// SPDX-License-Identifier: GPL-2.0 /* * Copyright (C) 2024, Huawei Technologies Co, Ltd. * * Authors: Zhihao Cheng */ #include #include #include #include "ubifs.h" #include "defs.h" #include "debug.h" #include "key.h" #include "fsck.ubifs.h" /* * problem flags. * * PROBLEM_FIXABLE: problem is fixable, unsolvable problem such as corrupted * super block will abort the fsck program * PROBLEM_MUST_FIX: problem must be fixed because it will affect the subsequent * fsck process, otherwise aborting the fsck program * PROBLEM_DROP_DATA: user data could be dropped after fixing the problem * PROBLEM_NEED_REBUILD: rebuilding filesystem is needed to fix the problem */ #define PROBLEM_FIXABLE (1<<0) #define PROBLEM_MUST_FIX (1<<1) #define PROBLEM_DROP_DATA (1<<2) #define PROBLEM_NEED_REBUILD (1<<3) struct fsck_problem { unsigned int flags; const char *desc; }; static const struct fsck_problem problem_table[] = { {0, "Corrupted superblock"}, // SB_CORRUPTED {PROBLEM_FIXABLE | PROBLEM_MUST_FIX | PROBLEM_DROP_DATA | PROBLEM_NEED_REBUILD, "Corrupted master node"}, // MST_CORRUPTED {PROBLEM_FIXABLE | PROBLEM_MUST_FIX | PROBLEM_DROP_DATA | PROBLEM_NEED_REBUILD, "Corrupted log area"}, // LOG_CORRUPTED {PROBLEM_FIXABLE | PROBLEM_MUST_FIX | PROBLEM_DROP_DATA, "Corrupted bud LEB"}, // BUD_CORRUPTED {PROBLEM_FIXABLE | PROBLEM_MUST_FIX | PROBLEM_DROP_DATA | PROBLEM_NEED_REBUILD, "Corrupted index node"}, // TNC_CORRUPTED {PROBLEM_FIXABLE | PROBLEM_MUST_FIX | PROBLEM_DROP_DATA, "Corrupted data searched from TNC"}, // TNC_DATA_CORRUPTED {PROBLEM_FIXABLE | PROBLEM_MUST_FIX | PROBLEM_DROP_DATA, "Corrupted orphan LEB"}, // ORPHAN_CORRUPTED {PROBLEM_FIXABLE | PROBLEM_MUST_FIX | PROBLEM_DROP_DATA, "Invalid inode node"}, // INVALID_INO_NODE {PROBLEM_FIXABLE | PROBLEM_MUST_FIX | PROBLEM_DROP_DATA, "Invalid dentry node"}, // INVALID_DENT_NODE {PROBLEM_FIXABLE | PROBLEM_MUST_FIX | PROBLEM_DROP_DATA, "Invalid data node"}, // INVALID_DATA_NODE {PROBLEM_FIXABLE | PROBLEM_MUST_FIX | PROBLEM_DROP_DATA, "Corrupted data is scanned"}, // SCAN_CORRUPTED {PROBLEM_FIXABLE | PROBLEM_MUST_FIX | PROBLEM_DROP_DATA, "File has no inode"}, // FILE_HAS_NO_INODE {PROBLEM_FIXABLE | PROBLEM_MUST_FIX | PROBLEM_DROP_DATA, "File has zero-nlink inode"}, // FILE_HAS_0_NLINK_INODE {PROBLEM_FIXABLE | PROBLEM_MUST_FIX | PROBLEM_DROP_DATA, "File has inconsistent type"}, // FILE_HAS_INCONSIST_TYPE {PROBLEM_FIXABLE | PROBLEM_MUST_FIX | PROBLEM_DROP_DATA, "File has too many dentries"}, // FILE_HAS_TOO_MANY_DENT {PROBLEM_FIXABLE | PROBLEM_MUST_FIX | PROBLEM_DROP_DATA, "File should not have data"}, // FILE_SHOULDNT_HAVE_DATA {PROBLEM_FIXABLE | PROBLEM_MUST_FIX | PROBLEM_DROP_DATA, "File has no dentries"}, // FILE_HAS_NO_DENT {PROBLEM_FIXABLE | PROBLEM_MUST_FIX | PROBLEM_DROP_DATA, "Xattr file has no host"}, // XATTR_HAS_NO_HOST {PROBLEM_FIXABLE | PROBLEM_MUST_FIX | PROBLEM_DROP_DATA, "Xattr file has wrong host"}, // XATTR_HAS_WRONG_HOST {PROBLEM_FIXABLE | PROBLEM_MUST_FIX | PROBLEM_DROP_DATA, "Encrypted file has no encryption information"}, // FILE_HAS_NO_ENCRYPT {PROBLEM_FIXABLE | PROBLEM_MUST_FIX, "File is disconnected(regular file without dentries)"}, // FILE_IS_DISCONNECTED {PROBLEM_FIXABLE | PROBLEM_MUST_FIX | PROBLEM_DROP_DATA, "Root dir should not have a