reactos/sdk/lib/rtl/critical.c

886 lines
24 KiB
C

/*
* COPYRIGHT: See COPYING in the top level directory
* PROJECT: ReactOS system libraries
* FILE: lib/rtl/critical.c
* PURPOSE: Critical sections
* PROGRAMMERS: Alex Ionescu (alex@relsoft.net)
* Gunnar Dalsnes
*/
/* INCLUDES *****************************************************************/
#include <rtl.h>
#define NDEBUG
#include <debug.h>
#define MAX_STATIC_CS_DEBUG_OBJECTS 64
static RTL_CRITICAL_SECTION RtlCriticalSectionLock;
static LIST_ENTRY RtlCriticalSectionList = {&RtlCriticalSectionList, &RtlCriticalSectionList};
static BOOLEAN RtlpCritSectInitialized = FALSE;
static RTL_CRITICAL_SECTION_DEBUG RtlpStaticDebugInfo[MAX_STATIC_CS_DEBUG_OBJECTS];
static BOOLEAN RtlpDebugInfoFreeList[MAX_STATIC_CS_DEBUG_OBJECTS];
LARGE_INTEGER RtlpTimeout;
BOOLEAN RtlpTimeoutDisable;
extern BOOLEAN LdrpShutdownInProgress;
extern HANDLE LdrpShutdownThreadId;
/* FUNCTIONS *****************************************************************/
#define CRITSECT_HAS_DEBUG_INFO(CriticalSection) \
(((CriticalSection)->DebugInfo != NULL) && \
((CriticalSection)->DebugInfo != LongToPtr(-1)))
/*++
* RtlpCreateCriticalSectionSem
*
* Checks if an Event has been created for the critical section.
*
* Params:
* None
*
* Returns:
* None. Raises an exception if the system call failed.
*
* Remarks:
* None
*
*--*/
_At_(CriticalSection->LockSemaphore, _Post_notnull_)
VOID
NTAPI
RtlpCreateCriticalSectionSem(PRTL_CRITICAL_SECTION CriticalSection)
{
HANDLE hEvent = CriticalSection->LockSemaphore;
HANDLE hNewEvent;
NTSTATUS Status;
/* Check if we have an event */
if (!hEvent)
{
/* No, so create it */
Status = NtCreateEvent(&hNewEvent,
EVENT_ALL_ACCESS,
NULL,
SynchronizationEvent,
FALSE);
if (!NT_SUCCESS(Status))
{
DPRINT1("Failed to Create Event!\n");
/*
* Use INVALID_HANDLE_VALUE (-1) to signal that
* the global keyed event must be used.
*/
hNewEvent = INVALID_HANDLE_VALUE;
}
DPRINT("Created Event: %p\n", hNewEvent);
/* Exchange the LockSemaphore field with the new handle, if it is still 0 */
if (InterlockedCompareExchangePointer((PVOID*)&CriticalSection->LockSemaphore,
(PVOID)hNewEvent,
NULL) != NULL)
{
/* Someone else just created an event */
if (hNewEvent != INVALID_HANDLE_VALUE)
{
DPRINT("Closing already created event: %p\n", hNewEvent);
NtClose(hNewEvent);
}
}
}
return;
}
/*++
* RtlpWaitForCriticalSection
*
* Slow path of RtlEnterCriticalSection. Waits on an Event Object.
*
* Params:
* CriticalSection - Critical section to acquire.
*
* Returns:
* STATUS_SUCCESS, or raises an exception if a deadlock is occuring.
