/** * main.c * * Copyright (c) 2013 Samsung Electronics Co., Ltd. * http://www.samsung.com/ * Copyright (c) 2015 Jaegeuk Kim * : implement defrag.f2fs * Copyright (C) 2015 Huawei Ltd. * Hou Pengyang * Liu Shuoran * Jaegeuk Kim * : add sload.f2fs * Copyright (c) 2019 Google Inc. * Robin Hsu * : add cache layer * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 as * published by the Free Software Foundation. */ #include "fsck.h" #include #include #include #include #include #include "quotaio.h" struct f2fs_fsck gfsck; #ifdef WITH_ANDROID #include extern struct sparse_file *f2fs_sparse_file; #endif INIT_FEATURE_TABLE; static char *absolute_path(const char *file) { char *ret; char cwd[PATH_MAX]; if (file[0] != '/') { if (getcwd(cwd, PATH_MAX) == NULL) { fprintf(stderr, "Failed to getcwd\n"); exit(EXIT_FAILURE); } ret = malloc(strlen(cwd) + 1 + strlen(file) + 1); if (ret) sprintf(ret, "%s/%s", cwd, file); } else ret = strdup(file); return ret; } void fsck_usage() { MSG(0, "\nUsage: fsck.f2fs [options] device\n"); MSG(0, "[options]:\n"); MSG(0, " -a check/fix potential corruption, reported by f2fs\n"); MSG(0, " -c set number of cache entries" " (default 0)\n"); MSG(0, " -m set max cache hash collision" " (default 16)\n"); MSG(0, " -C encoding[:flag1,flag2] Set options for enabling" " casefolding\n"); MSG(0, " -d debug level [default:0]\n"); MSG(0, " -f check/fix entire partition\n"); MSG(0, " -g add default options\n"); MSG(0, " -O feature1[feature2,feature3,...] e.g. \"encrypt\"\n"); MSG(0, " -p preen mode [default:0 the same as -a [0|1]]\n"); MSG(0, " -S sparse_mode\n"); MSG(0, " -t show directory tree\n"); MSG(0, " -q preserve quota limits\n"); MSG(0, " -y fix all the time\n"); MSG(0, " -V print the version number and exit\n"); MSG(0, " --dry-run do not really fix corruptions\n"); MSG(0, " --no-kernel-check skips detecting kernel change\n"); MSG(0, " --kernel-check checks kernel change\n"); MSG(0, " --debug-cache to debug cache when -c is used\n"); exit(1); } void dump_usage() { MSG(0, "\nUsage: dump.f2fs [options] device\n"); MSG(0, "[options]:\n"); MSG(0, " -d debug level [default:0]\n"); MSG(0, " -i inode no (hex)\n"); MSG(0, " -n [NAT dump nid from #1~#2 (decimal), for all 0~-1]\n"); MSG(0, " -s [SIT dump segno from #1~#2 (decimal), for all 0~-1]\n"); MSG(0, " -S sparse_mode\n"); MSG(0, " -a [SSA dump segno from #1~#2 (decimal), for all 0~-1]\n"); MSG(0, " -b blk_addr (in 4KB)\n"); MSG(0, " -V print the version number and exit\n"); exit(1); } void defrag_usage() { MSG(0, "\nUsage: defrag.f2fs [options] device\n"); MSG(0, "[options]:\n"); MSG(0, " -d debug level [default:0]\n"); MSG(0, " -s start block address [default: main_blkaddr]\n"); MSG(0, " -S sparse_mode\n"); MSG(0, " -l length [default:512 (2MB)]\n"); MSG(0, " -t target block address [default: main_blkaddr + 2MB]\n"); MSG(0, " -i set direction as shrink [default: expand]\n"); MSG(0, " -V print the version number and exit\n"); exit(1); } void resize_usage() { MSG(0, "\nUsage: resize.f2fs [options] device\n"); MSG(0, "[options]:\n"); MSG(0, " -d debug level [default:0]\n"); MSG(0, " -i extended node bitmap, node ratio is 20%% by default\n"); MSG(0, " -s safe resize (Does not resize metadata)"); MSG(0, " -t target sectors [default: