reactos/rostests/kmtests/ntos_ke/KeMutex.c
Thomas Faber c18b6ae104 [KMTEST:KE]
- Show that Mutexes disable APCs when acquired, while Mutants don't

svn path=/trunk/; revision=57469
2012-10-03 20:52:33 +00:00

142 lines
6.3 KiB
C

/*
* PROJECT: ReactOS kernel-mode tests
* LICENSE: GPLv2+ - See COPYING in the top level directory
* PURPOSE: Kernel-Mode Test Suite Mutant/Mutex test
* PROGRAMMER: Thomas Faber <thfabba@gmx.de>
*/
#include <kmt_test.h>
#define ULONGS_PER_POINTER (sizeof(PVOID) / sizeof(ULONG))
#define MUTANT_SIZE (2 + 6 * ULONGS_PER_POINTER)
C_ASSERT(sizeof(DISPATCHER_HEADER) == 8 + 2 * sizeof(PVOID));
C_ASSERT(sizeof(KMUTANT) == sizeof(DISPATCHER_HEADER) + 3 * sizeof(PVOID) + sizeof(PVOID));
C_ASSERT(sizeof(KMUTANT) == MUTANT_SIZE * sizeof(ULONG));
#define CheckMutex(Mutex, Held, New, ExpectedApcDisable) do { \
PKTHREAD Thread = KeGetCurrentThread(); \
ok_eq_uint((Mutex)->Header.Type, MutantObject); \
ok_eq_uint((Mutex)->Header.Abandoned, 0x55); \
ok_eq_uint((Mutex)->Header.Size, MUTANT_SIZE); \
ok_eq_uint((Mutex)->Header.DpcActive, 0x55); \
ok_eq_pointer((Mutex)->Header.WaitListHead.Flink, \
&(Mutex)->Header.WaitListHead); \
ok_eq_pointer((Mutex)->Header.WaitListHead.Blink, \
&(Mutex)->Header.WaitListHead); \
if (Held) \
{ \
ok_eq_long((Mutex)->Header.SignalState, 0); \
ok_eq_pointer((Mutex)->MutantListEntry.Flink, &Thread->MutantListHead); \
ok_eq_pointer((Mutex)->MutantListEntry.Blink, &Thread->MutantListHead); \
ok_eq_pointer(Thread->MutantListHead.Flink, &(Mutex)->MutantListEntry); \
ok_eq_pointer(Thread->MutantListHead.Blink, &(Mutex)->MutantListEntry); \
ok_eq_pointer((Mutex)->OwnerThread, Thread); \
} \
else \
{ \
ok_eq_long((Mutex)->Header.SignalState, 1); \
if (New) \
{ \
ok_eq_pointer((Mutex)->MutantListEntry.Flink, \
(PVOID)0x5555555555555555ULL); \
ok_eq_pointer((Mutex)->MutantListEntry.Blink, \
(PVOID)0x5555555555555555ULL); \
} \
ok_eq_pointer(Thread->MutantListHead.Flink, &Thread->MutantListHead); \
ok_eq_pointer(Thread->MutantListHead.Blink, &Thread->MutantListHead); \
ok_eq_pointer((Mutex)->OwnerThread, NULL); \
} \
ok_eq_uint((Mutex)->Abandoned, 0); \
ok_eq_uint((Mutex)->ApcDisable, ExpectedApcDisable); \
} while (0)
#define CheckApcs(KernelApcsDisabled, SpecialApcsDisabled, AllApcsDisabled, Irql) do \
{ \
ok_eq_bool(KeAreApcsDisabled(), KernelApcsDisabled || SpecialApcsDisabled); \
ok_eq_int(Thread->KernelApcDisable, KernelApcsDisabled); \
ok_eq_bool(KeAreAllApcsDisabled(), AllApcsDisabled); \
ok_eq_int(Thread->SpecialApcDisable, SpecialApcsDisabled); \
ok_irql(Irql); \
} while (0)
static
VOID
TestMutant(VOID)
{
NTSTATUS Status;
KMUTANT Mutant;
LONG State;
PKTHREAD Thread = KeGetCurrentThread();
CheckApcs(0, 0, FALSE, PASSIVE_LEVEL);
RtlFillMemory(&Mutant, sizeof(Mutant), 0x55);
KeInitializeMutant(&Mutant, FALSE);
CheckMutex(&Mutant, FALSE, TRUE, 0);
CheckApcs(0, 0, FALSE, PASSIVE_LEVEL);
RtlFillMemory(&Mutant, sizeof(Mutant), 0x55);
KeInitializeMutant(&Mutant, TRUE);
CheckApcs(0, 0, FALSE, PASSIVE_LEVEL);
CheckMutex(&Mutant, TRUE, TRUE, 0);
State = KeReleaseMutant(&Mutant, 1, FALSE, FALSE);
ok_eq_long(State, 0);
CheckMutex(&Mutant, FALSE, FALSE, 0);
CheckApcs(0, 0, FALSE, PASSIVE_LEVEL);
/* Acquire and release */
Status = KeWaitForSingleObject(&Mutant,
Executive,
KernelMode,
FALSE,
NULL);
ok_eq_hex(Status, STATUS_SUCCESS);
CheckMutex(&Mutant, TRUE, TRUE, 0);
CheckApcs(0, 0, FALSE, PASSIVE_LEVEL);
State = KeReleaseMutant(&Mutant, 1, FALSE, FALSE);
ok_eq_long(State, 0);
CheckMutex(&Mutant, FALSE, FALSE, 0);
CheckApcs(0, 0, FALSE, PASSIVE_LEVEL);
}
static
VOID
TestMutex(VOID)
{
NTSTATUS Status;
KMUTEX Mutex;
LONG State;
PKTHREAD Thread = KeGetCurrentThread();
CheckApcs(0, 0, FALSE, PASSIVE_LEVEL);
RtlFillMemory(&Mutex, sizeof(Mutex), 0x55);
KeInitializeMutex(&Mutex, 0);
CheckMutex(&Mutex, FALSE, TRUE, 1);
CheckApcs(0, 0, FALSE, PASSIVE_LEVEL);
RtlFillMemory(&Mutex, sizeof(Mutex), 0x55);
KeInitializeMutex(&Mutex, 123);
CheckMutex(&Mutex, FALSE, TRUE, 1);
CheckApcs(0, 0, FALSE, PASSIVE_LEVEL);
Status = KeWaitForSingleObject(&Mutex,
Executive,
KernelMode,
FALSE,
NULL);
ok_eq_hex(Status, STATUS_SUCCESS);
CheckMutex(&Mutex, TRUE, FALSE, 1);
CheckApcs(-1, 0, FALSE, PASSIVE_LEVEL);
State = KeReleaseMutex(&Mutex, FALSE);
ok_eq_long(State, 0);
CheckMutex(&Mutex, FALSE, FALSE, 1);
CheckApcs(0, 0, FALSE, PASSIVE_LEVEL);
}
START_TEST(KeMutex)
{
TestMutant();
TestMutex();
}