mirror of
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526 lines
17 KiB
C
526 lines
17 KiB
C
/*
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* COPYRIGHT: See COPYING in the top level directory
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* PROJECT: ReactOS system libraries
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* PURPOSE: Condition Variable Routines
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* PROGRAMMERS: Thomas Weidenmueller <w3seek@reactos.com>
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* Stephan A. R<>ger
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*/
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/* NOTE: This functionality can be optimized for releasing single
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threads or for releasing all waiting threads at once. This
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implementation is optimized for releasing a single thread at a time.
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It wakes up sleeping threads in FIFO order. */
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/* INCLUDES ******************************************************************/
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#include <rtl_vista.h>
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#define NDEBUG
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#include <debug.h>
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/* INTERNAL TYPES ************************************************************/
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#define COND_VAR_UNUSED_FLAG ((ULONG_PTR)1)
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#define COND_VAR_LOCKED_FLAG ((ULONG_PTR)2)
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#define COND_VAR_FLAGS_MASK ((ULONG_PTR)3)
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#define COND_VAR_ADDRESS_MASK (~COND_VAR_FLAGS_MASK)
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typedef struct _COND_VAR_WAIT_ENTRY
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{
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/* ListEntry must have an alignment of at least 32-bits, since we
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want COND_VAR_ADDRESS_MASK to cover all of the address. */
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LIST_ENTRY ListEntry;
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PVOID WaitKey;
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BOOLEAN ListRemovalHandled;
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} COND_VAR_WAIT_ENTRY, * PCOND_VAR_WAIT_ENTRY;
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#define CONTAINING_COND_VAR_WAIT_ENTRY(address, field) \
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CONTAINING_RECORD(address, COND_VAR_WAIT_ENTRY, field)
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/* GLOBALS *******************************************************************/
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static HANDLE CondVarKeyedEventHandle = NULL;
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/* INTERNAL FUNCTIONS ********************************************************/
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FORCEINLINE
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ULONG_PTR
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InternalCmpXChgCondVarAcq(IN OUT PRTL_CONDITION_VARIABLE ConditionVariable,
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IN ULONG_PTR Exchange,
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IN ULONG_PTR Comperand)
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{
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return (ULONG_PTR)InterlockedCompareExchangePointerAcquire(&ConditionVariable->Ptr,
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(PVOID)Exchange,
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(PVOID)Comperand);
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}
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FORCEINLINE
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ULONG_PTR
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InternalCmpXChgCondVarRel(IN OUT PRTL_CONDITION_VARIABLE ConditionVariable,
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IN ULONG_PTR Exchange,
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IN ULONG_PTR Comperand)
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{
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return (ULONG_PTR)InterlockedCompareExchangePointerRelease(&ConditionVariable->Ptr,
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(PVOID)Exchange,
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(PVOID)Comperand);
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}
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FORCEINLINE
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BOOLEAN *
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InternalGetListRemovalHandledFlag(IN PCOND_VAR_WAIT_ENTRY Entry)
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{
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return (BOOLEAN *)&Entry->ListRemovalHandled;
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}
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static
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PCOND_VAR_WAIT_ENTRY
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InternalLockCondVar(IN OUT PRTL_CONDITION_VARIABLE ConditionVariable,
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IN PCOND_VAR_WAIT_ENTRY InsertEntry OPTIONAL,
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IN BOOLEAN * AbortIfLocked OPTIONAL)
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{
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/* InsertEntry and AbortIfLocked may be NULL on entry. This routine
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will return NULL if the lock was not acquired. Otherwise it has
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successfully acquired the lock and the return value is a valid
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reference to the list head associated with ConditionVariable.
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The caller must in this case call InternalUnlockCondVar later
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in order to unlock the condition variable.
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If InsertEntry is NULL and there are no entries on the list, this
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routine will not acquire the lock and return NULL. If InsertEntry
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is not NULL this routine ensures that InsertEntry will be on the
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list when it returns successfully.
