/* * Process synchronisation * * Copyright 1996, 1997, 1998 Marcus Meissner * Copyright 1997, 1998, 1999 Alexandre Julliard * Copyright 1999, 2000 Juergen Schmied * Copyright 2003 Eric Pouech * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA */ #include #include #include #include #include #include #include "ntstatus.h" #define WIN32_NO_STATUS #define NONAMELESSUNION #include "windef.h" #include "winternl.h" #include "wine/debug.h" #include "wine/list.h" #include "ntdll_misc.h" WINE_DEFAULT_DEBUG_CHANNEL(sync); WINE_DECLARE_DEBUG_CHANNEL(relay); static const char *debugstr_timeout( const LARGE_INTEGER *timeout ) { if (!timeout) return "(infinite)"; return wine_dbgstr_longlong( timeout->QuadPart ); } /****************************************************************** * RtlRunOnceInitialize (NTDLL.@) */ void WINAPI RtlRunOnceInitialize( RTL_RUN_ONCE *once ) { once->Ptr = NULL; } /****************************************************************** * RtlRunOnceBeginInitialize (NTDLL.@) */ DWORD WINAPI RtlRunOnceBeginInitialize( RTL_RUN_ONCE *once, ULONG flags, void **context ) { if (flags & RTL_RUN_ONCE_CHECK_ONLY) { ULONG_PTR val = (ULONG_PTR)once->Ptr; if (flags & RTL_RUN_ONCE_ASYNC) return STATUS_INVALID_PARAMETER; if ((val & 3) != 2) return STATUS_UNSUCCESSFUL; if (context) *context = (void *)(val & ~3); return STATUS_SUCCESS; } for (;;) { ULONG_PTR next, val = (ULONG_PTR)once->Ptr; switch (val & 3) { case 0: /* first time */ if (!InterlockedCompareExchangePointer( &once->Ptr, (flags & RTL_RUN_ONCE_ASYNC) ? (void *)3 : (void *)1, 0 )) return STATUS_PENDING; break; case 1: /* in progress, wait */ if (flags & RTL_RUN_ONCE_ASYNC) return STATUS_INVALID_PARAMETER; next = val & ~3; if (InterlockedCompareExchangePointer( &once->Ptr, (void *)((ULONG_PTR)&next | 1), (void *)val ) == (void *)val) NtWaitForKeyedEvent( 0, &next, FALSE, NULL ); break; case 2: /* done */ if (context) *context = (void *)(val & ~3); return STATUS_SUCCESS; case 3: /* in progress, async */ if (!(flags & RTL_RUN_ONCE_ASYNC)) return STATUS_INVALID_PARAMETER; return STATUS_PENDING; } } } /****************************************************************** * RtlRunOnceComplete (NTDLL.@) */ DWORD WINAPI RtlRunOnceComplete( RTL_RUN_ONCE *once, ULONG flags, void *context ) { if ((ULONG_PTR)context & 3) return STATUS_INVALID_PARAMETER; if (flags & RTL_RUN_ONCE_INIT_FAILED) { if (context) return STATUS_INVALID_PARAMETER; if (flags & RTL_RUN_ONCE_ASYNC) return STATUS_INVALID_PARAMETER; } else context = (void *)((ULONG_PTR)context | 2); for (;;) { ULONG_PTR val = (ULONG_PTR)once->Ptr; switch (val & 3) { case 1: /* in progress */ if (InterlockedCompareExchangePointer( &once->Ptr, context, (void *)val ) != (void *)val) break; val &= ~3; while (val) { ULONG_PTR next = *(ULONG_PTR *)val; NtReleaseKeyedEvent( 0, (void *)val, FALSE, NULL ); val = next; } return STATUS_SUCCESS; case 3: /* in progress, async */ if (!