/* * Synchronization tests * * Copyright 2005 Mike McCormack for CodeWeavers * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA */ #include #include #include #include "ntstatus.h" #define WIN32_NO_STATUS #include #include #include #include "wine/test.h" #undef __fastcall #define __fastcall __stdcall static HANDLE (WINAPI *pCreateMemoryResourceNotification)(MEMORY_RESOURCE_NOTIFICATION_TYPE); static BOOL (WINAPI *pQueryMemoryResourceNotification)(HANDLE, PBOOL); static VOID (WINAPI *pInitOnceInitialize)(PINIT_ONCE); static BOOL (WINAPI *pInitOnceExecuteOnce)(PINIT_ONCE,PINIT_ONCE_FN,PVOID,LPVOID*); static BOOL (WINAPI *pInitOnceBeginInitialize)(PINIT_ONCE,DWORD,BOOL*,LPVOID*); static BOOL (WINAPI *pInitOnceComplete)(PINIT_ONCE,DWORD,LPVOID); static BOOL (WINAPI *pInitializeCriticalSectionEx)(CRITICAL_SECTION*,DWORD,DWORD); static VOID (WINAPI *pInitializeConditionVariable)(PCONDITION_VARIABLE); static BOOL (WINAPI *pSleepConditionVariableCS)(PCONDITION_VARIABLE,PCRITICAL_SECTION,DWORD); static BOOL (WINAPI *pSleepConditionVariableSRW)(PCONDITION_VARIABLE,PSRWLOCK,DWORD,ULONG); static VOID (WINAPI *pWakeAllConditionVariable)(PCONDITION_VARIABLE); static VOID (WINAPI *pWakeConditionVariable)(PCONDITION_VARIABLE); static VOID (WINAPI *pInitializeSRWLock)(PSRWLOCK); static VOID (WINAPI *pAcquireSRWLockExclusive)(PSRWLOCK); static VOID (WINAPI *pAcquireSRWLockShared)(PSRWLOCK); static VOID (WINAPI *pReleaseSRWLockExclusive)(PSRWLOCK); static VOID (WINAPI *pReleaseSRWLockShared)(PSRWLOCK); static BOOLEAN (WINAPI *pTryAcquireSRWLockExclusive)(PSRWLOCK); static BOOLEAN (WINAPI *pTryAcquireSRWLockShared)(PSRWLOCK); static NTSTATUS (WINAPI *pNtAllocateVirtualMemory)(HANDLE, PVOID *, ULONG_PTR, SIZE_T *, ULONG, ULONG); static NTSTATUS (WINAPI *pNtFreeVirtualMemory)(HANDLE, PVOID *, SIZE_T *, ULONG); static NTSTATUS (WINAPI *pNtWaitForSingleObject)(HANDLE, BOOLEAN, const LARGE_INTEGER *); static NTSTATUS (WINAPI *pNtWaitForMultipleObjects)(ULONG,const HANDLE*,BOOLEAN,BOOLEAN,const LARGE_INTEGER*); static PSLIST_ENTRY (__fastcall *pRtlInterlockedPushListSList)(PSLIST_HEADER list, PSLIST_ENTRY first, PSLIST_ENTRY last, ULONG count); static PSLIST_ENTRY (WINAPI *pRtlInterlockedPushListSListEx)(PSLIST_HEADER list, PSLIST_ENTRY first, PSLIST_ENTRY last, ULONG count); static NTSTATUS (WINAPI *pNtQueueApcThread)(HANDLE,PNTAPCFUNC,ULONG_PTR,ULONG_PTR,ULONG_PTR); #ifdef __i386__ #include "pshpack1.h" struct fastcall_thunk { BYTE pop_edx; /* popl %edx (ret addr) */ BYTE pop_eax; /* popl %eax (func) */ BYTE pop_ecx; /* popl %ecx (param 1) */ BYTE xchg[3]; /* xchgl (%esp),%edx (param 2) */ WORD jmp_eax; /* jmp *%eax */ }; #include "poppack.h" static void * (WINAPI *call_fastcall_func4)(void *func, const void *a, const void *b, const void *c, const void *d); static void init_fastcall_thunk(void) { struct fastcall_thunk *thunk = VirtualAlloc(NULL, sizeof(*thunk), MEM_COMMIT, PAGE_EXECUTE_READWRITE); thunk->pop_edx = 0x5a; /* popl %edx */ thunk->pop_eax = 0x58; /* popl %eax */ thunk->pop_ecx = 0x59; /* popl %ecx */ thunk->xchg[0] = 0x87; /* xchgl (%esp),%edx */ thunk->xchg[1] = 0x14; thunk->xchg[2] = 0x24; thunk->jmp_eax = 0xe0ff; /* jmp *%eax */ call_fastcall_func4 = (void *)thunk; } #define call_func4(func, a, b, c, d) call_fastcall_func4(func, (const void *)(a), \ (const void *)(b), (const void *)(c), (const void *)(d)) #else /* __i386__ */ #define init_fastcall_thunk() do { } while(0) #define call_func4(func, a, b, c, d) func(a, b, c, d) #endif /* __i386__ */ static void test_signalandwait(void) { DWORD r; HANDLE event[2], semaphore[2], file; int i; /* invalid parameters */ r = SignalObjectAndWait(NULL, NULL, 0, 0); ok( r == WAIT_FAILED, "should fail\n"); event[0] = CreateEventW(NULL, 0, 0, NULL); event[1] = CreateEventW(NULL, 1, 1, NULL); ok( event[0] && event[1], "failed to create event flags\n"); r = SignalObjectAndWait(event[0], NULL, 0, FALSE); ok( r == WAIT_FAILED, "should fail\n"); r = SignalObjectAndWait(NULL, event[0], 0, FALSE); ok( r == WAIT_FAILED, "should fail\n"); /* valid parameters */ r = SignalObjectAndWait(event[0], event[1], 0, FALSE); ok( r == WAIT_OBJECT_0, "should succeed\n"); /* event[0] is now signalled - we repeat this test multiple times * to ensure that the wineserver handles this situation properly. */ for (i = 0; i < 10000; i++) { r = SignalObjectAndWait(event[0], event[0], 0, FALSE); ok(r == WAIT_OBJECT_0, "should succeed\n"); } /* event[0] is not signalled */ r = WaitForSingleObject(event[0], 0); ok( r == WAIT_TIMEOUT, "event was signalled\n"); r = SignalObjectAndWait(event[0], event[0], 0, FALSE); ok( r == WAIT_OBJECT_0, "should succeed\n"); /* clear event[1] and check for a timeout */ ok(ResetEvent(event[1]), "failed to clear event[1]\n"); r = SignalObjectAndWait(event[0], event[1], 0, FALSE); ok( r == WAIT_TIMEOUT, "should timeout\n"); CloseHandle(event[0]); CloseHandle(event[1]); /* semaphores */ semaphore[0] = CreateSemaphoreW( NULL, 0, 1, NULL ); semaphore[1] = CreateSemaphoreW( NULL, 1, 1, NULL ); ok( semaphore[0] && semaphore[1], "failed to create semaphore\n"); r = SignalObjectAndWait(semaphore[0], semaphore[1], 0, FALSE); ok( r == WAIT_OBJECT_0, "should succeed\n"); r = SignalObjectAndWait(semaphore[0], semaphore[1], 0, FALSE); ok( r == WAIT_FAILED, "should fail\n"); r = ReleaseSemaphore(semaphore[0],1,NULL); ok( r == FALSE, "should fail\n"); r = ReleaseSemaphore(semaphore[1],1,NULL); ok( r == TRUE, "should succeed\n"); CloseHandle(semaphore[0]); CloseHandle(semaphore[1]); /* try a registry key */ file = CreateFileA("x", GENERIC_READ|GENERIC_WRITE, 0, NULL, CREATE_ALWAYS, FILE_ATTRIBUTE_NORMAL | FILE_FLAG_DELETE_ON_CLOSE, NULL); r = SignalObjectAndWait(file, file, 0, FALSE); ok( r == WAIT_FAILED, "should fail\n"); ok( ERROR_INVALID_HANDLE == GetLastError(), "should return invalid handle error\n"); CloseHandle(file); } static void test_mutex(void) { DWORD wait_ret; BOOL ret; HANDLE hCreated; HANDLE hOpened; int i; DWORD failed = 0; SetLastError(0xdeadbeef); hOpened = OpenMutexA(0, FALSE, "WineTestMutex"); ok(hOpened == NULL, "OpenMutex succeeded\n"); ok(GetLastError() == ERROR_FILE_NOT_FOUND, "wrong error %u\n", GetLastError()); SetLastError(0xdeadbeef); hCreated = CreateMutexA(NULL, FALSE, "WineTestMutex"); ok(hCreated != NULL, "CreateMutex failed with error %d\n", GetLastError()); SetLastError(0xdeadbeef); hOpened = OpenMutexA(0, FALSE, "WineTestMutex"); todo_wine ok(hOpened == NULL, "OpenMutex succeeded\n"); todo_wine ok(GetLastError() == ERROR_ACCESS_DENIED, "wrong error %u\n", GetLastError()); SetLastError(0xdeadbeef); hOpened = OpenMutexA(GENERIC_EXECUTE, FALSE, "WineTestMutex"); ok(hOpened != NULL, "OpenMutex failed with error %d\n", GetLastError()); wait_ret = WaitForSingleObject(hOpened, INFINITE); ok(wait_ret == WAIT_OBJECT_0, "WaitForSingleObject failed with error %d\n", GetLastError()); CloseHandle(hOpened); for(i=0; i < 31; i++) { wait_ret = WaitForSingleObject(hCreated, INFINITE); ok(wait_ret == WAIT_OBJECT_0, "WaitForSingleObject failed with error 0x%08x\n", wait_ret); } SetLastError(0xdeadbeef); hOpened = OpenMutexA(GENERIC_READ | GENERIC_WRITE, FALSE, "WineTestMutex"); ok(hOpened != NULL, "OpenMutex failed with error %d\n", GetLastError()); wait_ret = WaitForSingleObject(hOpened, INFINITE); ok(wait_ret == WAIT_FAILED, "WaitForSingleObject succeeded\n"); CloseHandle(hOpened); for (i = 0; i < 32; i++) { SetLastError(0xdeadbeef); hOpened = OpenMutexA(0x1 << i, FALSE, "WineTestMutex"); if(hOpened != NULL) { SetLastError(0xdeadbeef); ret = ReleaseMutex(hOpened); ok(ret, "ReleaseMutex failed with error %d, access %x\n", GetLastError(), 1 << i); CloseHandle(hOpened); } else { if ((1 << i) == ACCESS_SYSTEM_SECURITY) todo_wine ok(GetLastError() == ERROR_PRIVILEGE_NOT_HELD, "wrong error %u, access %x\n", GetLastError(), 1 << i); else todo_wine ok(GetLastError() == ERROR_ACCESS_DENIED, "wrong error %u, , access %x\n", GetLastError(), 1 << i); ReleaseMutex(hCreated); failed |=0x1 << i; } } todo_wine ok( failed == 0x0de0fffe, "open succeeded when it shouldn't: %x\n", failed); SetLastError(0xdeadbeef); ret = ReleaseMutex(hCreated); ok(!ret && (GetLastError() == ERROR_NOT_OWNER), "ReleaseMutex should have failed with ERROR_NOT_OWNER instead of %d\n", GetLastError()); /* test case sensitivity */ SetLastError(0xdeadbeef); hOpened = OpenMutexA(READ_CONTROL, FALSE, "WINETESTMUTEX"); ok(!hOpened, "OpenMutex succeeded\n"); ok(GetLastError() == ERROR_FILE_NOT_FOUND, "wrong error %u\n", GetLastError()); SetLastError(0xdeadbeef); hOpened = OpenMutexA(READ_CONTROL, FALSE, "winetestmutex"); ok(!hOpened, "OpenMutex succeeded\n"); ok(GetLastError() == ERROR_FILE_NOT_FOUND, "wrong error %u\n", GetLastError()); SetLastError(0xdeadbeef); hOpened = OpenMutexA(READ_CONTROL, FALSE, NULL); ok(!hOpened, "OpenMutex succeeded\n"); ok(GetLastError() == ERROR_INVALID_PARAMETER, "wrong error %u\n", GetLastError()); SetLastError(0xdeadbeef); hOpened = OpenMutexW(READ_CONTROL, FALSE, NULL); ok(!hOpened, "OpenMutex succeeded\n"); ok(GetLastError() == ERROR_INVALID_PARAMETER, "wrong error %u\n", GetLastError()); SetLastError(0xdeadbeef); hOpened = CreateMutexA(NULL, FALSE, "WineTestMutex"); ok(hOpened != NULL, "CreateMutex failed with error %d\n", GetLastError()); ok(GetLastError() == ERROR_ALREADY_EXISTS, "wrong error %u\n", GetLastError()); CloseHandle(hOpened); SetLastError(0xdeadbeef); hOpened = CreateMutexA(NULL, FALSE, "WINETESTMUTEX"); ok(hOpened != NULL, "CreateMutex failed with error %d\n", GetLastError()); ok(GetLastError() == 0, "wrong error %u\n", GetLastError()); CloseHandle(hOpened); CloseHandle(hCreated); } static void test_slist(void) { struct item { SLIST_ENTRY entry; int value; } item1, item2, item3, *item; SLIST_HEADER slist_header; SLIST_ENTRY *entry; USHORT size; int i; item1.value = 1; item2.value = 2; item3.value = 3; memset(&slist_header, 0xff, sizeof(slist_header)); InitializeSListHead(&slist_header); size = QueryDepthSList(&slist_header); ok(size == 0, "Expected size == 0, got %u\n", size); /* test PushEntry, PopEntry and Flush */ entry = InterlockedPushEntrySList(&slist_header, &item1.entry); ok(entry == NULL, "Expected entry == NULL, got %p\n", entry); size = QueryDepthSList(&slist_header); ok(size == 1, "Expected size == 1, got %u\n", size); entry = InterlockedPushEntrySList(&slist_header, &item2.entry); ok(entry != NULL, "Expected entry != NULL, got %p\n", entry); item = CONTAINING_RECORD(entry, struct item, entry); ok(item->value == 1, "Expected item->value == 1, got %u\n", item->value); size = QueryDepthSList(&slist_header); ok(size == 2, "Expected size == 2, got %u\n", size); entry = InterlockedPushEntrySList(&slist_header, &item3.entry); ok(entry != NULL, "Expected entry != NULL, got %p\n", entry); item = CONTAINING_RECORD(entry, struct item, entry); ok(item->value == 2, "Expected item->value == 2, got %u\n", item->value); size = QueryDepthSList(&slist_header); ok(size == 3, "Expected size == 3, got %u\n", size); entry = InterlockedPopEntrySList(&slist_header); ok(entry != NULL, "Expected entry != NULL, got %p\n", entry); item = CONTAINING_RECORD(entry, struct item, entry); ok(item->value == 3, "Expected item->value == 3, got %u\n", item->value); size = QueryDepthSList(&slist_header); ok(size == 2, "Expected size == 2, got %u\n", size); entry = InterlockedFlushSList(&slist_header); ok(entry != NULL, "Expected entry != NULL, got %p\n", entry); item = CONTAINING_RECORD(entry, struct item, entry); ok(item->value == 2, "Expected item->value == 2, got %u\n", item->value); item = CONTAINING_RECORD(item->entry.Next, struct item, entry); ok(item->value == 1, "Expected item->value == 1, got %u\n", item->value); size = QueryDepthSList(&slist_header); ok(size == 0, "Expected size == 0, got %u\n", size); entry = InterlockedPopEntrySList(&slist_header); ok(entry == NULL, "Expected entry == NULL, got %p\n", entry); /* test RtlInterlockedPushListSList */ entry = InterlockedPushEntrySList(&slist_header, &item3.entry); ok(entry == NULL, "Expected entry == NULL, got %p\n", entry); entry = call_func4(pRtlInterlockedPushListSList, &slist_header, &item2.entry, &item1.entry, 