/* * COPYRIGHT: See COPYING in the top level directory * PROJECT: ReactOS Kernel * FILE: ntoskrnl/ex/pushlock.c * PURPOSE: Pushlock and Cache-Aware Pushlock Implementation * PROGRAMMER: Alex Ionescu (alex.ionescu@reactos.com) */ /* INCLUDES *****************************************************************/ #include #define NDEBUG #include /* DATA **********************************************************************/ ULONG ExPushLockSpinCount = 0; #undef EX_PUSH_LOCK #undef PEX_PUSH_LOCK /* PRIVATE FUNCTIONS *********************************************************/ #ifdef _WIN64 #define InterlockedAndPointer(ptr,val) InterlockedAnd64((PLONGLONG)ptr,(LONGLONG)val) #else #define InterlockedAndPointer(ptr,val) InterlockedAnd((PLONG)ptr,(LONG)val) #endif /*++ * @name ExpInitializePushLocks * * The ExpInitializePushLocks routine initialized Pushlock support. * * @param None. * * @return None. * * @remarks The ExpInitializePushLocks routine sets up the spin on SMP machines. * *--*/ CODE_SEG("INIT") VOID NTAPI ExpInitializePushLocks(VOID) { #ifdef CONFIG_SMP /* Initialize an internal 1024-iteration spin for MP CPUs */ if (KeNumberProcessors > 1) ExPushLockSpinCount = 1024; #endif } /*++ * @name ExfWakePushLock * * The ExfWakePushLock routine wakes a Pushlock that is in the waiting * state. * * @param PushLock * Pointer to a pushlock that is waiting. * * @param OldValue * Last known value of the pushlock before this routine was called. * * @return None. * * @remarks This is an internal routine; do not call it manually. Only the system * can properly know if the pushlock is ready to be awakened or not. * External callers should use ExfTrytoWakePushLock. * *--*/ VOID FASTCALL ExfWakePushLock(PEX_PUSH_LOCK PushLock, EX_PUSH_LOCK OldValue) { EX_PUSH_LOCK NewValue; PEX_PUSH_LOCK_WAIT_BLOCK PreviousWaitBlock, FirstWaitBlock, LastWaitBlock; PEX_PUSH_LOCK_WAIT_BLOCK WaitBlock; KIRQL OldIrql; /* Start main wake loop */ for (;;) { /* Sanity checks */ ASSERT(!OldValue.MultipleShared); /* Check if it's locked */ while (OldValue.Locked) { /* It's not waking anymore */ NewValue.Value = OldValue.Value &~ EX_PUSH_LOCK_WAKING; /* Sanity checks */ ASSERT(!NewValue.Waking); ASSERT(NewValue.Locked); ASSERT(NewValue.Waiting); /* Write the New Value */ NewValue.Ptr = InterlockedCompareExchangePointer(&PushLock->Ptr, NewValue.Ptr, OldValue.Ptr); if (NewValue.Value == OldValue.Value) return; /* Someone changed the value behind our back, update it*/ OldValue = NewValue; } /* Save the First Block */ FirstWaitBlock = (PEX_PUSH_LOCK_WAIT_BLOCK)(OldValue.Value & ~EX_PUSH_LOCK_PTR_BITS); WaitBlock = FirstWaitBlock; /* Try to find the last block */ while (TRUE) { /* Get the last wait block */ LastWaitBlock = WaitBlock->Last; /* Check if we found it */ if (LastWaitBlock) { /* Use it */ WaitBlock = LastWaitBlock; break; } /* Save the previous block */ PreviousWaitBlock = WaitBlock; /* Move to next block */ WaitBlock = WaitBlock->Next; /* Save the previous block */ WaitBlock->Previous = PreviousWaitBlock; } /* Check if the last Wait Block is not Exclusive or if it's the only one */ PreviousWaitBlock = WaitBlock->Previous; if (!(WaitBlock->Flags & EX_PUSH_LOCK_FLAGS_EXCLUSIVE) || !