(flags & RTL_RUN_ONCE_ASYNC)) return STATUS_INVALID_PARAMETER; if (InterlockedCompareExchangePointer( &once->Ptr, context, (void *)val ) != (void *)val) break; return STATUS_SUCCESS; default: return STATUS_UNSUCCESSFUL; } } } /*********************************************************************** * Critical sections ***********************************************************************/ static void *no_debug_info_marker = (void *)(ULONG_PTR)-1; static BOOL crit_section_has_debuginfo( const RTL_CRITICAL_SECTION *crit ) { return crit->DebugInfo != NULL && crit->DebugInfo != no_debug_info_marker; } static inline HANDLE get_semaphore( RTL_CRITICAL_SECTION *crit ) { HANDLE ret = crit->LockSemaphore; if (!ret) { HANDLE sem; if (NtCreateSemaphore( &sem, SEMAPHORE_ALL_ACCESS, NULL, 0, 1 )) return 0; if (!(ret = InterlockedCompareExchangePointer( &crit->LockSemaphore, sem, 0 ))) ret = sem; else NtClose(sem); /* somebody beat us to it */ } return ret; } static inline NTSTATUS wait_semaphore( RTL_CRITICAL_SECTION *crit, int timeout ) { LARGE_INTEGER time = {.QuadPart = timeout * (LONGLONG)-10000000}; /* debug info is cleared by MakeCriticalSectionGlobal */ if (!crit_section_has_debuginfo( crit )) { HANDLE sem = get_semaphore( crit ); return NtWaitForSingleObject( sem, FALSE, &time ); } else { LONG *lock = (LONG *)&crit->LockSemaphore; while (!InterlockedCompareExchange( lock, 0, 1 )) { static const LONG zero; /* this may wait longer than specified in case of multiple wake-ups */ if (RtlWaitOnAddress( lock, &zero, sizeof(LONG), &time ) == STATUS_TIMEOUT) return STATUS_TIMEOUT; } return STATUS_WAIT_0; } } /****************************************************************************** * RtlInitializeCriticalSection (NTDLL.@) */ NTSTATUS WINAPI RtlInitializeCriticalSection( RTL_CRITICAL_SECTION *crit ) { return RtlInitializeCriticalSectionEx( crit, 0, 0 ); } /****************************************************************************** * RtlInitializeCriticalSectionAndSpinCount (NTDLL.@) */ NTSTATUS WINAPI RtlInitializeCriticalSectionAndSpinCount( RTL_CRITICAL_SECTION *crit, ULONG spincount ) { return RtlInitializeCriticalSectionEx( crit, spincount, 0 ); } /****************************************************************************** * RtlInitializeCriticalSectionEx (NTDLL.@) */ NTSTATUS WINAPI RtlInitializeCriticalSectionEx( RTL_CRITICAL_SECTION *crit, ULONG spincount, ULONG flags ) { if (flags & (RTL_CRITICAL_SECTION_FLAG_DYNAMIC_SPIN|RTL_CRITICAL_SECTION_FLAG_STATIC_INIT)) FIXME("(%p,%u,0x%08x) semi-stub\n", crit, spincount, flags); /* FIXME: if RTL_CRITICAL_SECTION_FLAG_STATIC_INIT is given, we should use * memory from a static pool to hold the debug info. Then heap.c could pass * this flag rather than initialising the process heap CS by hand. If this * is done, then debug info should be managed through Rtlp[Allocate|Free]DebugInfo * so (e.g.) MakeCriticalSectionGlobal() doesn't free it using HeapFree(). */ if (flags & RTL_CRITICAL_SECTION_FLAG_NO_DEBUG_INFO) crit->DebugInfo = no_debug_info_marker; else { crit->DebugInfo = RtlAllocateHeap( GetProcessHeap(), 0, sizeof(RTL_CRITICAL_SECTION_DEBUG )); if (crit->DebugInfo) { crit->DebugInfo->Type = 0; crit->DebugInfo->CreatorBackTraceIndex = 0; crit->DebugInfo->CriticalSection = crit; crit->DebugInfo->ProcessLocksList.Blink = &crit->DebugInfo->ProcessLocksList; crit->DebugInfo->ProcessLocksList.Flink = &crit->DebugInfo->ProcessLocksList; crit->DebugInfo->EntryCount = 0; crit->DebugInfo->ContentionCount = 0; memset( crit->DebugInfo->Spare, 0, sizeof(crit->DebugInfo->Spare) ); } } crit->LockCount = -1; crit->RecursionCount = 0; crit->OwningThread = 0; crit->LockSemaphore = 0; if (NtCurrentTeb()->Peb->NumberOfProcessors <= 1) spincount = 0; crit->SpinCount = spincount & ~0x80000000; return STATUS_SUCCESS; } /****************************************************************************** * RtlSetCriticalSectionSpinCount (NTDLL.