Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Barry Song | 893 | 100.00% | 1 | 100.00% |
Total | 893 | 1 |
// SPDX-License-Identifier: GPL-2.0-or-later /* * thp_swap_allocator_test * * The purpose of this test program is helping check if THP swpout * can correctly get swap slots to swap out as a whole instead of * being split. It randomly releases swap entries through madvise * DONTNEED and swapin/out on two memory areas: a memory area for * 64KB THP and the other area for small folios. The second memory * can be enabled by "-s". * Before running the program, we need to setup a zRAM or similar * swap device by: * echo lzo > /sys/block/zram0/comp_algorithm * echo 64M > /sys/block/zram0/disksize * echo never > /sys/kernel/mm/transparent_hugepage/hugepages-2048kB/enabled * echo always > /sys/kernel/mm/transparent_hugepage/hugepages-64kB/enabled * mkswap /dev/zram0 * swapon /dev/zram0 * The expected result should be 0% anon swpout fallback ratio w/ or * w/o "-s". * * Author(s): Barry Song <v-songbaohua@oppo.com> */ #define _GNU_SOURCE #include <stdio.h> #include <stdlib.h> #include <unistd.h> #include <string.h> #include <linux/mman.h> #include <sys/mman.h> #include <errno.h> #include <time.h> #define MEMSIZE_MTHP (60 * 1024 * 1024) #define MEMSIZE_SMALLFOLIO (4 * 1024 * 1024) #define ALIGNMENT_MTHP (64 * 1024) #define ALIGNMENT_SMALLFOLIO (4 * 1024) #define TOTAL_DONTNEED_MTHP (16 * 1024 * 1024) #define TOTAL_DONTNEED_SMALLFOLIO (1 * 1024 * 1024) #define MTHP_FOLIO_SIZE (64 * 1024) #define SWPOUT_PATH \ "/sys/kernel/mm/transparent_hugepage/hugepages-64kB/stats/swpout" #define SWPOUT_FALLBACK_PATH \ "/sys/kernel/mm/transparent_hugepage/hugepages-64kB/stats/swpout_fallback" static void *aligned_alloc_mem(size_t size, size_t alignment) { void *mem = NULL; if (posix_memalign(&mem, alignment, size) != 0) { perror("posix_memalign"); return NULL; } return mem; } /* * This emulates the behavior of native libc and Java heap, * as well as process exit and munmap. It helps generate mTHP * and ensures that iterations can proceed with mTHP, as we * currently don't support large folios swap-in. */ static void random_madvise_dontneed(void *mem, size_t mem_size, size_t align_size, size_t total_dontneed_size) { size_t num_pages = total_dontneed_size / align_size; size_t i; size_t offset; void *addr; for (i = 0; i < num_pages; ++i) { offset = (rand() % (mem_size / align_size)) * align_size; addr = (char *)mem + offset; if (madvise(addr, align_size, MADV_DONTNEED) != 0) perror("madvise dontneed"); memset(addr, 0x11, align_size); } } static void random_swapin(void *mem, size_t mem_size, size_t align_size, size_t total_swapin_size) { size_t num_pages = total_swapin_size / align_size; size_t i; size_t offset; void *addr; for (i = 0; i < num_pages; ++i) { offset = (rand() % (mem_size / align_size)) * align_size; addr = (char *)mem + offset; memset(addr, 0x11, align_size); } } static unsigned long read_stat(const char *path) { FILE *file; unsigned long value; file = fopen(path, "r"); if (!file) { perror("fopen"); return 0; } if (fscanf(file, "%lu", &value) != 