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2bc2e85140
- Fix some typos in previous commit - Make the driver object accessible to tests svn path=/trunk/; revision=54355
311 lines
11 KiB
C
311 lines
11 KiB
C
/*
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* PROJECT: ReactOS kernel-mode tests
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* LICENSE: GPLv2+ - See COPYING in the top level directory
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* PURPOSE: Kernel-Mode Test Suite Fast Mutex test
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* PROGRAMMER: Thomas Faber <thfabba@gmx.de>
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*/
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#include <kmt_test.h>
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//#define NDEBUG
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#include <debug.h>
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NTKERNELAPI VOID FASTCALL ExiAcquireFastMutex(IN OUT PFAST_MUTEX FastMutex);
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NTKERNELAPI VOID FASTCALL ExiReleaseFastMutex(IN OUT PFAST_MUTEX FastMutex);
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NTKERNELAPI BOOLEAN FASTCALL ExiTryToAcquireFastMutex(IN OUT PFAST_MUTEX FastMutex);
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#define CheckMutex(Mutex, ExpectedCount, ExpectedOwner, \
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ExpectedContention, ExpectedOldIrql, \
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ExpectedIrql) do \
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{ \
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ok_eq_long((Mutex)->Count, ExpectedCount); \
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ok_eq_pointer((Mutex)->Owner, ExpectedOwner); \
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ok_eq_ulong((Mutex)->Contention, ExpectedContention); \
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ok_eq_ulong((Mutex)->OldIrql, (ULONG)ExpectedOldIrql); \
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ok_bool_false(KeAreApcsDisabled(), "KeAreApcsDisabled returned"); \
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ok_irql(ExpectedIrql); \
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} while (0)
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static
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VOID
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TestFastMutex(
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PFAST_MUTEX Mutex,
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KIRQL OriginalIrql)
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{
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PKTHREAD Thread = KeGetCurrentThread();
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ok_irql(OriginalIrql);
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/* acquire/release normally */
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ExAcquireFastMutex(Mutex);
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CheckMutex(Mutex, 0L, Thread, 0LU, OriginalIrql, APC_LEVEL);
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ok_bool_false(ExTryToAcquireFastMutex(Mutex), "ExTryToAcquireFastMutex returned");
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CheckMutex(Mutex, 0L, Thread, 0LU, OriginalIrql, APC_LEVEL);
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ExReleaseFastMutex(Mutex);
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CheckMutex(Mutex, 1L, NULL, 0LU, OriginalIrql, OriginalIrql);
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#ifdef _M_IX86
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/* ntoskrnl's fastcall version */
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ExiAcquireFastMutex(Mutex);
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CheckMutex(Mutex, 0L, Thread, 0LU, OriginalIrql, APC_LEVEL);
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ok_bool_false(ExiTryToAcquireFastMutex(Mutex), "ExiTryToAcquireFastMutex returned");
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CheckMutex(Mutex, 0L, Thread, 0LU, OriginalIrql, APC_LEVEL);
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ExiReleaseFastMutex(Mutex);
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CheckMutex(Mutex, 1L, NULL, 0LU, OriginalIrql, OriginalIrql);
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#endif
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/* try to acquire */
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ok_bool_true(ExTryToAcquireFastMutex(Mutex), "ExTryToAcquireFastMutex returned");
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CheckMutex(Mutex, 0L, Thread, 0LU, OriginalIrql, APC_LEVEL);
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ExReleaseFastMutex(Mutex);
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CheckMutex(Mutex, 1L, NULL, 0LU, OriginalIrql, OriginalIrql);
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/* shortcut functions with critical region */
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ExEnterCriticalRegionAndAcquireFastMutexUnsafe(Mutex);
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ok_bool_true(KeAreApcsDisabled(), "KeAreApcsDisabled returned");
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ExReleaseFastMutexUnsafeAndLeaveCriticalRegion(Mutex);
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/* acquire/release unsafe */
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if (!KmtIsCheckedBuild || OriginalIrql == APC_LEVEL)
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{
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ExAcquireFastMutexUnsafe(Mutex);
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CheckMutex(Mutex, 0L, Thread, 0LU, OriginalIrql, OriginalIrql);
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ExReleaseFastMutexUnsafe(Mutex);