@) */ ULONG WINAPI RtlSetCriticalSectionSpinCount( RTL_CRITICAL_SECTION *crit, ULONG spincount ) { ULONG oldspincount = crit->SpinCount; if (NtCurrentTeb()->Peb->NumberOfProcessors <= 1) spincount = 0; crit->SpinCount = spincount; return oldspincount; } /****************************************************************************** * RtlDeleteCriticalSection (NTDLL.@) */ NTSTATUS WINAPI RtlDeleteCriticalSection( RTL_CRITICAL_SECTION *crit ) { crit->LockCount = -1; crit->RecursionCount = 0; crit->OwningThread = 0; if (crit_section_has_debuginfo( crit )) { /* only free the ones we made in here */ if (!crit->DebugInfo->Spare[0]) { RtlFreeHeap( GetProcessHeap(), 0, crit->DebugInfo ); crit->DebugInfo = NULL; } } else NtClose( crit->LockSemaphore ); crit->LockSemaphore = 0; return STATUS_SUCCESS; } /****************************************************************************** * RtlpWaitForCriticalSection (NTDLL.@) */ NTSTATUS WINAPI RtlpWaitForCriticalSection( RTL_CRITICAL_SECTION *crit ) { LONGLONG timeout = NtCurrentTeb()->Peb->CriticalSectionTimeout.QuadPart / -10000000; /* Don't allow blocking on a critical section during process termination */ if (RtlDllShutdownInProgress()) { WARN( "process %s is shutting down, returning STATUS_SUCCESS\n", debugstr_w(NtCurrentTeb()->Peb->ProcessParameters->ImagePathName.Buffer) ); return STATUS_SUCCESS; } for (;;) { EXCEPTION_RECORD rec; NTSTATUS status = wait_semaphore( crit, 5 ); timeout -= 5; if ( status == STATUS_TIMEOUT ) { const char *name = NULL; if (crit_section_has_debuginfo( crit )) name = (char *)crit->DebugInfo->Spare[0]; if (!name) name = "?"; ERR( "section %p %s wait timed out in thread %04x, blocked by %04x, retrying (60 sec)\n", crit, debugstr_a(name), GetCurrentThreadId(), HandleToULong(crit->OwningThread) ); status = wait_semaphore( crit, 60 ); timeout -= 60; if ( status == STATUS_TIMEOUT && TRACE_ON(relay) ) { ERR( "section %p %s wait timed out in thread %04x, blocked by %04x, retrying (5 min)\n", crit, debugstr_a(name), GetCurrentThreadId(), HandleToULong(crit->OwningThread) ); status = wait_semaphore( crit, 300 ); timeout -= 300; } } if (status == STATUS_WAIT_0) break; /* Throw exception only for Wine internal locks */ if (!crit_section_has_debuginfo( crit ) || !crit->DebugInfo->Spare[0]) continue; /* only throw deadlock exception if configured timeout is reached */ if (timeout > 0) continue; rec.ExceptionCode = STATUS_POSSIBLE_DEADLOCK; rec.ExceptionFlags = 0; rec.ExceptionRecord = NULL; rec.ExceptionAddress = RtlRaiseException; /* sic */ rec.NumberParameters = 1; rec.ExceptionInformation[0] = (ULONG_PTR)crit; RtlRaiseException( &rec ); } if (crit_section_has_debuginfo( crit )) crit->DebugInfo->ContentionCount++; return STATUS_SUCCESS; } /****************************************************************************** * RtlpUnWaitCriticalSection (NTDLL.