42); ok(entry != NULL, "Expected entry != NULL, got %p\n", entry); item = CONTAINING_RECORD(entry, struct item, entry); ok(item->value == 3, "Expected item->value == 3, got %u\n", item->value); size = QueryDepthSList(&slist_header); ok(size == 43, "Expected size == 43, got %u\n", size); entry = InterlockedPopEntrySList(&slist_header); ok(entry != NULL, "Expected entry != NULL, got %p\n", entry); item = CONTAINING_RECORD(entry, struct item, entry); ok(item->value == 2, "Expected item->value == 2, got %u\n", item->value); size = QueryDepthSList(&slist_header); ok(size == 42, "Expected size == 42, got %u\n", size); entry = InterlockedPopEntrySList(&slist_header); ok(entry != NULL, "Expected entry != NULL, got %p\n", entry); item = CONTAINING_RECORD(entry, struct item, entry); ok(item->value == 1, "Expected item->value == 1, got %u\n", item->value); size = QueryDepthSList(&slist_header); ok(size == 41, "Expected size == 41, got %u\n", size); entry = InterlockedPopEntrySList(&slist_header); ok(entry != NULL, "Expected entry != NULL, got %p\n", entry); item = CONTAINING_RECORD(entry, struct item, entry); ok(item->value == 3, "Expected item->value == 3, got %u\n", item->value); size = QueryDepthSList(&slist_header); ok(size == 40, "Expected size == 40, got %u\n", size); entry = InterlockedPopEntrySList(&slist_header); ok(entry == NULL, "Expected entry == NULL, got %p\n", entry); size = QueryDepthSList(&slist_header); ok(size == 40, "Expected size == 40, got %u\n", size); entry = InterlockedFlushSList(&slist_header); ok(entry == NULL, "Expected entry == NULL, got %p\n", entry); size = QueryDepthSList(&slist_header); ok(size == 40 || broken(size == 0) /* >= Win 8 */, "Expected size == 40, got %u\n", size); entry = InterlockedPushEntrySList(&slist_header, &item1.entry); ok(entry == NULL, "Expected entry == NULL, got %p\n", entry); entry = InterlockedFlushSList(&slist_header); ok(entry != NULL, "Expected entry != NULL, got %p\n", entry); item = CONTAINING_RECORD(entry, struct item, entry); ok(item->value == 1, "Expected item->value == 1, got %u\n", item->value); size = QueryDepthSList(&slist_header); ok(size == 0, "Expected size == 0, got %u\n", size); /* test RtlInterlockedPushListSListEx */ if (pRtlInterlockedPushListSListEx) { entry = InterlockedPushEntrySList(&slist_header, &item3.entry); ok(entry == NULL, "Expected entry == NULL, got %p\n", entry); entry = pRtlInterlockedPushListSListEx(&slist_header, &item2.entry, &item1.entry, 42); ok(entry != NULL, "Expected entry != NULL, got %p\n", entry); item = CONTAINING_RECORD(entry, struct item, entry); ok(item->value == 3, "Expected item->value == 3, got %u\n", item->value); size = QueryDepthSList(&slist_header); ok(size == 43, "Expected size == 43, got %u\n", size); entry = InterlockedFlushSList(&slist_header); ok(entry != NULL, "Expected entry != NULL, got %p\n", entry); item = CONTAINING_RECORD(entry, struct item, entry); ok(item->value == 2, "Expected item->value == 2, got %u\n", item->value); item = CONTAINING_RECORD(item->entry.Next, struct item, entry); ok(item->value == 1, "Expected item->value == 1, got %u\n", item->value); item = CONTAINING_RECORD(item->entry.Next, struct item, entry); ok(item->value == 3, "Expected item->value == 3, got %u\n", item->value); size = QueryDepthSList(&slist_header); ok(size == 0, "Expected size == 0, got %u\n", size); } else win_skip("RtlInterlockedPushListSListEx not available, skipping tests\n"); /* test with a lot of items */ for (i = 0; i < 65536; i++) { item = HeapAlloc(GetProcessHeap(), 0, sizeof(*item)); item->value = i + 1; entry = InterlockedPushEntrySList(&slist_header, &item->entry); if (i) { ok(entry != NULL, "Expected entry != NULL, got %p\n", entry); item = CONTAINING_RECORD(entry, struct item, entry); ok(item->value == i, "Expected item->value == %u, got %u\n", i, item->value); } else { ok(entry == NULL, "Expected entry == NULL, got %p\n", entry); } size = QueryDepthSList(&slist_header); ok(size == ((i + 1) & 0xffff), "Expected size == %u, got %u\n", (i + 1) & 0xffff, size); } entry = InterlockedFlushSList(&slist_header); for (i = 65536; i > 0; i--) { ok(entry != NULL, "Expected entry != NULL, got %p\n", entry); item = CONTAINING_RECORD(entry, struct item, entry); ok(item->value == i, "Expected item->value == %u, got %u\n", i, item->value); entry = item->entry.Next; HeapFree(GetProcessHeap(), 0, item); } ok(entry == NULL, "Expected entry == NULL, got %p\n", entry); size = QueryDepthSList(&slist_header); ok(size == 0, "Expected size == 0, got %u\n", size); entry = InterlockedPopEntrySList(&slist_header); ok(entry == NULL, "Expected entry == NULL, got %p\n", entry); } static void test_event(void) { HANDLE handle, handle2; SECURITY_ATTRIBUTES sa; SECURITY_DESCRIPTOR sd; ACL acl; DWORD ret; BOOL val; /* no sd */ handle = CreateEventA(NULL, FALSE, FALSE, __FILE__ ": Test Event"); ok(handle != NULL, "CreateEventW with blank sd failed with error %d\n", GetLastError()); CloseHandle(handle); sa.nLength = sizeof(sa); sa.lpSecurityDescriptor = &sd; sa.bInheritHandle = FALSE; InitializeSecurityDescriptor(&sd, SECURITY_DESCRIPTOR_REVISION); /* blank sd */ handle = CreateEventA(&sa, FALSE, FALSE, __FILE__ ": Test Event"); ok(handle != NULL, "CreateEventW with blank sd failed with error %d\n", GetLastError()); CloseHandle(handle); /* sd with NULL dacl */ SetSecurityDescriptorDacl(&sd, TRUE, NULL, FALSE); handle = CreateEventA(&sa, FALSE, FALSE, __FILE__ ": Test Event"); ok(handle != NULL, "CreateEventW with blank sd failed with error %d\n", GetLastError()); CloseHandle(handle); /* sd with empty dacl */ InitializeAcl(&acl, sizeof(acl), ACL_REVISION); SetSecurityDescriptorDacl(&sd, TRUE, &acl, FALSE); handle = CreateEventA(&sa, FALSE, FALSE, __FILE__ ": Test Event"); ok(handle != NULL, "CreateEventW with blank sd failed with error %d\n", GetLastError()); CloseHandle(handle); /* test case sensitivity */ SetLastError(0xdeadbeef); handle = CreateEventA(NULL, FALSE, FALSE, __FILE__ ": Test Event"); ok( handle != NULL, "CreateEvent failed with error %u\n", GetLastError()); ok( GetLastError() == 0, "wrong error %u\n", GetLastError()); SetLastError(0xdeadbeef); handle2 = CreateEventA(NULL, FALSE, FALSE, __FILE__ ": Test Event"); ok( handle2 != NULL, "CreateEvent failed with error %d\n", GetLastError()); ok( GetLastError() == ERROR_ALREADY_EXISTS, "wrong error %u\n", GetLastError()); CloseHandle( handle2 ); SetLastError(0xdeadbeef); handle2 = CreateEventA(NULL, FALSE, FALSE, __FILE__ ": TEST EVENT"); ok( handle2 != NULL, "CreateEvent failed with error %d\n", GetLastError()); ok( GetLastError() == 0, "wrong error %u\n", GetLastError()); CloseHandle( handle2 ); SetLastError(0xdeadbeef); handle2 = OpenEventA( EVENT_ALL_ACCESS, FALSE, __FILE__ ": Test Event"); ok( handle2 != NULL, "OpenEvent failed with error %d\n", GetLastError()); CloseHandle( handle2 ); SetLastError(0xdeadbeef); handle2 = OpenEventA( EVENT_ALL_ACCESS, FALSE, __FILE__ ": TEST EVENT"); ok( !handle2, "OpenEvent succeeded\n"); ok( GetLastError() == ERROR_FILE_NOT_FOUND, "wrong error %u\n", GetLastError()); SetLastError(0xdeadbeef); handle2 = OpenEventA( EVENT_ALL_ACCESS, FALSE, NULL ); ok( !handle2, "OpenEvent succeeded\n"); ok( GetLastError() == ERROR_INVALID_PARAMETER, "wrong error %u\n", GetLastError()); SetLastError(0xdeadbeef); handle2 = OpenEventW( EVENT_ALL_ACCESS, FALSE, NULL ); ok( !handle2, "OpenEvent succeeded\n"); ok( GetLastError() == ERROR_INVALID_PARAMETER, "wrong error %u\n", GetLastError()); CloseHandle( handle ); /* resource notifications are events too */ if (!pCreateMemoryResourceNotification || !pQueryMemoryResourceNotification) { trace( "memory resource notifications not supported\n" ); return; } handle = pCreateMemoryResourceNotification( HighMemoryResourceNotification + 1 ); ok( !handle, "CreateMemoryResourceNotification succeeded\n" ); ok( GetLastError() == ERROR_INVALID_PARAMETER, "wrong error %u\n", GetLastError() ); ret = pQueryMemoryResourceNotification( handle, &val ); ok( !ret, "QueryMemoryResourceNotification succeeded\n" ); ok( GetLastError() == ERROR_INVALID_PARAMETER, "wrong error %u\n", GetLastError() ); handle = pCreateMemoryResourceNotification( LowMemoryResourceNotification ); ok( handle != 0, "CreateMemoryResourceNotification failed err %u\n", GetLastError() ); ret = WaitForSingleObject( handle, 10 ); ok( ret == WAIT_OBJECT_0 || ret == WAIT_TIMEOUT, "WaitForSingleObject wrong ret %u\n", ret ); val = ~0; ret = pQueryMemoryResourceNotification( handle, &val ); ok( ret, "QueryMemoryResourceNotification failed err %u\n", GetLastError() ); ok( val == FALSE || val == TRUE, "wrong value %u\n", val ); ret = CloseHandle( handle ); ok( ret, "CloseHandle failed err %u\n", GetLastError() ); handle = CreateEventA(NULL, FALSE, FALSE, __FILE__ ": Test Event"); val = ~0; ret = pQueryMemoryResourceNotification( handle, &val ); ok( ret, "QueryMemoryResourceNotification failed err %u\n", GetLastError() ); ok( val == FALSE || val == TRUE, "wrong value %u\n", val ); CloseHandle( handle ); } static void test_semaphore(void) { HANDLE handle, handle2; /* test case sensitivity */ SetLastError(0xdeadbeef); handle = CreateSemaphoreA(NULL, 0, 1, __FILE__ ": Test Semaphore"); ok(handle != NULL, "CreateSemaphore failed with error %u\n", GetLastError()); ok(GetLastError() == 0, "wrong error %u\n", GetLastError()); SetLastError(0xdeadbeef); handle2 = CreateSemaphoreA(NULL, 0, 1, __FILE__ ": Test Semaphore"); ok( handle2 != NULL, "CreateSemaphore failed with error %d\n", GetLastError()); ok( GetLastError() == ERROR_ALREADY_EXISTS, "wrong error %u\n", GetLastError()); CloseHandle( handle2 ); SetLastError(0xdeadbeef); handle2 = CreateSemaphoreA(NULL, 0, 1, __FILE__ ": TEST SEMAPHORE"); ok( handle2 != NULL, "CreateSemaphore failed with error %d\n", GetLastError()); ok( GetLastError() == 0, "wrong error %u\n", GetLastError()); CloseHandle( handle2 ); SetLastError(0xdeadbeef); handle2 = OpenSemaphoreA( SEMAPHORE_ALL_ACCESS, FALSE, __FILE__ ": Test Semaphore"); ok( handle2 != NULL, "OpenSemaphore failed with error %d\n", GetLastError()); CloseHandle( handle2 ); SetLastError(0xdeadbeef); handle2 = OpenSemaphoreA( SEMAPHORE_ALL_ACCESS, FALSE, __FILE__ ": TEST SEMAPHORE"); ok( !handle2, "OpenSemaphore succeeded\n"); ok( GetLastError() == ERROR_FILE_NOT_FOUND, "wrong error %u\n", GetLastError()); SetLastError(0xdeadbeef); handle2 = OpenSemaphoreA( SEMAPHORE_ALL_ACCESS, FALSE, NULL ); ok( !handle2, "OpenSemaphore succeeded\n"); ok( GetLastError() == ERROR_INVALID_PARAMETER, "wrong error %u\n", GetLastError()); SetLastError(0xdeadbeef); handle2 = OpenSemaphoreW( SEMAPHORE_ALL_ACCESS, FALSE, NULL ); ok( !handle2, "OpenSemaphore succeeded\n"); ok( GetLastError() == ERROR_INVALID_PARAMETER, "wrong error %u\n", GetLastError()); CloseHandle( handle ); } static void test_waitable_timer(void) { HANDLE handle, handle2; /* test case sensitivity */ SetLastError(0xdeadbeef); handle = CreateWaitableTimerA(NULL, FALSE, __FILE__ ": Test WaitableTimer"); ok(handle != NULL, "CreateWaitableTimer failed with error %u\n", GetLastError()); ok(GetLastError() == 0, "wrong error %u\n", GetLastError()); SetLastError(0xdeadbeef); handle2 = CreateWaitableTimerA(NULL, FALSE, __FILE__ ": Test WaitableTimer"); ok( handle2 != NULL, "CreateWaitableTimer failed with error %d\n", GetLastError()); ok( GetLastError() == ERROR_ALREADY_EXISTS, "wrong error %u\n", GetLastError()); CloseHandle( handle2 ); SetLastError(0xdeadbeef); handle2 = CreateWaitableTimerA(NULL, FALSE, __FILE__ ": TEST WAITABLETIMER"); ok( handle2 != NULL, "CreateWaitableTimer failed with error %d\n", GetLastError()); ok( GetLastError() == 0, "wrong error %u\n", GetLastError()); CloseHandle( handle2 ); SetLastError(0xdeadbeef); handle2 = OpenWaitableTimerA( TIMER_ALL_ACCESS, FALSE, __FILE__ ": Test WaitableTimer"); ok( handle2 != NULL, "OpenWaitableTimer failed with error %d\n", GetLastError()); CloseHandle( handle2 ); SetLastError(0xdeadbeef); handle2 = OpenWaitableTimerA( TIMER_ALL_ACCESS, FALSE, __FILE__ ": TEST WAITABLETIMER"); ok( !handle2, "OpenWaitableTimer