*
* Remarks:
* None
*
*--*/
NTSTATUS
NTAPI
RtlpWaitForCriticalSection(PRTL_CRITICAL_SECTION CriticalSection)
{
NTSTATUS Status;
EXCEPTION_RECORD ExceptionRecord;
BOOLEAN LastChance = FALSE;
/* Increase the Debug Entry count */
DPRINT("Waiting on Critical Section Event: %p %p\n",
CriticalSection,
CriticalSection->LockSemaphore);
if (CRITSECT_HAS_DEBUG_INFO(CriticalSection))
CriticalSection->DebugInfo->EntryCount++;
/*
* If we're shutting down the process, we're allowed to acquire any
* critical sections by force (the loader lock in particular)
*/
if (LdrpShutdownInProgress &&
LdrpShutdownThreadId == NtCurrentTeb()->RealClientId.UniqueThread)
{
DPRINT("Forcing ownership of critical section %p\n", CriticalSection);
return STATUS_SUCCESS;
}
/* Do we have an Event yet? */
if (!CriticalSection->LockSemaphore)
{
RtlpCreateCriticalSectionSem(CriticalSection);
}
for (;;)
{
/* Increase the number of times we've had contention */
if (CRITSECT_HAS_DEBUG_INFO(CriticalSection))
CriticalSection->DebugInfo->ContentionCount++;
/* Check if allocating the event failed */
if (CriticalSection->LockSemaphore == INVALID_HANDLE_VALUE)
{
/* Use the global keyed event (NULL as keyed event handle) */
Status = NtWaitForKeyedEvent(NULL,
CriticalSection,
FALSE,
(RtlpTimeoutDisable ? NULL : &RtlpTimeout));
}
else
{
/* Wait on the Event */
Status = NtWaitForSingleObject(CriticalSection->LockSemaphore,
FALSE,
(RtlpTimeoutDisable ? NULL : &RtlpTimeout));
}
/* We have Timed out */
if (Status == STATUS_TIMEOUT)
{
/* Is this the 2nd time we've timed out? */
if (LastChance)
{
ERROR_DBGBREAK("Deadlock: 0x%p\n", CriticalSection);
/* Yes it is, we are raising an exception */
ExceptionRecord.ExceptionCode = STATUS_POSSIBLE_DEADLOCK;
ExceptionRecord.ExceptionFlags = 0;
ExceptionRecord.ExceptionRecord = NULL;
ExceptionRecord.ExceptionAddress = RtlRaiseException;
ExceptionRecord.NumberParameters = 1;
ExceptionRecord.ExceptionInformation[0] = (ULONG_PTR)CriticalSection;
RtlRaiseException(&ExceptionRecord);
}
/* One more try */
LastChance = TRUE;
}
else
{
/* If we are here, everything went fine */
return STATUS_SUCCESS;
}
}
}
/*++
* RtlpUnWaitCriticalSection
*
* Slow path of RtlLeaveCriticalSection. Fires an Event Object.
*
* Params:
* CriticalSection - Critical section to release.
*
* Returns:
* None. Raises an exception if the system call failed.
*
* Remarks:
* None
*
*--*/
VOID
NTAPI
RtlpUnWaitCriticalSection(PRTL_CRITICAL_SECTION CriticalSection)
{
NTSTATUS Status;
/* Do we have an Event yet? */
if (!CriticalSection->LockSemaphore)
{
RtlpCreateCriticalSectionSem(CriticalSection);
}
/* Signal the Event */
DPRINT("Signaling Critical Section Event: %p, %p\n",
CriticalSection,
CriticalSection->LockSemaphore);
/* Check if this critical section needs to use the keyed event */
if (CriticalSection->LockSemaphore == INVALID_HANDLE_VALUE)
{
/* Release keyed event */
Status = NtReleaseKeyedEvent(NULL, CriticalSection, FALSE, &RtlpTimeout);
}
else
{
/* Set the event */
Status = NtSetEvent(CriticalSection->LockSemaphore, NULL);
}
if (!NT_SUCCESS(Status))
{
/* We've failed */
DPRINT1("Signaling Failed for: %p, %p, 0x%08lx\n",
CriticalSection,
CriticalSection->LockSemaphore,
Status);
RtlRaiseStatus(Status);
}
}
/*++
* RtlpInitDeferredCriticalSection
*
* Initializes the Critical Section implementation.
*
* Params:
* None
*
* Returns:
* None.
*
* Remarks:
* After this call, the Process Critical Section list is protected.
*
*--*/
VOID
NTAPI
RtlpInitDeferredCriticalSection(VOID)
{
/* Initialize the CS Protecting the List */
RtlInitializeCriticalSection(&RtlCriticalSectionLock);
/* It's now safe to enter it */
RtlpCritSectInitialized = TRUE;
}
/*++
* RtlpAllocateDebugInfo
*
* Finds or allocates memory for a Critical Section Debug Object
*
* Params:
* None
*
* Returns:
* A pointer to an empty Critical Section Debug Object.
*
* Remarks:
* For optimization purposes, the first 64 entries can be cached. From
* then on, future Critical Sections will allocate memory from the heap.