@) */ NTSTATUS WINAPI RtlpUnWaitCriticalSection( RTL_CRITICAL_SECTION *crit ) { NTSTATUS ret; /* debug info is cleared by MakeCriticalSectionGlobal */ if (!crit_section_has_debuginfo( crit )) { HANDLE sem = get_semaphore( crit ); ret = NtReleaseSemaphore( sem, 1, NULL ); } else { LONG *lock = (LONG *)&crit->LockSemaphore; InterlockedExchange( lock, 1 ); RtlWakeAddressSingle( lock ); ret = STATUS_SUCCESS; } if (ret) RtlRaiseStatus( ret ); return ret; } /****************************************************************************** * RtlEnterCriticalSection (NTDLL.@) */ NTSTATUS WINAPI RtlEnterCriticalSection( RTL_CRITICAL_SECTION *crit ) { if (crit->SpinCount) { ULONG count; if (RtlTryEnterCriticalSection( crit )) return STATUS_SUCCESS; for (count = crit->SpinCount; count > 0; count--) { if (crit->LockCount > 0) break; /* more than one waiter, don't bother spinning */ if (crit->LockCount == -1) /* try again */ { if (InterlockedCompareExchange( &crit->LockCount, 0, -1 ) == -1) goto done; } YieldProcessor(); } } if (InterlockedIncrement( &crit->LockCount )) { if (crit->OwningThread == ULongToHandle(GetCurrentThreadId())) { crit->RecursionCount++; return STATUS_SUCCESS; } /* Now wait for it */ RtlpWaitForCriticalSection( crit ); } done: crit->OwningThread = ULongToHandle(GetCurrentThreadId()); crit->RecursionCount = 1; return STATUS_SUCCESS; } /****************************************************************************** * RtlTryEnterCriticalSection (NTDLL.@) */ BOOL WINAPI RtlTryEnterCriticalSection( RTL_CRITICAL_SECTION *crit ) { BOOL ret = FALSE; if (InterlockedCompareExchange( &crit->LockCount, 0, -1 ) == -1) { crit->OwningThread = ULongToHandle(GetCurrentThreadId()); crit->RecursionCount = 1; ret = TRUE; } else if (crit->OwningThread == ULongToHandle(GetCurrentThreadId())) { InterlockedIncrement( &crit->LockCount ); crit->RecursionCount++; ret = TRUE; } return ret; } /****************************************************************************** * RtlIsCriticalSectionLocked (NTDLL.@) */ BOOL WINAPI RtlIsCriticalSectionLocked( RTL_CRITICAL_SECTION *crit ) { return crit->RecursionCount != 0; } /****************************************************************************** * RtlIsCriticalSectionLockedByThread (NTDLL.@) */ BOOL WINAPI RtlIsCriticalSectionLockedByThread( RTL_CRITICAL_SECTION *crit ) { return crit->OwningThread == ULongToHandle(GetCurrentThreadId()) && crit->RecursionCount; } /****************************************************************************** * RtlLeaveCriticalSection (NTDLL.@) */ NTSTATUS WINAPI RtlLeaveCriticalSection( RTL_CRITICAL_SECTION *crit ) { if (--crit->RecursionCount) { if (crit->RecursionCount > 0) InterlockedDecrement( &crit->LockCount ); else ERR( "section %p is not acquired\n", crit ); } else { crit->OwningThread = 0; if (InterlockedDecrement( &crit->LockCount ) >= 0) { /* someone is waiting */ RtlpUnWaitCriticalSection( crit ); } } return STATUS_SUCCESS; } /****************************************************************** * RtlRunOnceExecuteOnce (NTDLL.