/* Copyright (c) 2015 Leonid Yuriev . Copyright (c) 2015 Peter-Service R&D LLC. This file is part of ReOpenLDAP. ReOpenLDAP is free software; you can redistribute it and/or modify it under the terms of the GNU Affero General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. ReOpenLDAP is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Affero General Public License for more details. You should have received a copy of the GNU Affero General Public License along with this program. If not, see . */ /* mdb_chk.c - memory-mapped database check tool */ #include #include #include #include #include #include #include #include #include #include #include "lmdb.h" #include "midl.h" typedef struct flagbit { int bit; char *name; } flagbit; flagbit dbflags[] = { { MDB_DUPSORT, "dupsort" }, { MDB_INTEGERKEY, "integerkey" }, { MDB_REVERSEKEY, "reversekey" }, { MDB_DUPFIXED, "dupfixed" }, { MDB_REVERSEDUP, "reversedup" }, { MDB_INTEGERDUP, "integerdup" }, { 0, NULL } }; static volatile sig_atomic_t gotsignal; static void signal_hanlder( int sig ) { gotsignal = 1; } #define MAX_DBI 32768 #define EXIT_INTERRUPTED (EXIT_FAILURE+4) #define EXIT_FAILURE_SYS (EXIT_FAILURE+3) #define EXIT_FAILURE_MDB (EXIT_FAILURE+2) #define EXIT_FAILURE_CHECK_MAJOR (EXIT_FAILURE+1) #define EXIT_FAILURE_CHECK_MINOR EXIT_FAILURE struct { const char* dbi_names[MAX_DBI]; size_t dbi_pages[MAX_DBI]; size_t dbi_payload_bytes[MAX_DBI]; short *pagemap; size_t total_payload_bytes; size_t pgcount; } walk = { .dbi_names = { "@gc" } }; size_t total_unused_bytes; int exclusive = 2; MDB_env *env; MDB_txn *txn, *locktxn; MDB_envinfo info; MDB_stat stat; size_t maxkeysize, reclaimable_pages, freedb_pages, lastpgno; size_t userdb_count, skipped_subdb; unsigned verbose, quiet; const char* only_subdb; struct problem { struct problem* pr_next; size_t count; const char* caption; }; struct problem* problems_list; size_t total_problems; static void __attribute__ ((format (printf, 1, 2))) print(const char* msg, ...) { if (! quiet) { va_list args; fflush(stderr); va_start(args, msg); vfprintf(stdout, msg, args); va_end(args); } } static void __attribute__ ((format (printf, 1, 2))) error(const char* msg, ...) { total_problems++; if (! quiet) { va_list args; fflush(stdout); va_start(args, msg); vfprintf(stderr, msg, args); va_end(args); fflush(NULL); } } static int pagemap_lookup_dbi(const char* dbi) { static int last; if (last > 0 && strcmp(walk.dbi_names[last], dbi) == 0) return last; for(last = 1; walk.dbi_names[last] && last < MAX_DBI; ++last) if (strcmp(walk.dbi_names[last], dbi) == 0) return last; if (last == MAX_DBI) return last = -1; walk.dbi_names[last] = strdup(dbi); if (verbose > 2) print(" - found '%s' area\n", dbi); return last; } static void problem_add(size_t entry_number, const char* msg, const char *extra, ...) { total_problems++; if (! quiet) { int need_fflush = 0; struct problem* p; for (p = problems_list; p; p = p->pr_next) if (p->caption == msg) break; if (! p) { p = calloc(1, sizeof(*p)); p->caption = msg; p->pr_next = problems_list; problems_list = p; need_fflush = 1; } p->count++; if (verbose > 1) { print(" - entry #%zu: %s", entry_number, msg); if (extra) { va_list