/* * libcsync -- a library to sync a directory with another * * Copyright (c) 2008-2013 by Andreas Schneider * Copyright (c) 2012-2013 by Klaas Freitag wie * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ #include "config.h" #ifndef _GNU_SOURCE #define _GNU_SOURCE #endif #include #include #include #include #include #include #include #include "c_lib.h" #include "csync_private.h" #include "csync_statedb.h" #include "csync_util.h" #include "csync_misc.h" #include "c_string.h" #include "c_jhash.h" #include "csync_time.h" #define CSYNC_LOG_CATEGORY_NAME "csync.statedb" #include "csync_log.h" #include "csync_rename.h" #define BUF_SIZE 16 #define HASH_QUERY "SELECT * FROM metadata WHERE phash=?1" static sqlite3_stmt* _by_hash_stmt = NULL; void csync_set_statedb_exists(CSYNC *ctx, int val) { ctx->statedb.exists = val; } int csync_get_statedb_exists(CSYNC *ctx) { return ctx->statedb.exists; } /* Set the hide attribute in win32. That makes it invisible in normal explorers */ static void _csync_win32_hide_file( const char *file ) { #ifdef _WIN32 mbchar_t *fileName; DWORD dwAttrs; if( !file ) return; fileName = c_utf8_to_locale( file ); dwAttrs = GetFileAttributesW(fileName); if (dwAttrs==INVALID_FILE_ATTRIBUTES) return; if (!(dwAttrs & FILE_ATTRIBUTE_HIDDEN)) { SetFileAttributesW(fileName, dwAttrs | FILE_ATTRIBUTE_HIDDEN ); } c_free_locale_string(fileName); #else (void) file; #endif } static int _csync_check_db_integrity(sqlite3 *db) { c_strlist_t *result = NULL; int rc = -1; result = csync_statedb_query(db, "PRAGMA quick_check;"); if (result != NULL) { /* There is a result */ if (result->count > 0) { if (c_streq(result->vector[0], "ok")) { rc = 0; } } c_strlist_destroy(result); } return rc; } static int _csync_statedb_check(const char *statedb) { int fd = -1, rc; ssize_t r; char buf[BUF_SIZE] = {0}; sqlite3 *db = NULL; csync_stat_t sb; mbchar_t *wstatedb = c_utf8_to_locale(statedb); if (wstatedb == NULL) { return -1; } /* check db version */ #ifdef _WIN32 _fmode = _O_BINARY; #endif fd = _topen(wstatedb, O_RDONLY); if (fd >= 0) { /* Check size. Size of zero is a valid database actually. */ rc = _tfstat(fd, &sb); if (rc == 0) { if (sb.st_size == 0) { CSYNC_LOG(CSYNC_LOG_PRIORITY_ERROR, "Database size is zero byte!"); close(fd); } else { r = read(fd, (void *) buf, sizeof(buf) - 1); close(fd); if (r >= 0) { buf[BUF_SIZE - 1] = '\0'; if (c_streq(buf, "SQLite format 3")) { if (sqlite3_open(statedb, &db ) == SQLITE_OK) { rc = _csync_check_db_integrity(db); if( sqlite3_close(db) != 0 ) { CSYNC_LOG(CSYNC_LOG_PRIORITY_NOTICE, "WARN: sqlite3_close error!"); } if( rc >= 0 ) { /* everything is fine */ c_free_locale_string(wstatedb); return 0; } CSYNC_LOG(CSYNC_LOG_PRIORITY_ERROR, "Integrity check failed!"); } else { /* resources need to be freed even when open failed */ sqlite3_close(db); CSYNC_LOG(CSYNC_LOG_PRIORITY_WARN, "database corrupted, removing!"); } } else { CSYNC_LOG(CSYNC_LOG_PRIORITY_WARN, "sqlite version mismatch"); } } } } /* if it comes here, the database is broken and should be recreated. */ _tunlink(wstatedb); } c_free_locale_string(wstatedb); /* create database */ rc = sqlite3_open(statedb, &db); if (rc == SQLITE_OK) { sqlite3_close(db); _csync_win32_hide_file(statedb); return 1; } sqlite3_close(db); CSYNC_LOG(CSYNC_LOG_PRIORITY_ERROR, "sqlite3_open failed: %s %s", sqlite3_errmsg(db), statedb); return -1; } static int _csync_statedb_is_empty(sqlite3 *db) { c_strlist_t *result = NULL; int rc = 0; result = csync_statedb_query(db, "SELECT COUNT(phash) FROM metadata LIMIT 1 OFFSET 0;"); if (result == NULL) { rc = 1; } c_strlist_destroy(result); return