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If the lock is owned by another thread and AbortIfLocked is NULL,
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this routine will block until it acquires the lock. If AbortIfLocked
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is not NULL and the lock is owned by another thread, this routine
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will periodically check if *AbortIfLocked is nonzero and if so, will
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return NULL instead of continuing the wait. */
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ULONG_PTR OldVal = (ULONG_PTR)ConditionVariable->Ptr;
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for (;;)
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{
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ULONG_PTR NewVal, LockRes;
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PLIST_ENTRY OldListHead;
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if (OldVal & COND_VAR_LOCKED_FLAG)
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{
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/* The locked flag is set, indicating someone else currently
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holds the lock. We'll spin until this flag becomes
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clear or we're asked to abort. */
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YieldProcessor();
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if ((AbortIfLocked != NULL) && *AbortIfLocked)
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{
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/* The caller wants us to abort in this case. */
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return NULL;
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}
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/* Refresh OldVal and try again. */
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OldVal = *(ULONG_PTR *)&ConditionVariable->Ptr;
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continue;
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}
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/* Retrieve the list head currently associated with the
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condition variable. */
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OldListHead = (PLIST_ENTRY)(OldVal & COND_VAR_ADDRESS_MASK);
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if (InsertEntry == NULL)
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{
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/* The caller doesn't want to put any entry on the list. */
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if (OldListHead == NULL)
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{
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/* The list is empty, so there is nothing to lock. */
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return NULL;
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}
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/* The list isn't empty. In this case we need to preserve
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all of OldVal. */
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NewVal = OldVal;
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}
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else
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{
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/* Let InsertEntry be the new list head. Preserve only the
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bits inside the COND_VAR_FLAGS_MASK range. */
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NewVal = ((OldVal & COND_VAR_FLAGS_MASK) |
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(ULONG_PTR)&InsertEntry->ListEntry);
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}
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/* Set the flag that indicates someone is holding the lock and
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try to update the condition variable thread-safe. */
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NewVal |= COND_VAR_LOCKED_FLAG;
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LockRes = InternalCmpXChgCondVarAcq(ConditionVariable, NewVal, OldVal);
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if (LockRes == OldVal)
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{
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/* We successfully updated ConditionVariable the way we
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wanted and now hold the lock. */
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if (InsertEntry == NULL)
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{
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/* We know that OldVal contains a valid address in
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this case. */
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ASSERT(OldListHead != NULL);
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return CONTAINING_COND_VAR_WAIT_ENTRY(OldListHead, ListEntry);
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}
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/* InsertEntry is not on the list yet, so add it. In any
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case InsertEntry will be the new list head. */
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if (OldListHead == NULL)
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{
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/* List was empty before. */
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InitializeListHead(&InsertEntry->ListEntry);
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}
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else
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{
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/* Make InsertEntry the last entry of the old list.
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As InsertEntry will take the role as new list head,
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OldListHead will become the second entry (InsertEntry->Flink)
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on the new list. */
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InsertTailList(OldListHead, &InsertEntry->ListEntry);
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}
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return InsertEntry;
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}
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/* We didn't manage to update ConditionVariable, so try again. */
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OldVal = LockRes;
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}
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}
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static
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VOID
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InternalUnlockCondVar(IN OUT PRTL_CONDITION_VARIABLE ConditionVariable,
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IN PCOND_VAR_WAIT_ENTRY RemoveEntry OPTIONAL)
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{
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/* This routine assumes that the lock is being held on entry.
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RemoveEntry may be NULL. If it is not NULL, this routine
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assumes that RemoveEntry is on the list and will remove it
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before releasing the lock. */
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ULONG_PTR OldVal = (ULONG_PTR)ConditionVariable->Ptr;
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PLIST_ENTRY NewHeadEntry;
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ASSERT((OldVal & COND_VAR_LOCKED_FLAG) &&
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(OldVal & COND_VAR_ADDRESS_MASK));
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NewHeadEntry = (PLIST_ENTRY)(OldVal & COND_VAR_ADDRESS_MASK);
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if (RemoveEntry != NULL)
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{
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/* We have to drop RemoveEntry from the list. */
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if (&RemoveEntry->ListEntry == NewHeadEntry)
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{
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/* RemoveEntry is the list head. */
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if (!IsListEmpty(NewHeadEntry))
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{
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/* The second entry in the list will become the new
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list head. It's from the thread that arrived
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right before the owner of RemoveEntry. */
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NewHeadEntry = NewHeadEntry->Flink;
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RemoveEntryList(&RemoveEntry->ListEntry);
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}
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else
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{
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/* The list will be empty, so discard the list. */
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NewHeadEntry = NULL;
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}
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}
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else
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{
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/* RemoveEntry is not the list head. The current list head
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will remain. */
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RemoveEntryList(&RemoveEntry->ListEntry);
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}
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/* Indicate to the owner of RemoveEntry that the entry
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was removed from the list. RemoveEntry may not be touched
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from here on. We don't use volatile semantics here since
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the cache will anyway be flushed soon when we update
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ConditionVariable. */
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RemoveEntry->ListRemovalHandled = TRUE;
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}
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/* Now unlock thread-safe, while preserving any flags within the
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COND_VAR_FLAGS_MASK range except for COND_VAR_LOCKED_FLAG. */
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for (;;)
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{
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ULONG_PTR NewVal = ((OldVal & (COND_VAR_FLAGS_MASK ^ COND_VAR_LOCKED_FLAG)) |
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(ULONG_PTR)NewHeadEntry);
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ULONG_PTR LockRes = InternalCmpXChgCondVarRel(ConditionVariable, NewVal, OldVal);
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if (LockRes == OldVal)
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{
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/* We unlocked. */
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break;
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}
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/* Try again. */
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OldVal = LockRes;
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}
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}
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static
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VOID
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InternalWake(IN OUT PRTL_CONDITION_VARIABLE ConditionVariable,
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IN BOOLEAN ReleaseAll)
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{
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/* If ReleaseAll is zero on entry, one thread at most will be woken.