args; va_start(args, extra); vfprintf(stdout, extra, args); va_end(args); } printf("\n"); if (need_fflush) fflush(NULL); } } } static struct problem* problems_push() { struct problem* p = problems_list; problems_list = NULL; return p; } static size_t problems_pop(struct problem* list) { size_t count = 0; if (problems_list) { int i; print(" - problems: "); for (i = 0; problems_list; ++i) { struct problem* p = problems_list->pr_next; count += problems_list->count; print("%s%s (%zu)", i ? ", " : "", problems_list->caption, problems_list->count); free(problems_list); problems_list = p; } print("\n"); fflush(NULL); } problems_list = list; return count; } static int pgvisitor(size_t pgno, unsigned pgnumber, void* ctx, const char* dbi, const char* type, int payload_bytes, int header_bytes, int unused_bytes) { if (type) { size_t page_bytes = payload_bytes + header_bytes + unused_bytes; size_t page_size = pgnumber * stat.ms_psize; int index = pagemap_lookup_dbi(dbi); if (index < 0) return ENOMEM; if (verbose > 3) { print((pgnumber < 2) ? " %s-page %zu" : " %s-span %zu..%zu (%u pages)", type, pgno, pgno + pgnumber - 1, pgnumber); print(" of %s: header %i, payload %i, unused %i\n", dbi, header_bytes, payload_bytes, unused_bytes); } walk.pgcount += pgnumber; if (unused_bytes < 0 || (size_t) unused_bytes > page_size) problem_add(pgno, "illegal unused-bytes", "(%zu < %i < %zu)", 0, unused_bytes, stat.ms_psize); if (header_bytes < sizeof(long) || header_bytes >= stat.ms_psize - sizeof(long)) problem_add(pgno, "illegal header-length", "(%zu < %i < %zu)", sizeof(long), header_bytes, stat.ms_psize - sizeof(long)); else if (payload_bytes < 1) problem_add(pgno, "empty page", "(payload %i bytes)", payload_bytes); if (page_bytes != page_size) problem_add(pgno, "misused page", "(%zu != %zu (%ih + %ip + %iu))", page_size, page_bytes, header_bytes, payload_bytes, unused_bytes); else { walk.dbi_payload_bytes[index] += payload_bytes + header_bytes; walk.total_payload_bytes += payload_bytes + header_bytes; } if (pgnumber) { do { if (pgno >= lastpgno) problem_add(pgno, "wrong page-no", "(> %zi)", lastpgno); else if (walk.pagemap[pgno]) problem_add(pgno, "page already used", "(in %s)", walk.dbi_names[walk.pagemap[pgno]]); else { walk.pagemap[pgno] = index; walk.dbi_pages[index] += 1; } ++pgno; } while(--pgnumber); } } return gotsignal ? EINTR : MDB_SUCCESS; } typedef int (visitor)(size_t record_number, MDB_val *key, MDB_val* data); static int process_db(MDB_dbi dbi, char *name, visitor *handler, int silent); static int handle_userdb(size_t record_number, MDB_val *key, MDB_val* data) { return MDB_SUCCESS; } static int handle_freedb(size_t record_number, MDB_val *key, MDB_val* data) { char *bad = ""; size_t pg, prev; ssize_t i, number, span = 0; size_t *iptr = data->mv_data, txnid = *(size_t*)key->mv_data; if (key->mv_size != sizeof(txnid)) problem_add(record_number, "wrong txn-id size", "(key-size %zi)", key->mv_size); else if (txnid < 1 || txnid > info.me_last_txnid) problem_add(record_number, "wrong txn-id", "(%zu)", txnid); if (data->mv_size < sizeof(size_t) || data->mv_size % sizeof(size_t)) problem_add(record_number, "wrong idl size", "(%zu)", data->mv_size); else { number = *iptr++; if (number <= 0 || number >= MDB_IDL_UM_MAX) problem_add(record_number, "wrong idl length", "(%zi)", number); else if ((number + 1) * sizeof(size_t) != data->mv_size) problem_add(record_number, "mismatch idl length", "(%zi != %zu)", number * sizeof(size_t), data->mv_size); else { freedb_pages += number; if (info.me_tail_txnid > txnid) reclaimable_pages += number; for (i = number, prev = 1; --i >= 0; ) { pg = iptr[i]; if (pg < 2 /* META_PAGE */ || pg > info.me_last_pgno) problem_add(record_number, "wrong idl entry", "(2 < %zi < %zi)", pg, info.me_last_pgno); else if (pg <= prev) { bad = " [bad sequence]"; problem_add(record_number, "bad sequence", "(%zi <= %zi)", pg, prev); } prev = pg; pg += span; for (; i >= span && iptr[i - span] == pg; span++, pg++) ; } if (verbose > 2) print(" transaction %zu, %zd pages, maxspan %zd%s\n", *(size_t *)key->mv_data, number, span, bad); if (verbose > 3) { int j = number - 1; while (j >= 0) { pg = iptr[j]; for (span = 1; --j >= 0 && iptr[j] == pg + span; span++) ; print((span > 1) ? " %9zu[%zd]\n" : " %9zu\n", pg, span); } } } } return MDB_SUCCESS; } static int handle_maindb(size_t record_number, MDB_val *key, MDB_val* data) { char *name; int i, rc; name = key->mv_data; for(i = 0; i < key->mv_size; ++i) { if (name[i] < ' ') return handle_userdb(record_number, key, data); } name = malloc(key->mv_size + 1); memcpy(name, key->mv_data, key->mv_size); name[key->mv_size] = '\0'; userdb_count++; rc = process_db(-1, name, handle_userdb, 0); free(name); if (rc != MDB_INCOMPATIBLE) return rc; return handle_userdb(record_number, key, data); } static int process_db(MDB_dbi dbi, char *name, visitor *handler, int silent) { MDB_cursor *mc; MDB_stat ms; MDB_val key, data; MDB_val prev_key, prev_data; unsigned flags; int rc, i; struct problem* saved_list; size_t problems_count; unsigned record_count = 0, dups = 0; size_t key_bytes = 0, data_bytes = 0; if (0 > (int) dbi) { rc = mdb_dbi_open(txn, name, 0, &dbi); if (rc) { if (!name || rc != MDB_INCOMPATIBLE) /* LY: mainDB's record is not a user's DB. */ { error(" - mdb_open '%s' failed, error %d %s\n", name ? name : "main", rc, mdb_strerror(rc)); } return rc; } } if (dbi >= 2 /* CORE_DBS */ && name && only_subdb && strcmp(only_subdb, name)) { if (verbose) { print("Skip processing %s'db...\n", name); fflush(NULL); } skipped_subdb++; mdb_dbi_close(env, dbi); return MDB_SUCCESS; } if (! silent && verbose) { print("Processing %s'db...\n", name ? name : "main"); fflush(NULL); } rc = mdb_dbi_flags(txn, dbi, &flags); if (rc) { error(" - mdb_dbi_flags failed, error %d %s\n", rc, mdb_strerror(rc)); mdb_dbi_close(env, dbi); return rc; } rc = mdb_stat(txn, dbi, &ms); if (rc) { error(" - mdb_stat failed, error %d %s\n", rc, mdb_strerror(rc)); mdb_dbi_close(env, dbi); return rc; } if (! silent && verbose) { print(" - dbi-id %d, flags:", dbi); if (! flags) print(" none"); else { for (i=0; dbflags[i].bit; i++) if (flags & dbflags[i].bit) print(" %s", dbflags[i].name); } print(" (0x%02X)\n", flags); if (verbose > 1) { print(" - page size %u, entries %zu\n", ms.ms_psize, ms.ms_entries); print(" - b-tree depth %u, pages: branch %zu, leaf %zu, overflow %zu\n", ms.ms_depth, ms.ms_branch_pages, ms.ms_leaf_pages, ms.ms_overflow_pages); } } rc = mdb_cursor_open(txn, dbi, &mc); if (rc) { error(" - mdb_cursor_open failed, error %d %s\n", rc, mdb_strerror(rc)); mdb_dbi_close(env, dbi); return rc; } saved_list = problems_push(); prev_key.mv_data = NULL; prev_data.mv_size = 0; rc = mdb_cursor_get(mc, &key, &data, MDB_FIRST); while (rc == MDB_SUCCESS) { if (gotsignal) { print(" - interrupted by signal\n"); fflush(NULL); rc = EINTR; goto bailout; } if (key.mv_size == 0) { problem_add(record_count, "key with zero length", NULL); } else if (key.mv_size > maxkeysize) { problem_add(record_count, "key length exceeds max-key-size", " (%zu > %zu)", key.mv_size, maxkeysize); } else if ((flags & MDB_INTEGERKEY) && key.mv_size != sizeof(size_t) && key.mv_size != sizeof(int)) { problem_add(record_count, "wrong key length", " (%zu != %zu)", key.mv_size, sizeof(size_t)); } if ((flags & MDB_INTEGERDUP) && data.mv_size != sizeof(size_t) && data.mv_size != sizeof(int)) { problem_add(record_count, "wrong data length", " (%zu != %zu)", data.mv_size, sizeof(size_t)); } if (prev_key.mv_data) { if ((flags & MDB_DUPFIXED) && prev_data.mv_size != data.mv_size) { problem_add(record_count, "different data length", " (%zu != %zu)", prev_data.mv_size, data.mv_size); } int cmp = mdb_cmp(txn, dbi, &prev_key, &key); if (cmp > 0) { problem_add(record_count, "broken ordering of entries", NULL); } else if (cmp == 0) { ++dups; if (! (flags & MDB_DUPSORT)) problem_add(record_count, "duplicated entries", NULL); else if (flags & MDB_INTEGERDUP) { cmp = mdb_dcmp(txn, dbi, &prev_data, &data); if (cmp > 0) problem_add(record_count, "broken ordering of multi-values", NULL); } } } else if (verbose) { if (flags & MDB_INTEGERKEY) print(" - fixed key-size %zu\n", key.mv_size ); if (flags & (MDB_INTEGERDUP | MDB_DUPFIXED)) print(" - fixed data-size %zu\n", data.mv_size ); } if (handler) { rc = handler(record_count, &key, &data); if (rc) goto bailout; } record_count++; key_bytes += key.mv_size; data_bytes += data.mv_size; prev_key = key; prev_data = data; rc = mdb_cursor_get(mc, &key, &data, MDB_NEXT); } if (rc != MDB_NOTFOUND) error(" - mdb_cursor_get failed, error %d %s\n", rc, mdb_strerror(rc)); else rc = 0; if (record_count != ms.ms_entries) problem_add(record_count, "differentent number of entries", " (%zu != %zu)", record_count, ms.ms_entries); bailout: problems_count = problems_pop(saved_list); if (! silent && verbose) { print(" - summary: %u records, %u dups, %zu key's bytes, %zu data's bytes, %zu problems\n", record_count, dups, key_bytes, data_bytes, problems_count); fflush(NULL); } mdb_cursor_close(mc); mdb_dbi_close(env, dbi); return rc || problems_count; } static void usage(char *prog) { fprintf(stderr, "usage: %s dbpath [-V] [-v] [-n] [-q] [-w] [-c] [-d] [-s subdb]\n" " -V\t\tshow version\n" " -v\t\tmore verbose, could be used multiple times\n" " -n\t\tNOSUBDIR mode for open\n" " -q\t\tbe quiet\n" " -w\t\tlock DB for writing while checking\n" " -d\t\tdisable page-by-page traversal of b-tree\n" " -s subdb\tprocess a specific subdatabase only\n" " -c\t\tforce cooperative mode (don't try exclusive)\n", prog); exit(EXIT_INTERRUPTED); } const char* meta_synctype(size_t sign) { switch(sign) { case 0: return "no-sync/legacy"; case 1: return "weak"; default: return "steady"; } } int