rc; } int csync_statedb_load(CSYNC *ctx, const char *statedb, sqlite3 **pdb) { int rc = -1; int check_rc = -1; c_strlist_t *result = NULL; char *statedb_tmp = NULL; sqlite3 *db = NULL; /* csync_statedb_check tries to open the statedb and creates it in case * its not there. */ check_rc = _csync_statedb_check(statedb); if (check_rc < 0) { CSYNC_LOG(CSYNC_LOG_PRIORITY_NOTICE, "ERR: checking csync database failed - bail out."); rc = -1; goto out; } /* * We want a two phase commit for the jounal, so we create a temporary copy * of the database. * The intention is that if something goes wrong we will not loose the * statedb. */ rc = asprintf(&statedb_tmp, "%s.ctmp", statedb); if (rc < 0) { CSYNC_LOG(CSYNC_LOG_PRIORITY_NOTICE, "ERR: could not create statedb name - bail out."); rc = -1; goto out; } if (c_copy(statedb, statedb_tmp, 0644) < 0) { CSYNC_LOG(CSYNC_LOG_PRIORITY_NOTICE, "ERR: Failed to copy statedb -> statedb_tmp - bail out."); rc = -1; goto out; } _csync_win32_hide_file( statedb_tmp ); /* Open or create the temporary database */ if (sqlite3_open(statedb_tmp, &db) != SQLITE_OK) { const char *errmsg= sqlite3_errmsg(ctx->statedb.db); CSYNC_LOG(CSYNC_LOG_PRIORITY_NOTICE, "ERR: Failed to sqlite3 open statedb - bail out: %s.", errmsg ? errmsg : ""); rc = -1; goto out; } SAFE_FREE(statedb_tmp); /* If check_rc == 1 the database is new and empty as a result. */ if ((check_rc == 1) || _csync_statedb_is_empty(db)) { CSYNC_LOG(CSYNC_LOG_PRIORITY_NOTICE, "statedb doesn't exist"); csync_set_statedb_exists(ctx, 0); } else { csync_set_statedb_exists(ctx, 1); } /* optimization for speeding up SQLite */ result = csync_statedb_query(db, "PRAGMA synchronous = FULL;"); c_strlist_destroy(result); result = csync_statedb_query(db, "PRAGMA case_sensitive_like = ON;"); c_strlist_destroy(result); *pdb = db; return 0; out: sqlite3_close(db); SAFE_FREE(statedb_tmp); return rc; } int csync_statedb_close(const char *statedb, sqlite3 *db, int jwritten) { char *statedb_tmp = NULL; mbchar_t* wstatedb_tmp = NULL; int rc = 0; mbchar_t *mb_statedb = NULL; /* deallocate query resources */ rc = sqlite3_finalize(_by_hash_stmt); _by_hash_stmt = NULL; /* close the temporary database */ sqlite3_close(db); if (asprintf(&statedb_tmp, "%s.ctmp", statedb) < 0) { return -1; } /* If we successfully synchronized, overwrite the original statedb */ /* * Check the integrity of the tmp db. If ok, overwrite the old database with * the tmp db. */ if (jwritten) { /* statedb check returns either * 0 : database exists and is fine * 1 : new database was set up * -1 : error. */ if (_csync_statedb_check(statedb_tmp) >= 0) { /* New statedb is valid. */ mb_statedb = c_utf8_to_locale(statedb); /* Move the tmp-db to the real one. */ if (c_rename(statedb_tmp, statedb) < 0) { CSYNC_LOG(CSYNC_LOG_PRIORITY_DEBUG, "Renaming tmp db to original db failed. (errno=%d)", errno); rc = -1; } else { CSYNC_LOG(CSYNC_LOG_PRIORITY_DEBUG, "Successfully moved tmp db to original db."); } } else { mb_statedb = c_utf8_to_locale(statedb_tmp); _tunlink(mb_statedb); /* new statedb_tmp is not integer. */ CSYNC_LOG(CSYNC_LOG_PRIORITY_ERROR, " ## csync tmp statedb corrupt. Original one is not replaced. "); rc = -1; } c_free_locale_string(mb_statedb); } wstatedb_tmp = c_utf8_to_locale(statedb_tmp); if (wstatedb_tmp) { _tunlink(wstatedb_tmp); c_free_locale_string(wstatedb_tmp); } SAFE_FREE(statedb_tmp); return rc; } /* caller must free the memory */ csync_file_stat_t *csync_statedb_get_stat_by_hash(sqlite3 *db, uint64_t phash) { csync_file_stat_t *st = NULL; size_t len = 0; int column_count = 0; int