#include #include #include #include #include #define SEG_1_SIZE 1024 * 1024 #define SEG_X_SIZE 1024 * 1024 * 64 #define W32_MEMMAN_ITERATIONS 150 #define W32_MEMMAN_ITERATIONS2 20000 #define W32_MMST04_ITERATIONS 100 #define MemManSubtest5Count 200 int TotalBenchMarks = 0; #define MAX_BENCHMARKS 32 char *BenchMarkNames[ MAX_BENCHMARKS ]; ULONG BenchMarkRates[ MAX_BENCHMARKS ]; ULONG BenchMarkFracs[ MAX_BENCHMARKS ]; typedef struct _PERFINFO { DWORD StartTime; DWORD StopTime; PCHAR Title; ULONG Iterations; } PERFINFO, *PPERFINFO; int StartBenchMark( PCHAR Title, ULONG Iterations, PPERFINFO PerfInfo ); VOID FinishBenchMark( PPERFINFO PerfInfo ); __cdecl main( ) { PULONG_PTR p1, p2, p3, p4; // pointers into new segment PCHAR pa[MemManSubtest5Count]; // array for section pointers PULONG_PTR u1; ULONG actual; // actual xfer count for read ULONG ssize; // section allocation size var ULONG ii, ix; // loop index variables PERFINFO PerfInfo; ULONG Seg1Size; ULONG SegxSize; ULONG CommitSize; HANDLE CurrentProcessHandle, Section1; LARGE_INTEGER SectionSize; ULONG Size; ULONG ViewSize; printf("Win32 Memory Management test\n"); Size = 1024 * 1024; p1 = NULL; p1 = VirtualAlloc(NULL, Size, MEM_RESERVE | MEM_COMMIT, PAGE_READWRITE); if (p1 == NULL) { printf("failed first created vm status %X start %p size %lx\n", GetLastError(), p1, Size); } for (p2 = p1; p2 < (p1 + (Size / sizeof(ULONG_PTR))); p2 += 1) { *p2 = (ULONG_PTR)p2; } SectionSize.QuadPart = 1024 * 1024; Section1 = CreateFileMapping(INVALID_HANDLE_VALUE, NULL, PAGE_READWRITE | SEC_COMMIT, SectionSize.HighPart, SectionSize.LowPart, NULL); if (!Section1) { printf("failed create big section status %ld\n", GetLastError()); } p3 = NULL; ViewSize = 0; p3 = MapViewOfFile(Section1, FILE_MAP_WRITE, 0, 0, 0); if (p3 == NULL) { printf("service failed mapview - status %X\n", GetLastError()); } // // Memory Management sub-test 1 // // Create a 1 MB segment with commitment of the pages, // then touch each page, which should cause a fault and // a demand zero page to be allocated. // // StartBenchMark("Win32 MemMan0 - 1 Meg Copy", 150, &PerfInfo); for (ii = 0; ii < 150; ii += 1) { MoveMemory (p3, p1, Size); } FinishBenchMark(&PerfInfo); CloseHandle(Section1); if (!UnmapViewOfFile(p3)) { printf("unmap view service failed - status %X\n", GetLastError()); } // // Memory Management sub-test 1 // // Create a 1 MB segment with commitment of the pages, // then touch each page, which should cause a fault and // a demand zero page to be allocated. // // StartBenchMark("Win32 MemMan01 - create 1mb section, copy 1mb, delete", 150, &PerfInfo); for (ii = 0; ii < 150; ii += 1) { Section1 = CreateFileMapping(INVALID_HANDLE_VALUE, NULL, PAGE_READWRITE | SEC_COMMIT, SectionSize.HighPart, SectionSize.LowPart, NULL); if (!Section1) { printf("failed create big section status %X\n", GetLastError()); } p3 = MapViewOfFile(Section1, FILE_MAP_WRITE, 0, 0, 0); if (p3 == NULL) { printf("service failed mapview - status %X\n", GetLastError()); } MoveMemory(p3, p1, Size); p4 = MapViewOfFile(Section1, FILE_MAP_WRITE, 0, 0, 0); if (p4 == NULL) { printf("service failed mapview - status %X\n", GetLastError()); } CloseHandle(Section1); if (!UnmapViewOfFile(p3)) { printf("unmap view service failed - status %X\n", GetLastError()); } if (!UnmapViewOfFile(p4)) { printf("unmap view service failed - status %X\n", GetLastError()); } } FinishBenchMark(&PerfInfo); // // Memory