meta_lt(size_t txn1, size_t sign1, size_t txn2, size_t sign2) { return ((sign1 > 1) == (sign2 > 1)) ? txn1 < txn2 : txn2 && sign2 > 1; } int main(int argc, char *argv[]) { int i, rc; char *prog = argv[0]; char *envname; int envflags = MDB_RDONLY; int problems_maindb = 0, problems_freedb = 0, problems_meta = 0; int dont_traversal = 0; size_t n; struct timespec timestamp_start, timestamp_finish; double elapsed; if (clock_gettime(CLOCK_MONOTONIC, ×tamp_start)) { rc = errno; error("clock_gettime failed, error %d %s\n", rc, mdb_strerror(rc)); return EXIT_FAILURE_SYS; } if (argc < 2) { usage(prog); } while ((i = getopt(argc, argv, "Vvqnwcds:")) != EOF) { switch(i) { case 'V': printf("%s\n", MDB_VERSION_STRING); exit(EXIT_SUCCESS); break; case 'v': verbose++; break; case 'q': quiet = 1; break; case 'n': envflags |= MDB_NOSUBDIR; break; case 'w': envflags &= ~MDB_RDONLY; break; case 'c': exclusive = 0; break; case 'd': dont_traversal = 1; break; case 's': if (only_subdb && strcmp(only_subdb, optarg)) usage(prog); only_subdb = optarg; break; default: usage(prog); } } if (optind != argc - 1) usage(prog); #ifdef SIGPIPE signal(SIGPIPE, signal_hanlder); #endif #ifdef SIGHUP signal(SIGHUP, signal_hanlder); #endif signal(SIGINT, signal_hanlder); signal(SIGTERM, signal_hanlder); envname = argv[optind]; print("Running mdb_chk for '%s' in %s mode...\n", envname, (envflags & MDB_RDONLY) ? "read-only" : "write-lock"); fflush(NULL); rc = mdb_env_create(&env); if (rc) { error("mdb_env_create failed, error %d %s\n", rc, mdb_strerror(rc)); return rc < 0 ? EXIT_FAILURE_MDB : EXIT_FAILURE_SYS; } rc = mdb_env_get_maxkeysize(env); if (rc < 0) { error("mdb_env_get_maxkeysize failed, error %d %s\n", rc, mdb_strerror(rc)); goto bailout; } maxkeysize = rc; mdb_env_set_maxdbs(env, 3); rc = mdb_env_open_ex(env, envname, envflags, 0664, &exclusive); if (rc) { error("mdb_env_open failed, error %d %s\n", rc, mdb_strerror(rc)); goto bailout; } if (verbose) print(" - %s mode\n", exclusive ? "monopolistic" : "cooperative"); if (! (envflags & MDB_RDONLY)) { rc = mdb_txn_begin(env, NULL, 0, &locktxn); if (rc) { error("mdb_txn_begin(lock-write) failed, error %d %s\n", rc, mdb_strerror(rc)); goto bailout; } } rc = mdb_txn_begin(env, NULL, MDB_RDONLY, &txn); if (rc) { error("mdb_txn_begin(read-only) failed, error %d %s\n", rc, mdb_strerror(rc)); goto bailout; } rc = mdb_env_info(env, &info); if (rc) { error("mdb_env_info failed, error %d %s\n", rc, mdb_strerror(rc)); goto bailout; } rc = mdb_env_stat(env, &stat); if (rc) { error("mdb_env_stat failed, error %d %s\n", rc, mdb_strerror(rc)); goto bailout; } lastpgno = info.me_last_pgno + 1; errno = 0; if (verbose) { double k = 1024.0; const char sf[] = "KMGTPEZY"; /* LY: Kilo, Mega, Giga, Tera, Peta, Exa, Zetta, Yotta! */ for(i = 0; sf[i+1] && info.me_mapsize / k > 1000.0; ++i) k *= 1024; print(" - map size %zu (%.2f %cb)\n", info.me_mapsize, info.me_mapsize / k, sf[i]); if (info.me_mapaddr) print(" - mapaddr %p\n", info.me_mapaddr); print(" - pagesize %u, max keysize %zu (%s), max readers %u\n", stat.ms_psize, maxkeysize, (maxkeysize == 511) ? "default" : (maxkeysize == 0) ? "devel" : "custom", info.me_maxreaders); print(" - transactions: last %zu, bottom %zu, lag