rc; if( _by_hash_stmt == NULL ) { rc = sqlite3_prepare_v2(db, HASH_QUERY, strlen(HASH_QUERY), &_by_hash_stmt, NULL); if( rc != SQLITE_OK ) { CSYNC_LOG(CSYNC_LOG_PRIORITY_ERROR, "WRN: Unable to create stmt for hash query."); return NULL; } } if( _by_hash_stmt == NULL ) { return NULL; } column_count = sqlite3_column_count(_by_hash_stmt); sqlite3_bind_int64(_by_hash_stmt, 1, (long long signed int)phash); rc = sqlite3_step(_by_hash_stmt); if( rc == SQLITE_ROW ) { if(column_count > 7) { /* phash, pathlen, path, inode, uid, gid, mode, modtime */ len = sqlite3_column_int(_by_hash_stmt, 1); st = c_malloc(sizeof(csync_file_stat_t) + len + 1); if (st == NULL) { return NULL; } /* clear the whole structure */ ZERO_STRUCTP(st); /* * FIXME: * We use an INTEGER(8) which is signed to the phash in the sqlite3 db, * but the phash is an uint64_t. So for some values we get a string like * "1.66514565505016e+19". For such a string strtoull() returns 1. * phash = 1 * * st->phash = strtoull(result->vector[0], NULL, 10); */ /* The query suceeded so use the phash we pass to the function. */ st->phash = phash; st->pathlen = sqlite3_column_int(_by_hash_stmt, 1); memcpy(st->path, (len ? (char*) sqlite3_column_text(_by_hash_stmt, 2) : ""), len + 1); st->inode = sqlite3_column_int64(_by_hash_stmt,3); st->uid = sqlite3_column_int(_by_hash_stmt, 4); st->gid = sqlite3_column_int(_by_hash_stmt, 5); st->mode = sqlite3_column_int(_by_hash_stmt, 6); st->modtime = strtoul((char*)sqlite3_column_text(_by_hash_stmt, 7), NULL, 10); if(st && column_count > 8 ) { st->type = sqlite3_column_int(_by_hash_stmt, 8); } if(column_count > 9 && sqlite3_column_text(_by_hash_stmt, 9)) { st->md5 = c_strdup( (char*) sqlite3_column_text(_by_hash_stmt, 9) ); } } } else { /* SQLITE_DONE says there is no further row. That's not an error. */ if (rc != SQLITE_DONE) { CSYNC_LOG(CSYNC_LOG_PRIORITY_WARN, "sqlite hash query fail: %s", sqlite3_errmsg(db)); } CSYNC_LOG(CSYNC_LOG_PRIORITY_TRACE, "No result record found for phash = %llu", (long long unsigned int) phash); SAFE_FREE(st); } sqlite3_reset(_by_hash_stmt); return st; } /* caller must free the memory */ csync_file_stat_t *csync_statedb_get_stat_by_inode(sqlite3 *db, ino_t inode) { csync_file_stat_t *st = NULL; c_strlist_t *result = NULL; char *stmt = NULL; size_t len = 0; stmt = sqlite3_mprintf("SELECT * FROM metadata WHERE inode='%lld'", (long long signed int) inode); if (stmt == NULL) { return NULL; } result = csync_statedb_query(db, stmt); sqlite3_free(stmt); if (result == NULL) { return NULL; } if (result->count <= 6) { c_strlist_destroy(result); return NULL; } /* phash, pathlen, path, inode, uid, gid, mode, modtime */ len = strlen(result->vector[2]); st = c_malloc(sizeof(csync_file_stat_t) + len + 1); if (st == NULL) { c_strlist_destroy(result); return NULL; } /* clear the whole structure */ ZERO_STRUCTP(st); st->phash = atoll(result->vector[0]); st->pathlen = atoi(result->vector[1]); memcpy(st->path, (len ? result->vector[2] : ""), len + 1); st->inode = atoll(result->vector[3]); st->uid = atoi(result->vector[4]); st->gid = atoi(result->vector[5]); st->mode = atoi(result->vector[6]); st->modtime = strtoul(result->vector[7], NULL, 10); st->type = atoi(result->vector[8]); if( result->vector[9] ) st->md5 = c_strdup(result->vector[9]); c_strlist_destroy(result); return st; } char *csync_statedb_get_uniqId( CSYNC *ctx, uint64_t jHash, csync_vio_file_stat_t *buf ) { char *ret = NULL; c_strlist_t *result = NULL; char *stmt = NULL; (void)buf; if( ! csync_get_statedb_exists(ctx)) return ret; stmt = sqlite3_mprintf("SELECT md5 FROM metadata WHERE