@) */ DWORD WINAPI RtlRunOnceExecuteOnce( RTL_RUN_ONCE *once, PRTL_RUN_ONCE_INIT_FN func, void *param, void **context ) { DWORD ret = RtlRunOnceBeginInitialize( once, 0, context ); if (ret != STATUS_PENDING) return ret; if (!func( once, param, context )) { RtlRunOnceComplete( once, RTL_RUN_ONCE_INIT_FAILED, NULL ); return STATUS_UNSUCCESSFUL; } return RtlRunOnceComplete( once, 0, context ? *context : NULL ); } struct srw_lock { short exclusive_waiters; /* Number of shared owners, or -1 if owned exclusive. * * Sadly Windows has no equivalent to FUTEX_WAIT_BITSET, so in order to wake * up *only* exclusive or *only* shared waiters (and thus avoid spurious * wakeups), we need to wait on two different addresses. * RtlAcquireSRWLockShared() needs to know the values of "exclusive_waiters" * and "owners", but RtlAcquireSRWLockExclusive() only needs to know the * value of "owners", so the former can wait on the entire structure, and * the latter waits only on the "owners" member. Note then that "owners" * must not be the first element in the structure. */ short owners; }; C_ASSERT( sizeof(struct srw_lock) == 4 ); /*********************************************************************** * RtlInitializeSRWLock (NTDLL.@) * * NOTES * Please note that SRWLocks do not keep track of the owner of a lock. * It doesn't make any difference which thread for example unlocks an * SRWLock (see corresponding tests). This implementation uses two * keyed events (one for the exclusive waiters and one for the shared * waiters) and is limited to 2^15-1 waiting threads. */ void WINAPI RtlInitializeSRWLock( RTL_SRWLOCK *lock ) { lock->Ptr = NULL; } /*********************************************************************** * RtlAcquireSRWLockExclusive (NTDLL.@) * * NOTES * Unlike RtlAcquireResourceExclusive this function doesn't allow * nested calls from the same thread. "Upgrading" a shared access lock * to an exclusive access lock also doesn't seem to be supported. */ void WINAPI RtlAcquireSRWLockExclusive( RTL_SRWLOCK *lock ) { union { RTL_SRWLOCK *rtl; struct srw_lock *s; LONG *l; } u = { lock }; InterlockedIncrement16( &u.s->exclusive_waiters ); for (;;) { union { struct srw_lock s; LONG l; } old, new; BOOL wait; do { old.s = *u.s; new.s = old.s; if (!old.s.owners) { /* Not locked exclusive or shared. We can try to grab it. */ new.s.owners = -1; --new.s.exclusive_waiters; wait = FALSE; } else { wait = TRUE; } } while (InterlockedCompareExchange( u.l, new.l, old.l ) != old.l); if (!wait) return; RtlWaitOnAddress( &u.s->owners, &new.s.owners, sizeof(short), NULL ); } } /*********************************************************************** * RtlAcquireSRWLockShared (NTDLL.@) * * NOTES * Do not call this function recursively - it will only succeed when * there are no threads waiting for an exclusive lock! */ void WINAPI RtlAcquireSRWLockShared( RTL_SRWLOCK *lock ) { union { RTL_SRWLOCK *rtl; struct srw_lock *s; LONG *l; } u = { lock }; for (;;) { union { struct srw_lock s; LONG l; } old, new; BOOL wait; do { old.s = *u.s; new = old; if (old.s.owners != -1 && !old.s.exclusive_waiters) { /* Not locked exclusive, and no exclusive waiters. * We can try to grab it. */ ++new.s.owners; wait = FALSE; } else { wait = TRUE; } } while (InterlockedCompareExchange( u.l, new.l, old.l ) != old.l); if (!wait) return; RtlWaitOnAddress( u.s, &new.s, sizeof(struct srw_lock), NULL ); } } /*********************************************************************** * RtlReleaseSRWLockExclusive (NTDLL.