*
*--*/
PRTL_CRITICAL_SECTION_DEBUG
NTAPI
RtlpAllocateDebugInfo(VOID)
{
ULONG i;
/* Try to allocate from our buffer first */
for (i = 0; i < MAX_STATIC_CS_DEBUG_OBJECTS; i++)
{
/* Check if Entry is free */
if (!RtlpDebugInfoFreeList[i])
{
/* Mark entry in use */
DPRINT("Using entry: %lu. Buffer: %p\n", i, &RtlpStaticDebugInfo[i]);
RtlpDebugInfoFreeList[i] = TRUE;
/* Use free entry found */
return &RtlpStaticDebugInfo[i];
}
}
/* We are out of static buffer, allocate dynamic */
return RtlAllocateHeap(RtlGetProcessHeap(),
0,
sizeof(RTL_CRITICAL_SECTION_DEBUG));
}
/*++
* RtlpFreeDebugInfo
*
* Frees the memory for a Critical Section Debug Object
*
* Params:
* DebugInfo - Pointer to Critical Section Debug Object to free.
*
* Returns:
* None.
*
* Remarks:
* If the pointer is part of the static buffer, then the entry is made
* free again. If not, the object is de-allocated from the heap.
*
*--*/
VOID
NTAPI
RtlpFreeDebugInfo(PRTL_CRITICAL_SECTION_DEBUG DebugInfo)
{
SIZE_T EntryId;
/* Is it part of our cached entries? */
if ((DebugInfo >= RtlpStaticDebugInfo) &&
(DebugInfo <= &RtlpStaticDebugInfo[MAX_STATIC_CS_DEBUG_OBJECTS-1]))
{
/* Yes. zero it out */
RtlZeroMemory(DebugInfo, sizeof(RTL_CRITICAL_SECTION_DEBUG));
/* Mark as free */
EntryId = (DebugInfo - RtlpStaticDebugInfo);
DPRINT("Freeing from Buffer: %p. Entry: %Iu inside Process: %p\n",
DebugInfo,
EntryId,
NtCurrentTeb()->ClientId.UniqueProcess);
RtlpDebugInfoFreeList[EntryId] = FALSE;
}
else if (!DebugInfo->Flags)
{
/* It's a dynamic one, so free from the heap */
DPRINT("Freeing from Heap: %p inside Process: %p\n",
DebugInfo,
NtCurrentTeb()->ClientId.UniqueProcess);
RtlFreeHeap(NtCurrentPeb()->ProcessHeap, 0, DebugInfo);
}
else
{
/* Wine stores a section name pointer in the Flags member */
DPRINT("Assuming static: %p inside Process: %p\n",
DebugInfo,
NtCurrentTeb()->ClientId.UniqueProcess);
}
}
/*++
* RtlDeleteCriticalSection
* @implemented NT4
*
* Deletes a Critical Section
*
* Params:
* CriticalSection - Critical section to delete.
*
* Returns:
* STATUS_SUCCESS, or error value returned by NtClose.
*
* Remarks:
* The critical section members should not be read after this call.
*
*--*/
NTSTATUS
NTAPI
RtlDeleteCriticalSection(PRTL_CRITICAL_SECTION CriticalSection)
{
NTSTATUS Status = STATUS_SUCCESS;
DPRINT("Deleting Critical Section: %p\n", CriticalSection);
/* Close the Event Object Handle if it exists */
if (CriticalSection->LockSemaphore)
{
/* In case NtClose fails, return the status */
Status = NtClose(CriticalSection->LockSemaphore);
}
/* Protect List */
RtlEnterCriticalSection(&RtlCriticalSectionLock);
if (CRITSECT_HAS_DEBUG_INFO(CriticalSection))
{
/* Remove it from the list */
RemoveEntryList(&CriticalSection->DebugInfo->ProcessLocksList);
#if 0
/* We need to preserve Flags for RtlpFreeDebugInfo */
RtlZeroMemory(CriticalSection->DebugInfo, sizeof(RTL_CRITICAL_SECTION_DEBUG));
#endif
}
/* Unprotect */
RtlLeaveCriticalSection(&RtlCriticalSectionLock);
if (CRITSECT_HAS_DEBUG_INFO(CriticalSection))
{
/* Free it */
RtlpFreeDebugInfo(CriticalSection->DebugInfo);
}
/* Wipe it out */
RtlZeroMemory(CriticalSection, sizeof(RTL_CRITICAL_SECTION));
/* Return */
return Status;
}
/*++
* RtlSetCriticalSectionSpinCount
* @implemented NT4
*
* Sets the spin count for a critical section.