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CheckMutex(Mutex, 1L, NULL, 0LU, OriginalIrql, OriginalIrql);
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/* mismatched acquire/release */
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ExAcquireFastMutex(Mutex);
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CheckMutex(Mutex, 0L, Thread, 0LU, OriginalIrql, APC_LEVEL);
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ExReleaseFastMutexUnsafe(Mutex);
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CheckMutex(Mutex, 1L, NULL, 0LU, OriginalIrql, APC_LEVEL);
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KmtSetIrql(OriginalIrql);
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CheckMutex(Mutex, 1L, NULL, 0LU, OriginalIrql, OriginalIrql);
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Mutex->OldIrql = 0x55555555LU;
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ExAcquireFastMutexUnsafe(Mutex);
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CheckMutex(Mutex, 0L, Thread, 0LU, 0x55555555LU, OriginalIrql);
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Mutex->OldIrql = PASSIVE_LEVEL;
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ExReleaseFastMutex(Mutex);
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CheckMutex(Mutex, 1L, NULL, 0LU, PASSIVE_LEVEL, PASSIVE_LEVEL);
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KmtSetIrql(OriginalIrql);
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CheckMutex(Mutex, 1L, NULL, 0LU, PASSIVE_LEVEL, OriginalIrql);
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}
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if (!KmtIsCheckedBuild)
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{
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/* release without acquire */
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ExReleaseFastMutexUnsafe(Mutex);
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CheckMutex(Mutex, 2L, NULL, 0LU, PASSIVE_LEVEL, OriginalIrql);
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--Mutex->Count;
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Mutex->OldIrql = OriginalIrql;
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ExReleaseFastMutex(Mutex);
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CheckMutex(Mutex, 2L, NULL, 0LU, OriginalIrql, OriginalIrql);
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ExReleaseFastMutex(Mutex);
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CheckMutex(Mutex, 3L, NULL, 0LU, OriginalIrql, OriginalIrql);
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Mutex->Count -= 2;
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}
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/* make sure we survive this in case of error */
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ok_eq_long(Mutex->Count, 1L);
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Mutex->Count = 1;
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ok_irql(OriginalIrql);
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KmtSetIrql(OriginalIrql);
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}
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typedef VOID (FASTCALL *PMUTEX_FUNCTION)(PFAST_MUTEX);
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typedef BOOLEAN (FASTCALL *PMUTEX_TRY_FUNCTION)(PFAST_MUTEX);
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typedef struct
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{
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HANDLE Handle;
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PKTHREAD Thread;
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KIRQL Irql;
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PFAST_MUTEX Mutex;
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PMUTEX_FUNCTION Acquire;
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PMUTEX_TRY_FUNCTION TryAcquire;
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PMUTEX_FUNCTION Release;
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BOOLEAN Try;
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BOOLEAN RetExpected;
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KEVENT InEvent;
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KEVENT OutEvent;
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} THREAD_DATA, *PTHREAD_DATA;
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static
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VOID
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NTAPI
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AcquireMutexThread(
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PVOID Parameter)
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{
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PTHREAD_DATA ThreadData = Parameter;
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KIRQL Irql;
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BOOLEAN Ret = FALSE;
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NTSTATUS Status;
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KeRaiseIrql(ThreadData->Irql, &Irql);
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if (ThreadData->Try)
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{
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Ret = ThreadData->TryAcquire(ThreadData->Mutex);
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ok_eq_bool(Ret, ThreadData->RetExpected);
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}
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else
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ThreadData->Acquire(ThreadData->Mutex);
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ok_bool_false(KeSetEvent(&ThreadData->OutEvent, 0, TRUE), "KeSetEvent returned");
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Status = KeWaitForSingleObject(&ThreadData->InEvent, Executive, KernelMode, FALSE, NULL);
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ok_eq_hex(Status, STATUS_SUCCESS);