(PreviousWaitBlock)) { /* Destroy the pushlock */ NewValue.Value = 0; ASSERT(!NewValue.Waking); /* Write the New Value */ NewValue.Ptr = InterlockedCompareExchangePointer(&PushLock->Ptr, NewValue.Ptr, OldValue.Ptr); if (NewValue.Value == OldValue.Value) break; /* Someone changed the value behind our back, update it*/ OldValue = NewValue; } else { /* Link the wait blocks */ FirstWaitBlock->Last = PreviousWaitBlock; WaitBlock->Previous = NULL; /* Sanity checks */ ASSERT(FirstWaitBlock != WaitBlock); ASSERT(PushLock->Waiting); /* Remove waking bit from pushlock */ InterlockedAndPointer(&PushLock->Value, ~EX_PUSH_LOCK_WAKING); /* Leave the loop */ break; } } /* Check if there's a previous block */ OldIrql = DISPATCH_LEVEL; if (WaitBlock->Previous) { /* Raise to Dispatch */ KeRaiseIrql(DISPATCH_LEVEL, &OldIrql); } /* Signaling loop */ for (;;) { /* Get the previous Wait block */ PreviousWaitBlock = WaitBlock->Previous; /* Sanity check */ ASSERT(!WaitBlock->Signaled); #if DBG /* We are about to get signaled */ WaitBlock->Signaled = TRUE; #endif /* Set the Wait Bit in the Wait Block */ if (!InterlockedBitTestAndReset(&WaitBlock->Flags, 1)) { /* Nobody signaled us, so do it */ KeSignalGateBoostPriority(&WaitBlock->WakeGate); } /* Set the wait block and check if there still is one to loop*/ WaitBlock = PreviousWaitBlock; if (!WaitBlock) break; } /* Check if we have to lower back the IRQL */ if (OldIrql != DISPATCH_LEVEL) KeLowerIrql(OldIrql); } /*++ * @name ExpOptimizePushLockList * * The ExpOptimizePushLockList routine optimizes the list of waiters * associated to a pushlock's wait block. * * @param PushLock * Pointer to a pushlock whose waiter list needs to be optimized. * * @param OldValue * Last known value of the pushlock before this routine was called. * * @return None. * * @remarks At the end of the optimization, the pushlock will also be wakened. * *--*/ VOID FASTCALL ExpOptimizePushLockList(PEX_PUSH_LOCK PushLock, EX_PUSH_LOCK OldValue) { PEX_PUSH_LOCK_WAIT_BLOCK WaitBlock, LastWaitBlock, PreviousWaitBlock, FirstWaitBlock; EX_PUSH_LOCK NewValue; /* Start main loop */ for (;;) { /* Check if we've been unlocked */ if (!OldValue.Locked) { /* Wake us up and leave */ ExfWakePushLock(PushLock, OldValue); break; } /* Get the wait block */ WaitBlock = (PEX_PUSH_LOCK_WAIT_BLOCK)(OldValue.Value & ~EX_PUSH_LOCK_PTR_BITS); /* Loop the blocks */ FirstWaitBlock = WaitBlock; while (TRUE) { /* Get the last wait block */ LastWaitBlock = WaitBlock->Last; if (LastWaitBlock) { /* Set this as the new last block, we're done */ FirstWaitBlock->Last = LastWaitBlock; break; } /* Save the block */ PreviousWaitBlock = WaitBlock; /* Get the next block */ WaitBlock = WaitBlock->Next; /* Save the previous */ WaitBlock->Previous = PreviousWaitBlock; } /* Remove the wake bit */ NewValue.Value = OldValue.Value &~ EX_PUSH_LOCK_WAKING; /* Sanity checks */ ASSERT(NewValue.Locked); ASSERT(!NewValue.Waking); /* Update the value */ NewValue.Ptr = InterlockedCompareExchangePointer(&PushLock->Ptr, NewValue.Ptr, OldValue.Ptr); /* If we updated correctly, leave */ if (NewValue.Value == OldValue.Value) break; /* Update value */ OldValue = NewValue; } } /*++ * @name ExTimedWaitForUnblockPushLock * * The ExTimedWaitForUnblockPushLock routine waits for a pushlock * to be unblocked, for a specified internal. * * @param PushLock * Pointer to a pushlock whose waiter list needs to be optimized. * * @param WaitBlock * Pointer to the pushlock's wait block. * * @param Timeout * Amount of time to wait for this pushlock to be unblocked. * * @return STATUS_SUCCESS is the pushlock is now unblocked, otherwise the error * code returned by KeWaitForSingleObject. * * @remarks