[[case]] # test running a filesystem to exhaustion define.LFS_ERASE_CYCLES = 10 define.LFS_BLOCK_COUNT = 256 # small bd so test runs faster define.LFS_BLOCK_CYCLES = 'LFS_ERASE_CYCLES / 2' define.LFS_BADBLOCK_BEHAVIOR = [ 'LFS_TESTBD_BADBLOCK_PROGERROR', 'LFS_TESTBD_BADBLOCK_ERASEERROR', 'LFS_TESTBD_BADBLOCK_READERROR', 'LFS_TESTBD_BADBLOCK_PROGNOOP', 'LFS_TESTBD_BADBLOCK_ERASENOOP', ] define.FILES = 10 code = ''' lfs_format(&lfs, &cfg) => 0; lfs_mount(&lfs, &cfg) => 0; lfs_mkdir(&lfs, "roadrunner") => 0; lfs_unmount(&lfs) => 0; uint32_t cycle = 0; while (true) { lfs_mount(&lfs, &cfg) => 0; for (uint32_t i = 0; i < FILES; i++) { // chose name, roughly random seed, and random 2^n size sprintf(path, "roadrunner/test%d", i); srand(cycle * i); size = 1 << ((rand() % 10)+2); lfs_file_open(&lfs, &file, path, LFS_O_WRONLY | LFS_O_CREAT | LFS_O_TRUNC) => 0; for (lfs_size_t j = 0; j < size; j++) { char c = 'a' + (rand() % 26); lfs_ssize_t res = lfs_file_write(&lfs, &file, &c, 1); assert(res == 1 || res == LFS_ERR_NOSPC); if (res == LFS_ERR_NOSPC) { err = lfs_file_close(&lfs, &file); assert(err == 0 || err == LFS_ERR_NOSPC); lfs_unmount(&lfs) => 0; goto exhausted; } } err = lfs_file_close(&lfs, &file); assert(err == 0 || err == LFS_ERR_NOSPC); if (err == LFS_ERR_NOSPC) { lfs_unmount(&lfs) => 0; goto exhausted; } } for (uint32_t i = 0; i < FILES; i++) { // check for errors sprintf(path, "roadrunner/test%d", i); srand(cycle * i); size = 1 << ((rand() % 10)+2); lfs_file_open(&lfs, &file, path, LFS_O_RDONLY) => 0; for (lfs_size_t j = 0; j < size; j++) { char c = 'a' + (rand() % 26); char r; lfs_file_read(&lfs, &file, &r, 1) => 1; assert(r == c); } lfs_file_close(&lfs, &file) => 0; } lfs_unmount(&lfs) => 0; cycle += 1; } exhausted: // should still be readable lfs_mount(&lfs, &cfg) => 0; for (uint32_t i = 0; i < FILES; i++) { // check for errors sprintf(path, "roadrunner/test%d", i); lfs_stat(&lfs, path, &info) => 0; } lfs_unmount(&lfs) => 0; LFS_WARN("completed %d cycles", cycle); ''' [[case]] # test running a filesystem to exhaustion # which also requires expanding superblocks define.LFS_ERASE_CYCLES = 10 define.LFS_BLOCK_COUNT = 256 # small bd so test runs faster define.LFS_BLOCK_CYCLES = 'LFS_ERASE_CYCLES / 2' define.LFS_BADBLOCK_BEHAVIOR = [ 'LFS_TESTBD_BADBLOCK_PROGERROR', 'LFS_TESTBD_BADBLOCK_ERASEERROR', 'LFS_TESTBD_BADBLOCK_READERROR', 'LFS_TESTBD_BADBLOCK_PROGNOOP', 'LFS_TESTBD_BADBLOCK_ERASENOOP', ] define.FILES = 10 code = ''' lfs_format(&lfs, &cfg) => 0; uint32_t cycle = 0; while (true) { lfs_mount(&lfs, &cfg) => 0; for (uint32_t i = 0; i < FILES; i++) { // chose name, roughly random seed, and random 2^n size sprintf(path, "test%d", i); srand(cycle * i); size = 1 << ((rand() % 10)+2); lfs_file_open(&lfs, &file, path, LFS_O_WRONLY | LFS_O_CREAT | LFS_O_TRUNC) => 0; for (lfs_size_t j = 0; j < size; j++) { char c = 