@) */ void WINAPI RtlReleaseSRWLockExclusive( RTL_SRWLOCK *lock ) { union { RTL_SRWLOCK *rtl; struct srw_lock *s; LONG *l; } u = { lock }; union { struct srw_lock s; LONG l; } old, new; do { old.s = *u.s; new = old; if (old.s.owners != -1) ERR("Lock %p is not owned exclusive!\n", lock); new.s.owners = 0; } while (InterlockedCompareExchange( u.l, new.l, old.l ) != old.l); if (new.s.exclusive_waiters) RtlWakeAddressSingle( &u.s->owners ); else RtlWakeAddressAll( u.s ); } /*********************************************************************** * RtlReleaseSRWLockShared (NTDLL.@) */ void WINAPI RtlReleaseSRWLockShared( RTL_SRWLOCK *lock ) { union { RTL_SRWLOCK *rtl; struct srw_lock *s; LONG *l; } u = { lock }; union { struct srw_lock s; LONG l; } old, new; do { old.s = *u.s; new = old; if (old.s.owners == -1) ERR("Lock %p is owned exclusive!\n", lock); else if (!old.s.owners) ERR("Lock %p is not owned shared!\n", lock); --new.s.owners; } while (InterlockedCompareExchange( u.l, new.l, old.l ) != old.l); if (!new.s.owners) RtlWakeAddressSingle( &u.s->owners ); } /*********************************************************************** * RtlTryAcquireSRWLockExclusive (NTDLL.@) * * NOTES * Similarly to AcquireSRWLockExclusive, recursive calls are not allowed * and will fail with a FALSE return value. */ BOOLEAN WINAPI RtlTryAcquireSRWLockExclusive( RTL_SRWLOCK *lock ) { union { RTL_SRWLOCK *rtl; struct srw_lock *s; LONG *l; } u = { lock }; union { struct srw_lock s; LONG l; } old, new; BOOLEAN ret; do { old.s = *u.s; new.s = old.s; if (!old.s.owners) { /* Not locked exclusive or shared. We can try to grab it. */ new.s.owners = -1; ret = TRUE; } else { ret = FALSE; } } while (InterlockedCompareExchange( u.l, new.l, old.l ) != old.l); return ret; } /*********************************************************************** * RtlTryAcquireSRWLockShared (NTDLL.@) */ BOOLEAN WINAPI RtlTryAcquireSRWLockShared( RTL_SRWLOCK *lock ) { union { RTL_SRWLOCK *rtl; struct srw_lock *s; LONG *l; } u = { lock }; union { struct srw_lock s; LONG l; } old, new; BOOLEAN ret; do { old.s = *u.s; new.s = old.s; if (old.s.owners != -1 && !old.s.exclusive_waiters) { /* Not locked exclusive, and no exclusive waiters. * We can try to grab it. */ ++new.s.owners; ret = TRUE; } else { ret = FALSE; } } while (InterlockedCompareExchange( u.l, new.l, old.l ) != old.l); return ret; } /*********************************************************************** * RtlInitializeConditionVariable (NTDLL.@) * * Initializes the condition variable with NULL. * * PARAMS * variable [O] condition variable * * RETURNS * Nothing. */ void WINAPI RtlInitializeConditionVariable( RTL_CONDITION_VARIABLE *variable ) { variable->Ptr = NULL; } /*********************************************************************** * RtlWakeConditionVariable (NTDLL.@) * * Wakes up one thread waiting on the condition variable. * * PARAMS * variable [I/O] condition variable to wake up. * * RETURNS * Nothing. * * NOTES * The calling thread does not have to own any lock in order to call * this function. */ void WINAPI RtlWakeConditionVariable( RTL_CONDITION_VARIABLE *variable ) { InterlockedIncrement( (LONG *)&variable->Ptr ); RtlWakeAddressSingle( variable ); } /*********************************************************************** * RtlWakeAllConditionVariable (NTDLL.