succeeded\n"); ok( GetLastError() == ERROR_FILE_NOT_FOUND, "wrong error %u\n", GetLastError()); SetLastError(0xdeadbeef); handle2 = OpenWaitableTimerA( TIMER_ALL_ACCESS, FALSE, NULL ); ok( !handle2, "OpenWaitableTimer failed with error %d\n", GetLastError()); ok( GetLastError() == ERROR_INVALID_PARAMETER, "wrong error %u\n", GetLastError()); SetLastError(0xdeadbeef); handle2 = OpenWaitableTimerW( TIMER_ALL_ACCESS, FALSE, NULL ); ok( !handle2, "OpenWaitableTimer failed with error %d\n", GetLastError()); ok( GetLastError() == ERROR_INVALID_PARAMETER, "wrong error %u\n", GetLastError()); CloseHandle( handle ); } static HANDLE sem = 0; static void CALLBACK iocp_callback(DWORD dwErrorCode, DWORD dwNumberOfBytesTransferred, LPOVERLAPPED lpOverlapped) { ReleaseSemaphore(sem, 1, NULL); } static BOOL (WINAPI *p_BindIoCompletionCallback)( HANDLE FileHandle, LPOVERLAPPED_COMPLETION_ROUTINE Function, ULONG Flags) = NULL; static void test_iocp_callback(void) { char temp_path[MAX_PATH]; char filename[MAX_PATH]; DWORD ret; BOOL retb; static const char prefix[] = "pfx"; HANDLE hFile; HMODULE hmod = GetModuleHandleA("kernel32.dll"); DWORD bytesWritten; const char *buffer = "12345678123456781234567812345678"; OVERLAPPED overlapped; p_BindIoCompletionCallback = (void*)GetProcAddress(hmod, "BindIoCompletionCallback"); if(!p_BindIoCompletionCallback) { win_skip("BindIoCompletionCallback not found in this DLL\n"); return; } sem = CreateSemaphoreW(NULL, 0, 1, NULL); ok(sem != INVALID_HANDLE_VALUE, "Creating a semaphore failed\n"); ret = GetTempPathA(MAX_PATH, temp_path); ok(ret != 0, "GetTempPathA error %d\n", GetLastError()); ok(ret < MAX_PATH, "temp path should fit into MAX_PATH\n"); ret = GetTempFileNameA(temp_path, prefix, 0, filename); ok(ret != 0, "GetTempFileNameA error %d\n", GetLastError()); hFile = CreateFileA(filename, GENERIC_READ | GENERIC_WRITE, 0, NULL, CREATE_ALWAYS, FILE_FLAG_RANDOM_ACCESS, 0); ok(hFile != INVALID_HANDLE_VALUE, "CreateFileA: error %d\n", GetLastError()); retb = p_BindIoCompletionCallback(hFile, iocp_callback, 0); ok(retb == FALSE, "BindIoCompletionCallback succeeded on a file that wasn't created with FILE_FLAG_OVERLAPPED\n"); ok(GetLastError() == ERROR_INVALID_PARAMETER, "Last error is %d\n", GetLastError()); ret = CloseHandle(hFile); ok( ret, "CloseHandle: error %d\n", GetLastError()); ret = DeleteFileA(filename); ok( ret, "DeleteFileA: error %d\n", GetLastError()); hFile = CreateFileA(filename, GENERIC_READ | GENERIC_WRITE, 0, NULL, CREATE_ALWAYS, FILE_FLAG_RANDOM_ACCESS | FILE_FLAG_OVERLAPPED, 0); ok(hFile != INVALID_HANDLE_VALUE, "CreateFileA: error %d\n", GetLastError()); retb = p_BindIoCompletionCallback(hFile, iocp_callback, 0); ok(retb == TRUE, "BindIoCompletionCallback failed\n"); memset(&overlapped, 0, sizeof(overlapped)); retb = WriteFile(hFile, buffer, 4, &bytesWritten, &overlapped); ok(retb == TRUE || GetLastError() == ERROR_IO_PENDING, "WriteFile failed, lastError = %d\n", GetLastError()); ret = WaitForSingleObject(sem, 5000); ok(ret == WAIT_OBJECT_0, "Wait for the IO completion callback failed\n"); CloseHandle(sem); retb = p_BindIoCompletionCallback(hFile, iocp_callback, 0); ok(retb == FALSE, "BindIoCompletionCallback succeeded when setting the same callback on the file again\n"); ok(GetLastError() == ERROR_INVALID_PARAMETER, "Last error is %d\n", GetLastError()); retb = p_BindIoCompletionCallback(hFile, NULL, 0); ok(retb == FALSE, "BindIoCompletionCallback succeeded when setting the callback to NULL\n"); ok(GetLastError() == ERROR_INVALID_PARAMETER, "Last error is %d\n", GetLastError()); ret = CloseHandle(hFile); ok( ret, "CloseHandle: error %d\n", GetLastError()); ret = DeleteFileA(filename); ok( ret, "DeleteFileA: error %d\n", GetLastError()); /* win2k3 requires the Flags parameter to be zero */ SetLastError(0xdeadbeef); hFile = CreateFileA(filename, GENERIC_READ | GENERIC_WRITE, 0, NULL, CREATE_ALWAYS, FILE_FLAG_RANDOM_ACCESS | FILE_FLAG_OVERLAPPED, 0); ok(hFile != INVALID_HANDLE_VALUE, "CreateFileA: error %d\n", GetLastError()); retb = p_BindIoCompletionCallback(hFile, iocp_callback, 12345); if (!retb) ok(GetLastError() == ERROR_INVALID_PARAMETER, "Expected ERROR_INVALID_PARAMETER, got %d\n", GetLastError()); else ok(retb == TRUE, "BindIoCompletionCallback failed with Flags != 0\n"); ret = CloseHandle(hFile); ok( ret, "CloseHandle: error %d\n", GetLastError()); ret = DeleteFileA(filename); ok( ret, "DeleteFileA: error %d\n", GetLastError()); retb = p_BindIoCompletionCallback(NULL, iocp_callback, 0); ok(retb == FALSE, "BindIoCompletionCallback succeeded on a NULL file\n"); ok(GetLastError() == ERROR_INVALID_HANDLE || GetLastError() == ERROR_INVALID_PARAMETER, /* vista */ "Last error is %d\n", GetLastError()); } static void CALLBACK timer_queue_cb1(PVOID p, BOOLEAN timedOut) { int *pn = p; ok(timedOut, "Timer callbacks should always time out\n"); ++*pn; } struct timer_queue_data1 { int num_calls; int max_calls; HANDLE q, t; }; static void CALLBACK timer_queue_cb2(PVOID p, BOOLEAN timedOut) { struct timer_queue_data1 *d = p; ok(timedOut, "Timer callbacks should always time out\n"); if (d->t && ++d->num_calls == d->max_calls) { BOOL ret; SetLastError(0xdeadbeef); /* Note, XP SP2 does *not* do any deadlock checking, so passing INVALID_HANDLE_VALUE here will just hang. */ ret = DeleteTimerQueueTimer(d->q, d->t, NULL); ok(!ret, "DeleteTimerQueueTimer\n"); ok(GetLastError() == ERROR_IO_PENDING, "DeleteTimerQueueTimer\n"); } } static void CALLBACK timer_queue_cb3(PVOID p, BOOLEAN timedOut) { struct timer_queue_data1 *d = p; ok(timedOut, "Timer callbacks should always time out\n"); if (d->t && ++d->num_calls == d->max_calls) { /* Basically kill the timer since it won't have time to run again. */ BOOL ret = ChangeTimerQueueTimer(d->q, d->t, 10000, 0); ok(ret, "ChangeTimerQueueTimer\n"); } } static void CALLBACK timer_queue_cb4(PVOID p, BOOLEAN timedOut) { struct timer_queue_data1 *d = p; ok(timedOut, "Timer callbacks should always time out\n"); if (d->t) { /* This tests whether a timer gets flagged for deletion before or after the callback runs. If we start this timer with a period of zero (run once), then ChangeTimerQueueTimer will fail if the timer is already flagged. Hence we really run only once. Otherwise we will run multiple times. */ BOOL ret = ChangeTimerQueueTimer(d->q, d->t, 50, 50); ok(ret, "ChangeTimerQueueTimer\n"); ++d->num_calls; } } static void CALLBACK timer_queue_cb5(PVOID p, BOOLEAN timedOut) { DWORD_PTR delay = (DWORD_PTR) p; ok(timedOut, "Timer callbacks should always time out\n"); if (delay) Sleep(delay); } static void CALLBACK timer_queue_cb6(PVOID p, BOOLEAN timedOut) { struct timer_queue_data1 *d = p; ok(timedOut, "Timer callbacks should always time out\n"); /* This tests an original implementation bug where a deleted timer may get to run, but it is tricky to set up. */ if (d->q && d->num_calls++ == 0) { /* First run: delete ourselves, then insert and remove a timer that goes in front of us in the sorted timeout list. Once removed, we will still timeout at the faster timer's due time, but this should be a no-op if we are bug-free. There should not be a second run. We can test the value of num_calls later. */ BOOL ret; HANDLE t; /* The delete will pend while we are in this callback. */ SetLastError(0xdeadbeef); ret = DeleteTimerQueueTimer(d->q, d->t, NULL); ok(!ret, "DeleteTimerQueueTimer\n"); ok(GetLastError() == ERROR_IO_PENDING, "DeleteTimerQueueTimer\n"); ret = CreateTimerQueueTimer(&t, d->q, timer_queue_cb1, NULL, 100, 0, 0); ok(ret, "CreateTimerQueueTimer\n"); ok(t != NULL, "CreateTimerQueueTimer\n"); ret = DeleteTimerQueueTimer(d->q, t, INVALID_HANDLE_VALUE); ok(ret, "DeleteTimerQueueTimer\n"); /* Now we stay alive by hanging around in the callback. */ Sleep(500); } } static void test_timer_queue(void) { HANDLE q, t0, t1, t2, t3, t4, t5; int n0, n1, n2, n3, n4, n5; struct timer_queue_data1 d1, d2, d3, d4; HANDLE e, et1, et2; BOOL ret, ret0; /* Test asynchronous deletion of the queue. */ q = CreateTimerQueue(); ok(q != NULL, "CreateTimerQueue\n"); SetLastError(0xdeadbeef); ret = DeleteTimerQueueEx(q, NULL); ok(ret /* vista */ || GetLastError() == ERROR_IO_PENDING, "DeleteTimerQueueEx, GetLastError: expected ERROR_IO_PENDING, got %d\n", GetLastError()); /* Test synchronous deletion of the queue and running timers. */ q = CreateTimerQueue(); ok(q != NULL, "CreateTimerQueue\n"); /* Not called. */ t0 = NULL; n0 = 0; ret = CreateTimerQueueTimer(&t0, q, timer_queue_cb1, &n0, 0, 300, 0); ok(ret, "CreateTimerQueueTimer\n"); ok(t0 != NULL, "CreateTimerQueueTimer\n"); ret0 = DeleteTimerQueueTimer(q, t0, NULL); ok((!ret0 && GetLastError() == ERROR_IO_PENDING) || broken(ret0), /* Win 2000 & XP & 2003 */ "DeleteTimerQueueTimer ret=%d le=%u\n", ret0, GetLastError()); /* Called once. */ t1 = NULL; n1 = 0; ret = CreateTimerQueueTimer(&t1, q, timer_queue_cb1, &n1, 0, 0, 0); ok(ret, "CreateTimerQueueTimer\n"); ok(t1 != NULL, "CreateTimerQueueTimer\n"); /* A slow one. */ t2 = NULL; n2 = 0; ret = CreateTimerQueueTimer(&t2, q, timer_queue_cb1, &n2, 0, 100, 0); ok(ret, "CreateTimerQueueTimer\n"); ok(t2 != NULL, "CreateTimerQueueTimer\n"); /* A fast one. */ t3 = NULL; n3 = 0; ret = CreateTimerQueueTimer(&t3, q, timer_queue_cb1, &n3, 0, 10, 0); ok(ret, "CreateTimerQueueTimer\n"); ok(t3 != NULL, "CreateTimerQueueTimer\n"); /* Start really late (it won't start). */ t4 = NULL; n4 = 0; ret = CreateTimerQueueTimer(&t4, q, timer_queue_cb1, &n4, 10000, 10, 0); ok(ret, "CreateTimerQueueTimer\n"); ok(t4 != NULL, "CreateTimerQueueTimer\n"); /* Start soon, but delay so long it won't run again. */ t5 = NULL; n5 = 0; ret = CreateTimerQueueTimer(&t5, q, timer_queue_cb1, &n5, 0, 10000, 0); ok(ret, "CreateTimerQueueTimer\n"); ok(t5 != NULL, "CreateTimerQueueTimer\n"); /* Give them a chance to do some work. */ Sleep(500); /* Test deleting a once-only timer. */ ret = DeleteTimerQueueTimer(q, t1, INVALID_HANDLE_VALUE); ok(ret, "DeleteTimerQueueTimer\n"); /* A periodic timer. */ ret = DeleteTimerQueueTimer(q, t2, INVALID_HANDLE_VALUE); ok(ret, "DeleteTimerQueueTimer\n"); ret = DeleteTimerQueueEx(q, INVALID_HANDLE_VALUE); ok(ret, "DeleteTimerQueueEx\n"); todo_wine ok(n0 == 1 || broken(ret0 && n0 == 0), "Timer callback 0 expected 1 got %d\n", n0); ok(n1 == 1, "Timer callback 1 expected 1 got %d\n", n1); ok(n2 < n3, "Timer callback 2 & 3 expected %d < %d\n", n2, n3); ok(n4 == 0, "Timer callback 4 expected 0 got %d\n", n4); ok(n5 == 1, "Timer callback 5 expected 1 got %d\n", n5); /* Test synchronous deletion of the timer/queue with event trigger. */ e = CreateEventW(NULL, TRUE, FALSE, NULL); et1 = CreateEventW(NULL, TRUE, FALSE, NULL); et2 = CreateEventW(NULL, TRUE, FALSE, NULL); if (!e || !et1 || !et2) { skip("Failed to create timer queue descruction event\n"); return; } q = CreateTimerQueue(); ok(q != NULL, "CreateTimerQueue\n"); /* Run once and finish quickly (should be done when we delete it). */ t1 = NULL; ret = CreateTimerQueueTimer(&t1, q, timer_queue_cb5, NULL, 0, 0, 0); ok(ret, "CreateTimerQueueTimer\n"); ok(t1 != NULL, "CreateTimerQueueTimer\n"); /* Run once and finish slowly (shouldn't be done when we delete it). */ t2 = NULL; ret = CreateTimerQueueTimer(&t2, q, timer_queue_cb5, (PVOID) 1000, 0, 0, 0); ok(ret, "CreateTimerQueueTimer\n"); ok(t2 != NULL, "CreateTimerQueueTimer\n"); /* Run once and finish quickly (should be done when we delete it). */ t3 = NULL; ret = CreateTimerQueueTimer(&t3, q, timer_queue_cb5, NULL, 0, 0, 0); ok(ret, "CreateTimerQueueTimer\n"); ok(t3 != NULL, "CreateTimerQueueTimer\n"); /* Run once and finish slowly (shouldn't be done when we delete it). */ t4 = NULL; ret = CreateTimerQueueTimer(&t4, q, timer_queue_cb5, (PVOID) 1000, 0, 0, 0); ok(ret, "CreateTimerQueueTimer\n"); ok(t4 != NULL, "CreateTimerQueueTimer\n"); /* Give them a chance to start. */ Sleep(400); /* DeleteTimerQueueTimer always returns PENDING with a NULL event, even if the timer is finished. */ SetLastError(0xdeadbeef); ret = DeleteTimerQueueTimer(q, t1, NULL); ok(ret /* vista */ || GetLastError() == ERROR_IO_PENDING, "DeleteTimerQueueTimer, GetLastError: expected ERROR_IO_PENDING, got %d\n", GetLastError()); SetLastError(0xdeadbeef); ret = DeleteTimerQueueTimer(q, t2, NULL); ok(!ret, "DeleteTimerQueueTimer call was expected to fail\n"); ok(GetLastError() == ERROR_IO_PENDING, "DeleteTimerQueueTimer, GetLastError: expected ERROR_IO_PENDING, got %d\n", GetLastError()); SetLastError(0xdeadbeef); ret = DeleteTimerQueueTimer(q, t3, et1); ok(ret, "DeleteTimerQueueTimer call was expected to fail\n"); ok(GetLastError() == 0xdeadbeef, "DeleteTimerQueueTimer, GetLastError: expected 0xdeadbeef, got %d\n", GetLastError()); ok(WaitForSingleObject(et1, 250) == WAIT_OBJECT_0, "Timer destruction event not triggered\n"); SetLastError(0xdeadbeef); ret = DeleteTimerQueueTimer(q, t4, et2); ok(!ret, "DeleteTimerQueueTimer call was expected to fail\n"); ok(GetLastError() == ERROR_IO_PENDING, "DeleteTimerQueueTimer, GetLastError: expected ERROR_IO_PENDING, got %d\n", GetLastError()); ok(WaitForSingleObject(et2, 1000) == WAIT_OBJECT_0, "Timer destruction event not triggered\n"); SetLastError(0xdeadbeef); ret = DeleteTimerQueueEx(q, e); ok(ret /* vista */ || GetLastError() == ERROR_IO_PENDING, "DeleteTimerQueueEx, GetLastError: expected ERROR_IO_PENDING, got %d\n", GetLastError()); ok(WaitForSingleObject(e, 250) == WAIT_OBJECT_0, "Queue destruction event not triggered\n"); CloseHandle(e); /* Test deleting/changing a timer in execution. */ q = CreateTimerQueue(); ok(q != NULL, "CreateTimerQueue\n"); /* Test changing a once-only timer before it fires (this is allowed, whereas after it fires you cannot). */ n1 = 0; ret = CreateTimerQueueTimer(&t1, q, timer_queue_cb1, &n1, 10000, 0, 0); ok(ret, "CreateTimerQueueTimer\n"); ok(t1 != NULL, "CreateTimerQueueTimer\n"); ret = ChangeTimerQueueTimer(q, t1, 0, 0); ok(ret, "ChangeTimerQueueTimer\n"); d2.t = t2 = NULL; d2.num_calls = 0; d2.max_calls = 3; d2.q = q; ret = CreateTimerQueueTimer(&t2, q, timer_queue_cb2, &d2, 10, 10, 0); d2.t = t2; ok(ret, "CreateTimerQueueTimer\n"); ok(t2 != NULL, "CreateTimerQueueTimer\n"); d3.t = t3 = NULL; d3.num_calls = 0; d3.max_calls = 4; d3.q = q; ret = CreateTimerQueueTimer(&t3, q, timer_queue_cb3, &d3, 10, 10, 0); d3.t = t3; ok(ret, "CreateTimerQueueTimer\n"); ok(t3 != NULL, "CreateTimerQueueTimer\n"); d4.t = t4 = NULL; d4.num_calls = 0; d4.q = q; ret = CreateTimerQueueTimer(&t4, q, timer_queue_cb4, &d4, 10, 0, 0); d4.t = t4; ok(ret, "CreateTimerQueueTimer\n"); ok(t4 != NULL, "CreateTimerQueueTimer\n"); Sleep(500); ret = DeleteTimerQueueEx(q, INVALID_HANDLE_VALUE); ok(ret, "DeleteTimerQueueEx\n"); ok(n1 == 1, "ChangeTimerQueueTimer\n"); ok(d2.num_calls == d2.max_calls, "DeleteTimerQueueTimer\n"); ok(d3.num_calls == d3.max_calls, "ChangeTimerQueueTimer\n"); ok(d4.num_calls == 1, "Timer flagged for deletion incorrectly\n"); /* Test an obscure bug that was in the original implementation. */ q = CreateTimerQueue(); ok(q != NULL, "CreateTimerQueue\n"); /* All the work is done in the callback. */ d1.t = t1 = NULL; d1.num_calls = 0; d1.q = q; ret = CreateTimerQueueTimer(&t1, q, timer_queue_cb6, &d1, 100, 100, WT_EXECUTELONGFUNCTION); d1.t = t1; ok(ret, "CreateTimerQueueTimer\n"); ok(t1 != NULL, "CreateTimerQueueTimer\n"); Sleep(750); SetLastError(0xdeadbeef); ret = DeleteTimerQueueEx(q, NULL); ok(ret /* vista */ || GetLastError() == ERROR_IO_PENDING, "DeleteTimerQueueEx, GetLastError: expected ERROR_IO_PENDING, got %d\n", GetLastError()); ok(d1.num_calls == 1, "DeleteTimerQueueTimer\n"); /* Test functions on the default timer queue. */ t1 = NULL; n1 = 0; ret = CreateTimerQueueTimer(&t1, NULL, timer_queue_cb1, &n1, 1000, 1000, 0); ok(ret, "CreateTimerQueueTimer, default queue\n"); ok(t1 != NULL, "CreateTimerQueueTimer, default queue\n"); ret = ChangeTimerQueueTimer(NULL, t1, 2000, 2000); ok(ret, "ChangeTimerQueueTimer, default queue\n"); ret = DeleteTimerQueueTimer(NULL, t1, INVALID_HANDLE_VALUE); ok(ret, "DeleteTimerQueueTimer, default queue\n"); /* Try mixing default and non-default queues. Apparently this works. */ q = CreateTimerQueue(); ok(q != NULL, "CreateTimerQueue\n"); t1 = NULL; n1 = 0; ret = CreateTimerQueueTimer(&t1, q, timer_queue_cb1, &n1, 1000, 1000, 0); ok(ret, "CreateTimerQueueTimer\n"); ok(t1 != NULL, "CreateTimerQueueTimer\n"); t2 = NULL; n2 = 0; ret = CreateTimerQueueTimer(&t2, NULL, timer_queue_cb1, &n2, 1000, 1000, 0); ok(ret, "CreateTimerQueueTimer\n"); ok(t2 != NULL, "CreateTimerQueueTimer\n"); ret = ChangeTimerQueueTimer(NULL, t1, 2000, 2000); ok(ret, "ChangeTimerQueueTimer\n"); ret = ChangeTimerQueueTimer(q, t2, 2000, 2000); ok(ret, "ChangeTimerQueueTimer\n"); ret = DeleteTimerQueueTimer(NULL, t1, INVALID_HANDLE_VALUE); ok(ret, "DeleteTimerQueueTimer\n"); ret = DeleteTimerQueueTimer(q, t2, INVALID_HANDLE_VALUE); ok(ret, "DeleteTimerQueueTimer\n"); /* Try to delete the default queue? In any case: not allowed. */ SetLastError(0xdeadbeef); ret = DeleteTimerQueueEx(NULL, NULL); ok(!ret, "DeleteTimerQueueEx call was expected to fail\n"); ok(GetLastError() == ERROR_INVALID_HANDLE, "DeleteTimerQueueEx, GetLastError: expected ERROR_INVALID_HANDLE, got %d\n", GetLastError()); SetLastError(0xdeadbeef); ret = DeleteTimerQueueEx(q, NULL); ok(ret /* vista */ || GetLastError() == ERROR_IO_PENDING, "DeleteTimerQueueEx, GetLastError: expected ERROR_IO_PENDING, got %d\n", GetLastError()); } static HANDLE modify_handle(HANDLE handle, DWORD modify) { DWORD tmp = HandleToULong(handle); tmp |= modify; return ULongToHandle(tmp); } static void test_WaitForSingleObject(void) { HANDLE signaled, nonsignaled, invalid; LARGE_INTEGER timeout; NTSTATUS status; DWORD ret; signaled = CreateEventW(NULL, TRUE, TRUE, NULL); nonsignaled = CreateEventW(NULL, TRUE, FALSE, NULL); invalid = (HANDLE) 0xdeadbee0; /* invalid handle with different values for lower 2 bits */ SetLastError(0xdeadbeef); ret = WaitForSingleObject(invalid, 0); ok(ret == WAIT_FAILED, "expected WAIT_FAILED, got %d\n", ret); ok(GetLastError() == ERROR_INVALID_HANDLE, "expected ERROR_INVALID_HANDLE, got %d\n", GetLastError()); SetLastError(0xdeadbeef); ret = WaitForSingleObject(modify_handle(invalid, 1), 0); ok(ret == WAIT_FAILED, "expected WAIT_FAILED, got %d\n", ret); ok(GetLastError() == ERROR_INVALID_HANDLE, "expected ERROR_INVALID_HANDLE, got %d\n", GetLastError()); SetLastError(0xdeadbeef); ret = WaitForSingleObject(modify_handle(invalid, 2), 0); ok(ret == WAIT_FAILED, "expected WAIT_FAILED, got %d\n", ret); ok(GetLastError() == ERROR_INVALID_HANDLE, "expected ERROR_INVALID_HANDLE, got %d\n", GetLastError()); SetLastError(0xdeadbeef); ret = WaitForSingleObject(modify_handle(invalid, 3), 0); ok(ret == WAIT_FAILED, "expected WAIT_FAILED, got %d\n", ret); ok(GetLastError() == ERROR_INVALID_HANDLE, "expected ERROR_INVALID_HANDLE, got %d\n", GetLastError()); /* valid handle with different values for lower 2 bits */ SetLastError(0xdeadbeef); ret = WaitForSingleObject(nonsignaled, 0); ok(ret == WAIT_TIMEOUT, "expected WAIT_TIMEOUT, got %d\n", ret); ok(GetLastError() == 0xdeadbeef, "expected 0xdeadbeef, got %d\n", GetLastError()); SetLastError(0xdeadbeef); ret = WaitForSingleObject(modify_handle(nonsignaled, 1), 0); ok(ret == WAIT_TIMEOUT, "expected WAIT_TIMEOUT, got %d\n", ret); ok(GetLastError() == 0xdeadbeef, "expected 0xdeadbeef, got %d\n", GetLastError()); SetLastError(0xdeadbeef); ret = WaitForSingleObject(modify_handle(nonsignaled, 2), 0); ok(ret == WAIT_TIMEOUT, "expected WAIT_TIMEOUT, got %d\n", ret); ok(GetLastError() == 0xdeadbeef, "expected 0xdeadbeef, got %d\n", GetLastError()); SetLastError(0xdeadbeef); ret = WaitForSingleObject(modify_handle(nonsignaled, 3), 0); ok(ret == WAIT_TIMEOUT, "expected WAIT_TIMEOUT, got %d\n", ret); ok(GetLastError() == 0xdeadbeef, "expected 0xdeadbeef, got %d\n", GetLastError()); /* valid handle with different values for lower 2 bits */ SetLastError(0xdeadbeef); ret = WaitForSingleObject(signaled, 0); ok(ret == WAIT_OBJECT_0, "expected WAIT_OBJECT_0, got %d\n", ret); ok(GetLastError() == 0xdeadbeef, "expected 0xdeadbeef, got %d\n", GetLastError()); SetLastError(0xdeadbeef); ret = WaitForSingleObject(modify_handle(signaled, 1), 0); ok(ret == WAIT_OBJECT_0, "expected WAIT_OBJECT_0, got %d\n", ret); ok(GetLastError() == 0xdeadbeef, "expected 0xdeadbeef, got %d\n", GetLastError()); SetLastError(0xdeadbeef); ret = WaitForSingleObject(modify_handle(signaled, 2), 0); ok(ret == WAIT_OBJECT_0, "expected WAIT_OBJECT_0, got %d\n", ret); ok(GetLastError() == 0xdeadbeef, "expected 0xdeadbeef, got %d\n", GetLastError()); SetLastError(0xdeadbeef); ret = WaitForSingleObject(modify_handle(signaled, 3), 0); ok(ret == WAIT_OBJECT_0, "expected WAIT_OBJECT_0, got %d\n", ret); ok(GetLastError() == 0xdeadbeef, "expected 0xdeadbeef, got %d\n", GetLastError()); /* pseudo handles are allowed in WaitForSingleObject and NtWaitForSingleObject */ ret = WaitForSingleObject(GetCurrentProcess(), 100); ok(ret == WAIT_TIMEOUT, "expected WAIT_TIMEOUT, got %u\n", ret); ret = WaitForSingleObject(GetCurrentThread(), 100); ok(ret == WAIT_TIMEOUT, "expected WAIT_TIMEOUT, got %u\n", ret); timeout.QuadPart = -1000000; status = pNtWaitForSingleObject(GetCurrentProcess(), FALSE, &timeout); ok(status == STATUS_TIMEOUT, "expected STATUS_TIMEOUT, got %08x\n", status); timeout.QuadPart = -1000000; status = pNtWaitForSingleObject(GetCurrentThread(), FALSE, &timeout); ok(status == STATUS_TIMEOUT, "expected STATUS_TIMEOUT, got %08x\n", status); CloseHandle(signaled); CloseHandle(nonsignaled); } static void test_WaitForMultipleObjects(void) { LARGE_INTEGER timeout; NTSTATUS status; DWORD r; int i; HANDLE maxevents[MAXIMUM_WAIT_OBJECTS]; /* create the maximum number of events and make sure * we can wait on that many */ for (i=0; iPtr == (void*)0x1, "got %p\n", initonce->Ptr); ok(parameter == (void*)0xdeadbeef, "got wrong parameter\n"); return g_initcallback_ret; } static void test_initonce(void) { INIT_ONCE initonce; BOOL ret, pending; if (!pInitOnceInitialize || !pInitOnceExecuteOnce) { win_skip("one-time initialization API not supported\n"); return; } /* blocking initialization with callback */ initonce.Ptr = (void*)0xdeadbeef; pInitOnceInitialize(&initonce); ok(initonce.Ptr == NULL, "got %p\n", initonce.Ptr); /* initialisation completed successfully */ g_initcallback_ret = TRUE; g_initctxt = NULL; ret = pInitOnceExecuteOnce(&initonce, initonce_callback, (void*)0xdeadbeef, &g_initctxt); ok(ret, "wrong ret %d err %u\n", ret, GetLastError()); ok(initonce.Ptr == (void*)0x2, "got %p\n", initonce.Ptr); ok(g_initctxt == NULL, "got %p\n", g_initctxt); ok(g_initcallback_called, "got %d\n", g_initcallback_called); /* so it's been called already so won't be called again */ g_initctxt = NULL; g_initcallback_called = FALSE; ret = pInitOnceExecuteOnce(&initonce, initonce_callback, (void*)0xdeadbeef, &g_initctxt); ok(ret, "wrong ret %d err %u\n", ret, GetLastError()); ok(initonce.Ptr == (void*)0x2, "got %p\n", initonce.Ptr); ok(g_initctxt == NULL, "got %p\n", g_initctxt); ok(!g_initcallback_called, "got %d\n", g_initcallback_called); pInitOnceInitialize(&initonce); g_initcallback_called = FALSE; /* 2 lower order bits should never be used, you'll get a crash in result */ g_initctxt = (void*)0xFFFFFFF0; ret = pInitOnceExecuteOnce(&initonce, initonce_callback, (void*)0xdeadbeef, &g_initctxt); ok(ret, "wrong ret %d err %u\n", ret, GetLastError()); ok(initonce.Ptr == (void*)0xFFFFFFF2, "got %p\n", initonce.Ptr); ok(g_initctxt == (void*)0xFFFFFFF0, "got %p\n", g_initctxt); ok(g_initcallback_called, "got %d\n", g_initcallback_called); /* callback failed */ g_initcallback_ret = FALSE; g_initcallback_called = FALSE; g_initctxt = NULL; pInitOnceInitialize(&initonce); SetLastError( 0xdeadbeef ); ret = pInitOnceExecuteOnce(&initonce, initonce_callback, (void*)0xdeadbeef, &g_initctxt); ok(!ret && GetLastError() == 0xdeadbeef, "got wrong ret value %d err %u\n", ret, GetLastError()); ok(initonce.Ptr == NULL, "got %p\n", initonce.Ptr); ok(g_initctxt == NULL, "got %p\n", g_initctxt); ok(g_initcallback_called, "got %d\n", g_initcallback_called); /* blocking initialization without a callback */ pInitOnceInitialize(&initonce); g_initctxt = NULL; pending = FALSE; ret = pInitOnceBeginInitialize(&initonce, 