null @@ -1,43 +0,0 @@ -#![cfg(target_thread_local)] -#![unstable(feature = "thread_local_internals", issue = "none")] - -// Simplify dtor registration by using a list of destructors. - -use super::{abi, itron::task}; -use crate::cell::{Cell, RefCell}; - -#[thread_local] -static REGISTERED: Cell = Cell::new(false); - -#[thread_local] -static DTORS: RefCell> = RefCell::new(Vec::new()); - -pub unsafe fn register_dtor(t: *mut u8, dtor: unsafe extern "C" fn(*mut u8)) { - if !REGISTERED.get() { - let tid = task::current_task_id_aborting(); - // Register `tls_dtor` to make sure the TLS destructors are called - // for tasks created by other means than `std::thread` - unsafe { abi::SOLID_TLS_AddDestructor(tid as i32, tls_dtor) }; - REGISTERED.set(true); - } - - match DTORS.try_borrow_mut() { - Ok(mut dtors) => dtors.push((t, dtor)), - Err(_) => rtabort!("global allocator may not use TLS"), - } -} - -pub unsafe fn run_dtors() { - let mut list = DTORS.take(); - while !list.is_empty() { - for (ptr, dtor) in list { - unsafe { dtor(ptr) }; - } - - list = DTORS.take(); - } -} - -unsafe extern "C" fn tls_dtor(_unused: *mut u8) { - unsafe { run_dtors() }; -} diff --git a/std/src/sys/pal/solid/thread_local_key.rs b/std/src/sys/pal/solid/thread_local_key.rs deleted file mode 100644 index b37bf99969887..0000000000000 --- a/std/src/sys/pal/solid/thread_local_key.rs +++ /dev/null @@ -1,21 +0,0 @@ -pub type Key = usize; - -#[inline] -pub unsafe fn create(_dtor: Option) -> Key { - panic!("should not be used on the solid target"); -} - -#[inline] -pub unsafe fn set(_key: Key, _value: *mut u8) { - panic!("should not be used on the solid target"); -} - -#[inline] -pub unsafe fn get(_key: Key) -> *mut u8 { - panic!("should not be used on the solid target"); -} - -#[inline] -pub unsafe fn destroy(_key: Key) { - panic!("should not be used on the solid target"); -} diff --git a/std/src/sys/pal/teeos/mod.rs b/std/src/sys/pal/teeos/mod.rs index 6dd465a12ed49..2a789e72722bd 100644 --- a/std/src/sys/pal/teeos/mod.rs +++ b/std/src/sys/pal/teeos/mod.rs @@ -27,9 +27,6 @@ pub mod process; mod rand; pub mod stdio; pub mod thread; -pub mod thread_local_dtor; -#[path = "../unix/thread_local_key.rs"] -pub mod thread_local_key; #[allow(non_upper_case_globals)] #[path = "../unix/time.rs"] pub mod time; diff --git a/std/src/sys/pal/teeos/thread_local_dtor.rs b/std/src/sys/pal/teeos/thread_local_dtor.rs deleted file mode 100644 index 5c6bc4d675011..0000000000000 --- a/std/src/sys/pal/teeos/thread_local_dtor.rs +++ /dev/null @@ -1,4 +0,0 @@ -pub unsafe fn register_dtor(t: *mut u8, dtor: unsafe extern "C" fn(*mut u8)) { - use crate::sys_common::thread_local_dtor::register_dtor_fallback; - register_dtor_fallback(t, dtor); -} diff --git a/std/src/sys/pal/uefi/mod.rs b/std/src/sys/pal/uefi/mod.rs index 48b74df138439..408031a461665 100644 --- a/std/src/sys/pal/uefi/mod.rs +++ b/std/src/sys/pal/uefi/mod.rs @@ -28,8 +28,6 @@ pub mod pipe; pub mod process; pub mod stdio; pub mod thread; -#[path = "../unsupported/thread_local_key.rs"] -pub mod thread_local_key; pub mod time; mod helpers; diff --git a/std/src/sys/pal/unix/mod.rs b/std/src/sys/pal/unix/mod.rs index 735ed96bc7b16..4dced1e559269 100644 --- a/std/src/sys/pal/unix/mod.rs +++ b/std/src/sys/pal/unix/mod.rs @@ -31,8 +31,6 @@ pub mod rand; pub mod stack_overflow; pub mod stdio; pub mod thread; -pub mod thread_local_dtor; -pub mod thread_local_key; pub mod thread_parking; pub mod time; diff --git a/std/src/sys/pal/unix/thread_local_dtor.rs b/std/src/sys/pal/unix/thread_local_dtor.rs deleted file mode 100644 index 75db6e112ed35..0000000000000 --- a/std/src/sys/pal/unix/thread_local_dtor.rs +++ /dev/null @@ -1,126 +0,0 @@ -#![cfg(target_thread_local)] -#![unstable(feature = "thread_local_internals", issue = "none")] - -//! Provides thread-local destructors without an associated "key", which -//! can be more efficient. - -// Since what appears to be glibc 2.18 this symbol has been shipped which -// GCC and clang both use to invoke destructors in thread_local globals, so -// let's do the same! -// -// Note, however, that we run on lots older linuxes, as well as cross -// compiling from a newer linux to an older linux, so we also have a -// fallback implementation to use as well. -#[cfg(any( - target_os = "linux", - target_os = "android", - target_os = "fuchsia", - target_os = "redox", - target_os = "hurd", - target_os = "netbsd", - target_os = "dragonfly" -))] -// FIXME: The Rust compiler currently omits weakly function definitions (i.e., -// __cxa_thread_atexit_impl) and its metadata from LLVM IR. -#[no_sanitize(cfi, kcfi)] -pub unsafe fn register_dtor(t: *mut u8, dtor: unsafe extern "C" fn(*mut u8)) { - use crate::mem; - use crate::sys_common::thread_local_dtor::register_dtor_fallback; - - /// This is necessary because the __cxa_thread_atexit_impl implementation - /// std links to by default may be a C or C++ implementation that was not - /// compiled using the Clang integer normalization option. - #[cfg(sanitizer_cfi_normalize_integers)] - use core::ffi::c_int; - #[cfg(not(sanitizer_cfi_normalize_integers))] - #[cfi_encoding = "i"] - #[repr(transparent)] - pub struct c_int(#[allow(dead_code)] pub libc::c_int); - - extern "C" { - #[linkage = "extern_weak"] - static __dso_handle: *mut u8; - #[linkage = "extern_weak"] - static __cxa_thread_atexit_impl: Option< - extern "C" fn( - unsafe extern "C" fn(*mut libc::c_void), - *mut libc::c_void, - *mut libc::c_void, - ) -> c_int, - >; - } - - if let Some(f) = __cxa_thread_atexit_impl { - unsafe { - f( - mem::transmute::< - unsafe extern "C" fn(*mut u8), - unsafe extern "C" fn(*mut libc::c_void), - >(dtor), - t.cast(), - core::ptr::addr_of!(__dso_handle) as *mut _, - ); - } - return; - } - register_dtor_fallback(t, dtor); -} - -// This implementation is very similar to register_dtor_fallback in -// sys_common/thread_local.rs. The main difference is that we want to hook into -// macOS's analog of the above linux function, _tlv_atexit. OSX will run the -// registered dtors before any TLS slots get freed, and when the main thread -// exits. -// -// Unfortunately, calling _tlv_atexit while tls dtors are running is UB. The -// workaround below is to register, via _tlv_atexit, a custom DTOR list once per -// thread. thread_local dtors are pushed to the DTOR list without calling -// _tlv_atexit. -#[cfg(target_vendor = "apple")] -pub unsafe fn register_dtor(t: *mut u8, dtor: unsafe extern "C" fn(*mut u8)) { - use crate::cell::{Cell, RefCell}; - use crate::ptr; - - #[thread_local] - static REGISTERED: Cell = Cell::new(false); - - #[thread_local] - static DTORS: RefCell> = RefCell::new(Vec::new()); - - if !REGISTERED.get() { - _tlv_atexit(run_dtors, ptr::null_mut()); - REGISTERED.set(true); - } - - extern "C" { - fn _tlv_atexit(dtor: unsafe extern "C" fn(*mut u8), arg: *mut u8); - } - - match DTORS.try_borrow_mut() { - Ok(mut dtors) => dtors.push((t, dtor)), - Err(_) => rtabort!("global allocator may not use TLS"), - } - - unsafe extern "C" fn run_dtors(_: *mut u8) { - let mut list = DTORS.take(); - while !list.is_empty() { - for (ptr, dtor) in list { - dtor(ptr); - } - list = DTORS.take(); - } - } -} - -#[cfg(any( - target_os = "vxworks", - target_os = "horizon", - target_os = "emscripten", - target_os = "aix", - target_os = "freebsd", -))] -#[cfg_attr(target_family = "wasm", allow(unused))] // might remain unused depending on target details (e.g. wasm32-unknown-emscripten) -pub unsafe fn register_dtor(t: *mut u8, dtor: unsafe extern "C" fn(*mut u8)) { - use crate::sys_common::thread_local_dtor::register_dtor_fallback; - register_dtor_fallback(t, dtor); -} diff --git a/std/src/sys/pal/unix/thread_local_key.rs b/std/src/sys/pal/unix/thread_local_key.rs deleted file mode 100644 index 2b2d079ee4d01..0000000000000 --- a/std/src/sys/pal/unix/thread_local_key.rs +++ /dev/null @@ -1,29 +0,0 @@ -#![allow(dead_code)] // not used on all platforms - -use crate::mem; - -pub type Key = libc::pthread_key_t; - -#[inline] -pub unsafe fn create(dtor: Option) -> Key { - let mut key = 0; - assert_eq!(libc::pthread_key_create(&mut key, mem::transmute(dtor)), 0); - key -} - -#[inline] -pub unsafe fn set(key: Key, value: *mut u8) { - let r = libc::pthread_setspecific(key, value as *mut _); - debug_assert_eq!(r, 0); -} - -#[inline] -pub unsafe fn get(key: Key) -> *mut u8 { - libc::pthread_getspecific(key) as *mut u8 -} - -#[inline] -pub unsafe fn destroy(key: Key) { - let r = libc::pthread_key_delete(key); - debug_assert_eq!