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if (!ThreadData->Try || Ret)
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ThreadData->Release(ThreadData->Mutex);
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KeLowerIrql(Irql);
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}
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static
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VOID
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InitThreadData(
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PTHREAD_DATA ThreadData,
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PFAST_MUTEX Mutex,
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PMUTEX_FUNCTION Acquire,
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PMUTEX_TRY_FUNCTION TryAcquire,
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PMUTEX_FUNCTION Release)
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{
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ThreadData->Mutex = Mutex;
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KeInitializeEvent(&ThreadData->InEvent, NotificationEvent, FALSE);
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KeInitializeEvent(&ThreadData->OutEvent, NotificationEvent, FALSE);
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ThreadData->Acquire = Acquire;
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ThreadData->TryAcquire = TryAcquire;
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ThreadData->Release = Release;
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}
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static
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NTSTATUS
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StartThread(
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PTHREAD_DATA ThreadData,
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PLARGE_INTEGER Timeout,
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KIRQL Irql,
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BOOLEAN Try,
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BOOLEAN RetExpected)
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{
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NTSTATUS Status = STATUS_SUCCESS;
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OBJECT_ATTRIBUTES Attributes;
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ThreadData->Try = Try;
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ThreadData->Irql = Irql;
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ThreadData->RetExpected = RetExpected;
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InitializeObjectAttributes(&Attributes, NULL, OBJ_KERNEL_HANDLE, NULL, NULL);
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Status = PsCreateSystemThread(&ThreadData->Handle, GENERIC_ALL, &Attributes, NULL, NULL, AcquireMutexThread, ThreadData);
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ok_eq_hex(Status, STATUS_SUCCESS);
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Status = ObReferenceObjectByHandle(ThreadData->Handle, SYNCHRONIZE, PsThreadType, KernelMode, (PVOID *)&ThreadData->Thread, NULL);
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ok_eq_hex(Status, STATUS_SUCCESS);
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return KeWaitForSingleObject(&ThreadData->OutEvent, Executive, KernelMode, FALSE, Timeout);
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}
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static
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VOID
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FinishThread(
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PTHREAD_DATA ThreadData)
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{
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NTSTATUS Status = STATUS_SUCCESS;
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KeSetEvent(&ThreadData->InEvent, 0, TRUE);
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Status = KeWaitForSingleObject(ThreadData->Thread, Executive, KernelMode, FALSE, NULL);
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ok_eq_hex(Status, STATUS_SUCCESS);
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ObDereferenceObject(ThreadData->Thread);
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Status = ZwClose(ThreadData->Handle);
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ok_eq_hex(Status, STATUS_SUCCESS);
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KeClearEvent(&ThreadData->InEvent);
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KeClearEvent(&ThreadData->OutEvent);
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}
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static
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VOID
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TestFastMutexConcurrent(
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PFAST_MUTEX Mutex)
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{
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NTSTATUS Status;
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THREAD_DATA ThreadData;
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THREAD_DATA ThreadData2;
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THREAD_DATA ThreadDataUnsafe;
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THREAD_DATA ThreadDataTry;
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LARGE_INTEGER Timeout;
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Timeout.QuadPart = -10 * 1000 * 10; /* 10 ms */
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InitThreadData(&ThreadData, Mutex, ExAcquireFastMutex, NULL, ExReleaseFastMutex);
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InitThreadData(&ThreadData2, Mutex, ExAcquireFastMutex, NULL, ExReleaseFastMutex);