If the wait fails, then a manual unblock is attempted. * *--*/ NTSTATUS FASTCALL ExTimedWaitForUnblockPushLock(IN PEX_PUSH_LOCK PushLock, IN PVOID WaitBlock, IN PLARGE_INTEGER Timeout) { NTSTATUS Status; /* Initialize the wait event */ KeInitializeEvent(&((PEX_PUSH_LOCK_WAIT_BLOCK)WaitBlock)->WakeEvent, SynchronizationEvent, FALSE); #ifdef CONFIG_SMP /* Spin on the push lock if necessary */ if (ExPushLockSpinCount) { ULONG i = ExPushLockSpinCount; do { /* Check if we got lucky and can leave early */ if (!(*(volatile LONG *)&((PEX_PUSH_LOCK_WAIT_BLOCK)WaitBlock)->Flags & EX_PUSH_LOCK_WAITING)) return STATUS_SUCCESS; YieldProcessor(); } while (--i); } #endif /* Now try to remove the wait bit */ if (InterlockedBitTestAndReset(&((PEX_PUSH_LOCK_WAIT_BLOCK)WaitBlock)->Flags, EX_PUSH_LOCK_FLAGS_WAIT_V)) { /* Nobody removed it already, let's do a full wait */ Status = KeWaitForSingleObject(&((PEX_PUSH_LOCK_WAIT_BLOCK)WaitBlock)-> WakeEvent, WrPushLock, KernelMode, FALSE, Timeout); /* Check if the wait was satisfied */ if (Status != STATUS_SUCCESS) { /* Try unblocking the pushlock if it was not */ ExfUnblockPushLock(PushLock, WaitBlock); } } else { /* Someone beat us to it, no need to wait */ Status = STATUS_SUCCESS; } /* Return status */ return Status; } /*++ * @name ExWaitForUnblockPushLock * * The ExWaitForUnblockPushLock routine waits for a pushlock * to be unblocked, for a specified internal. * * @param PushLock * Pointer to a pushlock whose waiter list needs to be optimized. * * @param WaitBlock * Pointer to the pushlock's wait block. * * @return STATUS_SUCCESS is the pushlock is now unblocked, otherwise the error * code returned by KeWaitForSingleObject. * * @remarks If the wait fails, then a manual unblock is attempted. * *--*/ VOID FASTCALL ExWaitForUnblockPushLock(IN PEX_PUSH_LOCK PushLock, IN PVOID WaitBlock) { /* Call the timed function with no timeout */ ExTimedWaitForUnblockPushLock(PushLock, WaitBlock, NULL); } /*++ * @name ExBlockPushLock * * The ExBlockPushLock routine blocks a pushlock. * * @param PushLock * Pointer to a pushlock whose waiter list needs to be optimized. * * @param WaitBlock * Pointer to the pushlock's wait block. * * @return None. * * @remarks None. * *--*/ VOID FASTCALL ExBlockPushLock(PEX_PUSH_LOCK PushLock, PVOID pWaitBlock) { PEX_PUSH_LOCK_WAIT_BLOCK WaitBlock = pWaitBlock; EX_PUSH_LOCK NewValue, OldValue; /* Detect invalid wait block alignment */ ASSERT(((ULONG_PTR)pWaitBlock & 0xF) == 0); /* Set the waiting bit */ WaitBlock->Flags = EX_PUSH_LOCK_FLAGS_WAIT; /* Get the old value */ OldValue = *PushLock; /* Start block loop */ for (;;) { /* Link the wait blocks */ WaitBlock->Next = OldValue.Ptr; /* Set the new wait block value */ NewValue.Ptr = InterlockedCompareExchangePointer(&PushLock->Ptr, WaitBlock, OldValue.Ptr); if (OldValue.Ptr == NewValue.Ptr) break; /* Try again with the new value */ OldValue = NewValue; } } /* PUBLIC FUNCTIONS **********************************************************/ /*++ * @name ExAcquirePushLockExclusive * @implemented NT5.1 * * The ExAcquirePushLockExclusive macro exclusively acquires a PushLock. * * @params PushLock * Pointer to the pushlock which is to be acquired. * * @return None. * * @remarks Callers of ExAcquirePushLockShared must be running at IRQL <= APC_LEVEL. * This macro should usually be paired up with KeAcquireCriticalRegion. * *--*/ VOID FASTCALL ExfAcquirePushLockExclusive(PEX_PUSH_LOCK