(r, 0); -} diff --git a/std/src/sys/pal/unsupported/mod.rs b/std/src/sys/pal/unsupported/mod.rs index 01f5cfd429753..442e6042ad561 100644 --- a/std/src/sys/pal/unsupported/mod.rs +++ b/std/src/sys/pal/unsupported/mod.rs @@ -11,9 +11,6 @@ pub mod pipe; pub mod process; pub mod stdio; pub mod thread; -#[cfg(target_thread_local)] -pub mod thread_local_dtor; -pub mod thread_local_key; pub mod time; mod common; diff --git a/std/src/sys/pal/unsupported/thread_local_dtor.rs b/std/src/sys/pal/unsupported/thread_local_dtor.rs deleted file mode 100644 index 84660ea588156..0000000000000 --- a/std/src/sys/pal/unsupported/thread_local_dtor.rs +++ /dev/null @@ -1,10 +0,0 @@ -#![unstable(feature = "thread_local_internals", issue = "none")] - -#[cfg_attr(target_family = "wasm", allow(unused))] // unused on wasm32-unknown-unknown -pub unsafe fn register_dtor(_t: *mut u8, _dtor: unsafe extern "C" fn(*mut u8)) { - // FIXME: right now there is no concept of "thread exit", but this is likely - // going to show up at some point in the form of an exported symbol that the - // wasm runtime is going to be expected to call. For now we basically just - // ignore the arguments, but if such a function starts to exist it will - // likely look like the OSX implementation in `unix/fast_thread_local.rs` -} diff --git a/std/src/sys/pal/unsupported/thread_local_key.rs b/std/src/sys/pal/unsupported/thread_local_key.rs deleted file mode 100644 index b6e5e4cd2e197..0000000000000 --- a/std/src/sys/pal/unsupported/thread_local_key.rs +++ /dev/null @@ -1,21 +0,0 @@ -pub type Key = usize; - -#[inline] -pub unsafe fn create(_dtor: Option) -> Key { - panic!("should not be used on this target"); -} - -#[inline] -pub unsafe fn set(_key: Key, _value: *mut u8) { - panic!("should not be used on this target"); -} - -#[inline] -pub unsafe fn get(_key: Key) -> *mut u8 { - panic!("should not be used on this target"); -} - -#[inline] -pub unsafe fn destroy(_key: Key) { - panic!("should not be used on this target"); -} diff --git a/std/src/sys/pal/wasi/mod.rs b/std/src/sys/pal/wasi/mod.rs index c1266619b36ab..8dfb733043e77 100644 --- a/std/src/sys/pal/wasi/mod.rs +++ b/std/src/sys/pal/wasi/mod.rs @@ -33,10 +33,6 @@ pub mod pipe; pub mod process; pub mod stdio; pub mod thread; -#[path = "../unsupported/thread_local_dtor.rs"] -pub mod thread_local_dtor; -#[path = "../unsupported/thread_local_key.rs"] -pub mod thread_local_key; pub mod time; #[path = "../unsupported/common.rs"] diff --git a/std/src/sys/pal/wasip2/mod.rs b/std/src/sys/pal/wasip2/mod.rs index 6787ffb4bed8f..7af0917b8ed42 100644 --- a/std/src/sys/pal/wasip2/mod.rs +++ b/std/src/sys/pal/wasip2/mod.rs @@ -34,10 +34,6 @@ pub mod process; pub mod stdio; #[path = "../wasi/thread.rs"] pub mod thread; -#[path = "../unsupported/thread_local_dtor.rs"] -pub mod thread_local_dtor; -#[path = "../unsupported/thread_local_key.rs"] -pub mod thread_local_key; #[path = "../wasi/time.rs"] pub mod time; diff --git a/std/src/sys/pal/wasm/mod.rs b/std/src/sys/pal/wasm/mod.rs index 75dd10826cc04..4c34859e918bb 100644 --- a/std/src/sys/pal/wasm/mod.rs +++ b/std/src/sys/pal/wasm/mod.rs @@ -34,10 +34,6 @@ pub mod pipe; pub mod process; #[path = "../unsupported/stdio.rs"] pub mod stdio; -#[path = "../unsupported/thread_local_dtor.rs"] -pub mod thread_local_dtor; -#[path = "../unsupported/thread_local_key.rs"] -pub mod thread_local_key; #[path = "../unsupported/time.rs"] pub mod time; diff --git a/std/src/sys/pal/windows/c.rs b/std/src/sys/pal/windows/c.rs index 9d58ce05f018b..6ec82693077dc 100644 --- a/std/src/sys/pal/windows/c.rs +++ b/std/src/sys/pal/windows/c.rs @@ -54,6 +54,7 @@ pub const EXIT_FAILURE: u32 = 1; pub const CONDITION_VARIABLE_INIT: CONDITION_VARIABLE = CONDITION_VARIABLE { Ptr: ptr::null_mut() }; #[cfg(target_vendor = "win7")] pub const SRWLOCK_INIT: SRWLOCK = SRWLOCK { Ptr: ptr::null_mut() }; +#[cfg(not(target_thread_local))] pub const INIT_ONCE_STATIC_INIT: INIT_ONCE = INIT_ONCE { Ptr: ptr::null_mut() }; // Some windows_sys types have different signs than the types we use. diff --git a/std/src/sys/pal/windows/mod.rs b/std/src/sys/pal/windows/mod.rs index 402a205977b07..a1bc2965e2e55 100644 --- a/std/src/sys/pal/windows/mod.rs +++ b/std/src/sys/pal/windows/mod.rs @@ -31,8 +31,6 @@ pub mod process; pub mod rand; pub mod stdio; pub mod thread; -pub mod thread_local_dtor; -pub mod thread_local_key; pub mod time; cfg_if::cfg_if! { if #[cfg(not(target_vendor = "uwp"))] { diff --git a/std/src/sys/pal/windows/thread_local_dtor.rs b/std/src/sys/pal/windows/thread_local_dtor.rs deleted file mode 100644 index cf542d2bfb838..0000000000000 --- a/std/src/sys/pal/windows/thread_local_dtor.rs +++ /dev/null @@ -1,7 +0,0 @@ -//! Implements thread-local destructors that are not associated with any -//! particular data. - -#![unstable(feature = "thread_local_internals", issue = "none")] -#![cfg(target_thread_local)] - -pub use super::thread_local_key::register_keyless_dtor as register_dtor; diff --git a/std/src/sys/pal/windows/thread_local_key.rs b/std/src/sys/pal/windows/thread_local_key.rs deleted file mode 100644 index e5ba619fc6ba4..0000000000000 --- a/std/src/sys/pal/windows/thread_local_key.rs +++ /dev/null @@ -1,351 +0,0 @@ -use crate::cell::UnsafeCell; -use crate::ptr; -use crate::sync::atomic::{ - AtomicPtr, AtomicU32, - Ordering::{AcqRel, Acquire, Relaxed, Release}, -}; -use crate::sys::c; - -#[cfg(test)] -mod tests; - -// Using a per-thread list avoids the problems in synchronizing global state. -#[thread_local] -#[cfg(target_thread_local)] -static DESTRUCTORS: crate::cell::RefCell> = - crate::cell::RefCell::new(Vec::new()); - -// Ensure this can never be inlined because otherwise this may break in dylibs. -// See #44391. -#[inline(never)] -#[cfg(target_thread_local)] -pub unsafe fn register_keyless_dtor(t: *mut u8, dtor: unsafe extern "C" fn(*mut u8)) { - dtors_used(); - match DESTRUCTORS.try_borrow_mut() { - Ok(mut dtors) => dtors.push((t, dtor)), - Err(_) => rtabort!("global allocator may not use TLS"), - } -} - -#[inline(never)] // See comment above -#[cfg(target_thread_local)] -/// Runs destructors. This should not be called until thread exit. -unsafe fn run_keyless_dtors() { - // Drop all the destructors. - // - // Note: While this is potentially an infinite loop, it *should* be - // the case that this loop always terminates because we provide the - // guarantee that a TLS key cannot be set after it is flagged for - // destruction. - loop { - // Use a let-else binding to ensure the `RefCell` guard is dropped - // immediately. Otherwise, a panic would occur if a TLS destructor - // tries to access the list. - let Some((ptr, dtor)) = DESTRUCTORS.borrow_mut().pop() else { - break; - }; - (dtor)(ptr); - } - // We're done so free the memory. - DESTRUCTORS.replace(Vec::new()); -} - -type Key = c::DWORD; -type Dtor = unsafe extern "C" fn(*mut u8); - -// Turns out, like pretty much everything, Windows is pretty close the -// functionality that Unix provides, but slightly different! In the case of -// TLS, Windows does not provide an API to provide a destructor for a TLS -// variable. This ends up being pretty crucial to this implementation, so we -// need a way around this. -// -// The solution here ended up being a little obscure, but fear not, the -// internet has informed me [1][2] that this solution is not unique (no way -// I could have thought of it as well!). The key idea is to insert some hook -// somewhere to run arbitrary code on thread termination. With this in place -// we'll be able to run anything we like, including all TLS destructors! -// -// To accomplish this feat, we perform a number of threads, all contained -// within this module: -// -// * All TLS destructors are tracked by *us*, not the Windows runtime. This -// means that we have a global list of destructors for each TLS key that -// we know about. -// * When a thread exits, we run over the entire list and run dtors for all -// non-null keys. This attempts to match Unix semantics in this regard. -// -// For more details and nitty-gritty, see the code sections below! -// -// [1]: https://www.codeproject.com/Articles/8113/Thread-Local-Storage-The-C-Way -// [2]: https://github.com/ChromiumWebApps/chromium/blob/master/base/threading/thread_local_storage_win.cc#L42 - -pub struct StaticKey { - /// The key value shifted up by one. Since TLS_OUT_OF_INDEXES == DWORD::MAX - /// is not a valid key value, this allows us to use zero as sentinel value - /// without risking overflow. - key: AtomicU32, - dtor: Option, - next: AtomicPtr, - /// Currently, destructors cannot be unregistered, so we cannot use racy - /// initialization for keys. Instead, we need synchronize initialization. - /// Use the Windows-provided `Once` since it does not require TLS. - once: UnsafeCell, -} - -impl StaticKey { - #[inline] - pub const fn new(dtor: Option) -> StaticKey { - StaticKey { - key: AtomicU32::new(0), - dtor, - next: AtomicPtr::new(ptr::null_mut()), - once: UnsafeCell::new(c::INIT_ONCE_STATIC_INIT), - } - } - - #[inline] - pub unsafe fn set(&'static self, val: *mut u8) { - let r = c::TlsSetValue(self.key(), val.cast()); - debug_assert_eq!