dentry"}, // FILE_ROOT_HAS_DENT {PROBLEM_FIXABLE | PROBLEM_MUST_FIX | PROBLEM_DROP_DATA, "Dentry is unreachable"}, // DENTRY_IS_UNREACHABLE {PROBLEM_FIXABLE | PROBLEM_MUST_FIX, "File is inconsistent"}, // FILE_IS_INCONSISTENT {PROBLEM_FIXABLE | PROBLEM_MUST_FIX | PROBLEM_DROP_DATA | PROBLEM_NEED_REBUILD, "TNC is empty"}, // EMPTY_TNC {PROBLEM_FIXABLE | PROBLEM_MUST_FIX, "Corrupted pnode/nnode"}, // LPT_CORRUPTED {PROBLEM_FIXABLE | PROBLEM_MUST_FIX, "Inconsistent properties for nnode"}, // NNODE_INCORRECT {PROBLEM_FIXABLE | PROBLEM_MUST_FIX, "Inconsistent properties for pnode"}, // PNODE_INCORRECT {PROBLEM_FIXABLE | PROBLEM_MUST_FIX, "Inconsistent properties for LEB"}, // LP_INCORRECT {PROBLEM_FIXABLE | PROBLEM_MUST_FIX, "Incorrect space statistics"}, // SPACE_STAT_INCORRECT {PROBLEM_FIXABLE | PROBLEM_MUST_FIX, "Inconsistent properties for lprops table"}, // LTAB_INCORRECT }; static const char *get_question(const struct fsck_problem *problem, int problem_type) { if (problem->flags & PROBLEM_NEED_REBUILD) return "Rebuild filesystem?"; switch (problem_type) { case BUD_CORRUPTED: return "Drop bud?"; case TNC_DATA_CORRUPTED: case INVALID_INO_NODE: case INVALID_DENT_NODE: case INVALID_DATA_NODE: case SCAN_CORRUPTED: return "Drop it?"; case ORPHAN_CORRUPTED: return "Drop orphans on the LEB?"; case FILE_HAS_NO_INODE: case FILE_HAS_0_NLINK_INODE: case FILE_HAS_NO_DENT: case XATTR_HAS_NO_HOST: case XATTR_HAS_WRONG_HOST: case FILE_HAS_NO_ENCRYPT: case FILE_ROOT_HAS_DENT: case DENTRY_IS_UNREACHABLE: return "Delete it?"; case FILE_HAS_INCONSIST_TYPE: case FILE_HAS_TOO_MANY_DENT: return "Remove dentry?"; case FILE_SHOULDNT_HAVE_DATA: return "Remove data block?"; case FILE_IS_DISCONNECTED: return "Put it into disconnected list?"; case LPT_CORRUPTED: return "Rebuild LPT?"; } return "Fix it?"; } static void print_problem(const struct ubifs_info *c, const struct fsck_problem *problem, int problem_type, const void *priv) { switch (problem_type) { case BUD_CORRUPTED: { const struct ubifs_bud *bud = (const struct ubifs_bud *)priv; log_out(c, "problem: %s %d:%d %s", problem->desc, bud->lnum, bud->start, dbg_jhead(bud->jhead)); break; } case ORPHAN_CORRUPTED: { const int *lnum = (const int *)priv; log_out(c, "problem: %s %d", problem->desc, *lnum); break; } case SCAN_CORRUPTED: { const struct ubifs_zbranch *zbr = (const struct ubifs_zbranch *)priv; log_out(c, "problem: %s in LEB %d, node in %d:%d becomes invalid", problem->desc, zbr->lnum, zbr->lnum, zbr->offs); break; } case FILE_HAS_NO_INODE: { const struct invalid_file_problem *ifp = (const struct invalid_file_problem *)priv; log_out(c, "problem: %s, ino %lu", problem->desc, ifp->file->inum); break; } case FILE_HAS_INCONSIST_TYPE: { const struct invalid_file_problem *ifp = (const struct invalid_file_problem *)priv; const struct scanned_dent_node *dent_node = (const struct scanned_dent_node *)ifp->priv; log_out(c, "problem: %s, ino %lu, inode type %s%s, dentry %s has type %s%s", problem->desc, ifp->file->inum, ubifs_get_type_name(ubifs_get_dent_type(ifp->file->ino.mode)), ifp->file->ino.is_xattr ? "(xattr)" : "", c->encrypted && !ifp->file->ino.is_xattr ? "" : dent_node->name, ubifs_get_type_name(dent_node->type), key_type(c, &dent_node->key) == UBIFS_XENT_KEY ? "(xattr)" : ""); break; } case FILE_HAS_TOO_MANY_DENT: case FILE_ROOT_HAS_DENT: { const struct invalid_file_problem *ifp = (const struct invalid_file_problem *)priv; const struct scanned_dent_node *dent_node = (const struct scanned_dent_node *)ifp->priv; log_out(c, "problem: %s, ino %lu, type %s%s, dentry %s", problem->desc, ifp->file->inum, ubifs_get_type_name(ubifs_get_dent_type(ifp->file->ino.mode)), ifp->file->ino.is_xattr ? "(xattr)" : "", c->encrypted && !ifp->file->ino.is_xattr ? "" : dent_node->name); break; } case FILE_SHOULDNT_HAVE_DATA: { const struct invalid_file_problem *ifp = (const struct invalid_file_problem *)priv; const struct scanned_data_node *data_node = (const struct scanned_data_node *)ifp->priv; log_out(c, "problem: %s, ino %lu, type %s%s, data block %u", problem->desc, ifp->file->inum, ubifs_get_type_name(ubifs_get_dent_type(ifp->file->ino.mode)), ifp->file->ino.is_xattr ? "(xattr)" : "", key_block(c, &data_node->key)); break; } case FILE_HAS_0_NLINK_INODE: case FILE_HAS_NO_DENT: case XATTR_HAS_NO_HOST: case FILE_HAS_NO_ENCRYPT: case FILE_IS_DISCONNECTED: { const struct invalid_file_problem *ifp = (const struct invalid_file_problem *)priv; log_out(c, "problem: %s, ino %lu type %s%s", problem->desc, ifp->file->inum, ubifs_get_type_name(ubifs_get_dent_type(ifp->file->ino.mode)), ifp->file->ino.is_xattr ? "(xattr)" : ""); break; } case XATTR_HAS_WRONG_HOST: { const struct invalid_file_problem *ifp = (const struct invalid_file_problem *)priv; const struct scanned_file *host = (const struct scanned_file *)ifp->priv; log_out(c, "problem: %s, ino %lu type %s%s, host ino %lu type %s%s", problem->desc, ifp->file->inum, ubifs_get_type_name(ubifs_get_dent_type(ifp->file->ino.mode)), ifp->file->ino.is_xattr ? "(xattr)" : "", host->inum, ubifs_get_type_name(ubifs_get_dent_type(host->ino.mode)), host->ino.is_xattr ? "(xattr)" : ""); break; } case DENTRY_IS_UNREACHABLE: { const struct invalid_file_problem *ifp = (const struct invalid_file_problem *)priv; const struct scanned_dent_node *dent_node = (const struct scanned_dent_node *)ifp->priv; log_out(c, "problem: %s, ino %lu, unreachable dentry %s, type %s%s", problem->desc, ifp->file->inum, c->encrypted && !ifp->file->ino.is_xattr ? "" : dent_node->name, ubifs_get_type_name(dent_node->type), key_type(c, &dent_node->key) == UBIFS_XENT_KEY ? "(xattr)" : ""); break; } case FILE_IS_INCONSISTENT: { const struct invalid_file_problem *ifp = (const struct invalid_file_problem *)priv; const struct scanned_file *file = ifp->file; log_out(c, "problem: %s, ino %lu type %s, nlink %u xcnt %u xsz %u xnms %u size %llu, " "should be nlink %u xcnt %u xsz %u xnms %u size %llu", problem->desc, file->inum, file->ino.is_xattr ? "xattr" : ubifs_get_type_name(ubifs_get_dent_type(file->ino.mode)), file->ino.nlink, file->ino.xcnt, file->ino.xsz, file->ino.xnms, file->ino.size, file->calc_nlink, file->calc_xcnt, file->calc_xsz, file->calc_xnms, file->calc_size); break; } case NNODE_INCORRECT: { const struct nnode_problem *nnp = (const struct nnode_problem *)priv; log_out(c, "problem: %s, nnode num %d expected %d parent num %d iip %d", problem->desc, nnp->nnode->num, nnp->num, nnp->parent_nnode ? nnp->parent_nnode->num : 0, nnp->nnode->iip); break; } case PNODE_INCORRECT: { const