PushLock) { EX_PUSH_LOCK OldValue = *PushLock, NewValue, TempValue; BOOLEAN NeedWake; EX_PUSH_LOCK_WAIT_BLOCK Block; PEX_PUSH_LOCK_WAIT_BLOCK WaitBlock = &Block; /* Start main loop */ for (;;) { /* Check if it's unlocked */ if (!OldValue.Locked) { /* Lock it */ NewValue.Value = OldValue.Value | EX_PUSH_LOCK_LOCK; ASSERT(NewValue.Locked); /* Set the new value */ if (InterlockedCompareExchangePointer(&PushLock->Ptr, NewValue.Ptr, OldValue.Ptr) != OldValue.Ptr) { /* Retry */ OldValue = *PushLock; continue; } /* Break out of the loop */ break; } else { /* We'll have to create a Waitblock */ WaitBlock->Flags = EX_PUSH_LOCK_FLAGS_EXCLUSIVE | EX_PUSH_LOCK_FLAGS_WAIT; WaitBlock->Previous = NULL; NeedWake = FALSE; /* Check if there is already a waiter */ if (OldValue.Waiting) { /* Nobody is the last waiter yet */ WaitBlock->Last = NULL; /* We are an exclusive waiter */ WaitBlock->ShareCount = 0; /* Set the current Wait Block pointer */ WaitBlock->Next = (PEX_PUSH_LOCK_WAIT_BLOCK)( OldValue.Value &~ EX_PUSH_LOCK_PTR_BITS); /* Point to ours */ NewValue.Value = (OldValue.Value & EX_PUSH_LOCK_MULTIPLE_SHARED) | EX_PUSH_LOCK_LOCK | EX_PUSH_LOCK_WAKING | EX_PUSH_LOCK_WAITING | (ULONG_PTR)WaitBlock; /* Check if the pushlock was already waking */ if (!OldValue.Waking) NeedWake = TRUE; } else { /* We are the first waiter, so loop the wait block */ WaitBlock->Last = WaitBlock; /* Set the share count */ WaitBlock->ShareCount = (LONG)OldValue.Shared; /* Check if someone is sharing this pushlock */ if (OldValue.Shared > 1) { /* Point to our wait block */ NewValue.Value = EX_PUSH_LOCK_MULTIPLE_SHARED | EX_PUSH_LOCK_LOCK | EX_PUSH_LOCK_WAITING | (ULONG_PTR)WaitBlock; } else { /* No shared count */ WaitBlock->ShareCount = 0; /* Point to our wait block */ NewValue.Value = EX_PUSH_LOCK_LOCK | EX_PUSH_LOCK_WAITING | (ULONG_PTR)WaitBlock; } } #if DBG /* Setup the Debug Wait Block */ WaitBlock->Signaled = 0; WaitBlock->OldValue = OldValue; WaitBlock->NewValue = NewValue; WaitBlock->PushLock = PushLock; #endif /* Sanity check */ ASSERT(NewValue.Waiting); ASSERT(NewValue.Locked); /* Write the new value */ TempValue = NewValue; NewValue.Ptr = InterlockedCompareExchangePointer(&PushLock->Ptr, NewValue.Ptr, OldValue.Ptr); if (NewValue.Value != OldValue.Value) { /* Retry */ OldValue = *PushLock; continue; } /* Check if the pushlock needed waking */ if (NeedWake) { /* Scan the Waiters and Wake PushLocks */ ExpOptimizePushLockList(PushLock, TempValue); } /* Set up the Wait Gate */ KeInitializeGate(&WaitBlock->WakeGate); #ifdef CONFIG_SMP /* Now spin on the push lock if necessary */ if (ExPushLockSpinCount) { ULONG i = ExPushLockSpinCount; do { if (!(*(volatile LONG *)&WaitBlock->Flags & EX_PUSH_LOCK_WAITING)) break; YieldProcessor(); } while (--i); } #endif /* Now try to remove the wait bit */ if (InterlockedBitTestAndReset(&WaitBlock->Flags, 1)) { /* Nobody removed it already, let's do a full wait */ KeWaitForGate(&WaitBlock->WakeGate, WrPushLock, KernelMode); ASSERT(WaitBlock->Signaled); } /* We shouldn't be shared anymore */ ASSERT((WaitBlock->ShareCount == 0)); /* Loop again */ OldValue = NewValue; } } } /*++ * @name ExAcquirePushLockShared * @implemented NT5.1 * * The ExAcquirePushLockShared routine acquires a shared PushLock. * * @params PushLock * Pointer to the pushlock which is to be acquired. * * @return None. * * @remarks Callers of ExAcquirePushLockShared must be running at IRQL <= APC_LEVEL. * This macro should usually be paired up with KeAcquireCriticalRegion. * *--*/ VOID FASTCALL ExfAcquirePushLockShared(PEX_PUSH_LOCK PushLock) { EX_PUSH_LOCK OldValue = *PushLock, NewValue; BOOLEAN NeedWake; EX_PUSH_LOCK_WAIT_BLOCK Block; PEX_PUSH_LOCK_WAIT_BLOCK WaitBlock = &Block; /* Start main loop */ for (;;) { /* Check if it's unlocked or if it's waiting without any sharers */ if (!