(r, c::TRUE); - } - - #[inline] - pub unsafe fn get(&'static self) -> *mut u8 { - c::TlsGetValue(self.key()).cast() - } - - #[inline] - unsafe fn key(&'static self) -> Key { - match self.key.load(Acquire) { - 0 => self.init(), - key => key - 1, - } - } - - #[cold] - unsafe fn init(&'static self) -> Key { - if self.dtor.is_some() { - dtors_used(); - let mut pending = c::FALSE; - let r = c::InitOnceBeginInitialize(self.once.get(), 0, &mut pending, ptr::null_mut()); - assert_eq!(r, c::TRUE); - - if pending == c::FALSE { - // Some other thread initialized the key, load it. - self.key.load(Relaxed) - 1 - } else { - let key = c::TlsAlloc(); - if key == c::TLS_OUT_OF_INDEXES { - // Wakeup the waiting threads before panicking to avoid deadlock. - c::InitOnceComplete(self.once.get(), c::INIT_ONCE_INIT_FAILED, ptr::null_mut()); - panic!("out of TLS indexes"); - } - - register_dtor(self); - - // Release-storing the key needs to be the last thing we do. - // This is because in `fn key()`, other threads will do an acquire load of the key, - // and if that sees this write then it will entirely bypass the `InitOnce`. We thus - // need to establish synchronization through `key`. In particular that acquire load - // must happen-after the register_dtor above, to ensure the dtor actually runs! - self.key.store(key + 1, Release); - - let r = c::InitOnceComplete(self.once.get(), 0, ptr::null_mut()); - debug_assert_eq!(r, c::TRUE); - - key - } - } else { - // If there is no destructor to clean up, we can use racy initialization. - - let key = c::TlsAlloc(); - assert_ne!(key, c::TLS_OUT_OF_INDEXES, "out of TLS indexes"); - - match self.key.compare_exchange(0, key + 1, AcqRel, Acquire) { - Ok(_) => key, - Err(new) => { - // Some other thread completed initialization first, so destroy - // our key and use theirs. - let r = c::TlsFree(key); - debug_assert_eq!(r, c::TRUE); - new - 1 - } - } - } - } -} - -unsafe impl Send for StaticKey {} -unsafe impl Sync for StaticKey {} - -// ------------------------------------------------------------------------- -// Dtor registration -// -// Windows has no native support for running destructors so we manage our own -// list of destructors to keep track of how to destroy keys. We then install a -// callback later to get invoked whenever a thread exits, running all -// appropriate destructors. -// -// Currently unregistration from this list is not supported. A destructor can be -// registered but cannot be unregistered. There's various simplifying reasons -// for doing this, the big ones being: -// -// 1. Currently we don't even support deallocating TLS keys, so normal operation -// doesn't need to deallocate a destructor. -// 2. There is no point in time where we know we can unregister a destructor -// because it could always be getting run by some remote thread. -// -// Typically processes have a statically known set of TLS keys which is pretty -// small, and we'd want to keep this memory alive for the whole process anyway -// really. - -static DTORS: AtomicPtr = AtomicPtr::new(ptr::null_mut()); - -/// Should only be called once per key, otherwise loops or breaks may occur in -/// the linked list. -unsafe fn register_dtor(key: &'static StaticKey) { - // Ensure this is never run when native thread locals are available. - assert_eq!(false, cfg!(target_thread_local)); - let this = <*const StaticKey>::cast_mut(key); - // Use acquire ordering to pass along the changes done by the previously - // registered keys when we store the new head with release ordering. - let mut head = DTORS.load(Acquire); - loop { - key.next.store(head, Relaxed); - match DTORS.compare_exchange_weak(head, this, Release, Acquire) { - Ok(_) => break, - Err(new) => head = new, - } - } -} - -// ------------------------------------------------------------------------- -// Where the Magic (TM) Happens -// -// If you're looking at this code, and wondering "what is this doing?", -// you're not alone! I'll try to break this down step by step: -// -// # What's up with CRT$XLB? -// -// For anything about TLS destructors to work on Windows, we have to be able -// to run *something* when a thread exits. To do so, we place a very special -// static in a very special location. If this is encoded in just the right -// way, the kernel's loader is apparently nice enough to run some function -// of ours whenever a thread exits! How nice of the kernel! -// -// Lots of detailed information can be found in source [1] above, but the -// gist of it is that this is leveraging a feature of Microsoft's PE format -// (executable format) which is not actually used by any compilers today. -// This apparently translates to any callbacks in the ".CRT$XLB" section -// being run on certain events. -// -// So after all that, we use the compiler's #[link_section] feature to place -// a callback pointer into the magic section so it ends up being called. -// -// # What's up with this callback? -// -// The callback specified receives a number of parameters from... someone! -// (the kernel? the runtime? I'm not quite sure!) There are a few events that -// this gets invoked for, but we're currently only interested on when a -// thread or a process "detaches" (exits). The process part happens for the -// last thread and the thread part happens for any normal thread. -// -// # Ok, what's up with running all these destructors? -// -// This will likely need to be improved over time, but this function -// attempts a "poor man's" destructor callback system. Once we've got a list -// of what to run, we iterate over all keys, check their values, and then run -// destructors if the values turn out to be non null (setting them to null just -// beforehand). We do this a few times in a loop to basically match Unix -// semantics. If we don't reach a fixed point after a short while then we just -// inevitably leak something most likely. -// -// # The article mentions weird stuff about "/INCLUDE"? -// -// It sure does! Specifically we're talking about this quote: -// -// The Microsoft run-time library facilitates this process by defining a -// memory image of the TLS Directory and giving it the special name -// “__tls_used” (Intel x86 platforms) or “_tls_used” (other platforms). The -// linker looks for this memory image and uses the data there to create the -// TLS Directory. Other compilers that support TLS and work with the -// Microsoft linker must use this same technique. -// -// Basically what this means is that if we want support for our TLS -// destructors/our hook being called then we need to make sure the linker does -// not omit this symbol. Otherwise it will omit it and our callback won't be -// wired up. -// -// We don't actually use the `/INCLUDE` linker flag here like the article -// mentions because the Rust compiler doesn't propagate linker flags, but -// instead we use a shim function which performs a volatile 1-byte load from -// the address of the symbol to ensure it sticks around. - -#[link_section = ".CRT$XLB"] -#[cfg_attr(miri, used)] // Miri only considers explicitly `#[used]` statics for `lookup_link_section` -pub static p_thread_callback: unsafe extern "system" fn(c::LPVOID, c::DWORD, c::LPVOID) = - on_tls_callback; - -fn dtors_used() { - // we don't want LLVM eliminating p_thread_callback when destructors are used. - // when the symbol makes it to the linker the linker will take over - unsafe { crate::intrinsics::volatile_load(&p_thread_callback) }; -} - -unsafe extern "system" fn on_tls_callback(_h: c::LPVOID, dwReason: c::DWORD, _pv: c::LPVOID) { - if dwReason == c::DLL_THREAD_DETACH || dwReason == c::DLL_PROCESS_DETACH { - #[cfg(not(target_thread_local))] - run_dtors(); - #[cfg(target_thread_local)] - run_keyless_dtors(); - } - - // See comments above for what this is doing. Note that we don't need this - // trickery on GNU windows, just on MSVC. - #[cfg(all(target_env = "msvc", not(target_thread_local)))] - { - extern "C" { - static _tls_used: u8; - } - crate::intrinsics::volatile_load(&_tls_used); - } -} - -#[cfg(not(target_thread_local))] -unsafe fn run_dtors() { - for _ in 0..5 { - let mut any_run = false; - - // Use acquire ordering to observe key initialization. - let mut cur = DTORS.load(Acquire); - while !cur.is_null() { - let pre_key = (*cur).key.load(Acquire); - let dtor = (*cur).dtor.unwrap(); - cur = (*cur).next.load(Relaxed); - - // In StaticKey::init, we register the dtor before setting `key`. - // So if one thread's `run_dtors` races with another thread executing `init` on the same - // `StaticKey`, we can encounter a key of 0 here. That means this key was never - // initialized in this thread so we can safely skip it. - if pre_key == 0 { - continue; - } - // If this is non-zero, then via the `Acquire` load above we synchronized with - // everything relevant for this key. (It's not clear that this is needed, since the - // release-acquire pair on DTORS also establishes synchronization, but better safe than - // sorry.) - let key = pre_key - 1; - - let