reading %zi\n", info.me_last_txnid, info.me_tail_txnid, info.me_last_txnid - info.me_tail_txnid); print(" - meta-1: %s %zu, %s", meta_synctype(info.me_meta1_sign), info.me_meta1_txnid, meta_lt(info.me_meta1_txnid, info.me_meta1_sign, info.me_meta2_txnid, info.me_meta2_sign) ? "tail" : "head"); print(info.me_meta1_txnid > info.me_last_txnid ? ", rolled-back %zu (%zu >>> %zu)\n" : "\n", info.me_meta1_txnid - info.me_last_txnid, info.me_meta1_txnid, info.me_last_txnid); print(" - meta-2: %s %zu, %s", meta_synctype(info.me_meta2_sign), info.me_meta2_txnid, meta_lt(info.me_meta2_txnid, info.me_meta2_sign, info.me_meta1_txnid, info.me_meta1_sign) ? "tail" : "head"); print(info.me_meta2_txnid > info.me_last_txnid ? ", rolled-back %zu (%zu >>> %zu)\n" : "\n", info.me_meta2_txnid - info.me_last_txnid, info.me_meta2_txnid, info.me_last_txnid); } if (exclusive > 1) { if (verbose) print(" - perform full check last-txn-id with meta-pages\n"); if (! meta_lt(info.me_meta1_txnid, info.me_meta1_sign, info.me_meta2_txnid, info.me_meta2_sign) && info.me_meta1_txnid != info.me_last_txnid) { print(" - meta-1 txn-id mismatch last-txn-id (%zi != %zi)\n", info.me_meta1_txnid, info.me_last_txnid); ++problems_meta; } if (! meta_lt(info.me_meta2_txnid, info.me_meta2_sign, info.me_meta1_txnid, info.me_meta1_sign) && info.me_meta2_txnid != info.me_last_txnid) { print(" - meta-2 txn-id mismatch last-txn-id (%zi != %zi)\n", info.me_meta2_txnid, info.me_last_txnid); ++problems_meta; } } else if (locktxn) { if (verbose) print(" - perform lite check last-txn-id with meta-pages (not a monopolistic mode)\n"); size_t last = (info.me_meta2_txnid > info.me_meta1_txnid) ? info.me_meta2_txnid : info.me_meta1_txnid; if (last != info.me_last_txnid) { print(" - last-meta mismatch last-txn-id (%zi != %zi)\n", last, info.me_last_txnid); ++problems_meta; } } else if (verbose) { print(" - skip check last-txn-id with meta-pages (monopolistic or write-lock mode only)\n"); } if (!dont_traversal) { struct problem* saved_list; size_t traversal_problems; print("Traversal b-tree...\n"); fflush(NULL); walk.pagemap = calloc(lastpgno, sizeof(*walk.pagemap)); if (! walk.pagemap) { rc = errno ? errno : ENOMEM; error("calloc failed, error %d %s\n", rc, mdb_strerror(rc)); goto bailout; } saved_list = problems_push(); rc = mdb_env_pgwalk(txn, pgvisitor, NULL); traversal_problems = problems_pop(saved_list); if (rc) { if (rc == EINTR && gotsignal) { print(" - interrupted by signal\n"); fflush(NULL); } else { error("mdb_env_pgwalk failed, error %d %s\n", rc, mdb_strerror(rc)); } goto bailout; } for( n = 0; n < lastpgno; ++n) if (! walk.pagemap[n]) walk.dbi_pages[0] += 1; if (verbose) { size_t total_page_bytes = walk.pgcount * stat.ms_psize; print(" - dbi pages: %zu total", walk.pgcount); if (verbose > 1) for (i = 1; i < MAX_DBI && walk.dbi_names[i]; ++i) print(", %s %zu", walk.dbi_names[i], walk.dbi_pages[i]); print(", %s %zu\n", walk.dbi_names[0], walk.dbi_pages[0]); if (verbose > 1) { print(" - space info: total %zu bytes, payload %zu (%.1f%%), unused %zu (%.1f%%)\n", total_page_bytes, walk.total_payload_bytes, walk.total_payload_bytes * 100.0 / total_page_bytes, total_page_bytes - walk.total_payload_bytes, (total_page_bytes - walk.total_payload_bytes) * 100.0 / total_page_bytes); for (i = 1; i < MAX_DBI && walk.dbi_names[i]; ++i) { size_t dbi_bytes = walk.dbi_pages[i] * stat.ms_psize; print(" %s: subtotal %zu bytes (%.1f%%), payload %zu (%.1f%%), unused %zu (%.1f%%)\n", walk.dbi_names[i], dbi_bytes, dbi_bytes * 100.0 / total_page_bytes, walk.dbi_payload_bytes[i], walk.dbi_payload_bytes[i] * 100.0 / dbi_bytes, dbi_bytes - walk.dbi_payload_bytes[i], (dbi_bytes - walk.dbi_payload_bytes[i]) * 100.0 / dbi_bytes); } } print(" - summary: average fill %.1f%%, %zu problems\n", walk.total_payload_bytes * 100.0 / total_page_bytes, traversal_problems); } } else if (verbose) { print("Skipping b-tree walk...\n"); fflush(NULL); } if (! verbose) print("Iterating DBIs...\n"); problems_maindb = process_db(-1, /* MAIN_DBI */ NULL, NULL, 0); problems_freedb = process_db(0 /* FREE_DBI */, "free", handle_freedb, 0); if (verbose) { size_t value = info.me_mapsize / stat.ms_psize; double percent = value / 100.0; print(" - pages info: %zu total", value); print(", allocated %zu (%.1f%%)", lastpgno, lastpgno / percent); if (verbose > 1) { value = info.me_mapsize / stat.ms_psize - lastpgno; print(", remained %zu (%.1f%%)", value, value / percent); value = lastpgno - freedb_pages; print(", used %zu (%.1f%%)", value, value / percent); print(", gc %zu (%.1f%%)", freedb_pages, freedb_pages / percent); value = freedb_pages - reclaimable_pages; print(", reading %zu (%.1f%%)", value, value / percent); print(", reclaimable %zu (%.1f%%)", reclaimable_pages, reclaimable_pages / percent); } value = info.me_mapsize / stat.ms_psize - lastpgno + reclaimable_pages; print(", available %zu (%.1f%%)\n", value, value / percent); } if (problems_maindb == 0 && problems_freedb == 0) { if (!dont_traversal && (exclusive || locktxn)) { if (walk.pgcount != lastpgno - freedb_pages) { error("used pages mismatch (%zu != %zu)\n", walk.pgcount, lastpgno - freedb_pages); } if (walk.dbi_pages[0] != freedb_pages) { error("gc pages mismatch (%zu != %zu)\n", walk.dbi_pages[0], freedb_pages); } } else if (verbose) { print(" - skip check used and gc pages (btree-traversal with monopolistic or write-lock mode only)\n"); } if (! process_db(-1, NULL, handle_maindb, 1)) { if (! userdb_count && verbose) print(" - does not contain multiple databases\n"); } } bailout: if (txn) mdb_txn_abort(txn); if (locktxn) mdb_txn_abort(locktxn); if (env) mdb_env_close(env); free(walk.pagemap); fflush(NULL); if (rc) { if (rc < 0) return gotsignal ? EXIT_INTERRUPTED : EXIT_FAILURE_SYS; return EXIT_FAILURE_MDB; } if (clock_gettime(CLOCK_MONOTONIC, ×tamp_finish)) { rc = errno; error("clock_gettime failed, error %d %s\n", rc, mdb_strerror(rc)); return EXIT_FAILURE_SYS; } elapsed = timestamp_finish.tv_sec - timestamp_start.tv_sec + (timestamp_finish.tv_nsec - timestamp_start.tv_nsec) * 1e-9; total_problems += problems_meta; if (total_problems || problems_maindb || problems_freedb) { print("Total %zu error(s) is detected, elapsed %.3f seconds.\n", total_problems, elapsed); if (problems_meta || problems_maindb || problems_freedb) return EXIT_FAILURE_CHECK_MAJOR; return EXIT_FAILURE_CHECK_MINOR; } print("No error is detected, elapsed %.3f seconds\n", elapsed); return EXIT_SUCCESS; }