(OldValue.Locked) || (!(OldValue.Waiting) && (OldValue.Shared > 0))) { /* Check if anyone is waiting on it */ if (!OldValue.Waiting) { /* Increase the share count and lock it */ NewValue.Value = OldValue.Value | EX_PUSH_LOCK_LOCK; NewValue.Shared++; } else { /* Simply set the lock bit */ NewValue.Value = OldValue.Value | EX_PUSH_LOCK_LOCK; } /* Sanity check */ ASSERT(NewValue.Locked); /* Set the new value */ NewValue.Ptr = InterlockedCompareExchangePointer(&PushLock->Ptr, NewValue.Ptr, OldValue.Ptr); if (NewValue.Value != OldValue.Value) { /* Retry */ OldValue = *PushLock; continue; } /* Break out of the loop */ break; } else { /* We'll have to create a Waitblock */ WaitBlock->Flags = EX_PUSH_LOCK_FLAGS_WAIT; WaitBlock->ShareCount = 0; NeedWake = FALSE; WaitBlock->Previous = NULL; /* Check if there is already a waiter */ if (OldValue.Waiting) { /* Set the current Wait Block pointer */ WaitBlock->Next = (PEX_PUSH_LOCK_WAIT_BLOCK)( OldValue.Value &~ EX_PUSH_LOCK_PTR_BITS); /* Nobody is the last waiter yet */ WaitBlock->Last = NULL; /* Point to ours */ NewValue.Value = (OldValue.Value & (EX_PUSH_LOCK_MULTIPLE_SHARED | EX_PUSH_LOCK_LOCK)) | EX_PUSH_LOCK_WAKING | EX_PUSH_LOCK_WAITING | (ULONG_PTR)WaitBlock; /* Check if the pushlock was already waking */ if (!OldValue.Waking) NeedWake = TRUE; } else { /* We are the first waiter, so loop the wait block */ WaitBlock->Last = WaitBlock; /* Point to our wait block */ NewValue.Value = (OldValue.Value & EX_PUSH_LOCK_PTR_BITS) | EX_PUSH_LOCK_WAITING | (ULONG_PTR)WaitBlock; } /* Sanity check */ ASSERT(NewValue.Waiting); #if DBG /* Setup the Debug Wait Block */ WaitBlock->Signaled = 0; WaitBlock->OldValue = OldValue; WaitBlock->NewValue = NewValue; WaitBlock->PushLock = PushLock; #endif /* Write the new value */ NewValue.Ptr = InterlockedCompareExchangePointer(&PushLock->Ptr, NewValue.Ptr, OldValue.Ptr); if (NewValue.Ptr != OldValue.Ptr) { /* Retry */ OldValue = *PushLock; continue; } /* Update the value now */ OldValue = NewValue; /* Check if the pushlock needed waking */ if (NeedWake) { /* Scan the Waiters and Wake PushLocks */ ExpOptimizePushLockList(PushLock, OldValue); } /* Set up the Wait Gate */ KeInitializeGate(&WaitBlock->WakeGate); #ifdef CONFIG_SMP /* Now spin on the push lock if necessary */ if (ExPushLockSpinCount) { ULONG i = ExPushLockSpinCount; do { if (!(*(volatile LONG *)&WaitBlock->Flags & EX_PUSH_LOCK_WAITING)) break; YieldProcessor(); } while (--i); } #endif /* Now try to remove the wait bit */ if (InterlockedBitTestAndReset(&WaitBlock->Flags, 1)) { /* Fast-path did not work, we need to do a full wait */ KeWaitForGate(&WaitBlock->WakeGate, WrPushLock, KernelMode); ASSERT(WaitBlock->Signaled); } /* We shouldn't be shared anymore */ ASSERT((WaitBlock->ShareCount == 0)); } } } /*++ * @name ExfReleasePushLock * @implemented NT5.1 * * The ExReleasePushLock routine releases a previously acquired PushLock. * * * @params PushLock * Pointer to a previously acquired pushlock. * * @return None. * * @remarks Callers of ExfReleasePushLock must be running