@) * * See WakeConditionVariable, wakes up all waiting threads. */ void WINAPI RtlWakeAllConditionVariable( RTL_CONDITION_VARIABLE *variable ) { InterlockedIncrement( (LONG *)&variable->Ptr ); RtlWakeAddressAll( variable ); } /*********************************************************************** * RtlSleepConditionVariableCS (NTDLL.@) * * Atomically releases the critical section and suspends the thread, * waiting for a Wake(All)ConditionVariable event. Afterwards it enters * the critical section again and returns. * * PARAMS * variable [I/O] condition variable * crit [I/O] critical section to leave temporarily * timeout [I] timeout * * RETURNS * see NtWaitForKeyedEvent for all possible return values. */ NTSTATUS WINAPI RtlSleepConditionVariableCS( RTL_CONDITION_VARIABLE *variable, RTL_CRITICAL_SECTION *crit, const LARGE_INTEGER *timeout ) { int value = *(int *)&variable->Ptr; NTSTATUS status; RtlLeaveCriticalSection( crit ); status = RtlWaitOnAddress( &variable->Ptr, &value, sizeof(value), timeout ); RtlEnterCriticalSection( crit ); return status; } /*********************************************************************** * RtlSleepConditionVariableSRW (NTDLL.@) * * Atomically releases the SRWLock and suspends the thread, * waiting for a Wake(All)ConditionVariable event. Afterwards it enters * the SRWLock again with the same access rights and returns. * * PARAMS * variable [I/O] condition variable * lock [I/O] SRWLock to leave temporarily * timeout [I] timeout * flags [I] type of the current lock (exclusive / shared) * * RETURNS * see NtWaitForKeyedEvent for all possible return values. * * NOTES * the behaviour is undefined if the thread doesn't own the lock. */ NTSTATUS WINAPI RtlSleepConditionVariableSRW( RTL_CONDITION_VARIABLE *variable, RTL_SRWLOCK *lock, const LARGE_INTEGER *timeout, ULONG flags ) { int value = *(int *)&variable->Ptr; NTSTATUS status; if (flags & RTL_CONDITION_VARIABLE_LOCKMODE_SHARED) RtlReleaseSRWLockShared( lock ); else RtlReleaseSRWLockExclusive( lock ); status = RtlWaitOnAddress( &variable->Ptr, &value, sizeof(value), timeout ); if (flags & RTL_CONDITION_VARIABLE_LOCKMODE_SHARED) RtlAcquireSRWLockShared( lock ); else RtlAcquireSRWLockExclusive( lock ); return status; } /* RtlWaitOnAddress() and RtlWakeAddress*(), hereafter referred to as "Win32 * futexes", offer futex-like semantics with a variable set of address sizes, * but are limited to a single process. They are also fair—the documentation * specifies this, and tests bear it out. * * On Windows they are implemented using NtAlertThreadByThreadId and * NtWaitForAlertByThreadId, which manipulate a single flag (similar to an * auto-reset event) per thread. This can be tested by attempting to wake a * thread waiting in RtlWaitOnAddress() via NtAlertThreadByThreadId. */ struct futex_entry { struct list entry; const void *addr; DWORD tid; }; struct futex_queue { struct list queue; LONG lock; }; static struct futex_queue futex_queues[256]; static struct futex_queue *get_futex_queue( const void *addr ) { ULONG_PTR val = (ULONG_PTR)addr; return &futex_queues[(val >> 4) % ARRAY_SIZE(futex_queues)]; } static void spin_lock( LONG *lock ) { while (InterlockedCompareExchange( lock, -1, 0 )) YieldProcessor(); } static void spin_unlock( LONG *lock ) { InterlockedExchange( lock, 0 ); } static BOOL compare_addr( const void *addr, const void *cmp, SIZE_T size ) { switch (size) { case 1: return (*(const UCHAR *)addr == *(const UCHAR *)cmp); case 2: return (*(const USHORT *)addr == *(const USHORT *)cmp); case 4: return (*(const ULONG *)addr == *(const ULONG *)cmp); case 8: return (*(const ULONG64 *)addr == *(const ULONG64 *)cmp); } return FALSE; } /*********************************************************************** * RtlWaitOnAddress (NTDLL.