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Otherwise all waiting threads are woken. Wakeups happen in FIFO
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order. */
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PCOND_VAR_WAIT_ENTRY CONST HeadEntry = InternalLockCondVar(ConditionVariable, NULL, NULL);
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PCOND_VAR_WAIT_ENTRY Entry;
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PCOND_VAR_WAIT_ENTRY NextEntry;
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LARGE_INTEGER Timeout;
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PCOND_VAR_WAIT_ENTRY RemoveOnUnlockEntry;
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ASSERT(CondVarKeyedEventHandle != NULL);
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if (HeadEntry == NULL)
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{
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/* There is noone there to wake up. In this case do nothing
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and return immediately. We don't stockpile releases. */
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return;
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}
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Timeout.QuadPart = 0;
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RemoveOnUnlockEntry = NULL;
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/* Release sleeping threads. We will iterate from the last entry on
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the list to the first. Note that the loop condition is always
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true for the initial test. */
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for (Entry = CONTAINING_COND_VAR_WAIT_ENTRY(HeadEntry->ListEntry.Blink, ListEntry);
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Entry != NULL;
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Entry = NextEntry)
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{
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NTSTATUS Status;
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if (HeadEntry == Entry)
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{
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/* After the current entry we've iterated through the
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entire list in backward direction. Then exit.*/
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NextEntry = NULL;
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}
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else
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{
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/* Store away the next reference right now, since we may
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not touch Entry anymore at the end of the block. */
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NextEntry = CONTAINING_COND_VAR_WAIT_ENTRY(Entry->ListEntry.Blink, ListEntry);
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}
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/* Wake the thread associated with this event. We will
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immediately return if we failed (zero timeout). */
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Status = NtReleaseKeyedEvent(CondVarKeyedEventHandle,
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&Entry->WaitKey,
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FALSE,
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&Timeout);
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if (!NT_SUCCESS(Status))
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{
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/* We failed to wake a thread. We'll keep trying. */
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ASSERT(STATUS_INVALID_HANDLE != Status);
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continue;
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}
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/* We've woken a thread and will make sure this thread
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is removed from the list. */
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if (HeadEntry == Entry)
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{
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/* This is the list head. We can't remove it as easily as
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other entries and will pass it to the unlock routine
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later (we will exit the loop after this round anyway). */
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RemoveOnUnlockEntry = HeadEntry;
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}
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else
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{
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/* We can remove the entry right away. */
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RemoveEntryList(&Entry->ListEntry);
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/* Now tell the woken thread that removal from the list was
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already taken care of here so that this thread can resume
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its normal operation more quickly. We may not touch
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Entry after signaling this, since it may lie in invalid
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memory from there on. */
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*InternalGetListRemovalHandledFlag(Entry) = TRUE;
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}
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if (!ReleaseAll)
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{
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/* We've successfully woken one thread as the caller
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demanded. */
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break;
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}
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}
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InternalUnlockCondVar(ConditionVariable, RemoveOnUnlockEntry);
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}
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VOID
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NTAPI
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RtlAcquireSRWLockExclusive(IN OUT PRTL_SRWLOCK SRWLock);
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VOID
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NTAPI
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RtlAcquireSRWLockShared(IN OUT PRTL_SRWLOCK SRWLock);
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VOID
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NTAPI
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RtlReleaseSRWLockExclusive(IN OUT PRTL_SRWLOCK SRWLock);
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VOID
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NTAPI
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RtlReleaseSRWLockShared(IN OUT PRTL_SRWLOCK SRWLock);
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static
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NTSTATUS
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InternalSleep(IN OUT PRTL_CONDITION_VARIABLE ConditionVariable,
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IN OUT PRTL_CRITICAL_SECTION CriticalSection OPTIONAL,
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IN OUT PRTL_SRWLOCK SRWLock OPTIONAL,
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IN ULONG SRWFlags,
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IN const LARGE_INTEGER * TimeOut OPTIONAL)
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{
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/* Either CriticalSection or SRWLock must be NULL, but not both.