0, &pending, &g_initctxt); ok(ret, "wrong ret %d err %u\n", ret, GetLastError()); ok(pending, "got %d\n", pending); ok(initonce.Ptr == (void*)1, "got %p\n", initonce.Ptr); ok(g_initctxt == NULL, "got %p\n", g_initctxt); /* another attempt to begin initialization with block a single thread */ g_initctxt = NULL; pending = 0xf; SetLastError( 0xdeadbeef ); ret = pInitOnceBeginInitialize(&initonce, INIT_ONCE_CHECK_ONLY, &pending, &g_initctxt); ok(!ret && GetLastError() == ERROR_GEN_FAILURE, "wrong ret %d err %u\n", ret, GetLastError()); ok(pending == 0xf, "got %d\n", pending); ok(initonce.Ptr == (void*)1, "got %p\n", initonce.Ptr); ok(g_initctxt == NULL, "got %p\n", g_initctxt); g_initctxt = (void*)0xdeadbee0; SetLastError( 0xdeadbeef ); ret = pInitOnceComplete(&initonce, INIT_ONCE_INIT_FAILED, g_initctxt); ok(!ret && GetLastError() == ERROR_INVALID_PARAMETER, "wrong ret %d err %u\n", ret, GetLastError()); ok(initonce.Ptr == (void*)1, "got %p\n", initonce.Ptr); /* once failed already */ g_initctxt = (void*)0xdeadbee0; ret = pInitOnceComplete(&initonce, 0, g_initctxt); ok(ret, "wrong ret %d err %u\n", ret, GetLastError()); ok(initonce.Ptr == (void*)0xdeadbee2, "got %p\n", initonce.Ptr); pInitOnceInitialize(&initonce); SetLastError( 0xdeadbeef ); ret = pInitOnceComplete(&initonce, INIT_ONCE_INIT_FAILED, NULL); ok(!ret && GetLastError() == ERROR_GEN_FAILURE, "wrong ret %d err %u\n", ret, GetLastError()); ok(initonce.Ptr == NULL, "got %p\n", initonce.Ptr); SetLastError( 0xdeadbeef ); ret = pInitOnceComplete(&initonce, INIT_ONCE_INIT_FAILED | INIT_ONCE_ASYNC, NULL); ok(!ret && GetLastError() == ERROR_INVALID_PARAMETER, "wrong ret %d err %u\n", ret, GetLastError()); ok(initonce.Ptr == NULL, "got %p\n", initonce.Ptr); ret = pInitOnceBeginInitialize(&initonce, 0, &pending, &g_initctxt); ok(ret, "wrong ret %d err %u\n", ret, GetLastError()); ok(pending, "got %d\n", pending); ok(initonce.Ptr == (void*)1, "got %p\n", initonce.Ptr); SetLastError( 0xdeadbeef ); ret = pInitOnceBeginInitialize(&initonce, INIT_ONCE_ASYNC, &pending, &g_initctxt); ok(!ret && GetLastError() == ERROR_INVALID_PARAMETER, "wrong ret %d err %u\n", ret, GetLastError()); SetLastError( 0xdeadbeef ); ret = pInitOnceComplete(&initonce, INIT_ONCE_INIT_FAILED | INIT_ONCE_ASYNC, NULL); ok(!ret && GetLastError() == ERROR_INVALID_PARAMETER, "wrong ret %d err %u\n", ret, GetLastError()); ok(initonce.Ptr == (void*)1, "got %p\n", initonce.Ptr); SetLastError( 0xdeadbeef ); ret = pInitOnceComplete(&initonce, 0, (void *)0xdeadbeef); ok(!ret && GetLastError() == ERROR_INVALID_PARAMETER, "wrong ret %d err %u\n", ret, GetLastError()); ok(initonce.Ptr == (void*)1, "got %p\n", initonce.Ptr); ret = pInitOnceComplete(&initonce, INIT_ONCE_INIT_FAILED, NULL); ok(ret, "wrong ret %d err %u\n", ret, GetLastError()); ok(initonce.Ptr == NULL, "got %p\n", initonce.Ptr); pInitOnceInitialize(&initonce); ret = pInitOnceBeginInitialize(&initonce, INIT_ONCE_ASYNC, &pending, &g_initctxt); ok(ret, "wrong ret %d err %u\n", ret, GetLastError()); ok(pending, "got %d\n", pending); ok(initonce.Ptr == (void*)3, "got %p\n", initonce.Ptr); SetLastError( 0xdeadbeef ); ret = pInitOnceBeginInitialize(&initonce, 0, &pending, &g_initctxt); ok(!ret && GetLastError() == ERROR_INVALID_PARAMETER, "wrong ret %d err %u\n", ret, GetLastError()); ret = pInitOnceBeginInitialize(&initonce, INIT_ONCE_ASYNC, &pending, &g_initctxt); ok(ret, "wrong ret %d err %u\n", ret, GetLastError()); ok(pending, "got %d\n", pending); ok(initonce.Ptr == (void*)3, "got %p\n", initonce.Ptr); SetLastError( 0xdeadbeef ); ret = pInitOnceComplete(&initonce, INIT_ONCE_INIT_FAILED, NULL); ok(!ret && GetLastError() == ERROR_INVALID_PARAMETER, "wrong ret %d err %u\n", ret, GetLastError()); ok(initonce.Ptr == (void*)3, "got %p\n", initonce.Ptr); SetLastError( 0xdeadbeef ); ret = pInitOnceComplete(&initonce, INIT_ONCE_INIT_FAILED | INIT_ONCE_ASYNC, NULL); ok(!ret && GetLastError() == ERROR_INVALID_PARAMETER, "wrong ret %d err %u\n", ret, GetLastError()); ok(initonce.Ptr == (void*)3, "got %p\n", initonce.Ptr); SetLastError( 0xdeadbeef ); ret = pInitOnceComplete(&initonce, INIT_ONCE_ASYNC, (void *)0xdeadbeef); ok(!ret && GetLastError() == ERROR_INVALID_PARAMETER, "wrong ret %d err %u\n", ret, GetLastError()); ok(initonce.Ptr == (void*)3, "got %p\n", initonce.Ptr); ret = pInitOnceComplete(&initonce, INIT_ONCE_ASYNC, (void *)0xdeadbee0); ok(ret, "wrong ret %d err %u\n", ret, GetLastError()); ok(initonce.Ptr == (void*)0xdeadbee2, "got %p\n", initonce.Ptr); SetLastError( 0xdeadbeef ); ret = pInitOnceComplete(&initonce, INIT_ONCE_INIT_FAILED | INIT_ONCE_ASYNC, NULL); ok(!ret && GetLastError() == ERROR_INVALID_PARAMETER, "wrong ret %d err %u\n", ret, GetLastError()); ok(initonce.Ptr == (void*)0xdeadbee2, "got %p\n", initonce.Ptr); pInitOnceInitialize(&initonce); ret = pInitOnceBeginInitialize(&initonce, 0, &pending, &g_initctxt); ok(ret, "wrong ret %d err %u\n", ret, GetLastError()); ok(pending, "got %d\n", pending); ok(initonce.Ptr == (void*)1, "got %p\n", initonce.Ptr); /* test INIT_ONCE_CHECK_ONLY */ pInitOnceInitialize(&initonce); SetLastError( 0xdeadbeef ); ret = pInitOnceBeginInitialize(&initonce, INIT_ONCE_CHECK_ONLY, &pending, &g_initctxt); ok(!ret && GetLastError() == ERROR_GEN_FAILURE, "wrong ret %d err %u\n", ret, GetLastError()); SetLastError( 0xdeadbeef ); ret = pInitOnceBeginInitialize(&initonce, INIT_ONCE_CHECK_ONLY|INIT_ONCE_ASYNC, &pending, &g_initctxt); ok(!ret && GetLastError() == ERROR_INVALID_PARAMETER, "wrong ret %d err %u\n", ret, GetLastError()); ret = pInitOnceBeginInitialize(&initonce, 0, &pending, &g_initctxt); ok(ret, "wrong ret %d err %u\n", ret, GetLastError()); ok(pending, "got %d\n", pending); ok(initonce.Ptr == (void*)1, "got %p\n", initonce.Ptr); SetLastError( 0xdeadbeef ); ret = pInitOnceBeginInitialize(&initonce, INIT_ONCE_CHECK_ONLY, &pending, &g_initctxt); ok(!ret && GetLastError() == ERROR_GEN_FAILURE, "wrong ret %d err %u\n", ret, GetLastError()); SetLastError( 0xdeadbeef ); ret = pInitOnceBeginInitialize(&initonce, INIT_ONCE_CHECK_ONLY|INIT_ONCE_ASYNC, &pending, &g_initctxt); ok(!ret && GetLastError() == ERROR_INVALID_PARAMETER, "wrong ret %d err %u\n", ret, GetLastError()); ret = pInitOnceComplete(&initonce, 0, (void *)0xdeadbee0); ok(ret, "wrong ret %d err %u\n", ret, GetLastError()); ok(initonce.Ptr == (void*)0xdeadbee2, "got %p\n", initonce.Ptr); ret = pInitOnceBeginInitialize(&initonce, INIT_ONCE_CHECK_ONLY, &pending, &g_initctxt); ok(ret, "got wrong ret value %d err %u\n", ret, GetLastError()); ok(!pending, "got %d\n", pending); ok(initonce.Ptr == (void*)0xdeadbee2, "got %p\n", initonce.Ptr); ok(g_initctxt == (void*)0xdeadbee0, "got %p\n", initonce.Ptr); SetLastError( 0xdeadbeef ); ret = pInitOnceBeginInitialize(&initonce, INIT_ONCE_CHECK_ONLY|INIT_ONCE_ASYNC, &pending, &g_initctxt); ok(!ret && GetLastError() == ERROR_INVALID_PARAMETER, "wrong ret %d err %u\n", ret, GetLastError()); pInitOnceInitialize(&initonce); ret = pInitOnceBeginInitialize(&initonce, INIT_ONCE_ASYNC, &pending, &g_initctxt); ok(ret, "wrong ret %d err %u\n", ret, GetLastError()); ok(pending, "got %d\n", pending); ok(initonce.Ptr == (void*)3, "got %p\n", initonce.Ptr); SetLastError( 0xdeadbeef ); ret = pInitOnceBeginInitialize(&initonce, INIT_ONCE_CHECK_ONLY, &pending, &g_initctxt); ok(!ret && GetLastError() == ERROR_GEN_FAILURE, "wrong ret %d err %u\n", ret, GetLastError()); SetLastError( 0xdeadbeef ); ret = pInitOnceBeginInitialize(&initonce, INIT_ONCE_CHECK_ONLY|INIT_ONCE_ASYNC, &pending, &g_initctxt); ok(!ret && GetLastError() == ERROR_INVALID_PARAMETER, "wrong ret %d err %u\n", ret, GetLastError()); ret = pInitOnceComplete(&initonce, INIT_ONCE_ASYNC, (void *)0xdeadbee0); ok(ret, "wrong ret %d err %u\n", ret, GetLastError()); ok(initonce.Ptr == (void*)0xdeadbee2, "got %p\n", initonce.Ptr); ret = pInitOnceBeginInitialize(&initonce, INIT_ONCE_CHECK_ONLY, &pending, &g_initctxt); ok(ret, "got wrong ret value %d err %u\n", ret, GetLastError()); ok(!pending, "got %d\n", pending); ok(initonce.Ptr == (void*)0xdeadbee2, "got %p\n", initonce.Ptr); ok(g_initctxt == (void*)0xdeadbee0, "got %p\n", initonce.Ptr); SetLastError( 0xdeadbeef ); ret = pInitOnceBeginInitialize(&initonce, INIT_ONCE_CHECK_ONLY|INIT_ONCE_ASYNC, &pending, &g_initctxt); ok(!ret && GetLastError() == ERROR_INVALID_PARAMETER, "wrong ret %d err %u\n", ret, GetLastError()); } static CONDITION_VARIABLE buffernotempty = CONDITION_VARIABLE_INIT; static CONDITION_VARIABLE buffernotfull = CONDITION_VARIABLE_INIT; static CRITICAL_SECTION buffercrit; static BOOL condvar_stop = FALSE, condvar_sleeperr = FALSE; static LONG bufferlen,totalproduced,totalconsumed; static LONG condvar_producer_sleepcnt,condvar_consumer_sleepcnt; #define BUFFER_SIZE 5 static DWORD WINAPI condvar_producer(LPVOID x) { DWORD sleepinterval = 5; while (1) { Sleep(sleepinterval); if (sleepinterval > 1) sleepinterval -= 1; EnterCriticalSection(&buffercrit); while ((bufferlen == BUFFER_SIZE) && !condvar_stop) { condvar_producer_sleepcnt++; if (!pSleepConditionVariableCS(&buffernotfull, &buffercrit, sleepinterval)) { if (GetLastError() != ERROR_TIMEOUT) condvar_sleeperr = TRUE; } } if (condvar_stop) { LeaveCriticalSection(&buffercrit); break; } bufferlen++; totalproduced++; LeaveCriticalSection(&buffercrit); pWakeConditionVariable(&buffernotempty); } return 0; } static DWORD WINAPI condvar_consumer(LPVOID x) { DWORD *cnt = (DWORD*)x; DWORD sleepinterval = 1; while (1) { EnterCriticalSection(&buffercrit); while ((bufferlen == 0) && !condvar_stop) { condvar_consumer_sleepcnt++; if (!pSleepConditionVariableCS (&buffernotempty, &buffercrit, sleepinterval)) { if (GetLastError() != ERROR_TIMEOUT) condvar_sleeperr = TRUE; } } if (condvar_stop && (bufferlen == 0)) { LeaveCriticalSection(&buffercrit); break; } bufferlen--; totalconsumed++; (*cnt)++; LeaveCriticalSection(&buffercrit); pWakeConditionVariable(&buffernotfull); Sleep(sleepinterval); if (sleepinterval < 5) sleepinterval += 1; } return 0; } static void test_condvars_consumer_producer(void) { HANDLE hp1,hp2,hp3,hc1,hc2,hc3; DWORD dummy; DWORD cnt1,cnt2,cnt3; if (!pInitializeConditionVariable) { /* function is not yet in XP, only in newer Windows */ win_skip("no condition variable support.\n"); return; } /* Implement a producer / consumer scheme with non-full / non-empty triggers */ /* If we have static initialized condition variables, InitializeConditionVariable * is not strictly necessary. * pInitializeConditionVariable(&buffernotfull); */ pInitializeConditionVariable(&buffernotempty); InitializeCriticalSection(&buffercrit); /* Larger Test: consumer/producer example */ bufferlen = totalproduced = totalconsumed = cnt1 = cnt2 = cnt3 = 0; hp1 = CreateThread(NULL, 0, condvar_producer, NULL, 0, &dummy); hp2 = CreateThread(NULL, 0, condvar_producer, NULL, 0, &dummy); hp3 = CreateThread(NULL, 0, condvar_producer, NULL, 0, &dummy); hc1 = CreateThread(NULL, 0, condvar_consumer, (PVOID)&cnt1, 0, &dummy); hc2 = CreateThread(NULL, 0, condvar_consumer, (PVOID)&cnt2, 0, &dummy); hc3 = CreateThread(NULL, 0, condvar_consumer, (PVOID)&cnt3, 0, &dummy); /* Limit run to 0.5 seconds. */ Sleep(500); /* tear down start */ condvar_stop = TRUE; /* final wake up call */ pWakeAllConditionVariable (&buffernotfull); pWakeAllConditionVariable (&buffernotempty); /* (mostly an implementation detail) * ok(buffernotfull.Ptr == NULL, "buffernotfull.Ptr is %p\n", buffernotfull.Ptr); */ WaitForSingleObject(hp1, 1000); WaitForSingleObject(hp2, 1000); WaitForSingleObject(hp3, 1000); WaitForSingleObject(hc1, 1000); WaitForSingleObject(hc2, 1000); WaitForSingleObject(hc3, 1000); ok(totalconsumed == totalproduced, "consumed %d != produced %d\n", totalconsumed, totalproduced); ok (!condvar_sleeperr, "error occurred during SleepConditionVariableCS\n"); /* Checking cnt1 - cnt2 for non-0 would be not good, the case where * one consumer does not get anything to do is possible. */ trace("produced %d, c1 %d, c2 %d, c3 %d\n", totalproduced, cnt1, cnt2, cnt3); /* The sleeps of the producer or consumer should not go above 100* produced count, * otherwise the