at IRQL <= APC_LEVEL. * This macro should usually be paired up with KeLeaveCriticalRegion. * *--*/ VOID FASTCALL ExfReleasePushLock(PEX_PUSH_LOCK PushLock) { EX_PUSH_LOCK OldValue = *PushLock, NewValue, WakeValue; PEX_PUSH_LOCK_WAIT_BLOCK WaitBlock, LastWaitBlock; /* Sanity check */ ASSERT(OldValue.Locked); /* Start main loop */ while (TRUE) { /* Check if someone is waiting on the lock */ if (!OldValue.Waiting) { /* Check if it's shared */ if (OldValue.Shared > 1) { /* Write the Old Value but decrease share count */ NewValue = OldValue; NewValue.Shared--; } else { /* Simply clear the lock */ NewValue.Value = 0; } /* Write the New Value */ NewValue.Ptr = InterlockedCompareExchangePointer(&PushLock->Ptr, NewValue.Ptr, OldValue.Ptr); if (NewValue.Value == OldValue.Value) return; /* Did it enter a wait state? */ OldValue = NewValue; } else { /* Ok, we do know someone is waiting on it. Are there more then one? */ if (OldValue.MultipleShared) { /* Get the wait block */ WaitBlock = (PEX_PUSH_LOCK_WAIT_BLOCK)(OldValue.Value & ~EX_PUSH_LOCK_PTR_BITS); /* Loop until we find the last wait block */ while (TRUE) { /* Get the last wait block */ LastWaitBlock = WaitBlock->Last; /* Did it exist? */ if (LastWaitBlock) { /* Choose it */ WaitBlock = LastWaitBlock; break; } /* Keep searching */ WaitBlock = WaitBlock->Next; } /* Make sure the Share Count is above 0 */ if (WaitBlock->ShareCount > 0) { /* This shouldn't be an exclusive wait block */ ASSERT(WaitBlock->Flags & EX_PUSH_LOCK_FLAGS_EXCLUSIVE); /* Do the decrease and check if the lock isn't shared anymore */ if (InterlockedDecrement(&WaitBlock->ShareCount) > 0) return; } } /* * If nobody was waiting on the block, then we possibly reduced the number * of times the pushlock was shared, and we unlocked it. * If someone was waiting, and more then one person is waiting, then we * reduced the number of times the pushlock is shared in the wait block. * Therefore, at this point, we can now 'satisfy' the wait. */ for (;;) { /* Now we need to see if it's waking */ if (OldValue.Waking) { /* Remove the lock and multiple shared bits */ NewValue.Value = OldValue.Value; NewValue.MultipleShared = FALSE; NewValue.Locked = FALSE; /* Sanity check */ ASSERT(NewValue.Waking && !NewValue.Locked && !NewValue.MultipleShared); /* Write the new value */ NewValue.Ptr = InterlockedCompareExchangePointer(&PushLock->Ptr, NewValue.Ptr, OldValue.Ptr); if (NewValue.Value == OldValue.Value) return; } else { /* Remove the lock and multiple shared bits */ NewValue.Value = OldValue.Value; NewValue.MultipleShared = FALSE; NewValue.Locked = FALSE; /* It's not already waking, so add the wake bit */ NewValue.Waking = TRUE; /* Sanity check */ ASSERT(NewValue.Waking && !NewValue.Locked && !NewValue.MultipleShared); /* Write the new value */ WakeValue = NewValue; NewValue.Ptr = InterlockedCompareExchangePointer(&PushLock->Ptr, NewValue.Ptr, OldValue.Ptr); if (NewValue.Value != OldValue.Value) continue; /* The write was successful. The pushlock is Unlocked and Waking */ ExfWakePushLock(PushLock, WakeValue); return; } } } } } /*++ * @name ExfReleasePushLockShared * @implemented NT5.2 * * The ExfReleasePushLockShared macro releases a previously acquired PushLock. * * @params PushLock * Pointer to a previously acquired pushlock. * * @return None. * * @remarks Callers of ExReleasePushLockShared must be running at IRQL <= APC_LEVEL. * This macro should usually be paired up with