1) { perror("fscanf"); fclose(file); return 0; } fclose(file); return value; } int main(int argc, char *argv[]) { int use_small_folio = 0, aligned_swapin = 0; void *mem1 = NULL, *mem2 = NULL; int i; for (i = 1; i < argc; ++i) { if (strcmp(argv[i], "-s") == 0) use_small_folio = 1; else if (strcmp(argv[i], "-a") == 0) aligned_swapin = 1; } mem1 = aligned_alloc_mem(MEMSIZE_MTHP, ALIGNMENT_MTHP); if (mem1 == NULL) { fprintf(stderr, "Failed to allocate large folios memory\n"); return EXIT_FAILURE; } if (madvise(mem1, MEMSIZE_MTHP, MADV_HUGEPAGE) != 0) { perror("madvise hugepage for mem1"); free(mem1); return EXIT_FAILURE; } if (use_small_folio) { mem2 = aligned_alloc_mem(MEMSIZE_SMALLFOLIO, ALIGNMENT_MTHP); if (mem2 == NULL) { fprintf(stderr, "Failed to allocate small folios memory\n"); free(mem1); return EXIT_FAILURE; } if (madvise(mem2, MEMSIZE_SMALLFOLIO, MADV_NOHUGEPAGE) != 0) { perror("madvise nohugepage for mem2"); free(mem1); free(mem2); return EXIT_FAILURE; } } /* warm-up phase to occupy the swapfile */ memset(mem1, 0x11, MEMSIZE_MTHP); madvise(mem1, MEMSIZE_MTHP, MADV_PAGEOUT); if (use_small_folio) { memset(mem2, 0x11, MEMSIZE_SMALLFOLIO); madvise(mem2, MEMSIZE_SMALLFOLIO, MADV_PAGEOUT); } /* iterations with newly created mTHP, swap-in, and swap-out */ for (i = 0; i < 100; ++i) { unsigned long initial_swpout; unsigned long initial_swpout_fallback; unsigned long final_swpout; unsigned long final_swpout_fallback; unsigned long swpout_inc; unsigned long swpout_fallback_inc; double fallback_percentage; initial_swpout = read_stat(SWPOUT_PATH); initial_swpout_fallback = read_stat(SWPOUT_FALLBACK_PATH); /* * The following setup creates a 1:1 ratio of mTHP to small folios * since large folio swap-in isn't supported yet. Once we support * mTHP swap-in, we'll likely need to reduce MEMSIZE_MTHP and * increase MEMSIZE_SMALLFOLIO to maintain the ratio. */ random_swapin(mem1, MEMSIZE_MTHP, aligned_swapin ? ALIGNMENT_MTHP : ALIGNMENT_SMALLFOLIO, TOTAL_DONTNEED_MTHP); random_madvise_dontneed(mem1, MEMSIZE_MTHP, ALIGNMENT_MTHP, TOTAL_DONTNEED_MTHP); if (use_small_folio) { random_swapin(mem2, MEMSIZE_SMALLFOLIO, ALIGNMENT_SMALLFOLIO, TOTAL_DONTNEED_SMALLFOLIO); } if (madvise(mem1, MEMSIZE_MTHP, MADV_PAGEOUT) != 0) { perror("madvise pageout for mem1"); free(mem1); if (mem2 != NULL) free(mem2); return EXIT_FAILURE; } if (use_small_folio) { if (madvise(mem2, MEMSIZE_SMALLFOLIO, MADV_PAGEOUT) != 0) { perror("madvise pageout for mem2"); free(mem1); free(mem2); return EXIT_FAILURE; } } final_swpout = read_stat(SWPOUT_PATH); final_swpout_fallback = read_stat(SWPOUT_FALLBACK_PATH); swpout_inc = final_swpout - initial_swpout; swpout_fallback_inc = final_swpout_fallback - initial_swpout_fallback; fallback_percentage = (double)swpout_fallback_inc / (swpout_fallback_inc + swpout_inc) * 100; printf("Iteration %d: swpout inc: %lu, swpout fallback inc: %lu, Fallback percentage: %.2f%%\n", i + 1, swpout_inc, swpout_fallback_inc, fallback_percentage); } free(mem1); if (mem2 != NULL) free(mem2); return EXIT_SUCCESS; }
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