ptr = c::TlsGetValue(key); - if !ptr.is_null() { - c::TlsSetValue(key, ptr::null_mut()); - dtor(ptr as *mut _); - any_run = true; - } - } - - if !any_run { - break; - } - } -} diff --git a/std/src/sys/pal/xous/mod.rs b/std/src/sys/pal/xous/mod.rs index 68189bcc2e377..a28a52e305e22 100644 --- a/std/src/sys/pal/xous/mod.rs +++ b/std/src/sys/pal/xous/mod.rs @@ -17,7 +17,6 @@ pub mod pipe; pub mod process; pub mod stdio; pub mod thread; -pub mod thread_local_key; pub mod time; #[path = "../unsupported/common.rs"] diff --git a/std/src/sys/pal/xous/thread.rs b/std/src/sys/pal/xous/thread.rs index da7d722cc7082..279f24f9ee8e4 100644 --- a/std/src/sys/pal/xous/thread.rs +++ b/std/src/sys/pal/xous/thread.rs @@ -81,7 +81,7 @@ impl Thread { // Destroy TLS, which will free the TLS page and call the destructor for // any thread local storage (if any). unsafe { - crate::sys::thread_local_key::destroy_tls(); + crate::sys::thread_local::key::destroy_tls(); } // Deallocate the stack memory, along with the guard pages. Afterwards, diff --git a/std/src/sys/pal/zkvm/mod.rs b/std/src/sys/pal/zkvm/mod.rs index 0b22eabca6d82..bacde9d880c2c 100644 --- a/std/src/sys/pal/zkvm/mod.rs +++ b/std/src/sys/pal/zkvm/mod.rs @@ -25,7 +25,6 @@ pub mod pipe; #[path = "../unsupported/process.rs"] pub mod process; pub mod stdio; -pub mod thread_local_key; #[path = "../unsupported/time.rs"] pub mod time; diff --git a/std/src/sys/pal/zkvm/thread_local_key.rs b/std/src/sys/pal/zkvm/thread_local_key.rs deleted file mode 100644 index 2f67924c61823..0000000000000 --- a/std/src/sys/pal/zkvm/thread_local_key.rs +++ /dev/null @@ -1,23 +0,0 @@ -use crate::alloc::{alloc, Layout}; - -pub type Key = usize; - -#[inline] -pub unsafe fn create(_dtor: Option) -> Key { - alloc(Layout::new::<*mut u8>()) as _ -} - -#[inline] -pub unsafe fn set(key: Key, value: *mut u8) { - let key: *mut *mut u8 = core::ptr::with_exposed_provenance_mut(key); - *key = value; -} - -#[inline] -pub unsafe fn get(key: Key) -> *mut u8 { - let key: *mut *mut u8 = core::ptr::with_exposed_provenance_mut(key); - *key -} - -#[inline] -pub unsafe fn destroy(_key: Key) {} diff --git a/std/src/sys/thread_local/destructors/linux.rs b/std/src/sys/thread_local/destructors/linux.rs new file mode 100644 index 0000000000000..e00ca9a91bd85 --- /dev/null +++ b/std/src/sys/thread_local/destructors/linux.rs @@ -0,0 +1,58 @@ +//! Destructor registration for Linux-like systems. +//! +//! Since what appears to be version 2.18, glibc has shipped the +//! `__cxa_thread_atexit_impl` symbol which GCC and clang both use to invoke +//! destructors in C++ thread_local globals. This function does exactly what +//! we want: it schedules a callback which will be run at thread exit with the +//! provided argument. +//! +//! Unfortunately, our minimum supported glibc version (at the time of writing) +//! is 2.17, so we can only link this symbol weakly and need to use the +//! [`list`](super::list) destructor implementation as fallback. + +use crate::mem::transmute; + +// FIXME: The Rust compiler currently omits weakly function definitions (i.e., +// __cxa_thread_atexit_impl) and its metadata from LLVM IR. +#[no_sanitize(cfi, kcfi)] +pub unsafe fn register(t: *mut u8, dtor: unsafe extern "C" fn(*mut u8)) { + /// This is necessary because the __cxa_thread_atexit_impl implementation + /// std links to by default may be a C or C++ implementation that was not + /// compiled using the Clang integer normalization option. + #[cfg(sanitizer_cfi_normalize_integers)] + use core::ffi::c_int; + #[cfg(not(sanitizer_cfi_normalize_integers))] + #[cfi_encoding = "i"] + #[repr(transparent)] + #[allow(non_camel_case_types)] + pub struct c_int(#[allow(dead_code)] pub libc::c_int); + + extern "C" { + #[linkage = "extern_weak"] + static __dso_handle: *mut u8; + #[linkage = "extern_weak"] + static __cxa_thread_atexit_impl: Option< + extern "C" fn( + unsafe extern "C" fn(*mut libc::c_void), + *mut libc::c_void, + *mut libc::c_void, + ) -> c_int, + >; + } + + if let Some(f) = unsafe { __cxa_thread_atexit_impl } { + unsafe { + f( + transmute::( + dtor, + ), + t.cast(), + core::ptr::addr_of!(__dso_handle) as *mut _, + ); + } + } else { + unsafe { + super::list::register(t, dtor); + } + } +} diff --git a/std/src/sys/thread_local/destructors/list.rs b/std/src/sys/thread_local/destructors/list.rs new file mode 100644 index 0000000000000..b9d5214c438d2 --- /dev/null +++ b/std/src/sys/thread_local/destructors/list.rs @@ -0,0 +1,44 @@ +use crate::cell::RefCell; +use crate::sys::thread_local::guard; + +#[thread_local] +static DTORS: RefCell> = RefCell::new(Vec::new()); + +pub unsafe fn register(t: *mut u8, dtor: unsafe extern "C" fn(*mut u8)) { + let Ok(mut dtors) = DTORS.try_borrow_mut() else { + // This point can only be reached if the global allocator calls this + // function again. + // FIXME: maybe use the system allocator instead? + rtabort!("the global allocator may not use TLS with destructors"); + }; + + guard::enable(); + + dtors.push((t, dtor)); +} + +/// The [`guard`] module contains platform-specific functions which will run this +/// function on thread exit if [`guard::enable`] has been called. +/// +/// # Safety +/// +/// May only be run on thread exit to guarantee that there are no live references +/// to TLS variables while they are destroyed. +pub unsafe fn run() { + loop { + let mut dtors = DTORS.borrow_mut(); + match dtors.pop() { + Some((t, dtor)) => { + drop(dtors); + unsafe { + dtor(t); + } + } + None => { + // Free the list memory. + *dtors = Vec::new(); + break; + } + } + } +} diff --git a/std/src/sys/thread_local/guard/apple.rs b/std/src/sys/thread_local/guard/apple.rs new file mode 100644 index 0000000000000..6c27f7ae35cba --- /dev/null +++ b/std/src/sys/thread_local/guard/apple.rs @@ -0,0 +1,31 @@ +//! macOS allows registering destructors through _tlv_atexit. But since calling +//! it while TLS destructors are running is UB, we still need to keep our own +//! list of destructors. + +use crate::cell::Cell; +use crate::ptr; +use crate::sys::thread_local::destructors; + +pub fn enable() { + #[thread_local] + static REGISTERED: Cell = Cell::new(false); + + extern "C" { + fn _tlv_atexit(dtor: unsafe extern "C" fn(*mut u8), arg: *mut u8); + } + + if !REGISTERED.replace(true) { + // SAFETY: Calling _tlv_atexit while TLS destructors are running is UB. + // But as run_dtors is only called after being registered, this point + // cannot be reached from it. + unsafe { + _tlv_atexit(run_dtors, ptr::null_mut()); + } + } + + unsafe extern "C" fn run_dtors(_: *mut u8) { + unsafe { + destructors::run(); + } + } +} diff --git a/std/src/sys/thread_local/guard/key.rs b/std/src/sys/thread_local/guard/key.rs new file mode 100644 index 0000000000000..e235daf3cc9d9 --- /dev/null +++ b/std/src/sys/thread_local/guard/key.rs @@ -0,0 +1,23 @@ +//! A lot of UNIX platforms don't have a way to register TLS destructors. +//! Instead, we use one TLS key to register a callback which will run +//! iterate through the destructor list. + +use crate::ptr; +use crate::sys::thread_local::destructors; +use crate::sys::thread_local::key::StaticKey; + +pub fn enable() { + static DTORS: StaticKey = StaticKey::new(Some(run)); + + // Setting the key value to something other than NULL will result in the + // destructor being run at thread exit. + unsafe { + DTORS.set(ptr::without_provenance_mut(1)); + } + + unsafe extern "C" fn run(_: *mut u8) { + unsafe { + destructors::run(); + } + } +} diff --git a/std/src/sys/thread_local/guard/solid.rs b/std/src/sys/thread_local/guard/solid.rs new file mode 100644 index 0000000000000..b65d00c5b5fb7 --- /dev/null +++ b/std/src/sys/thread_local/guard/solid.rs @@ -0,0 +1,23 @@ +//! SOLID, just like macOS, has an API to register TLS destructors. But since +//! it does not allow specifying an argument to that function, and will not run +//! destructors for terminated tasks, we still keep our own list. + +use crate::cell::Cell; +use crate::sys::pal::{abi, itron::task}; +use crate::sys::thread_local::destructors; + +pub fn enable() { + #[thread_local] + static REGISTERED: Cell = Cell::new(false); + + if !REGISTERED.replace(true) { + let tid = task::current_task_id_aborting(); + // Register `tls_dtor` to make sure the TLS destructors are called + // for tasks created by other means than `std::thread` + unsafe { abi::SOLID_TLS_AddDestructor(tid as i32, tls_dtor) }; + } + + unsafe extern "C" fn tls_dtor(_unused: *mut u8) { + unsafe { destructors::run() }; + } +} diff --git a/std/src/sys/thread_local/guard/windows.rs b/std/src/sys/thread_local/guard/windows.rs new file mode 100644 index 0000000000000..81797f55170d7 --- /dev/null +++ b/std/src/sys/thread_local/guard/windows.rs @@ -0,0 +1,103 @@ +//! Support for Windows TLS destructors. +//! +//! Unfortunately, Windows does not provide a nice API to provide a destructor +//! for a TLS variable. Thus, the