KeLeaveCriticalRegion. * *--*/ VOID FASTCALL ExfReleasePushLockShared(PEX_PUSH_LOCK PushLock) { EX_PUSH_LOCK OldValue = *PushLock, NewValue, WakeValue; PEX_PUSH_LOCK_WAIT_BLOCK WaitBlock, LastWaitBlock; /* Check if someone is waiting on the lock */ while (!OldValue.Waiting) { /* Check if it's shared */ if (OldValue.Shared > 1) { /* Write the Old Value but decrease share count */ NewValue = OldValue; NewValue.Shared--; } else { /* Simply clear the lock */ NewValue.Value = 0; } /* Write the New Value */ NewValue.Ptr = InterlockedCompareExchangePointer(&PushLock->Ptr, NewValue.Ptr, OldValue.Ptr); if (NewValue.Value == OldValue.Value) return; /* Did it enter a wait state? */ OldValue = NewValue; } /* Ok, we do know someone is waiting on it. Are there more then one? */ if (OldValue.MultipleShared) { /* Get the wait block */ WaitBlock = (PEX_PUSH_LOCK_WAIT_BLOCK)(OldValue.Value & ~EX_PUSH_LOCK_PTR_BITS); /* Loop until we find the last wait block */ while (TRUE) { /* Get the last wait block */ LastWaitBlock = WaitBlock->Last; /* Did it exist? */ if (LastWaitBlock) { /* Choose it */ WaitBlock = LastWaitBlock; break; } /* Keep searching */ WaitBlock = WaitBlock->Next; } /* Sanity checks */ ASSERT(WaitBlock->ShareCount > 0); ASSERT(WaitBlock->Flags & EX_PUSH_LOCK_FLAGS_EXCLUSIVE); /* Do the decrease and check if the lock isn't shared anymore */ if (InterlockedDecrement(&WaitBlock->ShareCount) > 0) return; } /* * If nobody was waiting on the block, then we possibly reduced the number * of times the pushlock was shared, and we unlocked it. * If someone was waiting, and more then one person is waiting, then we * reduced the number of times the pushlock is shared in the wait block. * Therefore, at this point, we can now 'satisfy' the wait. */ for (;;) { /* Now we need to see if it's waking */ if (OldValue.Waking) { /* Remove the lock and multiple shared bits */ NewValue.Value = OldValue.Value; NewValue.MultipleShared = FALSE; NewValue.Locked = FALSE; /* Sanity check */ ASSERT(NewValue.Waking && !NewValue.Locked && !NewValue.MultipleShared); /* Write the new value */ NewValue.Ptr = InterlockedCompareExchangePointer(&PushLock->Ptr, NewValue.Ptr, OldValue.Ptr); if (NewValue.Value == OldValue.Value) return; } else { /* Remove the lock and multiple shared bits */ NewValue.Value = OldValue.Value; NewValue.MultipleShared = FALSE; NewValue.Locked = FALSE; /* It's not already waking, so add the wake bit */ NewValue.Waking = TRUE; /* Sanity check */ ASSERT(NewValue.Waking && !NewValue.Locked && !NewValue.MultipleShared); /* Write the new value */ WakeValue = NewValue; NewValue.Ptr = InterlockedCompareExchangePointer(&PushLock->Ptr, NewValue.Ptr, OldValue.Ptr); if (NewValue.Value != OldValue.Value) continue; /* The write was successful. The pushlock is Unlocked and Waking */ ExfWakePushLock(PushLock, WakeValue); return; } } } /*++ * ExfReleasePushLockExclusive * @implemented NT5.2 * * The ExfReleasePushLockExclusive routine releases a previously * exclusively acquired PushLock. * * @params PushLock * Pointer to a previously acquired pushlock. * * @return None. * * @remarks Callers of ExReleasePushLockExclusive must be running at IRQL <= APC_LEVEL. * This macro should usually be paired up with KeLeaveCriticalRegion. * *--*/ VOID FASTCALL ExfReleasePushLockExclusive(PEX_PUSH_LOCK PushLock) { EX_PUSH_LOCK NewValue, WakeValue; EX_PUSH_LOCK OldValue = *PushLock; /* Loop until we can change */ for (;;) { /* Sanity checks */ ASSERT(OldValue.Locked); ASSERT(OldValue.Waiting || OldValue.Shared == 0); /* Check if it's waiting and not yet waking */ if ((OldValue.Waiting) && !