'a' + (rand() % 26); lfs_ssize_t res = lfs_file_write(&lfs, &file, &c, 1); assert(res == 1 || res == LFS_ERR_NOSPC); if (res == LFS_ERR_NOSPC) { err = lfs_file_close(&lfs, &file); assert(err == 0 || err == LFS_ERR_NOSPC); lfs_unmount(&lfs) => 0; goto exhausted; } } err = lfs_file_close(&lfs, &file); assert(err == 0 || err == LFS_ERR_NOSPC); if (err == LFS_ERR_NOSPC) { lfs_unmount(&lfs) => 0; goto exhausted; } } for (uint32_t i = 0; i < FILES; i++) { // check for errors sprintf(path, "test%d", i); srand(cycle * i); size = 1 << ((rand() % 10)+2); lfs_file_open(&lfs, &file, path, LFS_O_RDONLY) => 0; for (lfs_size_t j = 0; j < size; j++) { char c = 'a' + (rand() % 26); char r; lfs_file_read(&lfs, &file, &r, 1) => 1; assert(r == c); } lfs_file_close(&lfs, &file) => 0; } lfs_unmount(&lfs) => 0; cycle += 1; } exhausted: // should still be readable lfs_mount(&lfs, &cfg) => 0; for (uint32_t i = 0; i < FILES; i++) { // check for errors sprintf(path, "test%d", i); lfs_stat(&lfs, path, &info) => 0; } lfs_unmount(&lfs) => 0; LFS_WARN("completed %d cycles", cycle); ''' # These are a sort of high-level litmus test for wear-leveling. One definition # of wear-leveling is that increasing a block device's space translates directly # into increasing the block devices lifetime. This is something we can actually # check for. [[case]] # wear-level test running a filesystem to exhaustion define.LFS_ERASE_CYCLES = 20 define.LFS_BLOCK_COUNT = 256 # small bd so test runs faster define.LFS_BLOCK_CYCLES = 'LFS_ERASE_CYCLES / 2' define.FILES = 10 code = ''' uint32_t run_cycles[2]; const uint32_t run_block_count[2] = {LFS_BLOCK_COUNT/2, LFS_BLOCK_COUNT}; for (int run = 0; run < 2; run++) { for (lfs_block_t b = 0; b < LFS_BLOCK_COUNT; b++) { lfs_testbd_setwear(&cfg, b, (b < run_block_count[run]) ? 0 : LFS_ERASE_CYCLES) => 0; } lfs_format(&lfs, &cfg) => 0; lfs_mount(&lfs, &cfg) => 0; lfs_mkdir(&lfs, "roadrunner") => 0; lfs_unmount(&lfs) => 0; uint32_t cycle = 0; while (true) { lfs_mount(&lfs, &cfg) => 0; for (uint32_t i = 0; i < FILES; i++) { // chose name, roughly random seed, and random 2^n size sprintf(path, "roadrunner/test%d", i); srand(cycle * i); size = 1 << ((rand() % 10)+2); lfs_file_open(&lfs, &file, path, LFS_O_WRONLY | LFS_O_CREAT | LFS_O_TRUNC) => 0; for (lfs_size_t j = 0; j < size; j++) { char c = 'a' + (rand() % 26); lfs_ssize_t res = lfs_file_write(&lfs, &file, &c, 1); assert(res == 1 || res == LFS_ERR_NOSPC); if (res == LFS_ERR_NOSPC) { err = lfs_file_close(&lfs, &file); assert(err == 0 || err == LFS_ERR_NOSPC); lfs_unmount(&lfs) => 0; goto exhausted; } } err = lfs_file_close(&lfs, &file); assert(err == 0 || err == LFS_ERR_NOSPC); if (err == LFS_ERR_NOSPC) { lfs_unmount(&lfs) => 0; goto exhausted; } } for (uint32_t i = 0; i < FILES; i++) { // check for errors sprintf(path, "roadrunner/test%d", i); srand(cycle * i); size = 1 << ((rand() % 10)+2); lfs_file_open(&lfs, &file, path, LFS_O_RDONLY) => 0; for (lfs_size_t j = 0; j < size; j++) { char c = 'a' + (rand() % 26); char r; lfs_file_read(&lfs, &file, &r, 1) => 1; assert(r == c); } lfs_file_close(&lfs, &file) => 0; } lfs_unmount(&lfs) => 0; cycle += 1; } exhausted: // should still be readable lfs_mount(&lfs, &cfg) => 0; for (uint32_t i = 0; i < FILES; i++) { // check for errors sprintf(path, "roadrunner/test%d", i); lfs_stat(&lfs, path, &info) => 0; } lfs_unmount(&lfs) => 0; run_cycles[run] = cycle; LFS_WARN("completed %d blocks %d cycles", run_block_count[run], run_cycles[run]); } // check we increased the lifetime by 2x with ~10% error LFS_ASSERT(run_cycles[1]*110/100 > 2*run_cycles[0]); ''' [[case]] # wear-level test + expanding superblock define.LFS_ERASE_CYCLES = 20 define.LFS_BLOCK_COUNT = 256 # small bd so test runs faster define.LFS_BLOCK_CYCLES = 'LFS_ERASE_CYCLES / 2' define.FILES = 10 code = ''' uint32_t run_cycles[2]; const uint32_t run_block_count[2] = {LFS_BLOCK_COUNT/2, LFS_BLOCK_COUNT}; for (int run = 0; run < 2; run++) { for (lfs_block_t b = 0; b < LFS_BLOCK_COUNT; b++) { lfs_testbd_setwear(&cfg, b, (b < run_block_count[run]) ? 0 : LFS_ERASE_CYCLES) => 0; } lfs_format(&lfs, &cfg) => 0; uint32_t cycle = 0; while (true) { lfs_mount(&lfs, &cfg) => 0; for (uint32_t i = 0; i < FILES; i++) { // chose name, roughly random seed, and random 2^n size sprintf(path, "test%d", i); srand(cycle * i); size = 1 << ((rand() % 10)+2); lfs_file_open(&lfs, &file, path, LFS_O_WRONLY | LFS_O_CREAT | LFS_O_TRUNC) => 0; for (lfs_size_t j = 0; j < size; j++) { char c = 'a' + (rand() % 26); lfs_ssize_t res = lfs_file_write(&lfs, &file, &c, 1); assert(res == 1 || res == LFS_ERR_NOSPC); if (res == LFS_ERR_NOSPC) { err = lfs_file_close(&lfs, &file); assert(err == 0 || err == LFS_ERR_NOSPC); lfs_unmount(&lfs) => 0; goto exhausted; } } err = lfs_file_close(&lfs, &file); assert(err == 0 || err == LFS_ERR_NOSPC); if (err == LFS_ERR_NOSPC) { lfs_unmount(&lfs) => 0; goto exhausted; } } for (uint32_t i = 0; i < FILES; i++) { // check for errors sprintf(path, "test%d", i); srand(cycle * i); size = 1 << ((rand() % 10)+2); lfs_file_open(&lfs, &file, path, LFS_O_RDONLY) => 0; for (lfs_size_t j = 0; j < size; j++) { char c = 'a' + (rand() % 26); char r; lfs_file_read(&lfs, &file, &r, 1) => 1; assert(r == c); } lfs_file_close(&lfs, &file) => 0; } lfs_unmount(&lfs) => 0; cycle += 1; } exhausted: // should still be readable lfs_mount(&lfs, &cfg) => 0; for (uint32_t i = 0; i < FILES; i++) { // check for errors sprintf(path, "test%d", i); lfs_stat(&lfs, path, &info) => 0; } lfs_unmount(&lfs) => 0; run_cycles[run] = cycle; LFS_WARN("completed %d blocks %d cycles", run_block_count[run], run_cycles[run]); } // check we increased the lifetime by 2x with ~10% error LFS_ASSERT(run_cycles[1]*110/100 > 