Management sub-test 1 // // Create a 1 MB segment with commitment of the pages, // then touch each page, which should cause a fault and // a demand zero page to be allocated. // // StartBenchMark("Win32 MemMan02 - alloc 1mb vm, copy 1mb, delete", 150, &PerfInfo); for (ii = 0; ii < 150; ii++) { Size = 1024 * 1024; p3 = VirtualAlloc(NULL, Size, MEM_RESERVE | MEM_COMMIT, PAGE_READWRITE); if (p3 == NULL) { printf("service failed allocvm - status %ld\n", GetLastError()); } MoveMemory (p3, p1, Size); if (!VirtualFree(p3, 0, MEM_RELEASE)) { printf("service failed freevm1 - status %X\n", GetLastError()); } } FinishBenchMark(&PerfInfo); if (!VirtualFree (p1, 0, MEM_RELEASE)) { printf("service failed freevm2 - status %X\n", GetLastError()); } // // Memory Management sub-test 1 // // Create a 1 MB segment with commitment of the pages, // then touch each page, which should cause a fault and // a demand zero page to be allocated. // // StartBenchMark("Win32 MemMan1 - 1 Meg Seg, Create, Commit & Touch", W32_MEMMAN_ITERATIONS, &PerfInfo); for (ii = 0; ii < W32_MEMMAN_ITERATIONS; ii += 1) { Seg1Size = SEG_1_SIZE; p1 = VirtualAlloc(NULL, Seg1Size, MEM_RESERVE | MEM_COMMIT, PAGE_READWRITE); if (p1 == NULL) { printf("service failed - status %X\n", GetLastError()); } for (p2 = p1; p2 < (p1 + (Seg1Size / sizeof(ULONG_PTR))); p2 += 4096 /sizeof(ULONG_PTR)) { *p2 = 99; } if (!VirtualFree(p1, 0, MEM_RELEASE)) { printf("service failed freevm3 - status %X\n", GetLastError()); } } FinishBenchMark(&PerfInfo); // // Memory Management sub-test 1 // // Create a 1 MB segment with commitment of the pages, // then touch each page, which should cause a fault and // a demand zero page to be allocated. // // StartBenchMark("Win32 MemMan1.5 - 1 Meg Seg, Create, reserve Commit & Touch", W32_MEMMAN_ITERATIONS, &PerfInfo); for (ii = 0; ii < W32_MEMMAN_ITERATIONS; ii += 1) { Seg1Size = SEG_1_SIZE; p1 = VirtualAlloc(NULL, Seg1Size, MEM_RESERVE | MEM_COMMIT, PAGE_READONLY); if (p1 == NULL) { printf("service failed - status %X\n", GetLastError()); } if (!VirtualProtect(p1, Seg1Size, PAGE_READWRITE, &CommitSize)) { printf("service failed (ntprotect)- status %X\n", GetLastError()); } for (p2 = p1; p2 < (p1 + (Seg1Size / sizeof(ULONG_PTR))); p2 += (4096 / sizeof(ULONG_PTR))) { *p2 = 99; } if (!VirtualFree(p1, 0, MEM_RELEASE)) { printf("service failed freevm4 - status %X\n", GetLastError()); } } FinishBenchMark(&PerfInfo); // // Memory Management sub-test 2 // // Create a 1 MB segment with commitment of the pages, // but never use the segment. // StartBenchMark("Win32 MemMan2 - 1 Meg Seg, Create & Commit Only", W32_MEMMAN_ITERATIONS2, &PerfInfo); for (ii = 0; ii < W32_MEMMAN_ITERATIONS2; ii += 1) { p1 = NULL; Seg1Size = SEG_1_SIZE; p1 = VirtualAlloc(NULL, Seg1Size, MEM_RESERVE | MEM_COMMIT, PAGE_READWRITE); if (p1 == NULL) { printf("service failed - status %X\n", GetLastError()); } if (!VirtualFree(p1, 0, MEM_RELEASE)) { printf("service failed freevm5 - status %X\n", GetLastError()); } } FinishBenchMark(&PerfInfo); // // Memory Management sub-test 3 // // Create a 1 MB segment without commitment of the pages, // but never use or commit the segment. // StartBenchMark("Win32 MemMan3 - 1 Meg Seg Create Only", W32_MEMMAN_ITERATIONS2, &PerfInfo); for (ii = 0; ii < W32_MEMMAN_ITERATIONS2; ii += 1) { p1 = NULL; Seg1Size = SEG_1_SIZE; p1 = VirtualAlloc(NULL, Seg1Size, MEM_RESERVE, PAGE_READWRITE); if (p1 == NULL) { printf("service failed - status %X\n", GetLastError()); } if (!VirtualFree(p1, 0, MEM_RELEASE)) { printf("service failed freevm6 - status %X\n", GetLastError()); } } FinishBenchMark(&PerfInfo); // // Memory Management sub-test 4 // // Create a 64 MB segment without committing the pages, // then commit and touch at 128 KB intervals. // // StartBenchMark("Win32 MemMan4 - 64 Meg Seg, Commit Sparse", W32_MMST04_ITERATIONS, &PerfInfo); for (ii = 0; ii < W32_MMST04_ITERATIONS; ii += 1) { p1 = NULL; SegxSize = SEG_X_SIZE; p1 = VirtualAlloc(NULL, SegxSize, MEM_RESERVE, PAGE_READWRITE); if (p1 == NULL) { printf("service failed - status %X\n", GetLastError()); } CommitSize = 4; for (p2 = p1; p2 < (p1 + (SegxSize / sizeof(ULONG_PTR))); p2 += (256 * 1024 / sizeof(ULONG_PTR))) { p2 = VirtualAlloc(p2, CommitSize, MEM_COMMIT, PAGE_READWRITE); if (p2 == NULL) { printf("service failed - status %X\n", GetLastError()); } if (*p2 != 0) { printf("%p = %lx\n", p2, *p2); } } if (!VirtualFree(p1, 0, MEM_RELEASE)) { printf("service failed freevm7 - status %X\n", GetLastError()); } } FinishBenchMark(&PerfInfo); // // Memory Management sub-test 5 // // Create a alternatively 232k and 112 k memory sections. // For every 2 created, delete 1. Do this for MemManSubtest5Count times. // // StartBenchMark("Win32 MemMan5 - Sparse Section Create/Delete Benchmark", W32_MEMMAN_ITERATIONS, &PerfInfo); for (ii = 0; ii < W32_MEMMAN_ITERATIONS; ii += 1) { for (ix = 0; ix < MemManSubtest5Count; ix += 1) { // // determine if even or odd allocation, if even and not 0, // delete a section // ssize = (112 * 1024); //assume ODD allocation if ((ix & 1) == 0) { //if it is an even one ssize = (232 * 1024); //allocate 232 K on even passes if (ix) { //except on pass 0 if (!VirtualFree(pa[ix/2], 0, MEM_RELEASE)) { printf("service failed freevm8 - status %X\n", GetLastError()); } pa[ix / 2] = 0; //remember this one is gone } } pa[ix] = VirtualAlloc(NULL, ssize, MEM_RESERVE, PAGE_READWRITE); if (pa[ix] == NULL) { printf("service failed - status %X\n", GetLastError()); } } // // Now free up the memory used in this test // for (ix = 0; ix < MemManSubtest5Count; ix += 1) { if (pa[ix] != 0) { if (!VirtualFree(pa[ix], 0, MEM_RELEASE)) { printf("service failed freevm9 - status %X\n", GetLastError()); } } } } FinishBenchMark(&PerfInfo); printf("that's all\n"); return (TRUE); } int StartBenchMark( PCHAR Title, ULONG Iterations, PPERFINFO PerfInfo ) { printf("*** Start %s : %d\n", PerfInfo->Title = Title, PerfInfo->Iterations = Iterations); PerfInfo->StartTime = GetCurrentTime(); return TRUE; } VOID FinishBenchMark( PPERFINFO PerfInfo ) { ULONG TotalMilliSeconds; ULONG IterationsPerSecond; ULONG IterationFractions; DWORD Delta; PerfInfo->StopTime = GetCurrentTime(); TotalMilliSeconds = PerfInfo->StopTime - PerfInfo->StartTime; IterationsPerSecond = (1000 * PerfInfo->Iterations) / TotalMilliSeconds; IterationFractions = (1000 * PerfInfo->Iterations) % TotalMilliSeconds; IterationFractions = (1000 * IterationFractions) / TotalMilliSeconds; if (1) { printf(" iterations - %9d\n", PerfInfo->Iterations ); printf(" milliseconds - %9d\n", TotalMilliSeconds ); printf(" iterations/sec - %5d.%3d\n\n", IterationsPerSecond, IterationFractions); } BenchMarkNames[TotalBenchMarks] = PerfInfo->Title; BenchMarkRates[TotalBenchMarks] = IterationsPerSecond; BenchMarkFracs[TotalBenchMarks] = IterationFractions; TotalBenchMarks++; }