(OldValue.Waking)) { /* Remove the lock bit, and add the wake bit */ NewValue.Value = (OldValue.Value &~ EX_PUSH_LOCK_LOCK) | EX_PUSH_LOCK_WAKING; /* Sanity check */ ASSERT(NewValue.Waking && !NewValue.Locked); /* Write the New Value. Save our original value for waking */ WakeValue = NewValue; NewValue.Ptr = InterlockedCompareExchangePointer(&PushLock->Ptr, NewValue.Ptr, OldValue.Ptr); /* Check if the value changed behind our back */ if (NewValue.Value == OldValue.Value) { /* Wake the Pushlock */ ExfWakePushLock(PushLock, WakeValue); break; } } else { /* A simple unlock */ NewValue.Value = OldValue.Value &~ EX_PUSH_LOCK_LOCK; /* Sanity check */ ASSERT(NewValue.Waking || !NewValue.Waiting); /* Write the New Value */ NewValue.Ptr = InterlockedCompareExchangePointer(&PushLock->Ptr, NewValue.Ptr, OldValue.Ptr); /* Check if the value changed behind our back */ if (NewValue.Value == OldValue.Value) break; } /* Loop again */ OldValue = NewValue; } } /*++ * @name ExfTryToWakePushLock * @implemented NT5.2 * * The ExfTryToWakePushLock attemps to wake a waiting pushlock. * * @param PushLock * Pointer to a PushLock which is in the wait state. * * @return None. * * @remarks The pushlock must be in a wait state and must not be already waking. * *--*/ VOID FASTCALL ExfTryToWakePushLock(PEX_PUSH_LOCK PushLock) { EX_PUSH_LOCK OldValue = *PushLock, NewValue; /* * If the Pushlock is not waiting on anything, or if it's already waking up * and locked, don't do anything */ if ((OldValue.Waking) || (OldValue.Locked) || !(OldValue.Waiting)) return; /* Make it Waking */ NewValue = OldValue; NewValue.Waking = TRUE; /* Write the New Value */ if (InterlockedCompareExchangePointer(&PushLock->Ptr, NewValue.Ptr, OldValue.Ptr) == OldValue.Ptr) { /* Wake the Pushlock */ ExfWakePushLock(PushLock, NewValue); } } /*++ * @name ExfUnblockPushLock * @implemented NT5.1 * * The ExfUnblockPushLock routine unblocks a previously blocked PushLock. * * @param PushLock * Pointer to a previously blocked PushLock. * * @return None. * * @remarks Callers of ExfUnblockPushLock can be running at any IRQL. * *--*/ VOID FASTCALL ExfUnblockPushLock(PEX_PUSH_LOCK PushLock, PVOID CurrentWaitBlock) { PEX_PUSH_LOCK_WAIT_BLOCK WaitBlock, NextWaitBlock; KIRQL OldIrql = DISPATCH_LEVEL; /* Get the wait block and erase the previous one */ WaitBlock = InterlockedExchangePointer(&PushLock->Ptr, NULL); if (WaitBlock) { /* Check if there is a linked pushlock and raise IRQL appropriately */ if (WaitBlock->Next) KeRaiseIrql(DISPATCH_LEVEL, &OldIrql); /* Start block loop */ while (WaitBlock) { /* Get the next block */ NextWaitBlock = WaitBlock->Next; /* Remove the wait flag from the Wait block */ if (!InterlockedBitTestAndReset(&WaitBlock->Flags, EX_PUSH_LOCK_FLAGS_WAIT_V)) { /* Nobody removed the flag before us, so signal the event */ KeSetEventBoostPriority(&WaitBlock->WakeEvent, NULL); } /* Try the next one */ WaitBlock = NextWaitBlock; } /* Lower IRQL if needed */ if (OldIrql != DISPATCH_LEVEL) KeLowerIrql(OldIrql); } /* Check if we got a wait block that's pending */ if ((CurrentWaitBlock) && (((PEX_PUSH_LOCK_WAIT_BLOCK)CurrentWaitBlock)->Flags & EX_PUSH_LOCK_FLAGS_WAIT)) { /* Wait for the pushlock to be unblocked */ ExWaitForUnblockPushLock(PushLock, CurrentWaitBlock); } }