struct pnode_problem *pnp = (const struct pnode_problem *)priv; log_out(c, "problem: %s, pnode num %d expected %d parent num %d iip %d", problem->desc, pnp->pnode->num, pnp->num, pnp->pnode->parent->num, pnp->pnode->iip); break; } case LP_INCORRECT: { const struct lp_problem *lpp = (const struct lp_problem *)priv; log_out(c, "problem: %s %d, free %d dirty %d is_idx %d, should be lnum %d free %d dirty %d is_idx %d", problem->desc, lpp->lp->lnum, lpp->lp->free, lpp->lp->dirty, lpp->lp->flags & LPROPS_INDEX ? 1 : 0, lpp->lnum, lpp->free, lpp->dirty, lpp->is_idx); break; } case SPACE_STAT_INCORRECT: { const struct space_stat_problem *ssp = (const struct space_stat_problem *)priv; log_out(c, "problem: %s, empty_lebs %d idx_lebs %d total_free %lld total_dirty %lld total_used %lld total_dead %lld total_dark %lld, should be empty_lebs %d idx_lebs %d total_free %lld total_dirty %lld total_used %lld total_dead %lld total_dark %lld", problem->desc, ssp->lst->empty_lebs, ssp->lst->idx_lebs, ssp->lst->total_free, ssp->lst->total_dirty, ssp->lst->total_used, ssp->lst->total_dead, ssp->lst->total_dark, ssp->calc_lst->empty_lebs, ssp->calc_lst->idx_lebs, ssp->calc_lst->total_free, ssp->calc_lst->total_dirty, ssp->calc_lst->total_used, ssp->calc_lst->total_dead, ssp->calc_lst->total_dark); break; } default: log_out(c, "problem: %s", problem->desc); break; } } static void fatal_error(const struct ubifs_info *c, const struct fsck_problem *problem) { if (!(problem->flags & PROBLEM_FIXABLE)) log_out(c, "inconsistent problem cannot be fixed"); else log_out(c, "inconsistent problem must be fixed"); exit(exit_code); } /** * fix_problem - whether fixing the inconsistent problem * @c: UBIFS file-system description object * @problem_type: the type of inconsistent problem * @priv: private data for problem instance * * This function decides to fix/skip the inconsistent problem or abort the * program according to @problem_type, returns %true if the problem should * be fixed, returns %false if the problem will be skipped. */ bool fix_problem(const struct ubifs_info *c, int problem_type, const void *priv) { bool ans, ask = true, def_y = true; const struct fsck_problem *problem = &problem_table[problem_type]; const char *question = get_question(problem, problem_type); ubifs_assert(c, FSCK(c)->mode != REBUILD_MODE); if (!(problem->flags & PROBLEM_FIXABLE)) { exit_code |= FSCK_UNCORRECTED; fatal_error(c, problem); } if (FSCK(c)->mode == CHECK_MODE || ((problem->flags & PROBLEM_DROP_DATA) && FSCK(c)->mode == SAFE_MODE) || ((problem->flags & PROBLEM_NEED_REBUILD) && (FSCK(c)->mode == SAFE_MODE || FSCK(c)->mode == DANGER_MODE0))) def_y = false; if ((problem->flags & PROBLEM_NEED_REBUILD) && (FSCK(c)->mode == DANGER_MODE0 || FSCK(c)->mode == DANGER_MODE1)) ask = false; print_problem(c, problem, problem_type, priv); ans = def_y; if (FSCK(c)->mode == NORMAL_MODE) { printf("%s[%d] (%s%s)", c->program_name, getpid(), c->dev_name ? : "-", mode_name(c)); if (prompt(question, def_y)) ans = true; else ans = false; } else { if (ask) log_out(c, "%s %c\n", question, def_y ? 'y' : 'n'); } if (!ans) { exit_code |= FSCK_UNCORRECTED; if (problem->flags & PROBLEM_MUST_FIX) fatal_error(c, problem); } else { exit_code |= FSCK_NONDESTRUCT; } return ans; }