2*run_cycles[0]); ''' [[case]] # test that we wear blocks roughly evenly define.LFS_ERASE_CYCLES = 0xffffffff define.LFS_BLOCK_COUNT = 256 # small bd so test runs faster define.LFS_BLOCK_CYCLES = [5, 4, 3, 2, 1] define.CYCLES = 100 define.FILES = 10 if = 'LFS_BLOCK_CYCLES < CYCLES/10' code = ''' lfs_format(&lfs, &cfg) => 0; lfs_mount(&lfs, &cfg) => 0; lfs_mkdir(&lfs, "roadrunner") => 0; lfs_unmount(&lfs) => 0; uint32_t cycle = 0; while (cycle < CYCLES) { lfs_mount(&lfs, &cfg) => 0; for (uint32_t i = 0; i < FILES; i++) { // chose name, roughly random seed, and random 2^n size sprintf(path, "roadrunner/test%d", i); srand(cycle * i); size = 1 << 4; //((rand() % 10)+2); lfs_file_open(&lfs, &file, path, LFS_O_WRONLY | LFS_O_CREAT | LFS_O_TRUNC) => 0; for (lfs_size_t j = 0; j < size; j++) { char c = 'a' + (rand() % 26); lfs_ssize_t res = lfs_file_write(&lfs, &file, &c, 1); assert(res == 1 || res == LFS_ERR_NOSPC); if (res == LFS_ERR_NOSPC) { err = lfs_file_close(&lfs, &file); assert(err == 0 || err == LFS_ERR_NOSPC); lfs_unmount(&lfs) => 0; goto exhausted; } } err = lfs_file_close(&lfs, &file); assert(err == 0 || err == LFS_ERR_NOSPC); if (err == LFS_ERR_NOSPC) { lfs_unmount(&lfs) => 0; goto exhausted; } } for (uint32_t i = 0; i < FILES; i++) { // check for errors sprintf(path, "roadrunner/test%d", i); srand(cycle * i); size = 1 << 4; //((rand() % 10)+2); lfs_file_open(&lfs, &file, path, LFS_O_RDONLY) => 0; for (lfs_size_t j = 0; j < size; j++) { char c = 'a' + (rand() % 26); char r; lfs_file_read(&lfs, &file, &r, 1) => 1; assert(r == c); } lfs_file_close(&lfs, &file) => 0; } lfs_unmount(&lfs) => 0; cycle += 1; } exhausted: // should still be readable lfs_mount(&lfs, &cfg) => 0; for (uint32_t i = 0; i < FILES; i++) { // check for errors sprintf(path, "roadrunner/test%d", i); lfs_stat(&lfs, path, &info) => 0; } lfs_unmount(&lfs) => 0; LFS_WARN("completed %d cycles", cycle); // check the wear on our block device lfs_testbd_wear_t minwear = -1; lfs_testbd_wear_t totalwear = 0; lfs_testbd_wear_t maxwear = 0; // skip 0 and 1 as superblock movement is intentionally avoided for (lfs_block_t b = 2; b < LFS_BLOCK_COUNT; b++) { lfs_testbd_wear_t wear = lfs_testbd_getwear(&cfg, b); printf("%08x: wear %d\n", b, wear); assert(wear >= 0); if (wear < minwear) { minwear = wear; } if (wear > maxwear) { maxwear = wear; } totalwear += wear; } lfs_testbd_wear_t avgwear = totalwear / LFS_BLOCK_COUNT; LFS_WARN("max wear: %d cycles", maxwear); LFS_WARN("avg wear: %d cycles", totalwear / LFS_BLOCK_COUNT); LFS_WARN("min wear: %d cycles", minwear); // find standard deviation^2 lfs_testbd_wear_t dev2 = 0; for (lfs_block_t b = 2; b < LFS_BLOCK_COUNT; b++) { lfs_testbd_wear_t wear = lfs_testbd_getwear(&cfg, b); assert(wear >= 0); lfs_testbd_swear_t diff = wear - avgwear; dev2 += diff*diff; } dev2 /= totalwear; LFS_WARN("std dev^2: %d", dev2); assert(dev2 < 8); '''