// // Universal Resource Consumer: Just an innocent stress program // Copyright (c) Microsoft Corporation, 1997, 1998, 1999 // // // module: consume.cxx // author: silviuc // created: Fri Apr 10 14:32:17 1998 // // history: // johnfu added/modfied -paged-pool and -nonpaged-pool // removed -paged-pool-bad and -nonpaged-pool-bad // #include #include #include #include #include #include "error.hxx" #include "physmem.hxx" #include "pagefile.hxx" #include "pool.hxx" #include "disk.hxx" #include "cputime.hxx" #include "consume.hxx" #define Main main VOID CreatePhysicalMemoryConsumers (); VOID CreatePageFileConsumers (); VOID CreateKernelPoolConsumers (); // // Table of contents (local functions) // static void SleepSomeTime (DWORD TimeOut, HANDLE Job); static void Help (); static char * * SearchCmdlineOption ( char * Search, char * * Options); #define SIZE_1_GB 0x40000000 // // Function: // // Main // // Description: // // Main function. // void _cdecl Main ( int argc, char *argv []) { DWORD TimeOut = INFINITE; HANDLE Job = NULL; BOOL Result; // // Is help requested? // if (argc == 1 || (argc == 2 && strcmp (argv[1], "?") == 0) || (argc == 2 && strcmp (argv[1], "/?") == 0) || (argc == 2 && strcmp (argv[1], "-?") == 0) || (argc == 2 && strcmp (argv[1], "-h") == 0) || (argc == 2 && strcmp (argv[1], "/h") == 0) || (argc == 2 && strcmp (argv[1], "-help") == 0)) { Help (); } // // Randomize the seed. // srand ((unsigned)time(0)); // // Create a job object and assign it to itself. This will help // terminating baby consumer processes. However the assign will // fail if the consumer is already inside a job object (e.g. dks // scheduler). // Job = CreateJobObject (0, 0); Result = AssignProcessToJobObject (Job, GetCurrentProcess()); if (Job && Result) { Message ("Successfully assigned process to a job object ..."); } // // Figure out if a time out parameter has been specified. // { char * * Option; Option = SearchCmdlineOption ("-time", argv); if (Option && *(Option + 1)) { TimeOut = atoi (*(Option + 1)); Message ("Time out after %u seconds.", TimeOut); TimeOut *= 1000; } } // // Parse command line. For every command we execute the consumption // scenario and then we sleep forever with the resource hold. // if (SearchCmdlineOption ("-disk-space", argv)) { ConsumeAllDiskSpace (); SleepSomeTime (TimeOut, Job); } else if (SearchCmdlineOption ("-cpu-time", argv)) { ConsumeAllCpuTime (); SleepSomeTime (TimeOut, Job); } else if (SearchCmdlineOption ("-kernel-pool", argv)) { CreateKernelPoolConsumers (); SleepSomeTime (TimeOut, Job); } else if (SearchCmdlineOption ("-physical-memory", argv)) { CreatePhysicalMemoryConsumers (); SleepSomeTime (TimeOut, Job); } else if (SearchCmdlineOption ("-page-file", argv)) { CreatePageFileConsumers (); SleepSomeTime (TimeOut, Job); } else if (SearchCmdlineOption ("-physical-memory-worker", argv)) { ConsumeAllPhysicalMemory (); SleepSomeTime (TimeOut, Job); } else if (SearchCmdlineOption ("-page-file-worker", argv)) { ConsumeAllPageFile (); SleepSomeTime (TimeOut, Job); } else if (SearchCmdlineOption ("-kernel-pool-worker", argv)) { ConsumeAllNonpagedPool (); SleepSomeTime (TimeOut, Job); } else { Help (); } } // // Function: // // SleepSomeTime // // Description: // // Sleeps forever. // static void SleepSomeTime ( DWORD TimeOut, HANDLE Job) { Message ("Sleeping ..."); fflush (stdout); if (TimeOut == INFINITE) { while (1) { Sleep (10000); } } else { Sleep (TimeOut); if (Job) { TerminateJobObject (Job, 0xAABBBBAA); } } } // // Function: // // Help // // Description: // // Prints help information to stdout. // static void Help () { printf ( "Universal Resource Consumer - Just an innocent stress program, v 0.1.0 \n" "Copyright (c) 1998, 1999, Microsoft Corporation \n" " \n" " consume RESOURCE [-time SECONDS] \n" " \n" "RESOURCE can be one of the following: \n" " \n" " -physical-memory \n" " -page-file \n" " -disk-space \n" " -cpu-time \n" " -kernel-pool \n" " \n"); exit (1); } // // Function: // // SearchCmdlineOption // // Description: // // Helper function for cmdline parsing. // static char * * SearchCmdlineOption ( char * Search, char * * Options) { for ( ; *Options; Options++) { if (_stricmp (Search, *Options) == 0) { return Options; } } return NULL; } ////////////////////////////////////////////////////////////////////// /////////////////////////////////////////////// Baby consumer creation ////////////////////////////////////////////////////////////////////// // // Function: // // CreateBabyConsumer // // Description: // // This function calls CreateProcess() with the command line // specified. This is used by some consumers that cannot eat // completely a resource from only one process. Typical examples // are physical memory and page file. Essentially in one process // you can consume up to 2Gb therefore we need more processes // for machines that have more than 2Gb of RAM. // BOOL CreateBabyConsumer ( LPTSTR CommandLine) { BOOL Result; TCHAR CmdLine [MAX_PATH]; STARTUPINFO StartInfo; PROCESS_INFORMATION ProcessInfo; strcpy (CmdLine, CommandLine); ZeroMemory (&StartInfo, sizeof StartInfo); ZeroMemory (&ProcessInfo, sizeof ProcessInfo); StartInfo.cb = sizeof StartInfo; Result = CreateProcess ( NULL, CmdLine, NULL, NULL, 0, CREATE_NEW_CONSOLE, NULL, NULL, & StartInfo, & ProcessInfo); CloseHandle (ProcessInfo.hThread); CloseHandle (ProcessInfo.hProcess); return Result; } // // Function: // // CreatePhysicalMemoryConsumers // // Description: // // This function launches enough physical memory // consumer processes to insure that the whole physical // memory gets used. // VOID CreatePhysicalMemoryConsumers () { MEMORYSTATUSEX MemoryInfo; DWORD Consumers; DWORD Index; ZeroMemory (&MemoryInfo, sizeof MemoryInfo); MemoryInfo.dwLength = sizeof MemoryInfo; GlobalMemoryStatusEx (&MemoryInfo); // // We will attempt to create a consumer for every 256Mb of physical // memory. // Consumers = 1 + (DWORD)(MemoryInfo.ullTotalPhys / SIZE_1_GB) * 4; Message ("Total physical memory: %I64X", MemoryInfo.ullTotalPhys); Message ("Available physical memory: %I64X", MemoryInfo.ullAvailPhys); Message ("Will attempt to create %u baby consumers ...", Consumers); for (Index = 0; Index < Consumers; Index++) if (CreateBabyConsumer ("consume -physical-memory-worker") == FALSE) Warning ("Cannot create baby consumer `-physical-memory-worker'"); } // // Function: // // CreatePageFileConsumers // // Description: // // This function launches enough page file // consumer processes to insure that the whole page file // gets used. // VOID CreatePageFileConsumers () { MEMORYSTATUSEX MemoryInfo; DWORD Consumers; DWORD Index; ZeroMemory (&MemoryInfo, sizeof MemoryInfo); MemoryInfo.dwLength = sizeof MemoryInfo; GlobalMemoryStatusEx (&MemoryInfo); // // We will attempt to create a consumer for every 256Mb of page file // Consumers = 1 + (DWORD)(MemoryInfo.ullTotalPageFile / SIZE_1_GB) * 4; Message ("Total page file: %I64X", MemoryInfo.ullTotalPageFile); Message ("Available page file: %I64X", MemoryInfo.ullAvailPageFile); Message ("Will attempt to create %u baby consumers ...", Consumers); for (Index = 0; Index < Consumers; Index++) if (CreateBabyConsumer ("consume -page-file-worker") == FALSE) Warning ("Cannot create baby consumer `-page-file-worker'"); } // // Function: // // CreateKernelPoolConsumers // // Description: // // This function launches enough kernel pool // consumer processes to insure that the whole // non paged pool gets used. // VOID CreateKernelPoolConsumers () { DWORD Consumers; DWORD Index; // // We will attempt to create 4 consumers // Consumers = 4; for (Index = 0; Index < Consumers; Index++) if (CreateBabyConsumer ("consume -kernel-pool-worker") == FALSE) Warning ("Cannot create baby consumer `-kernel-pool-worker'"); } // // end of module: consume.cxx //