*
* Params:
* CriticalSection - Critical section to set the spin count for.
*
* SpinCount - Spin count for the critical section.
*
* Returns:
* STATUS_SUCCESS.
*
* Remarks:
* SpinCount is ignored on single-processor systems.
*
*--*/
ULONG
NTAPI
RtlSetCriticalSectionSpinCount(PRTL_CRITICAL_SECTION CriticalSection,
ULONG SpinCount)
{
ULONG OldCount = (ULONG)CriticalSection->SpinCount;
/* Set to parameter if MP, or to 0 if this is Uniprocessor */
CriticalSection->SpinCount = (NtCurrentPeb()->NumberOfProcessors > 1) ? SpinCount : 0;
return OldCount;
}
/*++
* RtlEnterCriticalSection
* @implemented NT4
*
* Waits to gain ownership of the critical section.
*
* Params:
* CriticalSection - Critical section to wait for.
*
* Returns:
* STATUS_SUCCESS.
*
* Remarks:
* Uses a fast-path unless contention happens.
*
*--*/
NTSTATUS
NTAPI
RtlEnterCriticalSection(PRTL_CRITICAL_SECTION CriticalSection)
{
HANDLE Thread = (HANDLE)NtCurrentTeb()->ClientId.UniqueThread;
/* Try to lock it */
if (InterlockedIncrement(&CriticalSection->LockCount) != 0)
{
/* We've failed to lock it! Does this thread actually own it? */
if (Thread == CriticalSection->OwningThread)
{
/*
* You own it, so you'll get it when you're done with it! No need to
* use the interlocked functions as only the thread who already owns
* the lock can modify this data.
*/
CriticalSection->RecursionCount++;
return STATUS_SUCCESS;
}
/* NOTE - CriticalSection->OwningThread can be NULL here because changing
this information is not serialized. This happens when thread a
acquires the lock (LockCount == 0) and thread b tries to
acquire it as well (LockCount == 1) but thread a hasn't had a
chance to set the OwningThread! So it's not an error when
OwningThread is NULL here! */
/* We don't own it, so we must wait for it */
RtlpWaitForCriticalSection(CriticalSection);
}
/*
* Lock successful. Changing this information has not to be serialized
* because only one thread at a time can actually change it (the one who
* acquired the lock)!
*/
CriticalSection->OwningThread = Thread;
CriticalSection->RecursionCount = 1;
return STATUS_SUCCESS;
}
/*++
* RtlInitializeCriticalSection
* @implemented NT4
*
* Initialises a new critical section.
*
* Params:
* CriticalSection - Critical section to initialise
*
* Returns:
* STATUS_SUCCESS.
*
* Remarks:
* Simply calls RtlInitializeCriticalSectionAndSpinCount
*
*--*/
NTSTATUS
NTAPI
RtlInitializeCriticalSection(PRTL_CRITICAL_SECTION CriticalSection)
{
/* Call the Main Function */
return RtlInitializeCriticalSectionAndSpinCount(CriticalSection, 0);
}
/*++
* RtlInitializeCriticalSectionEx
* @implemented NT6.0
*
* Initialises a new critical section.
*
* Params:
* CriticalSection - Critical section to initialise
*
* SpinCount - Spin count for the critical section.
*
* Flags - Flags for initialization.
*
* Returns:
* STATUS_SUCCESS.
*
* Remarks:
* SpinCount is ignored on single-processor systems.