solution here ended up being a little more +//! obscure, but fear not, the internet has informed me [1][2] that this solution +//! is not unique (no way I could have thought of it as well!). The key idea is +//! to insert some hook somewhere to run arbitrary code on thread termination. +//! With this in place we'll be able to run anything we like, including all +//! TLS destructors! +//! +//! In order to realize this, all TLS destructors are tracked by *us*, not the +//! Windows runtime. This means that we have a global list of destructors for +//! each TLS key or variable that we know about. +//! +//! # What's up with CRT$XLB? +//! +//! For anything about TLS destructors to work on Windows, we have to be able +//! to run *something* when a thread exits. To do so, we place a very special +//! static in a very special location. If this is encoded in just the right +//! way, the kernel's loader is apparently nice enough to run some function +//! of ours whenever a thread exits! How nice of the kernel! +//! +//! Lots of detailed information can be found in source [1] above, but the +//! gist of it is that this is leveraging a feature of Microsoft's PE format +//! (executable format) which is not actually used by any compilers today. +//! This apparently translates to any callbacks in the ".CRT$XLB" section +//! being run on certain events. +//! +//! So after all that, we use the compiler's #[link_section] feature to place +//! a callback pointer into the magic section so it ends up being called. +//! +//! # What's up with this callback? +//! +//! The callback specified receives a number of parameters from... someone! +//! (the kernel? the runtime? I'm not quite sure!) There are a few events that +//! this gets invoked for, but we're currently only interested on when a +//! thread or a process "detaches" (exits). The process part happens for the +//! last thread and the thread part happens for any normal thread. +//! +//! # The article mentions weird stuff about "/INCLUDE"? +//! +//! It sure does! Specifically we're talking about this quote: +//! +//! ```quote +//! The Microsoft run-time library facilitates this process by defining a +//! memory image of the TLS Directory and giving it the special name +//! “__tls_used” (Intel x86 platforms) or “_tls_used” (other platforms). The +//! linker looks for this memory image and uses the data there to create the +//! TLS Directory. Other compilers that support TLS and work with the +//! Microsoft linker must use this same technique. +//! ``` +//! +//! Basically what this means is that if we want support for our TLS +//! destructors/our hook being called then we need to make sure the linker does +//! not omit this symbol. Otherwise it will omit it and our callback won't be +//! wired up. +//! +//! We don't actually use the `/INCLUDE` linker flag here like the article +//! mentions because the Rust compiler doesn't propagate linker flags, but +//! instead we use a shim function which performs a volatile 1-byte load from +//! the address of the symbol to ensure it sticks around. +//! +//! [1]: https://www.codeproject.com/Articles/8113/Thread-Local-Storage-The-C-Way +//! [2]: https://github.com/ChromiumWebApps/chromium/blob/master/base/threading/thread_local_storage_win.cc#L42 + +use crate::ptr; +use crate::sys::c; + +pub fn enable() { + // When destructors are used, we don't want LLVM eliminating CALLBACK for any + // reason. Once the symbol makes it to the linker, it will do the rest. + unsafe { ptr::from_ref(&CALLBACK).read_volatile() }; +} + +#[link_section = ".CRT$XLB"] +#[cfg_attr(miri, used)] // Miri only considers explicitly `#[used]` statics for `lookup_link_section` +pub static CALLBACK: unsafe extern "system" fn(c::LPVOID, c::DWORD, c::LPVOID) = tls_callback; + +unsafe extern "system" fn tls_callback(_h: c::LPVOID, dw_reason: c::DWORD, _pv: c::LPVOID) { + // See comments above for what this is doing. Note that we don't need this + // trickery on GNU windows, just on MSVC. + #[cfg(all(target_env = "msvc", not(target_thread_local)))] + { + extern "C" { + static _tls_used: u8; + } + + unsafe { + ptr::from_ref(&_tls_used).read_volatile(); + } + } + + if dw_reason == c::DLL_THREAD_DETACH || dw_reason == c::DLL_PROCESS_DETACH { + #[cfg(target_thread_local)] + unsafe { + super::super::destructors::run(); + } + #[cfg(not(target_thread_local))] + unsafe { + super::super::key::run_dtors(); + } + } +} diff --git a/std/src/sys_common/thread_local_key.rs b/std/src/sys/thread_local/key/racy.rs similarity index 58% rename from std/src/sys_common/thread_local_key.rs rename to std/src/sys/thread_local/key/racy.rs index a9cd26389cd41..e2eaca197d403 100644 --- a/std/src/sys_common/thread_local_key.rs +++ b/std/src/sys/thread_local/key/racy.rs @@ -1,61 +1,16 @@ -//! OS-based thread local storage for non-Windows systems +//! An implementation of `const`-creatable TLS keys for non-Windows platforms. //! -//! This module provides an implementation of OS-based thread local storage, -//! using the native OS-provided facilities (think `TlsAlloc` or -//! `pthread_setspecific`). The interface of this differs from the other types -//! of thread-local-storage provided in this crate in that OS-based TLS can only -//! get/set pointer-sized data, possibly with an associated destructor. +//! Most OSs without native TLS will provide a library-based way to create TLS +//! storage. For each TLS variable, we create a key, which can then be used to +//! reference an entry in a thread-local table. This then associates each key +//! with a pointer which we can get and set to store our data. //! -//! This module also provides two flavors of TLS. One is intended for static -//! initialization, and does not contain a `Drop` implementation to deallocate -//! the OS-TLS key. The other is a type which does implement `Drop` and hence -//! has a safe interface. -//! -//! Windows doesn't use this module at all; `sys::pal::windows::thread_local_key` -//! gets imported in its stead. -//! -//! # Usage -//! -//! This module should likely not be used directly unless other primitives are -//! being built on. Types such as `thread_local::spawn::Key` are likely much -//! more useful in practice than this OS-based version which likely requires -//! unsafe code to interoperate with. -//! -//! # Examples -//! -//! Using a dynamically allocated TLS key. Note that this key can be shared -//! among many threads via an `Arc`. -//! -//! ```ignore (cannot-doctest-private-modules) -//! let key = Key::new(None); -//! assert!(key.get().is_null()); -//! key.set(1 as *mut u8); -//! assert!(!key.get().is_null()); -//! -//! drop(key); // deallocate this TLS slot. -//! ``` -//! -//! Sometimes a statically allocated key is either required or easier to work -//! with, however. -//! -//! ```ignore (cannot-doctest-private-modules) -//! static KEY: StaticKey = INIT; -//! -//! unsafe { -//! assert!(KEY.get().is_null()); -//! KEY.set(1 as *mut u8); -//! } -//! ``` - -#![allow(non_camel_case_types)] -#![unstable(feature = "thread_local_internals", issue = "none")] -#![allow(dead_code)] - -#[cfg(test)] -mod tests; +//! Unfortunately, none of these platforms allows creating the key at compile-time, +//! which means we need a way to lazily create keys (`StaticKey`). Instead of +//! blocking API like `OnceLock`, we use racy initialization, which should be +//! more lightweight and avoids circular dependencies with the rest of `std`. use crate::sync::atomic::{self, AtomicUsize, Ordering}; -use crate::sys::thread_local_key as imp; /// A type for TLS keys that are statically allocated. /// @@ -90,11 +45,6 @@ pub struct StaticKey { dtor: Option, } -/// Constant initialization value for static TLS keys. -/// -/// This value specifies no destructor by default. -pub const INIT: StaticKey = StaticKey::new(None); - // Define a sentinel value that is likely not to be returned // as a TLS key. #[cfg(not(target_os = "nto"))] @@ -117,7 +67,7 @@ impl StaticKey { /// been allocated. #[inline] pub unsafe fn get(&self) -> *mut u8 { - imp::get(self.key()) + unsafe { super::get(self.key()) } } /// Sets this TLS key to a new value. @@ -126,18 +76,18 @@ impl StaticKey { /// been allocated. #[inline] pub unsafe fn set(&self, val: *mut u8) { - imp::set(self.key(), val) + unsafe { super::set(self.key(), val) } } #[inline] - unsafe fn key(&self) -> imp::Key { + fn key(&self) -> super::Key { match self.key.load(Ordering::Acquire) { - KEY_SENTVAL => self.lazy_init() as imp::Key, - n => n as imp::Key, + KEY_SENTVAL => self.lazy_init() as super::Key, + n => n as super::Key, } } - unsafe fn lazy_init(&self) -> usize { + fn lazy_init(&self) -> usize { // POSIX allows the key created here to be KEY_SENTVAL, but the compare_exchange // below relies on using KEY_SENTVAL as a sentinel value to check who won the // race to set the shared TLS key. As far as I know, there is no @@ -147,12 +97,14 @@ impl StaticKey { // value of KEY_SENTVAL, but with some gyrations to make sure we have a non-KEY_SENTVAL // value returned from the creation routine. // FIXME: this is clearly a hack, and should be cleaned up. - let key1 = imp::create(self.dtor); + let key1 = super::create(self.dtor); let key = if key1 as usize != KEY_SENTVAL { key1 } else { - let key2 = imp::create(self.dtor); - imp::destroy(key1); + let key2 = super::create(self.dtor); + unsafe { + super::destroy(key1); + } key2 }; rtassert!