phash='%lld'", jHash); result = csync_statedb_query(ctx->statedb.db, stmt); sqlite3_free(stmt); if (result == NULL) { return NULL; } if (result->count == 1) { /* phash, pathlen, path, inode, uid, gid, mode, modtime */ ret = c_strdup( result->vector[0] ); } c_strlist_destroy(result); return ret; } c_strlist_t *csync_statedb_get_below_path( CSYNC *ctx, const char *path ) { c_strlist_t *list = NULL; char *stmt = NULL; stmt = sqlite3_mprintf("SELECT phash, path, inode, uid, gid, mode, modtime, type, md5 " "FROM metadata WHERE path LIKE('%q/%%')", path); if (stmt == NULL) { return NULL; } CSYNC_LOG(CSYNC_LOG_PRIORITY_DEBUG, "SQL: %s", stmt); list = csync_statedb_query( ctx->statedb.db, stmt ); sqlite3_free(stmt); return list; } /* query the statedb, caller must free the memory */ c_strlist_t *csync_statedb_query(sqlite3 *db, const char *statement) { int err = SQLITE_OK; int rc = SQLITE_OK; size_t i = 0; size_t busy_count = 0; size_t retry_count = 0; size_t column_count = 0; sqlite3_stmt *stmt; const char *tail = NULL; c_strlist_t *result = NULL; int row = 0; do { /* compile SQL program into a virtual machine, reattempteing if busy */ do { if (busy_count) { /* sleep 100 msec */ usleep(100000); CSYNC_LOG(CSYNC_LOG_PRIORITY_DEBUG, "sqlite3_prepare: BUSY counter: %zu", busy_count); } err = sqlite3_prepare(db, statement, -1, &stmt, &tail); } while (err == SQLITE_BUSY && busy_count ++ < 120); if (err != SQLITE_OK) { if (err == SQLITE_BUSY) { CSYNC_LOG(CSYNC_LOG_PRIORITY_ERROR, "Gave up waiting for lock to clear"); } CSYNC_LOG(CSYNC_LOG_PRIORITY_WARN, "sqlite3_compile error: %s - on query %s", sqlite3_errmsg(db), statement); break; } else { busy_count = 0; column_count = sqlite3_column_count(stmt); /* execute virtual machine by iterating over rows */ for(;;) { err = sqlite3_step(stmt); if (err == SQLITE_BUSY) { if (busy_count++ > 120) { CSYNC_LOG(CSYNC_LOG_PRIORITY_ERROR, "Busy counter has reached its maximum. Aborting this sql statement"); break; } /* sleep 100 msec */ usleep(100000); CSYNC_LOG(CSYNC_LOG_PRIORITY_TRACE, "sqlite3_step: BUSY counter: %zu", busy_count); continue; } if (err == SQLITE_MISUSE) { CSYNC_LOG(CSYNC_LOG_PRIORITY_ERROR, "sqlite3_step: MISUSE!!"); } if (err == SQLITE_DONE) { if (result == NULL) { result = c_strlist_new(1); } break; } if (err == SQLITE_ERROR) { break; } row++; if( result ) { result = c_strlist_expand(result, row*column_count); } else { result = c_strlist_new(column_count); } if (result == NULL) { return NULL; } /* iterate over columns */ for (i = 0; i < column_count; i++) { // CSYNC_LOG(CSYNC_LOG_PRIORITY_TRACE, "sqlite3_column_text: %s", (char *) sqlite3_column_text(stmt, i)); if (c_strlist_add(result, (char *) sqlite3_column_text(stmt, i)) < 0) { c_strlist_destroy(result); return NULL; } } } /* end infinite for loop */ /* deallocate vm resources */ rc = sqlite3_finalize(stmt); if (err != SQLITE_DONE && rc != SQLITE_SCHEMA) { CSYNC_LOG(CSYNC_LOG_PRIORITY_ERROR, "sqlite_step error: %s - on query: %s", sqlite3_errmsg(db), statement); if (result != NULL) { c_strlist_destroy(result); } return NULL; } if (rc == SQLITE_SCHEMA) { retry_count ++; CSYNC_LOG(CSYNC_LOG_PRIORITY_ERROR, "SQLITE_SCHEMA error occurred on query: %s", statement); if (retry_count < 10) { CSYNC_LOG(CSYNC_LOG_PRIORITY_DEBUG, "Retrying now."); } else { CSYNC_LOG(CSYNC_LOG_PRIORITY_ERROR, "RETRY count has reached its maximum. Aborting statement: %s", statement); if (result != NULL) { c_strlist_destroy(result); } result = c_strlist_new(1); } } } } while (rc == SQLITE_SCHEMA && retry_count < 10); return result; } /* vim: set ts=8 sw=2 et cindent: */