*
*--*/
NTSTATUS
NTAPI
RtlInitializeCriticalSectionEx(
_Out_ PRTL_CRITICAL_SECTION CriticalSection,
_In_ ULONG SpinCount,
_In_ ULONG Flags)
{
PRTL_CRITICAL_SECTION_DEBUG CritcalSectionDebugData;
ULONG AllowedFlags;
ULONG OsVersion;
/* Remove lower bits from flags */
Flags &= RTL_CRITICAL_SECTION_ALL_FLAG_BITS;
/* These flags generally allowed */
AllowedFlags = RTL_CRITICAL_SECTION_FLAG_NO_DEBUG_INFO |
RTL_CRITICAL_SECTION_FLAG_DYNAMIC_SPIN |
RTL_CRITICAL_SECTION_FLAG_STATIC_INIT;
/* Flags for Windows 7+ (CHECKME) */
OsVersion = NtCurrentPeb()->OSMajorVersion << 8 |
NtCurrentPeb()->OSMinorVersion;
if (OsVersion >= _WIN32_WINNT_WIN7)
{
AllowedFlags |= RTL_CRITICAL_SECTION_FLAG_RESOURCE_TYPE |
RTL_CRITICAL_SECTION_FLAG_FORCE_DEBUG_INFO;
}
if (Flags & ~AllowedFlags)
{
return STATUS_INVALID_PARAMETER_3;
}
if (SpinCount & RTL_CRITICAL_SECTION_ALL_FLAG_BITS)
{
return STATUS_INVALID_PARAMETER_2;
}
/* First things first, set up the Object */
DPRINT("Initializing Critical Section: %p\n", CriticalSection);
CriticalSection->LockCount = -1;
CriticalSection->RecursionCount = 0;
CriticalSection->OwningThread = 0;
CriticalSection->SpinCount = (NtCurrentPeb()->NumberOfProcessors > 1) ? SpinCount : 0;
CriticalSection->LockSemaphore = 0;
if (Flags & RTL_CRITICAL_SECTION_FLAG_NO_DEBUG_INFO)
{
CriticalSection->DebugInfo = LongToPtr(-1);
}
else
{
/* Allocate the Debug Data */
CritcalSectionDebugData = RtlpAllocateDebugInfo();
DPRINT("Allocated Debug Data: %p inside Process: %p\n",
CritcalSectionDebugData,
NtCurrentTeb()->ClientId.UniqueProcess);
if (!CritcalSectionDebugData)
{
/* This is bad! */
DPRINT1("Couldn't allocate Debug Data for: %p\n", CriticalSection);
return STATUS_NO_MEMORY;
}
/* Set it up */
CritcalSectionDebugData->Type = RTL_CRITSECT_TYPE;
CritcalSectionDebugData->ContentionCount = 0;
CritcalSectionDebugData->EntryCount = 0;
CritcalSectionDebugData->CriticalSection = CriticalSection;
CritcalSectionDebugData->Flags = 0;
CriticalSection->DebugInfo = CritcalSectionDebugData;
/*
* Add it to the List of Critical Sections owned by the process.
* If we've initialized the Lock, then use it. If not, then probably
* this is the lock initialization itself, so insert it directly.
*/
if ((CriticalSection != &RtlCriticalSectionLock) && (RtlpCritSectInitialized))
{
DPRINT("Securely Inserting into ProcessLocks: %p, %p, %p\n",
&CritcalSectionDebugData->ProcessLocksList,
CriticalSection,
&RtlCriticalSectionList);
/* Protect List */
RtlEnterCriticalSection(&RtlCriticalSectionLock);
/* Add this one */
InsertTailList(&RtlCriticalSectionList, &CritcalSectionDebugData->ProcessLocksList);
/* Unprotect */
RtlLeaveCriticalSection(&RtlCriticalSectionLock);
}
else
{
DPRINT("Inserting into ProcessLocks: %p, %p, %p\n",
&CritcalSectionDebugData->ProcessLocksList,
CriticalSection,
&RtlCriticalSectionList);
/* Add it directly */
InsertTailList(&RtlCriticalSectionList, &CritcalSectionDebugData->ProcessLocksList);
}
}
return STATUS_SUCCESS;
}
/*++
* RtlInitializeCriticalSectionAndSpinCount
* @implemented NT4
*
* Initialises a new critical section.
*
* Params:
* CriticalSection - Critical section to initialise
*
* SpinCount - Spin count for the critical section.
*
* Returns:
* STATUS_SUCCESS.
*
* Remarks:
* SpinCount is ignored on single-processor systems.
*
*--*/
NTSTATUS
NTAPI
RtlInitializeCriticalSectionAndSpinCount(
_Out_ PRTL_CRITICAL_SECTION CriticalSection,
_In_ ULONG SpinCount)
{
SpinCount &= ~RTL_CRITICAL_SECTION_ALL_FLAG_BITS;
return RtlInitializeCriticalSectionEx(CriticalSection, SpinCount, 0);
}
/*++
* RtlGetCriticalSectionRecursionCount
* @implemented NT5.2 SP1
*
* Retrieves the recursion count of a given critical section.
*
* Params:
* CriticalSection - Critical section to retrieve its recursion count.
*
* Returns:
* The recursion count.