@) */ NTSTATUS WINAPI RtlWaitOnAddress( const void *addr, const void *cmp, SIZE_T size, const LARGE_INTEGER *timeout ) { struct futex_queue *queue = get_futex_queue( addr ); struct futex_entry entry; NTSTATUS ret; TRACE("addr %p cmp %p size %#Ix timeout %s\n", addr, cmp, size, debugstr_timeout( timeout )); if (size != 1 && size != 2 && size != 4 && size != 8) return STATUS_INVALID_PARAMETER; entry.addr = addr; entry.tid = GetCurrentThreadId(); spin_lock( &queue->lock ); /* Do the comparison inside of the spinlock, to reduce spurious wakeups. */ if (!compare_addr( addr, cmp, size )) { spin_unlock( &queue->lock ); return STATUS_SUCCESS; } if (!queue->queue.next) list_init( &queue->queue ); list_add_tail( &queue->queue, &entry.entry ); spin_unlock( &queue->lock ); ret = NtWaitForAlertByThreadId( NULL, timeout ); spin_lock( &queue->lock ); /* We may have already been removed by a call to RtlWakeAddressSingle(). */ if (entry.addr) list_remove( &entry.entry ); spin_unlock( &queue->lock ); TRACE("returning %#x\n", ret); if (ret == STATUS_ALERTED) ret = STATUS_SUCCESS; return ret; } /*********************************************************************** * RtlWakeAddressAll (NTDLL.@) */ void WINAPI RtlWakeAddressAll( const void *addr ) { struct futex_queue *queue = get_futex_queue( addr ); unsigned int count = 0, i; struct futex_entry *entry; DWORD tids[256]; TRACE("%p\n", addr); if (!addr) return; spin_lock( &queue->lock ); if (!queue->queue.next) list_init(&queue->queue); LIST_FOR_EACH_ENTRY( entry, &queue->queue, struct futex_entry, entry ) { if (entry->addr == addr) { /* Try to buffer wakes, so that we don't make a system call while * holding a spinlock. */ if (count < ARRAY_SIZE(tids)) tids[count++] = entry->tid; else NtAlertThreadByThreadId( (HANDLE)(DWORD_PTR)entry->tid ); } } spin_unlock( &queue->lock ); for (i = 0; i < count; ++i) NtAlertThreadByThreadId( (HANDLE)(DWORD_PTR)tids[i] ); } /*********************************************************************** * RtlWakeAddressSingle (NTDLL.@) */ void WINAPI RtlWakeAddressSingle( const void *addr ) { struct futex_queue *queue = get_futex_queue( addr ); struct futex_entry *entry; DWORD tid = 0; TRACE("%p\n", addr); if (!addr) return; spin_lock( &queue->lock ); if (!queue->queue.next) list_init(&queue->queue); LIST_FOR_EACH_ENTRY( entry, &queue->queue, struct futex_entry, entry ) { if (entry->addr == addr) { /* Try to buffer wakes, so that we don't make a system call while * holding a spinlock. */ tid = entry->tid; /* Remove this entry from the queue, so that a simultaneous call to * RtlWakeAddressSingle() will not also wake it—two simultaneous * calls must wake at least two waiters if they exist. */ entry->addr = NULL; list_remove( &entry->entry ); break; } } spin_unlock( &queue->lock ); if (tid) NtAlertThreadByThreadId( (HANDLE)(DWORD_PTR)tid ); }