implementation does not sleep correctly. But yet again, this is * not hard defined. */ trace("producer sleep %d, consumer sleep %d\n", condvar_producer_sleepcnt, condvar_consumer_sleepcnt); } /* Sample test for some sequence of events happening, sequenced using "condvar_seq" */ static DWORD condvar_seq = 0; static CONDITION_VARIABLE aligned_cv; static CRITICAL_SECTION condvar_crit; static SRWLOCK condvar_srwlock; #include "pshpack1.h" static struct { char c; CONDITION_VARIABLE cv; } unaligned_cv; #include "poppack.h" /* Sequence of wake/sleep to check boundary conditions: * 0: init * 1: producer emits a WakeConditionVariable without consumer waiting. * 2: consumer sleeps without a wake expecting timeout * 3: producer emits a WakeAllConditionVariable without consumer waiting. * 4: consumer sleeps without a wake expecting timeout * 5: a wake is handed to a SleepConditionVariableCS * 6: a wakeall is handed to a SleepConditionVariableCS * 7: sleep after above should timeout * 8: wake with crit section locked into the sleep timeout * * the following tests will only be executed if InitializeSRWLock is available * * 9: producer (exclusive) wakes up consumer (exclusive) * 10: producer (exclusive) wakes up consumer (shared) * 11: producer (shared) wakes up consumer (exclusive) * 12: producer (shared) wakes up consumer (shared) * 13: end */ static DWORD WINAPI condvar_base_producer(void *arg) { CONDITION_VARIABLE *cv = arg; while (condvar_seq < 1) Sleep(1); pWakeConditionVariable(cv); condvar_seq = 2; while (condvar_seq < 3) Sleep(1); pWakeAllConditionVariable(cv); condvar_seq = 4; while (condvar_seq < 5) Sleep(1); EnterCriticalSection (&condvar_crit); pWakeConditionVariable(cv); LeaveCriticalSection (&condvar_crit); while (condvar_seq < 6) Sleep(1); EnterCriticalSection (&condvar_crit); pWakeAllConditionVariable(cv); LeaveCriticalSection (&condvar_crit); while (condvar_seq < 8) Sleep(1); EnterCriticalSection (&condvar_crit); pWakeConditionVariable(cv); Sleep(50); LeaveCriticalSection (&condvar_crit); /* skip over remaining tests if InitializeSRWLock is not available */ if (!pInitializeSRWLock) return 0; while (condvar_seq < 9) Sleep(1); pAcquireSRWLockExclusive(&condvar_srwlock); pWakeConditionVariable(cv); pReleaseSRWLockExclusive(&condvar_srwlock); while (condvar_seq < 10) Sleep(1); pAcquireSRWLockExclusive(&condvar_srwlock); pWakeConditionVariable(cv); pReleaseSRWLockExclusive(&condvar_srwlock); while (condvar_seq < 11) Sleep(1); pAcquireSRWLockShared(&condvar_srwlock); pWakeConditionVariable(cv); pReleaseSRWLockShared(&condvar_srwlock); while (condvar_seq < 12) Sleep(1); Sleep(50); /* ensure that consumer waits for cond variable */ pAcquireSRWLockShared(&condvar_srwlock); pWakeConditionVariable(cv); pReleaseSRWLockShared(&condvar_srwlock); return 0; } static DWORD WINAPI condvar_base_consumer(void *arg) { CONDITION_VARIABLE *cv = arg; BOOL ret; while (condvar_seq < 2) Sleep(1); /* wake was emitted, but we were not sleeping */ EnterCriticalSection (&condvar_crit); ret = pSleepConditionVariableCS(cv, &condvar_crit, 10); LeaveCriticalSection (&condvar_crit); ok (!ret, "SleepConditionVariableCS should return FALSE on out of band wake\n"); ok (GetLastError() == ERROR_TIMEOUT, "SleepConditionVariableCS should return ERROR_TIMEOUT on out of band wake, not %d\n", GetLastError()); condvar_seq = 3; while (condvar_seq < 4) Sleep(1); /* wake all was emitted, but we were not sleeping */ EnterCriticalSection (&condvar_crit); ret = pSleepConditionVariableCS(cv, &condvar_crit, 10); LeaveCriticalSection (&condvar_crit); ok (!ret, "SleepConditionVariableCS should return FALSE on out of band wake\n"); ok (GetLastError() == ERROR_TIMEOUT, "SleepConditionVariableCS should return ERROR_TIMEOUT on out of band wake, not %d\n", GetLastError()); EnterCriticalSection (&condvar_crit); condvar_seq = 5; ret = pSleepConditionVariableCS(cv, &condvar_crit, 200); LeaveCriticalSection (&condvar_crit); ok (ret, "SleepConditionVariableCS should return TRUE on good wake\n"); EnterCriticalSection (&condvar_crit); condvar_seq = 6; ret = pSleepConditionVariableCS(cv, &condvar_crit, 200); LeaveCriticalSection (&condvar_crit); ok (ret, "SleepConditionVariableCS should return TRUE on good wakeall\n"); condvar_seq = 7; EnterCriticalSection (&condvar_crit); ret = pSleepConditionVariableCS(cv, &condvar_crit, 10); LeaveCriticalSection (&condvar_crit); ok (!ret, "SleepConditionVariableCS should return FALSE on out of band wake\n"); ok (GetLastError() == ERROR_TIMEOUT, "SleepConditionVariableCS should return ERROR_TIMEOUT on out of band wake, not %d\n", GetLastError()); EnterCriticalSection (&condvar_crit); condvar_seq = 8; ret = pSleepConditionVariableCS(cv, &condvar_crit, 20); LeaveCriticalSection (&condvar_crit); ok (ret, "SleepConditionVariableCS should still return TRUE on crit unlock delay\n"); /* skip over remaining tests if InitializeSRWLock is not available */ if (!pInitializeSRWLock) { win_skip("no srw lock support.\n"); condvar_seq = 13; /* end */ return 0; } pAcquireSRWLockExclusive(&condvar_srwlock); condvar_seq = 9; ret = pSleepConditionVariableSRW(cv, &condvar_srwlock, 200, 0); pReleaseSRWLockExclusive(&condvar_srwlock); ok (ret, "pSleepConditionVariableSRW should return TRUE on good wake\n"); pAcquireSRWLockShared(&condvar_srwlock); condvar_seq = 10; ret = pSleepConditionVariableSRW(cv, &condvar_srwlock, 200, CONDITION_VARIABLE_LOCKMODE_SHARED); pReleaseSRWLockShared(&condvar_srwlock); ok (ret, "pSleepConditionVariableSRW should return TRUE on good wake\n"); pAcquireSRWLockExclusive(&condvar_srwlock); condvar_seq = 11; ret = pSleepConditionVariableSRW(cv, &condvar_srwlock, 200, 0); pReleaseSRWLockExclusive(&condvar_srwlock); ok (ret, "pSleepConditionVariableSRW should return TRUE on good wake\n"); pAcquireSRWLockShared(&condvar_srwlock); condvar_seq = 12; ret = pSleepConditionVariableSRW(cv, &condvar_srwlock, 200, CONDITION_VARIABLE_LOCKMODE_SHARED); pReleaseSRWLockShared(&condvar_srwlock); ok (ret, "pSleepConditionVariableSRW should return TRUE on good wake\n"); condvar_seq = 13; return 0; } static void test_condvars_base(RTL_CONDITION_VARIABLE *cv) { HANDLE hp, hc; DWORD dummy; BOOL ret; if (!pInitializeConditionVariable) { /* function is not yet in XP, only in newer Windows */ win_skip("no condition variable support.\n"); return; } InitializeCriticalSection (&condvar_crit); if (pInitializeSRWLock) pInitializeSRWLock(&condvar_srwlock); EnterCriticalSection (&condvar_crit); ret = pSleepConditionVariableCS(cv, &condvar_crit, 10); LeaveCriticalSection (&condvar_crit); ok (!ret, "SleepConditionVariableCS should return FALSE on untriggered condvar\n"); ok (GetLastError() == ERROR_TIMEOUT, "SleepConditionVariableCS should return ERROR_TIMEOUT on untriggered condvar, not %d\n", GetLastError()); if (pInitializeSRWLock) { pAcquireSRWLockExclusive(&condvar_srwlock); ret = pSleepConditionVariableSRW(cv, &condvar_srwlock, 10, 0); pReleaseSRWLockExclusive(&condvar_srwlock); ok(!ret, "SleepConditionVariableSRW should return FALSE on untriggered condvar\n"); ok(GetLastError() == ERROR_TIMEOUT, "SleepConditionVariableSRW should return ERROR_TIMEOUT on untriggered condvar, not %d\n", GetLastError()); pAcquireSRWLockShared(&condvar_srwlock); ret = pSleepConditionVariableSRW(cv, &condvar_srwlock, 10, CONDITION_VARIABLE_LOCKMODE_SHARED); pReleaseSRWLockShared(&condvar_srwlock); ok(!ret, "SleepConditionVariableSRW should return FALSE on untriggered condvar\n"); ok(GetLastError() == ERROR_TIMEOUT, "SleepConditionVariableSRW should return ERROR_TIMEOUT on untriggered condvar, not %d\n", GetLastError()); } condvar_seq = 0; hp = CreateThread(NULL, 0, condvar_base_producer, cv, 0, &dummy); hc = CreateThread(NULL, 0, condvar_base_consumer, cv, 0, &dummy); condvar_seq = 1; /* go */ while (condvar_seq < 9) Sleep (5); WaitForSingleObject(hp, 100); WaitForSingleObject(hc, 100); } static LONG srwlock_seq = 0; static SRWLOCK aligned_srwlock; static struct { LONG wrong_execution_order; LONG samethread_excl_excl; LONG samethread_excl_shared; LONG samethread_shared_excl; LONG multithread_excl_excl; LONG excl_not_preferred; LONG trylock_excl; LONG trylock_shared; } srwlock_base_errors; #include "pshpack1.h" struct { char c; SRWLOCK lock; } unaligned_srwlock; #include "poppack.h" /* Sequence of acquire/release to check boundary conditions: * 0: init * * 1: thread2 acquires an exclusive lock and tries to acquire a second exclusive lock * 2: thread1 expects a deadlock and releases the waiting lock * thread2 releases the lock again * * 3: thread2 acquires an exclusive lock and tries to acquire a shared lock * 4: thread1 expects a deadlock and releases the waiting lock * thread2 releases the lock again * * 5: thread2 acquires a shared lock and tries to acquire an exclusive lock * 6: thread1 expects a deadlock and releases the waiting lock * thread2 releases the lock again * * 7: thread2 acquires and releases two nested shared locks * * 8: thread1 acquires an exclusive lock * 9: thread2 tries to acquire the exclusive lock, too * thread1 releases the exclusive lock again * 10: thread2 enters the exclusive lock and leaves it immediately again * * 11: thread1 acquires a shared lock * 12: thread2 acquires and releases a shared lock * thread1 releases the lock again * * 13: thread1 acquires a shared lock * 14: thread2 tries to acquire an exclusive lock * 15: thread3 tries to acquire a shared lock * 16: thread1 releases the shared lock * 17: thread2 wakes up and releases the exclusive lock * 18: thread3 wakes up and releases the shared lock * * the following tests will only be executed if TryAcquireSRWLock* is available * * 19: thread1 calls TryAcquireSRWLockExclusive which should return TRUE * thread1 checks the result of recursive calls to TryAcquireSRWLock* * thread1 releases the exclusive lock * * thread1 calls TryAcquireSRWLockShared which should return TRUE * thread1 checks the result of recursive calls to TryAcquireSRWLock* * thread1 releases the shared lock * * thread1 acquires an exclusive lock * 20: thread2 calls TryAcquireSRWLockShared which should return FALSE * thread2 calls TryAcquireSRWLockExclusive which should return FALSE * 21: thread1 releases the exclusive lock * * thread1 acquires an shared lock * 22: thread2 calls TryAcquireSRWLockShared which should return TRUE * thread2 calls TryAcquireSRWLockExclusive which should return FALSE * 23: thread1 releases the shared lock * * thread1 acquires a shared lock and tries to acquire an exclusive lock * 24: thread2 calls TryAcquireSRWLockShared which should return FALSE * thread2 calls TryAcquireSRWLockExclusive which should return FALSE * 25: thread1 releases the exclusive lock * * thread1 acquires two shared locks * 26: thread2 calls TryAcquireSRWLockShared which should return TRUE * thread2 calls TryAcquireSRWLockExclusive which should return FALSE * 27: thread1 releases one shared lock * 28: thread2 calls TryAcquireSRWLockShared which should return TRUE * thread2 calls TryAcquireSRWLockExclusive which should return FALSE * 29: thread1 releases the second shared lock * 30: thread2 calls TryAcquireSRWLockShared which should return TRUE * thread2 calls TryAcquireSRWLockExclusive which should return TRUE * * 31: end */ static DWORD WINAPI srwlock_base_thread1(void *arg) { SRWLOCK *lock = arg; /* seq 2 */ while (srwlock_seq < 2) Sleep(1); Sleep(100); if (InterlockedIncrement(&srwlock_seq) != 3) InterlockedIncrement(&srwlock_base_errors.samethread_excl_excl); pReleaseSRWLockExclusive(lock); /* seq 4 */ while (srwlock_seq < 4) Sleep(1); Sleep(100); if (InterlockedIncrement(&srwlock_seq) != 5) InterlockedIncrement(&srwlock_base_errors.samethread_excl_shared); pReleaseSRWLockExclusive(lock); /* seq 6 */ while (srwlock_seq < 6) Sleep(1); Sleep(100); if (InterlockedIncrement(&srwlock_seq) != 7) InterlockedIncrement(&srwlock_base_errors.samethread_shared_excl); pReleaseSRWLockShared(lock); /* seq 8 */ while (srwlock_seq < 8) Sleep(1); pAcquireSRWLockExclusive(lock); if (InterlockedIncrement(&srwlock_seq) != 9) InterlockedIncrement(&srwlock_base_errors.wrong_execution_order); Sleep(100); if (InterlockedIncrement(&srwlock_seq) != 10) InterlockedIncrement(&srwlock_base_errors.multithread_excl_excl); pReleaseSRWLockExclusive(lock); /* seq 11 */ while (srwlock_seq < 11) Sleep(1); pAcquireSRWLockShared(lock); if (InterlockedIncrement(&srwlock_seq) != 12) InterlockedIncrement(&srwlock_base_errors.wrong_execution_order); /* seq 13 */ while (srwlock_seq < 13) Sleep(1); pReleaseSRWLockShared(lock); pAcquireSRWLockShared(lock); if (InterlockedIncrement(&srwlock_seq) != 14) InterlockedIncrement(&srwlock_base_errors.wrong_execution_order); /* seq 16 */ while (srwlock_seq < 16) Sleep(1); Sleep(50); /* ensure that both the exclusive and shared access thread are queued */ if (InterlockedIncrement(&srwlock_seq) != 17) InterlockedIncrement(&srwlock_base_errors.wrong_execution_order); pReleaseSRWLockShared(lock); /* skip over remaining tests if TryAcquireSRWLock* is not available */ if (!pTryAcquireSRWLockExclusive) return 0; /* seq 19 */ while (srwlock_seq < 19) Sleep(1); if (pTryAcquireSRWLockExclusive(lock)) { if (pTryAcquireSRWLockShared(lock)) InterlockedIncrement(&srwlock_base_errors.trylock_shared); if (pTryAcquireSRWLockExclusive(lock)) InterlockedIncrement(&srwlock_base_errors.trylock_excl); pReleaseSRWLockExclusive(lock); } else InterlockedIncrement(&srwlock_base_errors.trylock_excl); if (pTryAcquireSRWLockShared(lock)) { if (pTryAcquireSRWLockShared(lock)) pReleaseSRWLockShared(lock); else InterlockedIncrement(&srwlock_base_errors.trylock_shared); if (pTryAcquireSRWLockExclusive(lock)) InterlockedIncrement(&srwlock_base_errors.trylock_excl); pReleaseSRWLockShared(lock); } else InterlockedIncrement(&srwlock_base_errors.trylock_shared); pAcquireSRWLockExclusive(lock); if (InterlockedIncrement(&srwlock_seq) != 20) InterlockedIncrement(&srwlock_base_errors.wrong_execution_order); /* seq 21 */ while (srwlock_seq < 21) Sleep(1); pReleaseSRWLockExclusive(lock); pAcquireSRWLockShared(lock); if (InterlockedIncrement(&srwlock_seq) != 22) InterlockedIncrement(&srwlock_base_errors.wrong_execution_order); /* seq 23 */ while (srwlock_seq < 23) Sleep(1); pReleaseSRWLockShared(lock); pAcquireSRWLockShared(lock); if (InterlockedIncrement(&srwlock_seq) != 24) InterlockedIncrement(&srwlock_base_errors.wrong_execution_order); /* seq 25 */ pAcquireSRWLockExclusive(lock); if (srwlock_seq != 25) InterlockedIncrement(&srwlock_base_errors.wrong_execution_order); pReleaseSRWLockExclusive(lock); pAcquireSRWLockShared(lock); pAcquireSRWLockShared(lock); if (InterlockedIncrement(&srwlock_seq) != 26) InterlockedIncrement(&srwlock_base_errors.wrong_execution_order); /* seq 27 */ while (srwlock_seq < 27) Sleep(1); pReleaseSRWLockShared(lock); if (InterlockedIncrement(&srwlock_seq) != 28) InterlockedIncrement(&srwlock_base_errors.wrong_execution_order); /* seq 29 */ while (srwlock_seq < 29) Sleep(1); pReleaseSRWLockShared(lock); if (InterlockedIncrement(&srwlock_seq) != 30) InterlockedIncrement(&srwlock_base_errors.wrong_execution_order); return 0; } static DWORD WINAPI srwlock_base_thread2(void *arg) { SRWLOCK *lock = arg; /* seq 1 */ while (srwlock_seq < 1) Sleep(1); pAcquireSRWLockExclusive(lock); if (InterlockedIncrement(&srwlock_seq) != 2) InterlockedIncrement(&srwlock_base_errors.wrong_execution_order); /* seq 3 */ pAcquireSRWLockExclusive(lock); if (srwlock_seq != 3) InterlockedIncrement(&srwlock_base_errors.samethread_excl_excl); pReleaseSRWLockExclusive(lock); pAcquireSRWLockExclusive(lock); if (InterlockedIncrement(&srwlock_seq) != 4) InterlockedIncrement(&srwlock_base_errors.wrong_execution_order); /* seq 5 */ pAcquireSRWLockShared(lock); if (srwlock_seq != 5) InterlockedIncrement(&srwlock_base_errors.samethread_excl_shared); pReleaseSRWLockShared(lock); pAcquireSRWLockShared(lock); if (InterlockedIncrement(&srwlock_seq) != 6) InterlockedIncrement(&srwlock_base_errors.wrong_execution_order); /* seq 7 */ pAcquireSRWLockExclusive(lock); if (srwlock_seq != 7) InterlockedIncrement(&srwlock_base_errors.samethread_shared_excl); pReleaseSRWLockExclusive(lock); pAcquireSRWLockShared(lock); pAcquireSRWLockShared(lock); pReleaseSRWLockShared(lock); pReleaseSRWLockShared(lock); if (InterlockedIncrement(&srwlock_seq) != 8) InterlockedIncrement(&srwlock_base_errors.wrong_execution_order); /* seq 9, 10 */ while (srwlock_seq < 9) Sleep(1); pAcquireSRWLockExclusive(lock); if (srwlock_seq != 10) InterlockedIncrement(&srwlock_base_errors.multithread_excl_excl); pReleaseSRWLockExclusive(lock); if (InterlockedIncrement(&srwlock_seq) != 11) InterlockedIncrement(&srwlock_base_errors.wrong_execution_order); /* seq 12 */ while (srwlock_seq < 12) Sleep(1); pAcquireSRWLockShared(lock); pReleaseSRWLockShared(lock); if (InterlockedIncrement(&srwlock_seq) != 13) InterlockedIncrement(&srwlock_base_errors.wrong_execution_order); /* seq 14 */ while (srwlock_seq < 14) Sleep(1); if (InterlockedIncrement(&srwlock_seq) != 15) InterlockedIncrement(&srwlock_base_errors.wrong_execution_order); /* seq 17 */ pAcquireSRWLockExclusive(lock); if (srwlock_seq != 17) InterlockedIncrement(&srwlock_base_errors.excl_not_preferred); if (InterlockedIncrement(&srwlock_seq) != 18) InterlockedIncrement(&srwlock_base_errors.wrong_execution_order); pReleaseSRWLockExclusive(lock); /* skip over remaining tests if TryAcquireSRWLock* is not available */ if (!pTryAcquireSRWLockExclusive) return 0; /* seq 20 */ while (srwlock_seq < 20) Sleep(1); if (pTryAcquireSRWLockShared(lock)) InterlockedIncrement(&srwlock_base_errors.trylock_shared); if (pTryAcquireSRWLockExclusive(lock)) InterlockedIncrement(&srwlock_base_errors.trylock_excl); if (InterlockedIncrement(&srwlock_seq) != 21) InterlockedIncrement(&srwlock_base_errors.wrong_execution_order); /* seq 22 */ while (srwlock_seq < 22) Sleep(1); if (pTryAcquireSRWLockShared(lock)) pReleaseSRWLockShared(lock); else InterlockedIncrement(&srwlock_base_errors.trylock_shared); if (pTryAcquireSRWLockExclusive(lock)) InterlockedIncrement(&srwlock_base_errors.trylock_excl); if (InterlockedIncrement(&srwlock_seq) != 23) InterlockedIncrement(&srwlock_base_errors.wrong_execution_order); /* seq 24 */ while (srwlock_seq < 24) Sleep(1); Sleep(50); /* ensure that exclusive access request is queued */ if (pTryAcquireSRWLockShared(lock)) { pReleaseSRWLockShared(lock); InterlockedIncrement(&srwlock_base_errors.excl_not_preferred); } if (pTryAcquireSRWLockExclusive(lock)) InterlockedIncrement(&srwlock_base_errors.trylock_excl); if (InterlockedIncrement(&srwlock_seq) != 25) InterlockedIncrement(&srwlock_base_errors.wrong_execution_order); pReleaseSRWLockShared(lock); /* seq 26 */ while (srwlock_seq < 26) Sleep(1); if (pTryAcquireSRWLockShared(lock)) pReleaseSRWLockShared(lock); else InterlockedIncrement(&srwlock_base_errors.trylock_shared); if (pTryAcquireSRWLockExclusive(lock)) InterlockedIncrement(&srwlock_base_errors.trylock_excl); if (InterlockedIncrement(&srwlock_seq) != 27) InterlockedIncrement(&srwlock_base_errors.wrong_execution_order); /* seq 28 */ while (srwlock_seq < 28) Sleep(1); if (pTryAcquireSRWLockShared(lock)) pReleaseSRWLockShared(lock); else InterlockedIncrement(&srwlock_base_errors.trylock_shared); if (pTryAcquireSRWLockExclusive(lock)) InterlockedIncrement(&srwlock_base_errors.trylock_excl); if (InterlockedIncrement(&srwlock_seq) != 29) InterlockedIncrement(&srwlock_base_errors.wrong_execution_order); /* seq 30 */ while (srwlock_seq < 30) Sleep(1); if (pTryAcquireSRWLockShared(lock)) pReleaseSRWLockShared(lock); else InterlockedIncrement(&srwlock_base_errors.trylock_shared); if (pTryAcquireSRWLockExclusive(lock)) pReleaseSRWLockExclusive(lock); else InterlockedIncrement(&srwlock_base_errors.trylock_excl); if (InterlockedIncrement(&srwlock_seq) != 31) InterlockedIncrement(&srwlock_base_errors.wrong_execution_order); return 0; } static DWORD WINAPI srwlock_base_thread3(void *arg) { SRWLOCK *lock = arg; /* seq 15 */ while (srwlock_seq < 15) Sleep(1); Sleep(50); /* some delay, so that thread2 can try to acquire a second exclusive lock */ if (InterlockedIncrement(&srwlock_seq) != 16) InterlockedIncrement(&srwlock_base_errors.wrong_execution_order); /* seq 18 */ pAcquireSRWLockShared(lock); if (srwlock_seq != 18) InterlockedIncrement(&srwlock_base_errors.excl_not_preferred); pReleaseSRWLockShared(lock); if (InterlockedIncrement(&srwlock_seq) != 19) InterlockedIncrement(&srwlock_base_errors.wrong_execution_order); /* skip over remaining tests if TryAcquireSRWLock* is not available */ if (!pTryAcquireSRWLockExclusive) { /* function is only in Windows 7 and newer */ win_skip("no srw trylock support.\n"); srwlock_seq = 31; /* end */ return 0; } return 0; } static void test_srwlock_base(SRWLOCK *lock) { HANDLE h1, h2, h3; DWORD dummy; if (!pInitializeSRWLock) { /* function is not yet in XP, only in newer Windows */ win_skip("no srw lock support.\n"); return; } pInitializeSRWLock(lock); memset(&srwlock_base_errors, 0, sizeof(srwlock_base_errors)); srwlock_seq = 0; h1 = CreateThread(NULL, 0, srwlock_base_thread1, lock, 0, &dummy); h2 = CreateThread(NULL, 0, srwlock_base_thread2, lock, 0, &dummy); h3 = CreateThread(NULL, 0, srwlock_base_thread3, lock, 0, &dummy); srwlock_seq = 1; /* go */ while (srwlock_seq < 31) Sleep(5); WaitForSingleObject(h1, 100); WaitForSingleObject(h2, 100); WaitForSingleObject(h3, 100); ok(!srwlock_base_errors.wrong_execution_order, "thread commands were executed in the wrong order (occurred %d times).\n", srwlock_base_errors.wrong_execution_order); ok(!srwlock_base_errors.samethread_excl_excl, "AcquireSRWLockExclusive didn't block when called multiple times from the same thread (occurred %d times).\n", srwlock_base_errors.samethread_excl_excl); ok(!srwlock_base_errors.samethread_excl_shared, "AcquireSRWLockShared didn't block when the same thread holds an exclusive lock (occurred %d times).\n", srwlock_base_errors.samethread_excl_shared); ok(!srwlock_base_errors.samethread_shared_excl, "AcquireSRWLockExclusive didn't block when the same thread holds a shared lock (occurred %d times).\n", srwlock_base_errors.samethread_shared_excl); ok(!srwlock_base_errors.multithread_excl_excl, "AcquireSRWLockExclusive didn't block when a second thread holds the exclusive lock (occurred %d times).\n", srwlock_base_errors.multithread_excl_excl); ok(!srwlock_base_errors.excl_not_preferred, "thread waiting for exclusive access to the SHMLock was not preferred (occurred %d times).\n", srwlock_base_errors.excl_not_preferred); ok(!srwlock_base_errors.trylock_excl, "TryAcquireSRWLockExclusive didn't behave as expected (occurred %d times).\n", srwlock_base_errors.trylock_excl); ok(!srwlock_base_errors.trylock_shared, "TryAcquireSRWLockShared didn't behave as expected (occurred %d times).\n", srwlock_base_errors.trylock_shared); } static SRWLOCK srwlock_example; static LONG srwlock_protected_value = 0; static LONG srwlock_example_errors = 0, srwlock_inside = 0, srwlock_cnt = 0; static BOOL srwlock_stop = FALSE; static DWORD WINAPI srwlock_example_thread(LPVOID x) { DWORD *cnt = x; LONG old; while (!srwlock_stop) { /* periodically request exclusive access */ if (InterlockedIncrement(&srwlock_cnt) % 13 == 0) { pAcquireSRWLockExclusive(&srwlock_example); if (InterlockedIncrement(&srwlock_inside) != 1) InterlockedIncrement(&srwlock_example_errors); InterlockedIncrement(&srwlock_protected_value); Sleep(1); if (InterlockedDecrement(&srwlock_inside) != 0) InterlockedIncrement(&srwlock_example_errors); pReleaseSRWLockExclusive(&srwlock_example); } /* request shared access */ pAcquireSRWLockShared(&srwlock_example); InterlockedIncrement(&srwlock_inside); old = srwlock_protected_value; (*cnt)++; Sleep(1); if (old != srwlock_protected_value) InterlockedIncrement(&srwlock_example_errors); InterlockedDecrement(&srwlock_inside); pReleaseSRWLockShared(&srwlock_example); } return 0; } static void test_srwlock_example(void) { HANDLE h1, h2, h3; DWORD dummy; DWORD cnt1, cnt2, cnt3; if (!pInitializeSRWLock) { /* function is not yet in XP, only in newer Windows */ win_skip("no srw lock support.