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InitThreadData(&ThreadDataUnsafe, Mutex, ExAcquireFastMutexUnsafe, NULL, ExReleaseFastMutexUnsafe);
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InitThreadData(&ThreadDataTry, Mutex, NULL, ExTryToAcquireFastMutex, ExReleaseFastMutex);
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/* have a thread acquire the mutex */
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Status = StartThread(&ThreadData, NULL, PASSIVE_LEVEL, FALSE, FALSE);
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ok_eq_hex(Status, STATUS_SUCCESS);
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CheckMutex(Mutex, 0L, ThreadData.Thread, 0LU, PASSIVE_LEVEL, PASSIVE_LEVEL);
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/* have a second thread try to acquire it -- should fail */
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Status = StartThread(&ThreadDataTry, NULL, PASSIVE_LEVEL, TRUE, FALSE);
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ok_eq_hex(Status, STATUS_SUCCESS);
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CheckMutex(Mutex, 0L, ThreadData.Thread, 0LU, PASSIVE_LEVEL, PASSIVE_LEVEL);
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FinishThread(&ThreadDataTry);
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/* have another thread acquire it -- should block */
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Status = StartThread(&ThreadData2, &Timeout, APC_LEVEL, FALSE, FALSE);
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ok_eq_hex(Status, STATUS_TIMEOUT);
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CheckMutex(Mutex, -1L, ThreadData.Thread, 1LU, PASSIVE_LEVEL, PASSIVE_LEVEL);
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/* finish the first thread -- now the second should become available */
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FinishThread(&ThreadData);
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Status = KeWaitForSingleObject(&ThreadData2.OutEvent, Executive, KernelMode, FALSE, NULL);
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ok_eq_hex(Status, STATUS_SUCCESS);
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CheckMutex(Mutex, 0L, ThreadData2.Thread, 1LU, APC_LEVEL, PASSIVE_LEVEL);
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/* block two more threads */
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Status = StartThread(&ThreadDataUnsafe, &Timeout, APC_LEVEL, FALSE, FALSE);
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ok_eq_hex(Status, STATUS_TIMEOUT);
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CheckMutex(Mutex, -1L, ThreadData2.Thread, 2LU, APC_LEVEL, PASSIVE_LEVEL);
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Status = StartThread(&ThreadData, &Timeout, PASSIVE_LEVEL, FALSE, FALSE);
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ok_eq_hex(Status, STATUS_TIMEOUT);
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CheckMutex(Mutex, -2L, ThreadData2.Thread, 3LU, APC_LEVEL, PASSIVE_LEVEL);
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/* finish 1 */
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FinishThread(&ThreadData2);
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Status = KeWaitForSingleObject(&ThreadDataUnsafe.OutEvent, Executive, KernelMode, FALSE, NULL);
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ok_eq_hex(Status, STATUS_SUCCESS);
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CheckMutex(Mutex, -1L, ThreadDataUnsafe.Thread, 3LU, APC_LEVEL, PASSIVE_LEVEL);
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/* finish 2 */
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FinishThread(&ThreadDataUnsafe);
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Status = KeWaitForSingleObject(&ThreadData.OutEvent, Executive, KernelMode, FALSE, NULL);
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ok_eq_hex(Status, STATUS_SUCCESS);
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CheckMutex(Mutex, 0L, ThreadData.Thread, 3LU, PASSIVE_LEVEL, PASSIVE_LEVEL);
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/* finish 3 */
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FinishThread(&ThreadData);
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CheckMutex(Mutex, 1L, NULL, 3LU, PASSIVE_LEVEL, PASSIVE_LEVEL);
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}
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START_TEST(ExFastMutex)
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{
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FAST_MUTEX Mutex;
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KIRQL Irql;
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memset(&Mutex, 0x55, sizeof Mutex);
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ExInitializeFastMutex(&Mutex);
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CheckMutex(&Mutex, 1L, NULL, 0LU, 0x55555555LU, PASSIVE_LEVEL);
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TestFastMutex(&Mutex, PASSIVE_LEVEL);
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KeRaiseIrql(APC_LEVEL, &Irql);
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TestFastMutex(&Mutex, APC_LEVEL);
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if (!KmtIsCheckedBuild)
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{
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KeRaiseIrql(DISPATCH_LEVEL, &Irql);
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TestFastMutex(&Mutex, DISPATCH_LEVEL);
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KeRaiseIrql(HIGH_LEVEL, &Irql);
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TestFastMutex(&Mutex, HIGH_LEVEL);
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}
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KeLowerIrql(PASSIVE_LEVEL);
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TestFastMutexConcurrent(&Mutex);
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}
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