/*++ Copyright (c) 2001 Microsoft Corporation Module Name: nbtest.c Abstract: This module contains code to stress test the nonblocking queue functions. Author: David N. Cutler (davec) 19-May-2001 Environment: Kernel mode only. Revision History: --*/ #include "stdlib.h" #include "stdio.h" #include "string.h" #include "nt.h" #include "ntrtl.h" #include "nturtl.h" #include "zwapi.h" #include "windef.h" #include "winbase.h" // // Define locals constants. // #define TABLE_SIZE 2 #define THREAD_NUMBER 2 // // Define external prototypes. // typedef struct _NBQUEUE_BLOCK { ULONG64 Next; ULONG64 Data; } NBQUEUE_BLOCK, *PNBQUEUE_BLOCK; PVOID ExInitializeNBQueueHead ( IN PSLIST_HEADER SlistHead ); BOOLEAN ExInsertTailNBQueue ( IN PVOID Header, IN ULONG64 Value ); BOOLEAN ExRemoveHeadNBQueue ( IN PVOID Header, OUT PULONG64 Value ); // // Define local routine prototypes. // NTSTATUS MyCreateThread ( OUT PHANDLE Handle, IN PUSER_THREAD_START_ROUTINE StartRoutine, PVOID Context ); VOID StressNBQueueEven ( VOID ); VOID StressNBQueueOdd ( VOID ); NTSTATUS ThreadMain ( IN PVOID Context ); // // Define static storage. // HANDLE Thread1Handle; HANDLE Thread2Handle; HANDLE Thread3Handle; HANDLE Thread4Handle; HANDLE Thread5Handle; HANDLE Thread6Handle; HANDLE Thread7Handle; HANDLE Thread8Handle; // // Define nonblocking queues // PVOID ClrQueue; PVOID SetQueue; SLIST_HEADER SListHead; LONG Table[TABLE_SIZE]; volatile ULONG StartSignal = 0; ULONG StopSignal = 0; // // Begin test code. // int __cdecl main( int argc, char *argv[] ) { ULONG Index; PSINGLE_LIST_ENTRY Entry; NTSTATUS Status; // // Initialize the SLIST headers and insert TABLE_SIZE + 2 entries. // RtlInitializeSListHead(&SListHead); for (Index = 0; Index < (TABLE_SIZE + 2); Index += 1) { Entry = (PSINGLE_LIST_ENTRY)malloc(sizeof(NBQUEUE_BLOCK)); if (Entry == NULL) { printf("unable to allocate SLIST entry\n"); return 0; } InterlockedPushEntrySList(&SListHead, Entry); } // // Initialize the clear entry nonblocking queue elements. // ClrQueue = ExInitializeNBQueueHead(&SListHead); if (ClrQueue == NULL) { printf("unable to initialize clr nonblock queue\n"); return 0; } for (Index = 0; Index < (TABLE_SIZE / 2); Index += 1) { if (ExInsertTailNBQueue(ClrQueue, Index) == FALSE) { printf("unable to insert in clear nonblocking queue\n"); return 0; } Table[Index] = 0; } // // Initialize the set entry nonblocking queue elements. // SetQueue = ExInitializeNBQueueHead(&SListHead); if (SetQueue == NULL) { printf("unable to initialize set nonblock queue\n"); return 0; } for (Index = (TABLE_SIZE / 2); Index < TABLE_SIZE; Index += 1) { if (ExInsertTailNBQueue(SetQueue, Index) == FALSE) { printf("unable to insert in set nonblocking queue\n"); return 0; } Table[Index] = 1; } // // Create and start the background timer thread. // Status = MyCreateThread(&Thread1Handle, ThreadMain, (PVOID)1); if (!NT_SUCCESS(Status)) { printf("Failed to create thread during initialization\n"); return 0; } else { StartSignal = 1; StressNBQueueEven(); } return 0; } VOID StressNBQueueEven ( VOID ) { ULONG64 Value; do { do { // // Attempt to remove an entry from the clear queue. // // Entries in this list should be clear in the table array. // if (ExRemoveHeadNBQueue(ClrQueue, &Value) != FALSE) { if ((ULONG)Value > 63) { StopSignal = 1; DbgBreakPoint(); } if (InterlockedExchange(&Table[(ULONG)Value], 1) != 0) { StopSignal = 1; DbgBreakPoint(); } if (ExInsertTailNBQueue(SetQueue, (ULONG)Value) == FALSE) { StopSignal = 1; DbgBreakPoint(); } } else { break; } } while (TRUE); do { // // Attempt to remove an entry from the set queue. // // Entries in this list should be set in the table array. // if (ExRemoveHeadNBQueue(SetQueue, &Value) != FALSE) { if ((ULONG)Value > 63) { StopSignal = 1; DbgBreakPoint(); } if (InterlockedExchange(&Table[(ULONG)Value], 0) != 1) { StopSignal = 1; DbgBreakPoint(); } if (ExInsertTailNBQueue(ClrQueue, (ULONG)Value) == FALSE) { StopSignal = 1; DbgBreakPoint(); } } else { break; } } while (TRUE); } while (TRUE); return; } VOID StressNBQueueOdd ( VOID ) { ULONG64 Value; do { do { // // Attempt to remove an entry from the set queue. // // Entries in this list should be set in the table array. // if (ExRemoveHeadNBQueue(SetQueue, &Value) != FALSE) { if ((ULONG)Value > 63) { StopSignal = 1; DbgBreakPoint(); } if (InterlockedExchange(&Table[(ULONG)Value], 0) != 1) { StopSignal = 1; DbgBreakPoint(); } if (ExInsertTailNBQueue(ClrQueue, (ULONG)Value) == FALSE) { StopSignal = 1; DbgBreakPoint(); } } else { break; } } while (TRUE); do { // // Attempt to remove an entry from the clear queue. // // Entries in this list should be clear in the table array. // if (ExRemoveHeadNBQueue(ClrQueue, &Value) != FALSE) { if ((ULONG)Value > 63) { StopSignal = 1; DbgBreakPoint(); } if (InterlockedExchange(&Table[(ULONG)Value], 1) != 0) { StopSignal = 1; DbgBreakPoint(); } if (ExInsertTailNBQueue(SetQueue, (ULONG)Value) == FALSE) { StopSignal = 1; DbgBreakPoint(); } } else { break; } } while (TRUE); } while (TRUE); return; } NTSTATUS ThreadMain ( IN PVOID Context ) { // // Wait until start signal is given. // do { } while (StartSignal == 0); if (((ULONG_PTR)Context & 1) == 0) { StressNBQueueEven(); } else { StressNBQueueOdd(); } return STATUS_SUCCESS; } NTSTATUS MyCreateThread ( OUT PHANDLE Handle, IN PUSER_THREAD_START_ROUTINE StartRoutine, PVOID Context ) { NTSTATUS Status; // // Create a thread and start its execution. // Status = RtlCreateUserThread(NtCurrentProcess(), NULL, FALSE, 0, 0, 0, StartRoutine, Context, Handle, NULL); if (!NT_SUCCESS(Status)) { return Status; } return Status; }