*
* Remarks:
* We return the recursion count of the critical section if it is owned
* by the current thread, and otherwise we return zero.
*
*--*/
LONG
NTAPI
RtlGetCriticalSectionRecursionCount(PRTL_CRITICAL_SECTION CriticalSection)
{
if (CriticalSection->OwningThread == NtCurrentTeb()->ClientId.UniqueThread)
{
/*
* The critical section is owned by the current thread,
* therefore retrieve its actual recursion count.
*/
return CriticalSection->RecursionCount;
}
else
{
/*
* It is not owned by the current thread, so
* for this thread there is no recursion.
*/
return 0;
}
}
/*++
* RtlLeaveCriticalSection
* @implemented NT4
*
* Releases a critical section and makes if available for new owners.
*
* Params:
* CriticalSection - Critical section to release.
*
* Returns:
* STATUS_SUCCESS.
*
* Remarks:
* If another thread was waiting, the slow path is entered.
*
*--*/
NTSTATUS
NTAPI
RtlLeaveCriticalSection(PRTL_CRITICAL_SECTION CriticalSection)
{
#if DBG
HANDLE Thread = (HANDLE)NtCurrentTeb()->ClientId.UniqueThread;
/*
* In win this case isn't checked. However it's a valid check so it should
* only be performed in debug builds!
*/
if (Thread != CriticalSection->OwningThread)
{
DPRINT1("Releasing critical section not owned!\n");
return STATUS_INVALID_PARAMETER;
}
#endif
/*
* Decrease the Recursion Count. No need to do this atomically because only
* the thread who holds the lock can call this function (unless the program
* is totally screwed...
*/
if (--CriticalSection->RecursionCount)
{
if (CriticalSection->RecursionCount < 0)
{
DPRINT1("CRITICAL SECTION MESS: Section %p is not acquired!\n", CriticalSection);
return STATUS_UNSUCCESSFUL;
}
/* Someone still owns us, but we are free. This needs to be done atomically. */
InterlockedDecrement(&CriticalSection->LockCount);
}
else
{
/*
* Nobody owns us anymore. No need to do this atomically.
* See comment above.
*/
CriticalSection->OwningThread = 0;
/* Was someone wanting us? This needs to be done atomically. */
if (-1 != InterlockedDecrement(&CriticalSection->LockCount))
{
/* Let him have us */
RtlpUnWaitCriticalSection(CriticalSection);
}
}
/* Sucessful! */
return STATUS_SUCCESS;
}
/*++
* RtlTryEnterCriticalSection
* @implemented NT4
*
* Attemps to gain ownership of the critical section without waiting.
*
* Params:
* CriticalSection - Critical section to attempt acquiring.
*
* Returns:
* TRUE if the critical section has been acquired, FALSE otherwise.
*
* Remarks:
* None
*
*--*/
BOOLEAN
NTAPI
RtlTryEnterCriticalSection(PRTL_CRITICAL_SECTION CriticalSection)
{
/* Try to take control */
if (InterlockedCompareExchange(&CriticalSection->LockCount, 0, -1) == -1)
{
/* It's ours */
CriticalSection->OwningThread = NtCurrentTeb()->ClientId.UniqueThread;
CriticalSection->RecursionCount = 1;
return TRUE;
}
else if (CriticalSection->OwningThread == NtCurrentTeb()->ClientId.UniqueThread)
{
/* It's already ours */
InterlockedIncrement(&CriticalSection->LockCount);
CriticalSection->RecursionCount++;
return TRUE;
}
/* It's not ours */
return FALSE;
}
VOID
NTAPI
RtlCheckForOrphanedCriticalSections(HANDLE ThreadHandle)
{
UNIMPLEMENTED;
}
ULONG
NTAPI
RtlIsCriticalSectionLocked(PRTL_CRITICAL_SECTION CriticalSection)
{
return CriticalSection->RecursionCount != 0;
}
ULONG
NTAPI
RtlIsCriticalSectionLockedByThread(PRTL_CRITICAL_SECTION CriticalSection)
{
return CriticalSection->OwningThread == NtCurrentTeb()->ClientId.UniqueThread &&
CriticalSection->RecursionCount != 0;
}
VOID
NTAPI
RtlpNotOwnerCriticalSection(PRTL_CRITICAL_SECTION CriticalSection)
{
RtlRaiseStatus(STATUS_RESOURCE_NOT_OWNED);
}
/* EOF */