(key as usize != KEY_SENTVAL); @@ -165,10 +117,10 @@ impl StaticKey { // The CAS succeeded, so we've created the actual key Ok(_) => key as usize, // If someone beat us to the punch, use their key instead - Err(n) => { - imp::destroy(key); + Err(n) => unsafe { + super::destroy(key); n - } + }, } } } diff --git a/std/src/sys/pal/sgx/thread_local_key.rs b/std/src/sys/thread_local/key/sgx.rs similarity index 74% rename from std/src/sys/pal/sgx/thread_local_key.rs rename to std/src/sys/thread_local/key/sgx.rs index c7a57d3a3d47e..4aa2e5afa72ef 100644 --- a/std/src/sys/pal/sgx/thread_local_key.rs +++ b/std/src/sys/thread_local/key/sgx.rs @@ -1,9 +1,9 @@ -use super::abi::tls::{Key as AbiKey, Tls}; +use crate::sys::pal::abi::tls::{Key as AbiKey, Tls}; pub type Key = usize; #[inline] -pub unsafe fn create(dtor: Option) -> Key { +pub fn create(dtor: Option) -> Key { Tls::create(dtor).as_usize() } diff --git a/std/src/sys/pal/windows/thread_local_key/tests.rs b/std/src/sys/thread_local/key/tests.rs similarity index 86% rename from std/src/sys/pal/windows/thread_local_key/tests.rs rename to std/src/sys/thread_local/key/tests.rs index 4119f99096842..24cad396da269 100644 --- a/std/src/sys/pal/windows/thread_local_key/tests.rs +++ b/std/src/sys/thread_local/key/tests.rs @@ -1,7 +1,3 @@ -// This file only tests the thread local key fallback. -// Windows targets with native thread local support do not use this. -#![cfg(not(target_thread_local))] - use super::StaticKey; use crate::ptr; @@ -27,7 +23,7 @@ fn destructors() { use crate::thread; unsafe extern "C" fn destruct(ptr: *mut u8) { - drop(Arc::from_raw(ptr as *const ())); + drop(unsafe { Arc::from_raw(ptr as *const ()) }); } static KEY: StaticKey = StaticKey::new(Some(destruct)); diff --git a/std/src/sys/thread_local/key/unix.rs b/std/src/sys/thread_local/key/unix.rs new file mode 100644 index 0000000000000..13522d44b35dc --- /dev/null +++ b/std/src/sys/thread_local/key/unix.rs @@ -0,0 +1,27 @@ +use crate::mem; + +pub type Key = libc::pthread_key_t; + +#[inline] +pub fn create(dtor: Option) -> Key { + let mut key = 0; + assert_eq!(unsafe { libc::pthread_key_create(&mut key, mem::transmute(dtor)) }, 0); + key +} + +#[inline] +pub unsafe fn set(key: Key, value: *mut u8) { + let r = unsafe { libc::pthread_setspecific(key, value as *mut _) }; + debug_assert_eq!(r, 0); +} + +#[inline] +pub unsafe fn get(key: Key) -> *mut u8 { + unsafe { libc::pthread_getspecific(key) as *mut u8 } +} + +#[inline] +pub unsafe fn destroy(key: Key) { + let r = unsafe { libc::pthread_key_delete(key) }; + debug_assert_eq!(r, 0); +} diff --git a/std/src/sys/thread_local/key/windows.rs b/std/src/sys/thread_local/key/windows.rs new file mode 100644 index 0000000000000..ad0e72c29edaf --- /dev/null +++ b/std/src/sys/thread_local/key/windows.rs @@ -0,0 +1,206 @@ +//! Implementation of `StaticKey` for Windows. +//! +//! Windows has no native support for running destructors so we manage our own +//! list of destructors to keep track of how to destroy keys. We then install a +//! callback later to get invoked whenever a thread exits, running all +//! appropriate destructors (see the [`guard`](guard) module documentation). +//! +//! This will likely need to be improved over time, but this module attempts a +//! "poor man's" destructor callback system. Once we've got a list of what to +//! run, we iterate over all keys, check their values, and then run destructors +//! if the values turn out to be non null (setting them to null just beforehand). +//! We do this a few times in a loop to basically match Unix semantics. If we +//! don't reach a fixed point after a short while then we just inevitably leak +//! something. +//! +//! The list is implemented as an atomic single-linked list of `StaticKey`s and +//! does not support unregistration. Unfortunately, this means that we cannot +//! use racy initialization for creating the keys in `StaticKey`, as that could +//! result in destructors being missed. Hence, we synchronize the creation of +//! keys with destructors through [`INIT_ONCE`](c::INIT_ONCE) (`std`'s +//! [`Once`](crate::sync::Once) cannot be used since it might use TLS itself). +//! For keys without destructors, racy initialization suffices. + +// FIXME: investigate using a fixed-size array instead, as the maximum number +// of keys is [limited to 1088](https://learn.microsoft.com/en-us/windows/win32/ProcThread/thread-local-storage). + +use crate::cell::UnsafeCell; +use crate::ptr; +use crate::sync::atomic::{ + AtomicPtr, AtomicU32, + Ordering::{AcqRel, Acquire, Relaxed, Release}, +}; +use crate::sys::c; +use crate::sys::thread_local::guard; + +type Key = c::DWORD; +type Dtor = unsafe extern "C" fn(*mut u8); + +pub struct StaticKey { + /// The key value shifted up by one. Since TLS_OUT_OF_INDEXES == DWORD::MAX + /// is not a valid key value, this allows us to use zero as sentinel value + /// without risking overflow. + key: AtomicU32, + dtor: Option, + next: AtomicPtr, + /// Currently, destructors cannot be unregistered, so we cannot use racy + /// initialization for keys. Instead, we need synchronize initialization. + /// Use the Windows-provided `Once` since it does not require TLS. + once: UnsafeCell, +} + +impl StaticKey { + #[inline] + pub const fn new(dtor: Option) -> StaticKey { + StaticKey { + key: AtomicU32::new(0), + dtor, + next: AtomicPtr::new(ptr::null_mut()), + once: UnsafeCell::new(c::INIT_ONCE_STATIC_INIT), + } + } + + #[inline] + pub unsafe fn set(&'static self, val: *mut u8) { + let r = unsafe { c::TlsSetValue(self.key(), val.cast()) }; + debug_assert_eq!(r, c::TRUE); + } + + #[inline] + pub unsafe fn get(&'static self) -> *mut u8 { + unsafe { c::TlsGetValue(self.key()).cast() } + } + + #[inline] + fn key(&'static self) -> Key { + match self.key.load(Acquire) { + 0 => unsafe { self.init() }, + key => key - 1, + } + } + + #[cold] + unsafe fn init(&'static self) -> Key { + if self.dtor.is_some() { + let mut pending = c::FALSE; + let r = unsafe { + c::InitOnceBeginInitialize(self.once.get(), 0, &mut pending, ptr::null_mut()) + }; + assert_eq!(r, c::TRUE); + + if pending == c::FALSE { + // Some other thread initialized the key, load it. + self.key.load(Relaxed) - 1 + } else { + let key = unsafe { c::TlsAlloc() }; + if key == c::TLS_OUT_OF_INDEXES { + // Wakeup the waiting threads before panicking to avoid deadlock. + unsafe { + c::InitOnceComplete( + self.once.get(), + c::INIT_ONCE_INIT_FAILED, + ptr::null_mut(), + ); + } + panic!("out of TLS indexes"); + } + + unsafe { + register_dtor(self); + } + + // Release-storing the key needs to be the last thing we do. + // This is because in `fn key()`, other threads will do an acquire load of the key, + // and if that sees this write then it will entirely bypass the `InitOnce`. We thus + // need to establish synchronization through `key`. In particular that acquire load + // must happen-after the register_dtor above, to ensure the dtor actually runs! + self.key.store(key + 1, Release); + + let r = unsafe { c::InitOnceComplete(self.once.get(), 0, ptr::null_mut()) }; + debug_assert_eq!(r, c::TRUE); + + key + } + } else { + // If there is no destructor to clean up, we can use racy initialization. + + let key = unsafe { c::TlsAlloc() }; + assert_ne!(key, c::TLS_OUT_OF_INDEXES, "out of TLS indexes"); + + match self.key.compare_exchange(0, key + 1, AcqRel, Acquire) { + Ok(_) => key, + Err(new) => unsafe { + // Some other thread completed initialization first, so destroy + // our key and use theirs. + let r = c::TlsFree(key); + debug_assert_eq!