\n"); return; } pInitializeSRWLock(&srwlock_example); cnt1 = cnt2 = cnt3 = 0; h1 = CreateThread(NULL, 0, srwlock_example_thread, &cnt1, 0, &dummy); h2 = CreateThread(NULL, 0, srwlock_example_thread, &cnt2, 0, &dummy); h3 = CreateThread(NULL, 0, srwlock_example_thread, &cnt3, 0, &dummy); /* limit run to 1 second. */ Sleep(1000); /* tear down start */ srwlock_stop = TRUE; WaitForSingleObject(h1, 1000); WaitForSingleObject(h2, 1000); WaitForSingleObject(h3, 1000); ok(!srwlock_inside, "threads didn't terminate properly, srwlock_inside is %d.\n", srwlock_inside); ok(!srwlock_example_errors, "errors occurred while running SRWLock example test (number of errors: %d)\n", srwlock_example_errors); trace("number of shared accesses per thread are c1 %d, c2 %d, c3 %d\n", cnt1, cnt2, cnt3); trace("number of total exclusive accesses is %d\n", srwlock_protected_value); } static DWORD WINAPI alertable_wait_thread(void *param) { HANDLE *semaphores = param; LARGE_INTEGER timeout; NTSTATUS status; DWORD result; ReleaseSemaphore(semaphores[0], 1, NULL); result = WaitForMultipleObjectsEx(1, &semaphores[1], TRUE, 1000, TRUE); ok(result == WAIT_IO_COMPLETION, "expected WAIT_IO_COMPLETION, got %u\n", result); result = WaitForMultipleObjectsEx(1, &semaphores[1], TRUE, 200, TRUE); ok(result == WAIT_OBJECT_0, "expected WAIT_OBJECT_0, got %u\n", result); ReleaseSemaphore(semaphores[0], 1, NULL); timeout.QuadPart = -10000000; status = pNtWaitForMultipleObjects(1, &semaphores[1], FALSE, TRUE, &timeout); ok(status == STATUS_USER_APC, "expected STATUS_USER_APC, got %08x\n", status); timeout.QuadPart = -2000000; status = pNtWaitForMultipleObjects(1, &semaphores[1], FALSE, TRUE, &timeout); ok(status == STATUS_WAIT_0, "expected STATUS_WAIT_0, got %08x\n", status); ReleaseSemaphore(semaphores[0], 1, NULL); timeout.QuadPart = -10000000; status = pNtWaitForMultipleObjects(1, &semaphores[1], FALSE, TRUE, &timeout); ok(status == STATUS_USER_APC, "expected STATUS_USER_APC, got %08x\n", status); result = WaitForSingleObject(semaphores[0], 0); ok(result == WAIT_TIMEOUT, "expected WAIT_TIMEOUT, got %u\n", result); return 0; } static void CALLBACK alertable_wait_apc(ULONG_PTR userdata) { HANDLE *semaphores = (void *)userdata; ReleaseSemaphore(semaphores[1], 1, NULL); } static void CALLBACK alertable_wait_apc2(ULONG_PTR userdata) { HANDLE *semaphores = (void *)userdata; DWORD result; result = WaitForSingleObject(semaphores[0], 1000); ok(result == WAIT_OBJECT_0, "expected WAIT_OBJECT_0, got %u\n", result); } static void test_alertable_wait(void) { HANDLE thread, semaphores[2]; DWORD result; semaphores[0] = CreateSemaphoreW(NULL, 0, 2, NULL); ok(semaphores[0] != NULL, "CreateSemaphore failed with %u\n", GetLastError()); semaphores[1] = CreateSemaphoreW(NULL, 0, 1, NULL); ok(semaphores[1] != NULL, "CreateSemaphore failed with %u\n", GetLastError()); thread = CreateThread(NULL, 0, alertable_wait_thread, semaphores, 0, NULL); ok(thread != NULL, "CreateThread failed with %u\n", GetLastError()); result = WaitForSingleObject(semaphores[0], 1000); ok(result == WAIT_OBJECT_0, "expected WAIT_OBJECT_0, got %u\n", result); Sleep(100); /* ensure the thread is blocking in WaitForMultipleObjectsEx */ result = QueueUserAPC(alertable_wait_apc, thread, (ULONG_PTR)semaphores); ok(result != 0, "QueueUserAPC failed with %u\n", GetLastError()); result = WaitForSingleObject(semaphores[0], 1000); ok(result == WAIT_OBJECT_0, "expected WAIT_OBJECT_0, got %u\n", result); Sleep(100); /* ensure the thread is blocking in NtWaitForMultipleObjects */ result = QueueUserAPC(alertable_wait_apc, thread, (ULONG_PTR)semaphores); ok(result != 0, "QueueUserAPC failed with %u\n", GetLastError()); result = WaitForSingleObject(semaphores[0], 1000); ok(result == WAIT_OBJECT_0, "expected WAIT_OBJECT_0, got %u\n", result); Sleep(100); /* ensure the thread is blocking in NtWaitForMultipleObjects */ result = QueueUserAPC(alertable_wait_apc2, thread, (ULONG_PTR)semaphores); ok(result != 0, "QueueUserAPC failed with %u\n", GetLastError()); result = QueueUserAPC(alertable_wait_apc2, thread, (ULONG_PTR)semaphores); ok(result != 0, "QueueUserAPC failed with %u\n", GetLastError()); ReleaseSemaphore(semaphores[0], 2, NULL); result = WaitForSingleObject(thread, 1000); ok(result == WAIT_OBJECT_0, "expected WAIT_OBJECT_0, got %u\n", result); CloseHandle(thread); CloseHandle(semaphores[0]); CloseHandle(semaphores[1]); } struct apc_deadlock_info { PROCESS_INFORMATION *pi; HANDLE event; BOOL running; }; static DWORD WINAPI apc_deadlock_thread(void *param) { struct apc_deadlock_info *info = param; PROCESS_INFORMATION *pi = info->pi; NTSTATUS status; SIZE_T size; void *base; while (info->running) { base = NULL; size = 0x1000; status = pNtAllocateVirtualMemory(pi->hProcess, &base, 0, &size, MEM_RESERVE | MEM_COMMIT, PAGE_READWRITE); ok(!status, "expected STATUS_SUCCESS, got %08x\n", status); ok(base != NULL, "expected base != NULL, got %p\n", base); SetEvent(info->event); size = 0; status = pNtFreeVirtualMemory(pi->hProcess, &base, &size, MEM_RELEASE); ok(!status, "expected STATUS_SUCCESS, got %08x\n", status); SetEvent(info->event); } return 0; } static void test_apc_deadlock(void) { struct apc_deadlock_info info; PROCESS_INFORMATION pi; STARTUPINFOA si = { sizeof(si) }; char cmdline[MAX_PATH]; HANDLE event, thread; DWORD result; BOOL success; char **argv; int i; winetest_get_mainargs(&argv); sprintf(cmdline, "\"%s\" sync apc_deadlock", argv[0]); success = CreateProcessA(argv[0], cmdline, NULL, NULL, FALSE, 0, NULL, NULL, &si, &pi); ok(success, "CreateProcess failed with %u\n", GetLastError()); event = CreateEventA(NULL, FALSE, FALSE, NULL); ok(event != NULL, "CreateEvent failed with %u\n", GetLastError()); info.pi = π info.event = event; info.running = TRUE; thread = CreateThread(NULL, 0, apc_deadlock_thread, &info, 0, NULL); ok(thread != NULL, "CreateThread failed with %u\n", GetLastError()); result = WaitForSingleObject(event, 1000); ok(result == WAIT_OBJECT_0, "expected WAIT_OBJECT_0, got %u\n", result); for (i = 0; i < 1000 && info.running; i++) { result = SuspendThread(pi.hThread); ok(result == 0, "expected 0, got %u\n", result); WaitForSingleObject(event, 0); /* reset event */ result = WaitForSingleObject(event, 1000); if (result == WAIT_TIMEOUT) { todo_wine ok(result == WAIT_OBJECT_0, "expected WAIT_OBJECT_0, got %u\n", result); info.running = FALSE; } else ok(result == WAIT_OBJECT_0, "expected WAIT_OBJECT_0, got %u\n", result); result = ResumeThread(pi.hThread); ok(result == 1, "expected 1, got %u\n", result); Sleep(1); } info.running = FALSE; result = WaitForSingleObject(thread, 1000); ok(result == WAIT_OBJECT_0, "expected WAIT_OBJECT_0, got %u\n", result); CloseHandle(thread); CloseHandle(event); TerminateProcess(pi.hProcess, 0); CloseHandle(pi.hThread); CloseHandle(pi.hProcess); } static void test_crit_section(void) { CRITICAL_SECTION cs; BOOL ret; /* Win8+ does not initialize debug info, one has to use RTL_CRITICAL_SECTION_FLAG_FORCE_DEBUG_INFO to override that. */ memset(&cs, 0, sizeof(cs)); InitializeCriticalSection(&cs); ok(cs.DebugInfo != NULL, "Unexpected debug info pointer %p.\n", cs.DebugInfo); DeleteCriticalSection(&cs); ok(cs.DebugInfo == NULL, "Unexpected debug info pointer %p.\n", cs.DebugInfo); if (!pInitializeCriticalSectionEx) { win_skip("InitializeCriticalSectionEx isn't available, skipping tests.\n"); return; } memset(&cs, 0, sizeof(cs)); ret = pInitializeCriticalSectionEx(&cs, 0, CRITICAL_SECTION_NO_DEBUG_INFO); ok(ret, "Failed to initialize critical section.\n"); ok(cs.DebugInfo == (void *)(ULONG_PTR)-1, "Unexpected debug info pointer %p.\n", cs.DebugInfo); ret = TryEnterCriticalSection(&cs); ok(ret, "Failed to enter critical section.\n"); LeaveCriticalSection(&cs); cs.DebugInfo = NULL; ret = TryEnterCriticalSection(&cs); ok(ret, "Failed to enter critical section.\n"); LeaveCriticalSection(&cs); DeleteCriticalSection(&cs); ok(cs.DebugInfo == NULL, "Unexpected debug info pointer %p.\n", cs.DebugInfo); } static DWORD WINAPI thread_proc(LPVOID unused) { Sleep(INFINITE); return 0; } static void CALLBACK user_apc(ULONG_PTR unused) { } static void CALLBACK call_user_apc(ULONG_PTR arg1, ULONG_PTR arg2, ULONG_PTR arg3) { PAPCFUNC func = (PAPCFUNC)arg1; func(arg2); } static void test_QueueUserAPC(void) { HANDLE thread; DWORD tid, ret; thread = CreateThread(NULL, 0, thread_proc, NULL, CREATE_SUSPENDED, &tid); ok(thread != NULL, "CreateThread error %u\n", GetLastError()); ret = TerminateThread(thread, 0xdeadbeef); ok(ret, "TerminateThread error %u\n", GetLastError()); ret = WaitForSingleObject(thread, 1000); ok(ret == WAIT_OBJECT_0, "got %u\n", ret); ret = pNtQueueApcThread(thread, call_user_apc, (ULONG_PTR)user_apc, 0, 0); ok(ret == STATUS_UNSUCCESSFUL, "got %#x\n", ret); ret = pNtQueueApcThread(thread, NULL, 0, 0, 0); ok(ret == STATUS_UNSUCCESSFUL, "got %#x\n", ret); SetLastError(0xdeadbeef); ret = QueueUserAPC(user_apc, thread, 0); ok(!ret, "QueueUserAPC should fail\n"); ok(GetLastError() == ERROR_GEN_FAILURE, "got %u\n", GetLastError()); CloseHandle(thread); ret = QueueUserAPC(user_apc, GetCurrentThread(), 0); ok(ret, "QueueUserAPC failed err %u\n", GetLastError()); ret = SleepEx( 100, TRUE ); ok( ret == WAIT_IO_COMPLETION, "SleepEx returned %u\n", ret); ret = pNtQueueApcThread( GetCurrentThread(), NULL, 0, 0, 0 ); ok( !ret, "got %#x\n", ret); ret = SleepEx( 100, TRUE ); ok( ret == WAIT_OBJECT_0, "SleepEx returned %u\n", ret); } START_TEST(sync) { char **argv; int argc; HMODULE hdll = GetModuleHandleA("kernel32.dll"); HMODULE hntdll = GetModuleHandleA("ntdll.dll"); pInitOnceInitialize = (void *)GetProcAddress(hdll, "InitOnceInitialize"); pInitOnceExecuteOnce = (void *)GetProcAddress(hdll, "InitOnceExecuteOnce"); pInitOnceBeginInitialize = (void *)GetProcAddress(hdll, "InitOnceBeginInitialize"); pInitOnceComplete = (void *)GetProcAddress(hdll, "InitOnceComplete"); pInitializeConditionVariable = (void *)GetProcAddress(hdll, "InitializeConditionVariable"); pSleepConditionVariableCS = (void *)GetProcAddress(hdll, "SleepConditionVariableCS"); pSleepConditionVariableSRW = (void *)GetProcAddress(hdll, "SleepConditionVariableSRW"); pWakeAllConditionVariable = (void *)GetProcAddress(hdll, "WakeAllConditionVariable"); pWakeConditionVariable = (void *)GetProcAddress(hdll, "WakeConditionVariable"); pInitializeCriticalSectionEx = (void *)GetProcAddress(hdll, "InitializeCriticalSectionEx"); pInitializeSRWLock = (void *)GetProcAddress(hdll, "InitializeSRWLock"); pAcquireSRWLockExclusive = (void *)GetProcAddress(hdll, "AcquireSRWLockExclusive"); pAcquireSRWLockShared = (void *)GetProcAddress(hdll, "AcquireSRWLockShared"); pReleaseSRWLockExclusive = (void *)GetProcAddress(hdll, "ReleaseSRWLockExclusive"); pReleaseSRWLockShared = (void *)GetProcAddress(hdll, "ReleaseSRWLockShared"); pTryAcquireSRWLockExclusive = (void *)GetProcAddress(hdll, "TryAcquireSRWLockExclusive"); pTryAcquireSRWLockShared = (void *)GetProcAddress(hdll, "TryAcquireSRWLockShared"); pNtAllocateVirtualMemory = (void *)GetProcAddress(hntdll, "NtAllocateVirtualMemory"); pNtFreeVirtualMemory = (void *)GetProcAddress(hntdll, "NtFreeVirtualMemory"); pNtWaitForSingleObject = (void *)GetProcAddress(hntdll, "NtWaitForSingleObject"); pNtWaitForMultipleObjects = (void *)GetProcAddress(hntdll, "NtWaitForMultipleObjects"); pRtlInterlockedPushListSList = (void *)GetProcAddress(hntdll, "RtlInterlockedPushListSList"); pRtlInterlockedPushListSListEx = (void *)GetProcAddress(hntdll, "RtlInterlockedPushListSListEx"); pNtQueueApcThread = (void *)GetProcAddress(hntdll, "NtQueueApcThread"); argc = winetest_get_mainargs( &argv ); if (argc >= 3) { if (!strcmp(argv[2], "apc_deadlock")) { for (;;) SleepEx(INFINITE, TRUE); } return; } init_fastcall_thunk(); test_QueueUserAPC(); test_signalandwait(); test_mutex(); test_slist(); test_event(); test_semaphore(); test_waitable_timer(); test_iocp_callback(); test_timer_queue(); test_WaitForSingleObject(); test_WaitForMultipleObjects(); test_initonce(); test_condvars_base(&aligned_cv); test_condvars_base(&unaligned_cv.cv); test_condvars_consumer_producer(); test_srwlock_base(&aligned_srwlock); test_srwlock_base(&unaligned_srwlock.lock); test_srwlock_example(); test_alertable_wait(); test_apc_deadlock(); test_crit_section(); }