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These caller provided lock must be held on entry and will be
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held again on return. */
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COND_VAR_WAIT_ENTRY OwnEntry;
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NTSTATUS Status;
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ASSERT(CondVarKeyedEventHandle != NULL);
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ASSERT((CriticalSection == NULL) != (SRWLock == NULL));
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RtlZeroMemory(&OwnEntry, sizeof(OwnEntry));
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/* Put OwnEntry on the list. */
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InternalLockCondVar(ConditionVariable, &OwnEntry, NULL);
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InternalUnlockCondVar(ConditionVariable, NULL);
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/* We can now drop the caller provided lock as a preparation for
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going to sleep. */
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if (CriticalSection == NULL)
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{
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if (0 == (RTL_CONDITION_VARIABLE_LOCKMODE_SHARED & SRWFlags))
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{
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RtlReleaseSRWLockExclusive(SRWLock);
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}
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else
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{
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RtlReleaseSRWLockShared(SRWLock);
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}
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}
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else
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{
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RtlLeaveCriticalSection(CriticalSection);
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}
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/* Now sleep using the caller provided timeout. */
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Status = NtWaitForKeyedEvent(CondVarKeyedEventHandle,
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&OwnEntry.WaitKey,
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FALSE,
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(PLARGE_INTEGER)TimeOut);
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ASSERT(STATUS_INVALID_HANDLE != Status);
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if (!*InternalGetListRemovalHandledFlag(&OwnEntry))
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{
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/* Remove OwnEntry from the list again, since it still seems to
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be on the list. We will know for sure once we've acquired
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the lock. */
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if (InternalLockCondVar(ConditionVariable,
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NULL,
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InternalGetListRemovalHandledFlag(&OwnEntry)))
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{
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/* Unlock and potentially remove OwnEntry. Self-removal is
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usually only necessary when a timeout occurred. */
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InternalUnlockCondVar(ConditionVariable,
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!OwnEntry.ListRemovalHandled ?
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&OwnEntry : NULL);
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}
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}
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#ifdef _DEBUG
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/* Clear OwnEntry to aid in detecting bugs. */
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RtlZeroMemory(&OwnEntry, sizeof(OwnEntry));
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#endif
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/* Reacquire the caller provided lock, as we are about to return. */
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if (CriticalSection == NULL)
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{
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if (0 == (RTL_CONDITION_VARIABLE_LOCKMODE_SHARED & SRWFlags))
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{
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RtlAcquireSRWLockExclusive(SRWLock);
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}
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else
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{
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RtlAcquireSRWLockShared(SRWLock);
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}
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}
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else
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{
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RtlEnterCriticalSection(CriticalSection);
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}
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/* Return whatever NtWaitForKeyedEvent returned. */
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return Status;
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}
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VOID
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NTAPI
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RtlpInitializeKeyedEvent(VOID)
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{
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ASSERT(CondVarKeyedEventHandle == NULL);
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NtCreateKeyedEvent(&CondVarKeyedEventHandle, EVENT_ALL_ACCESS, NULL, 0);
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}
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VOID
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NTAPI
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RtlpCloseKeyedEvent(VOID)
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{
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ASSERT(CondVarKeyedEventHandle != NULL);
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NtClose(CondVarKeyedEventHandle);
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CondVarKeyedEventHandle = NULL;
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}
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/* EXPORTED FUNCTIONS ********************************************************/
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VOID
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NTAPI
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RtlInitializeConditionVariable(OUT PRTL_CONDITION_VARIABLE ConditionVariable)
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{
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ConditionVariable->Ptr = NULL;
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}
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VOID
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NTAPI
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RtlWakeConditionVariable(IN OUT PRTL_CONDITION_VARIABLE ConditionVariable)
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{
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InternalWake(ConditionVariable, FALSE);
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}
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VOID
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NTAPI
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RtlWakeAllConditionVariable(IN OUT PRTL_CONDITION_VARIABLE ConditionVariable)
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{
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InternalWake(ConditionVariable, TRUE);
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}
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NTSTATUS
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NTAPI
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RtlSleepConditionVariableCS(IN OUT PRTL_CONDITION_VARIABLE ConditionVariable,
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IN OUT PRTL_CRITICAL_SECTION CriticalSection,
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IN const LARGE_INTEGER * TimeOut OPTIONAL)
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{
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return InternalSleep(ConditionVariable,
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CriticalSection,
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(PRTL_SRWLOCK)NULL,
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0,
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TimeOut);
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}
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NTSTATUS
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NTAPI
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RtlSleepConditionVariableSRW(IN OUT PRTL_CONDITION_VARIABLE ConditionVariable,
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IN OUT PRTL_SRWLOCK SRWLock,
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IN const LARGE_INTEGER * TimeOut OPTIONAL,
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IN ULONG Flags)
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{
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return InternalSleep(ConditionVariable,
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(PRTL_CRITICAL_SECTION)NULL,
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SRWLock,
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Flags,
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TimeOut);
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}
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/* EOF */
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