device size]\n"); MSG(0, " -V print the version number and exit\n"); exit(1); } void sload_usage() { MSG(0, "\nUsage: sload.f2fs [options] device\n"); MSG(0, "[options]:\n"); MSG(0, " -C fs_config\n"); MSG(0, " -f source directory [path of the source directory]\n"); MSG(0, " -p product out directory\n"); MSG(0, " -s file_contexts\n"); MSG(0, " -S sparse_mode\n"); MSG(0, " -t mount point [prefix of target fs path, default:/]\n"); MSG(0, " -T timestamp\n"); MSG(0, " -d debug level [default:0]\n"); MSG(0, " -V print the version number and exit\n"); exit(1); } static int is_digits(char *optarg) { unsigned int i; for (i = 0; i < strlen(optarg); i++) if (!isdigit(optarg[i])) break; return i == strlen(optarg); } static void error_out(char *prog) { if (!strcmp("fsck.f2fs", prog)) fsck_usage(); else if (!strcmp("dump.f2fs", prog)) dump_usage(); else if (!strcmp("defrag.f2fs", prog)) defrag_usage(); else if (!strcmp("resize.f2fs", prog)) resize_usage(); else if (!strcmp("sload.f2fs", prog)) sload_usage(); else MSG(0, "\nWrong program.\n"); } static void __add_fsck_options(void) { /* -a */ c.auto_fix = 1; } static void add_default_options(void) { switch (c.defset) { case CONF_ANDROID: __add_fsck_options(); } c.quota_fix = 1; } void f2fs_parse_options(int argc, char *argv[]) { int option = 0; char *prog = basename(argv[0]); int err = NOERROR; #ifdef WITH_ANDROID int i; /* Allow prog names (e.g, sload_f2fs, fsck_f2fs, etc) */ for (i = 0; i < strlen(prog); i++) { if (prog[i] == '_') prog[i] = '.'; } #endif if (argc < 2) { MSG(0, "\tError: Device not specified\n"); error_out(prog); } if (!strcmp("fsck.f2fs", prog)) { const char *option_string = ":aC:c:m:d:fg:O:p:q:StyV"; int opt = 0, val; char *token; struct option long_opt[] = { {"dry-run", no_argument, 0, 1}, {"no-kernel-check", no_argument, 0, 2}, {"kernel-check", no_argument, 0, 3}, {"debug-cache", no_argument, 0, 4}, {0, 0, 0, 0} }; c.func = FSCK; c.cache_config.max_hash_collision = 16; c.cache_config.dbg_en = false; while ((option = getopt_long(argc, argv, option_string, long_opt, &opt)) != EOF) { switch (option) { case 1: c.dry_run = 1; MSG(0, "Info: Dry run\n"); break; case 2: c.no_kernel_check = 1; MSG(0, "Info: No Kernel Check\n"); break; case 3: c.no_kernel_check = 0; MSG(0, "Info: Do Kernel Check\n"); break; case 4: c.cache_config.dbg_en = true; break; case 'a': c.auto_fix = 1; MSG(0, "Info: Fix the reported corruption.\n"); break; case 'c': c.cache_config.num_cache_entry = atoi(optarg); break; case 'm': c.cache_config.max_hash_collision = atoi(optarg); break; case 'g': if (!strcmp(optarg, "android")) c.defset = CONF_ANDROID; break; case 'O': if (parse_feature(feature_table, optarg)) fsck_usage(); break; case 'p': /* preen mode has different levels: * 0: default level, the same as -a * 1: check meta * 2: same as 0, but will skip some * check for old kernel */ if (optarg[0] == '-' || !is_digits(optarg) || optind == argc) { MSG(0, "Info: Use default preen mode\n"); c.preen_mode = PREEN_MODE_0; c.auto_fix = 1; optind--; break; } c.preen_mode = atoi(optarg); if (c.preen_mode < 0) c.preen_mode = PREEN_MODE_0; else if (c.preen_mode >= PREEN_MODE_MAX) c.preen_mode = PREEN_MODE_MAX - 1; if (c.preen_mode == PREEN_MODE_0 || c.preen_mode == PREEN_MODE_2) c.auto_fix = 1; MSG(0, "Info: Fix the reported corruption in " "preen mode %d\n", c.preen_mode); break; case 'd': if (optarg[0] == '-') { err = ENEED_ARG; break; } else if (!is_digits(optarg)) { err = EWRONG_OPT; break; } c.dbg_lv = atoi(optarg); MSG(0, "Info: Debug level = %d\n", c.dbg_lv); break; case 'f': case 'y': c.fix_on = 1; c.force = 1; MSG(0, "Info: Force to fix corruption\n"); break; case 'q': c.preserve_limits = atoi(optarg); MSG(0, "Info: Preserve quota limits = %d\n", c.preserve_limits); break; case 'S': c.sparse_mode = 1; break; case 't': c.show_dentry = 1; break; case ':': if (optopt == 'p') { MSG(0, "Info: Use default preen mode\n"); c.preen_mode = PREEN_MODE_0; c.auto_fix = 1; } else { option = optopt; err = ENEED_ARG; break; } break; case 'C': token = strtok(optarg, ":"); val = f2fs_str2encoding(token); if (val < 0) { MSG(0, "\tError: Unknown encoding %s\n", token); fsck_usage(); } c.s_encoding = val; token = strtok(NULL, ""); val = f2fs_str2encoding_flags(&token, &c.s_encoding_flags); if (val) { MSG(0, "\tError: Unknown flag %s\n", token); fsck_usage(); } c.feature |= cpu_to_le32(F2FS_FEATURE_CASEFOLD); break; case 'V': show_version(prog); exit(0); case '?': option = optopt; default: err = EUNKNOWN_OPT; break; } if (err != NOERROR) break; } } else if (!strcmp("dump.f2fs", prog)) { const char *option_string = "d:i:n:s:Sa:b:V"; static struct dump_option dump_opt = { .nid = 0, /* default root ino */ .start_nat = -1, .end_nat = -1, .start_sit = -1, .end_sit = -1, .start_ssa = -1, .end_ssa = -1, .blk_addr = -1, }; c.func = DUMP; while ((option = getopt(argc, argv, option_string)) != EOF) { int ret = 0; switch (option) { case 'd': if (!is_digits(optarg)) { err = EWRONG_OPT; break; } c.dbg_lv = atoi(optarg); MSG(0, "Info: Debug level = %d\n", c.dbg_lv); break; case 'g': if (!strcmp(optarg, "android")) { c.defset = CONF_ANDROID; MSG(0, "Info: Set conf for android\n"); break; } err = EWRONG_OPT; break; case 'i': if (strncmp(optarg, "0x", 2)) ret = sscanf(optarg, "%d", &dump_opt.nid); else ret = sscanf(optarg, "%x", &dump_opt.nid); break; case 'n': ret = sscanf(optarg, "%d~%d", &dump_opt.start_nat, &dump_opt.end_nat); break; case 's': ret = sscanf(optarg, "%d~%d", &dump_opt.start_sit, &dump_opt.end_sit); break; case 'S': c.sparse_mode = 1; break; case 'a': ret = sscanf(optarg, "%d~%d", &dump_opt.start_ssa, &dump_opt.end_ssa); break; case 'b': if (strncmp(optarg, "0x", 2)) ret = sscanf(optarg, "%d", &dump_opt.blk_addr); else ret = sscanf(optarg, "%x", &dump_opt.blk_addr); break; case 'V': show_version(prog); exit(0); default: err = EUNKNOWN_OPT; break; } ASSERT(ret >= 0); if (err != NOERROR) break; } c.private = &dump_opt; } else if (!strcmp("defrag.f2fs", prog)) { const char *option_string = "d:s:Sl:t:iV"; c.func = DEFRAG; while ((option = getopt(argc, argv, option_string)) != EOF) { int ret = 0; switch (option) { case 'd': if (!is_digits(optarg)) { err = EWRONG_OPT; break; } c.dbg_lv = atoi(optarg); MSG(0, "Info: Debug level = %d\n", c.dbg_lv); break; case 's': if (strncmp(optarg, "0x", 2)) ret = sscanf(optarg, "%"PRIu64"", &c.defrag_start); else ret = sscanf(optarg, "%"PRIx64"", &c.defrag_start); break; case 'S': c.sparse_mode = 1; break; case 'l': if (strncmp(optarg, "0x", 2)) ret = sscanf(optarg, "%"PRIu64"", &c.defrag_len); else ret = sscanf(optarg, "%"PRIx64"", &c.defrag_len); break; case 't': if (strncmp(optarg, "0x", 2)) ret = sscanf(optarg, "%"PRIu64"", &c.defrag_target); else ret = sscanf(optarg, "%"PRIx64"", &c.defrag_target); break; case 'i': c.defrag_shrink = 1; break; case 'V': show_version(prog); exit(0); default: err = EUNKNOWN_OPT; break; } ASSERT(ret >= 0); if (err != NOERROR) break; } } else if (!strcmp("resize.f2fs", prog)) { const char *option_string = "d:st:iV"; c.func = RESIZE; while ((option = getopt(argc, argv, option_string)) != EOF) { int ret = 0; switch (option) { case 'd': if (!is_digits(optarg)) { err = EWRONG_OPT; break; } c.dbg_lv = atoi(optarg); MSG(0, "Info: Debug level = %d\n", c.dbg_lv); break; case 's': c.safe_resize = 1; break; case 't': if (strncmp(optarg, "0x", 2)) ret = sscanf(optarg, "%"PRIu64"", &c.target_sectors); else ret = sscanf(optarg, "%"PRIx64"", &c.target_sectors); break; case 'i': c.large_nat_bitmap = 1; break; case 'V': show_version(prog); exit(0); default: err = EUNKNOWN_OPT; break; } ASSERT(ret >= 0); if (err != NOERROR) break; } } else if (!strcmp("sload.f2fs", prog)) { const char *option_string = "C:d:f:p:s:St:T:V"; #ifdef HAVE_LIBSELINUX int max_nr_opt = (int)sizeof(c.seopt_file) / sizeof(c.seopt_file[0]); char *token; #endif char *p; c.func = SLOAD; while ((option = getopt(argc, argv, option_string)) != EOF) { switch (option) { case 'C': c.fs_config_file = absolute_path(optarg); break; case 'd': if (!is_digits(optarg)) { err = EWRONG_OPT; break; } c.dbg_lv = atoi(optarg); MSG(0, "Info: Debug level = %d\n", c.dbg_lv); break; case 'f': c.from_dir = absolute_path(optarg); break; case 'p': c.target_out_dir = absolute_path(optarg); break; case 's': #ifdef HAVE_LIBSELINUX token = strtok(optarg, ","); while (token) { if (c.nr_opt == max_nr_opt) { MSG(0, "\tError: Expected at most %d selinux opts\n", max_nr_opt); error_out(prog); } c.seopt_file[c.nr_opt].type = SELABEL_OPT_PATH; c.seopt_file[c.nr_opt].value = absolute_path(token); c.nr_opt++; token = strtok(NULL, ","); } #else MSG(0, "Info: Not support selinux opts\n"); #endif break; case 'S': c.sparse_mode = 1; break; case 't': c.mount_point = (char *)optarg; break; case 'T': c.fixed_time = strtoul(optarg, &p, 0); break; case 'V': show_version(prog); exit(0); default: err = EUNKNOWN_OPT; break; } if (err != NOERROR) break; } } add_default_options(); if (optind >= argc) { MSG(0, "\tError: Device not specified\n"); error_out(prog); } c.devices[0].path = strdup(argv[optind]); if (argc > (optind + 1)) { c.dbg_lv = 0; err = EUNKNOWN_ARG; } if (err == NOERROR) return; /* print out error */ switch (err) { case EWRONG_OPT: MSG(0, "\tError: Wrong option -%c %s\n", option, optarg); break; case ENEED_ARG: MSG(0, "\tError: Need argument for -%c\n", option); break; case EUNKNOWN_OPT: MSG(0, "\tError: Unknown option %c\n", option); break; case EUNKNOWN_ARG: MSG(0, "\tError: Unknown argument %s\n", argv[optind]); break; } error_out(prog); } static int do_fsck(struct f2fs_sb_info *sbi) { struct f2fs_checkpoint *ckpt = F2FS_CKPT(sbi); u32 flag = le32_to_cpu(ckpt->ckpt_flags); u32 blk_cnt; errcode_t ret; fsck_init(sbi); print_cp_state(flag); fsck_chk_and_fix_write_pointers(sbi); fsck_chk_curseg_info(sbi); if (!c.fix_on && !c.bug_on) { switch (c.preen_mode) { case PREEN_MODE_1: if (fsck_chk_meta(sbi)) { MSG(0, "[FSCK] F2FS metadata [Fail]"); MSG(0, "\tError: meta does not match, " "force check all\n"); } else { MSG(0, "[FSCK] F2FS metadata [Ok..]"); fsck_free(sbi); return FSCK_SUCCESS; } if (!c.ro) c.fix_on = 1; break; } } else if (c.preen_mode) { /* * we can hit this in 3 situations: * 1. fsck -f, fix_on has already been set to 1 when * parsing options; * 2. fsck -a && CP_FSCK_FLAG is set, fix_on has already * been set to 1 when checking CP_FSCK_FLAG; * 3. fsck -p 1 && error is detected, then bug_on is set, * we set fix_on = 1 here, so that fsck can fix errors * automatically */ c.fix_on = 1; } fsck_chk_checkpoint(sbi); fsck_chk_quota_node(sbi); /* Traverse all block recursively from root inode */ blk_cnt = 1; if (c.feature & cpu_to_le32(F2FS_FEATURE_QUOTA_INO)) { ret = quota_init_context(sbi); if (ret) { ASSERT_MSG("quota_init_context failure: %d", ret); return FSCK_OPERATIONAL_ERROR; } } fsck_chk_orphan_node(sbi); fsck_chk_node_blk(sbi, NULL, sbi->root_ino_num, F2FS_FT_DIR, TYPE_INODE, &blk_cnt, NULL); fsck_chk_quota_files(sbi); ret = fsck_verify(sbi); fsck_free(sbi); if (!c.bug_on) return FSCK_SUCCESS; if (!ret) return FSCK_ERROR_CORRECTED; return FSCK_ERRORS_LEFT_UNCORRECTED; } static void do_dump(struct f2fs_sb_info *sbi) { struct dump_option *opt = (struct dump_option *)c.private; struct f2fs_checkpoint *ckpt = F2FS_CKPT(sbi); u32 flag = le32_to_cpu(ckpt->ckpt_flags); if (opt->end_nat == -1) opt->end_nat = NM_I(sbi)->max_nid; if (opt->end_sit == -1) opt->end_sit = SM_I(sbi)->main_segments; if (opt->end_ssa == -1) opt->end_ssa = SM_I(sbi)->main_segments; if (opt->start_nat != -1) nat_dump(sbi, opt->start_nat, opt->end_nat); if (opt->start_sit != -1) sit_dump(sbi, opt->start_sit, opt->end_sit); if (opt->start_ssa != -1) ssa_dump(sbi, opt->start_ssa, opt->end_ssa); if (opt->blk_addr != -1) dump_info_from_blkaddr(sbi, opt->blk_addr); if (opt->nid) dump_node(sbi, opt->nid, 0); print_cp_state(flag); } static int do_defrag(struct f2fs_sb_info *sbi) { struct f2fs_super_block *sb = F2FS_RAW_SUPER(sbi); if (c.defrag_start > get_sb(block_count)) goto out_range; if (c.defrag_start < SM_I(sbi)->main_blkaddr) c.defrag_start = SM_I(sbi)->main_blkaddr; if (c.defrag_len == 0) c.defrag_len = sbi->blocks_per_seg; if (c.defrag_start + c.defrag_len > get_sb(block_count)) c.defrag_len = get_sb(block_count) - c.defrag_start; if (c.defrag_target == 0) { c.defrag_target = c.defrag_start - 1; if (!c.defrag_shrink) c.defrag_target += c.defrag_len + 1; } if (c.defrag_target < SM_I(sbi)->main_blkaddr || c.defrag_target > get_sb(block_count)) goto out_range; if (c.defrag_target >= c.defrag_start && c.defrag_target < c.defrag_start + c.defrag_len) goto out_range; if (c.defrag_start > c.defrag_target) MSG(0, "Info: Move 0x%"PRIx64" <- [0x%"PRIx64"-0x%"PRIx64"]\n", c.defrag_target, c.defrag_start, c.defrag_start + c.defrag_len - 1); else MSG(0, "Info: Move [0x%"PRIx64"-0x%"PRIx64"] -> 0x%"PRIx64"\n", c.defrag_start, c.defrag_start + c.defrag_len - 1, c.defrag_target); return f2fs_defragment(sbi, c.defrag_start, c.defrag_len, c.defrag_target, c.defrag_shrink); out_range: ASSERT_MSG("Out-of-range [0x%"PRIx64" ~ 0x%"PRIx64"] to 0x%"PRIx64"", c.defrag_start, c.defrag_start + c.defrag_len - 1, c.defrag_target); return -1; } static int do_resize(struct f2fs_sb_info *sbi) { if (!c.target_sectors) c.target_sectors = c.total_sectors; if (c.target_sectors > c.total_sectors) { ASSERT_MSG("Out-of-range Target=0x%"PRIx64" / 0x%"PRIx64"", c.target_sectors, c.total_sectors); return -1; } return f2fs_resize(sbi); } static int do_sload(struct f2fs_sb_info *sbi) { if (!c.from_dir) { MSG(0, "Info: No source directory, but it's okay.\n"); return 0; } if (!c.mount_point) c.mount_point = "/"; return f2fs_sload(sbi); } #if defined(__APPLE__) static u64 get_boottime_ns() { #ifdef HAVE_MACH_TIME_H return mach_absolute_time(); #else return 0; #endif } #else static u64 get_boottime_ns() { struct timespec t; t.tv_sec = t.tv_nsec = 0; clock_gettime(CLOCK_BOOTTIME, &t); return (u64)t.tv_sec * 1000000000LL + t.tv_nsec; } #endif int main(int argc, char **argv) { struct f2fs_sb_info *sbi; int ret = 0, ret2; u64 start = get_boottime_ns(); f2fs_init_configuration(); f2fs_parse_options(argc, argv); if (c.func != DUMP && f2fs_devs_are_umounted() < 0) { if (errno == EBUSY) { ret = -1; if (c.func == FSCK) ret = FSCK_OPERATIONAL_ERROR; goto quick_err; } if (!c.ro || c.func == DEFRAG) { MSG(0, "\tError: Not available on mounted device!\n"); ret = -1; if (c.func == FSCK) ret = FSCK_OPERATIONAL_ERROR; goto quick_err; } /* allow ro-mounted partition */ if (c.force) { MSG(0, "Info: Force to check/repair FS on RO mounted device\n"); } else { MSG(0, "Info: Check FS only on RO mounted device\n"); c.fix_on = 0; c.auto_fix = 0; } } /* Get device */ if (f2fs_get_device_info() < 0) { ret = -1; if (c.func == FSCK) ret = FSCK_OPERATIONAL_ERROR; goto quick_err; } fsck_again: memset(&gfsck, 0, sizeof(gfsck)); gfsck.sbi.fsck = &gfsck; sbi = &gfsck.sbi; ret = f2fs_do_mount(sbi); if (ret != 0) { if (ret == 1) { MSG(0, "Info: No error was reported\n"); ret = 0; } goto out_err; } switch (c.func) { case FSCK: ret = do_fsck(sbi); break; #ifdef WITH_DUMP case DUMP: do_dump(sbi); break; #endif #ifdef WITH_DEFRAG case DEFRAG: ret = do_defrag(sbi); if (ret) goto out_err; break; #endif #ifdef WITH_RESIZE case RESIZE: if (do_resize(sbi)) goto out_err; break; #endif #ifdef WITH_SLOAD case SLOAD: if (do_sload(sbi)) goto out_err; ret = f2fs_sparse_initialize_meta(sbi); if (ret < 0) goto out_err; f2fs_do_umount(sbi); /* fsck to fix missing quota */ c.func = FSCK; c.fix_on = 1; goto fsck_again; #endif default: ERR_MSG("Wrong program name\n"); ASSERT(0); } f2fs_do_umount(sbi); if (c.func == FSCK && c.bug_on) { if (!c.ro && c.fix_on == 0 && c.auto_fix == 0 && !c.dry_run) { char ans[255] = {0}; retry: printf("Do you want to fix this partition? [Y/N] "); ret2 = scanf("%s", ans); ASSERT(ret2 >= 0); if (!strcasecmp(ans, "y")) c.fix_on = 1; else if (!strcasecmp(ans, "n")) c.fix_on = 0; else goto retry; if (c.fix_on) goto fsck_again; } } ret2 = f2fs_finalize_device(); if (ret2) { if (c.func == FSCK) return FSCK_OPERATIONAL_ERROR; return ret2; } printf("\nDone: %lf secs\n", (get_boottime_ns() - start) / 1000000000.0); return ret; out_err: if (sbi->ckpt) free(sbi->ckpt); if (sbi->raw_super) free(sbi->raw_super); quick_err: f2fs_release_sparse_resource(); return ret; }