(r, c::TRUE); + new - 1 + }, + } + } + } +} + +unsafe impl Send for StaticKey {} +unsafe impl Sync for StaticKey {} + +static DTORS: AtomicPtr = AtomicPtr::new(ptr::null_mut()); + +/// Should only be called once per key, otherwise loops or breaks may occur in +/// the linked list. +unsafe fn register_dtor(key: &'static StaticKey) { + guard::enable(); + + let this = <*const StaticKey>::cast_mut(key); + // Use acquire ordering to pass along the changes done by the previously + // registered keys when we store the new head with release ordering. + let mut head = DTORS.load(Acquire); + loop { + key.next.store(head, Relaxed); + match DTORS.compare_exchange_weak(head, this, Release, Acquire) { + Ok(_) => break, + Err(new) => head = new, + } + } +} + +/// This will and must only be run by the destructor callback in [`guard`]. +pub unsafe fn run_dtors() { + for _ in 0..5 { + let mut any_run = false; + + // Use acquire ordering to observe key initialization. + let mut cur = DTORS.load(Acquire); + while !cur.is_null() { + let pre_key = unsafe { (*cur).key.load(Acquire) }; + let dtor = unsafe { (*cur).dtor.unwrap() }; + cur = unsafe { (*cur).next.load(Relaxed) }; + + // In StaticKey::init, we register the dtor before setting `key`. + // So if one thread's `run_dtors` races with another thread executing `init` on the same + // `StaticKey`, we can encounter a key of 0 here. That means this key was never + // initialized in this thread so we can safely skip it. + if pre_key == 0 { + continue; + } + // If this is non-zero, then via the `Acquire` load above we synchronized with + // everything relevant for this key. (It's not clear that this is needed, since the + // release-acquire pair on DTORS also establishes synchronization, but better safe than + // sorry.) + let key = pre_key - 1; + + let ptr = unsafe { c::TlsGetValue(key) }; + if !ptr.is_null() { + unsafe { + c::TlsSetValue(key, ptr::null_mut()); + dtor(ptr as *mut _); + any_run = true; + } + } + } + + if !any_run { + break; + } + } +} diff --git a/std/src/sys/pal/xous/thread_local_key.rs b/std/src/sys/thread_local/key/xous.rs similarity index 73% rename from std/src/sys/pal/xous/thread_local_key.rs rename to std/src/sys/thread_local/key/xous.rs index 6c29813c79dfd..a23f6de95f7b5 100644 --- a/std/src/sys/pal/xous/thread_local_key.rs +++ b/std/src/sys/thread_local/key/xous.rs @@ -1,3 +1,41 @@ +//! Thread Local Storage +//! +//! Currently, we are limited to 1023 TLS entries. The entries +//! live in a page of memory that's unique per-process, and is +//! stored in the `$tp` register. If this register is 0, then +//! TLS has not been initialized and thread cleanup can be skipped. +//! +//! The index into this register is the `key`. This key is identical +//! between all threads, but indexes a different offset within this +//! pointer. +//! +//! # Dtor registration (stolen from Windows) +//! +//! Xous has no native support for running destructors so we manage our own +//! list of destructors to keep track of how to destroy keys. When a thread +//! or the process exits, `run_dtors` is called, which will iterate through +//! the list and run the destructors. +//! +//! Currently unregistration from this list is not supported. A destructor can be +//! registered but cannot be unregistered. There's various simplifying reasons +//! for doing this, the big ones being: +//! +//! 1. Currently we don't even support deallocating TLS keys, so normal operation +//! doesn't need to deallocate a destructor. +//! 2. There is no point in time where we know we can unregister a destructor +//! because it could always be getting run by some remote thread. +//! +//! Typically processes have a statically known set of TLS keys which is pretty +//! small, and we'd want to keep this memory alive for the whole process anyway +//! really. +//! +//! Perhaps one day we can fold the `Box` here into a static allocation, +//! expanding the `StaticKey` structure to contain not only a slot for the TLS +//! key but also a slot for the destructor queue on windows. An optimization for +//! another day! + +// FIXME(joboet): implement support for native TLS instead. + use crate::mem::ManuallyDrop; use crate::ptr; use crate::sync::atomic::AtomicPtr; @@ -7,18 +45,7 @@ use core::arch::asm; use crate::os::xous::ffi::{map_memory, unmap_memory, MemoryFlags}; -/// Thread Local Storage -/// -/// Currently, we are limited to 1023 TLS entries. The entries -/// live in a page of memory that's unique per-process, and is -/// stored in the `$tp` register. If this register is 0, then -/// TLS has not been initialized and thread cleanup can be skipped. -/// -/// The index into this register is the `key`. This key is identical -/// between all threads, but indexes a different offset within this -/// pointer. pub type Key = usize; - pub type Dtor = unsafe extern "C" fn(*mut u8); const TLS_MEMORY_SIZE: usize = 4096; @@ -89,7 +116,7 @@ fn tls_table() -> &'static mut [*mut u8] { } #[inline] -pub unsafe fn create(dtor: Option) -> Key { +pub fn create(dtor: Option) -> Key { // Allocate a new TLS key. These keys are shared among all threads. #[allow(unused_unsafe)] let key = unsafe { TLS_KEY_INDEX.fetch_add(1, Relaxed) }; @@ -118,32 +145,6 @@ pub unsafe fn destroy(_key: Key) { // lots of TLS variables, but in practice that's not an issue. } -// ------------------------------------------------------------------------- -// Dtor registration (stolen from Windows) -// -// Xous has no native support for running destructors so we manage our own -// list of destructors to keep track of how to destroy keys. We then install a -// callback later to get invoked whenever a thread exits, running all -// appropriate destructors. -// -// Currently unregistration from this list is not supported. A destructor can be -// registered but cannot be unregistered. There's various simplifying reasons -// for doing this, the big ones being: -// -// 1. Currently we don't even support deallocating TLS keys, so normal operation -// doesn't need to deallocate a destructor. -// 2. There is no point in time where we know we can unregister a destructor -// because it could always be getting run by some remote thread. -// -// Typically processes have a statically known set of TLS keys which is pretty -// small, and we'd want to keep this memory alive for the whole process anyway -// really. -// -// Perhaps one day we can fold the `Box` here into a static allocation, -// expanding the `StaticKey` structure to contain not only a slot for the TLS -// key but also a slot for the destructor queue on windows. An optimization for -// another day! - struct Node { dtor: Dtor, key: Key, diff --git a/std/src/sys/thread_local/mod.rs b/std/src/sys/thread_local/mod.rs index 0a78a1a1cf02d..6e3d8382b4290 100644 --- a/std/src/sys/thread_local/mod.rs +++ b/std/src/sys/thread_local/mod.rs @@ -1,27 +1,135 @@ -#![unstable(feature = "thread_local_internals", reason = "should not be necessary", issue = "none")] -#![cfg_attr(test, allow(unused))] +//! Implementation of the `thread_local` macro. +//! +//! There are three different thread-local implementations: +//! * Some targets lack threading support, and hence have only one thread, so +//! the TLS data is stored in a normal `static`. +//! * Some targets support TLS natively via the dynamic linker and C runtime. +//! * On some targets, the OS provides a library-based TLS implementation. The +//! TLS data is heap-allocated and referenced using a TLS key. +//! +//! Each implementation provides a macro which generates the `LocalKey` `const` +//! used to reference the TLS variable, along with the necessary helper structs +//! to track the initialization/destruction state of the variable. +//! +//! Additionally, this module contains abstractions for the OS interfaces used +//! for these implementations. -// There are three thread-local implementations: "static", "fast", "OS". -// The "OS" thread local key type is accessed via platform-specific API calls and is slow, while the -// "fast" key type is accessed via code generated via LLVM, where TLS keys are set up by the linker. -// "static" is for single-threaded platforms where a global static is sufficient. +#![cfg_attr(test, allow(unused))] +#![doc(hidden)] +#![forbid(unsafe_op_in_unsafe_fn)] +#![unstable( + feature = "thread_local_internals", + reason = "internal details of the thread_local macro", + issue = "none" +)] cfg_if::cfg_if! { - if #[cfg(any(all(target_family = "wasm", not(target_feature = "atomics")), target_os = "uefi"))] { - #[doc(hidden)] - mod static_local; - #[doc(hidden)] - pub use static_local::{EagerStorage, LazyStorage, thread_local_inner}; + if #[cfg(any( + all(target_family = "wasm", not(target_feature = "atomics")), + target_os = "uefi", + target_os = "zkvm", + ))] { + mod statik; + pub use statik::{EagerStorage, LazyStorage, thread_local_inner}; } else if #[cfg(target_thread_local)] { - #[doc(hidden)] - mod fast_local; - #[doc(hidden)] - pub use fast_local::{EagerStorage, LazyStorage, thread_local_inner}; + mod native; + pub use native::{EagerStorage, LazyStorage, thread_local_inner}; } else { - #[doc(hidden)] - mod os_local; - #[doc(hidden)] - pub use os_local::{Key, thread_local_inner}; + mod os; + pub use os::{Key, thread_local_inner}; + } +} + +/// This module maintains a list of TLS destructors for the current thread, +/// all of which will be run on thread exit. +pub(crate) mod destructors { + cfg_if::cfg_if! { + if #[cfg(all( + target_thread_local, + any( + target_os = "linux", + target_os = "android", + target_os = "fuchsia", + target_os = "redox", + target_os = "hurd", + target_os = "netbsd", + target_os = "dragonfly" + ) + ))] { + mod linux; + mod list; + pub(super) use linux::register; + pub(super) use list::run; + } else if #[cfg(all( + target_thread_local, + not(all(target_family = "wasm", not(target_feature = "atomics"))) + ))] { + mod list; + pub(super) use list::register; + pub(crate) use list::run; + } + } +} + +/// This module provides a way to schedule the execution of the destructor list +/// on systems without a per-variable destructor system. +mod guard { + cfg_if::cfg_if! { + if #[cfg(all(target_thread_local, target_vendor = "apple"))] { + mod apple; + pub(super) use apple::enable; + } else if #[cfg(target_os = "windows")] { + mod windows; + pub(super) use windows::enable; + } else if #[cfg(any( + all(target_family = "wasm", target_feature = "atomics"), + target_os = "hermit", + ))] { + pub(super) fn enable() {} + } else if #[cfg(target_os = "solid_asp3")] { + mod solid; + pub(super) use solid::enable; + } else if #[cfg(all(target_thread_local, not(target_family = "wasm")))] { + mod key; + pub(super) use key::enable; + } + } +} + +/// This module provides the `StaticKey` abstraction over OS TLS keys. +pub(crate) mod key { + cfg_if::cfg_if! { + if #[cfg(any( + all(not(target_vendor = "apple"), target_family = "unix"), + target_os = "teeos", + ))] { + mod racy; + mod unix; + #[cfg(test)] + mod tests; + pub(super) use racy::StaticKey; + use unix::{Key, create, destroy, get, set}; + } else if #[cfg(all(not(target_thread_local), target_os = "windows"))] { + #[cfg(test)] + mod tests; + mod windows; + pub(super) use windows::{StaticKey, run_dtors}; + } else if #[cfg(all(target_vendor = "fortanix", target_env = "sgx"))] { + mod racy; + mod sgx; + #[cfg(test)] + mod tests; + pub(super) use racy::StaticKey; + use sgx::{Key, create, destroy, get, set}; + } else if #[cfg(target_os = "xous")] { + mod racy; + #[cfg(test)] + mod tests; + mod xous; + pub(super) use racy::StaticKey; + pub(crate) use xous::destroy_tls; + use xous::{Key, create, destroy, get, set}; + } } } diff --git a/std/src/sys/thread_local/fast_local/eager.rs b/std/src/sys/thread_local/native/eager.rs similarity index 94% rename from std/src/sys/thread_local/fast_local/eager.rs rename to std/src/sys/thread_local/native/eager.rs index b97bd9cc88cef..99e5ae7fb9687 100644 --- a/std/src/sys/thread_local/fast_local/eager.rs +++ b/std/src/sys/thread_local/native/eager.rs @@ -1,7 +1,7 @@ use crate::cell::{Cell, UnsafeCell}; use crate::ptr::{self, drop_in_place}; use crate::sys::thread_local::abort_on_dtor_unwind; -use crate::sys::thread_local_dtor::register_dtor; +use crate::sys::thread_local::destructors; #[derive(Clone, Copy)] enum State { @@ -45,7 +45,7 @@ impl Storage { // SAFETY: // The caller guarantees that `self` will be valid until thread destruction. unsafe { - register_dtor(ptr::from_ref(self).cast_mut().cast(), destroy::); + destructors::register(ptr::from_ref(self).cast_mut().cast(), destroy::); } self.state.set(State::Alive); diff --git a/std/src/sys/thread_local/fast_local/lazy.rs b/std/src/sys/thread_local/native/lazy.rs similarity index 95% rename from std/src/sys/thread_local/fast_local/lazy.rs rename to std/src/sys/thread_local/native/lazy.rs index c1ada35d484d3..9d47e8ef68975 100644 --- a/std/src/sys/thread_local/fast_local/lazy.rs +++ b/std/src/sys/thread_local/native/lazy.rs @@ -2,7 +2,7 @@ use crate::cell::UnsafeCell; use crate::hint::unreachable_unchecked; use crate::ptr; use crate::sys::thread_local::abort_on_dtor_unwind; -use crate::sys::thread_local_dtor::register_dtor; +use crate::sys::thread_local::destructors; pub unsafe trait DestroyedState: Sized { fn register_dtor(s: &Storage); @@ -15,7 +15,7 @@ unsafe impl DestroyedState for ! { unsafe impl DestroyedState for () { fn register_dtor(s: &Storage) { unsafe { - register_dtor(ptr::from_ref(s).cast_mut().cast(), destroy::); + destructors::register(ptr::from_ref(s).cast_mut().cast(), destroy::); } } } diff --git a/std/src/sys/thread_local/fast_local/mod.rs b/std/src/sys/thread_local/native/mod.rs similarity index 99% rename from std/src/sys/thread_local/fast_local/mod.rs rename to std/src/sys/thread_local/native/mod.rs index 575d60de4ee95..1cc45fe892dee 100644 --- a/std/src/sys/thread_local/fast_local/mod.rs +++ b/std/src/sys/thread_local/native/mod.rs @@ -29,8 +29,6 @@ //! eliminates the `Destroyed` state for these values, which can allow more niche //! optimizations to occur for the `State` enum. For `Drop` types, `()` is used. -#![deny(unsafe_op_in_unsafe_fn)] - mod eager; mod lazy; diff --git a/std/src/sys/thread_local/os_local.rs b/std/src/sys/thread_local/os.rs similarity index 98% rename from std/src/sys/thread_local/os_local.rs rename to std/src/sys/thread_local/os.rs index ee5adef66eacb..6980c897fdb53 100644 --- a/std/src/sys/thread_local/os_local.rs +++ b/std/src/sys/thread_local/os.rs @@ -2,7 +2,7 @@ use super::abort_on_dtor_unwind; use crate::cell::Cell; use crate::marker::PhantomData; use crate::ptr; -use crate::sys_common::thread_local_key::StaticKey as OsKey; +use crate::sys::thread_local::key::StaticKey as OsKey; #[doc(hidden)] #[allow_internal_unstable(thread_local_internals)] diff --git a/std/src/sys/thread_local/static_local.rs b/std/src/sys/thread_local/statik.rs similarity index 100% rename from std/src/sys/thread_local/static_local.rs rename to std/src/sys/thread_local/statik.rs diff --git a/std/src/sys_common/mod.rs b/std/src/sys_common/mod.rs index 3a38ba1100f01..3ade6c39515e2 100644 --- a/std/src/sys_common/mod.rs +++ b/std/src/sys_common/mod.rs @@ -25,18 +25,9 @@ pub mod fs; pub mod io; pub mod lazy_box; pub mod process; -pub mod thread_local_dtor; pub mod wstr; pub mod wtf8; -cfg_if::cfg_if! { - if #[cfg(target_os = "windows")] { - pub use crate::sys::thread_local_key; - } else { - pub mod thread_local_key; - } -} - cfg_if::cfg_if! { if #[cfg(any( all(unix, not(target_os = "l4re")), diff --git a/std/src/sys_common/thread_local_dtor.rs b/std/src/sys_common/thread_local_dtor.rs deleted file mode 100644 index 98382fc6acc23..0000000000000 --- a/std/src/sys_common/thread_local_dtor.rs +++ /dev/null @@ -1,56 +0,0 @@ -//! Thread-local destructor -//! -//! Besides thread-local "keys" (pointer-sized non-addressable thread-local store -//! with an associated destructor), many platforms also provide thread-local -//! destructors that are not associated with any particular data. These are -//! often more efficient. -//! -//! This module provides a fallback implementation for that interface, based -//! on the less efficient thread-local "keys". Each platform provides -//! a `thread_local_dtor` module which will either re-export the fallback, -//! or implement something more efficient. - -#![unstable(feature = "thread_local_internals", issue = "none")] -#![allow(dead_code)] - -use crate::cell::RefCell; -use crate::ptr; -use crate::sys_common::thread_local_key::StaticKey; - -pub unsafe fn register_dtor_fallback(t: *mut u8, dtor: unsafe extern "C" fn(*mut u8)) { - // The fallback implementation uses a vanilla OS-based TLS key to track - // the list of destructors that need to be run for this thread. The key - // then has its own destructor which runs all the other destructors. - // - // The destructor for DTORS is a little special in that it has a `while` - // loop to continuously drain the list of registered destructors. It - // *should* be the case that this loop always terminates because we - // provide the guarantee that a TLS key cannot be set after it is - // flagged for destruction. - - static DTORS: StaticKey = StaticKey::new(Some(run_dtors)); - // FIXME(joboet): integrate RefCell into pointer to avoid infinite recursion - // when the global allocator tries to register a destructor and just panic - // instead. - type List = RefCell>; - if DTORS.get().is_null() { - let v: Box = Box::new(RefCell::new(Vec::new())); - DTORS.set(Box::into_raw(v) as *mut u8); - } - let list = &*(DTORS.get() as *const List); - match list.try_borrow_mut() { - Ok(mut dtors) => dtors.push((t, dtor)), - Err(_) => rtabort!("global allocator may not use TLS"), - } - - unsafe extern "C" fn run_dtors(mut ptr: *mut u8) { - while !ptr.is_null() { - let list = Box::from_raw(ptr as *mut List).into_inner(); - for (ptr, dtor) in list.into_iter() { - dtor(ptr); - } - ptr = DTORS.get(); - DTORS.set(ptr::null_mut()); - } - } -} diff --git a/std/src/sys_common/thread_local_key/tests.rs b/std/src/sys_common/thread_local_key/tests.rs deleted file mode 100644 index 48bed31af517c..0000000000000 --- a/std/src/sys_common/thread_local_key/tests.rs +++ /dev/null @@ -1,17 +0,0 @@ -use super::StaticKey; -use core::ptr; - -#[test] -fn statik() { - static K1: StaticKey = StaticKey::new(None); - static K2: StaticKey = StaticKey::new(None); - - unsafe { - assert!(K1.get().is_null()); - assert!(K2.get().is_null()); - K1.set(ptr::without_provenance_mut(1)); - K2.set(ptr::without_provenance_mut(2)); - assert_eq!(K1.get() as usize, 1); - assert_eq!(K2.get() as usize, 2); - } -}