/* Copyright (C) 2000-2004 MySQL AB This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; version 2 of the License. This program 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 General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #ifndef MYSQL_CLIENT #ifdef USE_PRAGMA_IMPLEMENTATION #pragma implementation // gcc: Class implementation #endif #include "mysql_priv.h" #include "slave.h" #include "rpl_filter.h" #include "rpl_utility.h" #include <my_dir.h> #endif /* MYSQL_CLIENT */ #include <base64.h> #include <my_bitmap.h> #define log_cs &my_charset_latin1 /* Cache that will automatically be written to a dedicated file on destruction. DESCRIPTION */ class Write_on_release_cache { public: enum flag { FLUSH_F }; typedef unsigned short flag_set; /* Constructor. SYNOPSIS Write_on_release_cache cache Pointer to cache to use file File to write cache to upon destruction flags Flags for the cache DESCRIPTION Class used to guarantee copy of cache to file before exiting the current block. On successful copy of the cache, the cache will be reinited as a WRITE_CACHE. Currently, a pointer to the cache is provided in the constructor, but it would be possible to create a subclass holding the IO_CACHE itself. */ Write_on_release_cache(IO_CACHE *cache, FILE *file, flag_set flags = 0) : m_cache(cache), m_file(file), m_flags(flags) { reinit_io_cache(m_cache, WRITE_CACHE, 0L, FALSE, TRUE); } ~Write_on_release_cache() { if (!my_b_copy_to_file(m_cache, m_file)) reinit_io_cache(m_cache, WRITE_CACHE, 0L, FALSE, TRUE); if (m_flags | FLUSH_F) fflush(m_file); } /* Return a pointer to the internal IO_CACHE. SYNOPSIS operator&() DESCRIPTION Function to return a pointer to the internal, so that the object can be treated as a IO_CACHE and used with the my_b_* IO_CACHE functions RETURN VALUE A pointer to the internal IO_CACHE. */ IO_CACHE *operator&() { return m_cache; } private: // Hidden, to prevent usage. Write_on_release_cache(Write_on_release_cache const&); IO_CACHE *m_cache; FILE *m_file; flag_set m_flags; }; /* pretty_print_str() */ #ifdef MYSQL_CLIENT static void pretty_print_str(IO_CACHE* cache, char* str, int len) { char* end = str + len; my_b_printf(cache, "\'"); while (str < end) { char c; switch ((c=*str++)) { case '\n': my_b_printf(cache, "\\n"); break; case '\r': my_b_printf(cache, "\\r"); break; case '\\': my_b_printf(cache, "\\\\"); break; case '\b': my_b_printf(cache, "\\b"); break; case '\t': my_b_printf(cache, "\\t"); break; case '\'': my_b_printf(cache, "\\'"); break; case 0 : my_b_printf(cache, "\\0"); break; default: my_b_printf(cache, "%c", c); break; } } my_b_printf(cache, "\'"); } #endif /* MYSQL_CLIENT */ #if defined(HAVE_REPLICATION) && !defined(MYSQL_CLIENT) static void clear_all_errors(THD *thd, struct st_relay_log_info *rli) { thd->query_error = 0; thd->clear_error(); *rli->last_slave_error = 0; rli->last_slave_errno = 0; } /* Ignore error code specified on command line */ inline int ignored_error_code(int err_code) { #ifdef HAVE_NDB_BINLOG /* The following error codes are hard-coded and will always be ignored. */ switch (err_code) { case ER_DB_CREATE_EXISTS: case ER_DB_DROP_EXISTS: return 1; default: /* Nothing to do */ break; } #endif return ((err_code == ER_SLAVE_IGNORED_TABLE) || (use_slave_mask && bitmap_is_set(&slave_error_mask, err_code))); } #endif /* pretty_print_str() */ #if defined(HAVE_REPLICATION) && !defined(MYSQL_CLIENT) static char *pretty_print_str(char *packet, char *str, int len) { char *end= str + len; char *pos= packet; *pos++= '\''; while (str < end) { char c; switch ((c=*str++)) { case '\n': *pos++= '\\'; *pos++= 'n'; break; case '\r': *pos++= '\\'; *pos++= 'r'; break; case '\\': *pos++= '\\'; *pos++= '\\'; break; case '\b': *pos++= '\\'; *pos++= 'b'; break; case '\t': *pos++= '\\'; *pos++= 't'; break; case '\'': *pos++= '\\'; *pos++= '\''; break; case 0 : *pos++= '\\'; *pos++= '0'; break; default: *pos++= c; break; } } *pos++= '\''; return pos; } #endif /* !MYSQL_CLIENT */ /* Creates a temporary name for load data infile: SYNOPSIS slave_load_file_stem() buf Store new filename here file_id File_id (part of file name) event_server_id Event_id (part of file name) ext Extension for file name RETURN Pointer to start of extension */ #if defined(HAVE_REPLICATION) && !defined(MYSQL_CLIENT) static char *slave_load_file_stem(char *buf, uint file_id, int event_server_id, const char *ext) { char *res; fn_format(buf,"SQL_LOAD-",slave_load_tmpdir, "", MY_UNPACK_FILENAME); to_unix_path(buf); buf = strend(buf); buf = int10_to_str(::server_id, buf, 10); *buf++ = '-'; buf = int10_to_str(event_server_id, buf, 10); *buf++ = '-'; res= int10_to_str(file_id, buf, 10); strmov(res, ext); // Add extension last return res; // Pointer to extension } #endif /* Delete all temporary files used for SQL_LOAD. SYNOPSIS cleanup_load_tmpdir() */ #if defined(HAVE_REPLICATION) && !defined(MYSQL_CLIENT) static void cleanup_load_tmpdir() { MY_DIR *dirp; FILEINFO *file; uint i; char fname[FN_REFLEN], prefbuf[31], *p; if (!(dirp=my_dir(slave_load_tmpdir,MYF(MY_WME)))) return; /* When we are deleting temporary files, we should only remove the files associated with the server id of our server. We don't use event_server_id here because since we've disabled direct binlogging of Create_file/Append_file/Exec_load events we cannot meet Start_log event in the middle of events from one LOAD DATA. */ p= strmake(prefbuf, STRING_WITH_LEN("SQL_LOAD-")); p= int10_to_str(::server_id, p, 10); *(p++)= '-'; *p= 0; for (i=0 ; i < (uint)dirp->number_off_files; i++) { file=dirp->dir_entry+i; if (is_prefix(file->name, prefbuf)) { fn_format(fname,file->name,slave_load_tmpdir,"",MY_UNPACK_FILENAME); my_delete(fname, MYF(0)); } } my_dirend(dirp); } #endif /* write_str() */ static bool write_str(IO_CACHE *file, char *str, uint length) { byte tmp[1]; tmp[0]= (byte) length; return (my_b_safe_write(file, tmp, sizeof(tmp)) || my_b_safe_write(file, (byte*) str, length)); } /* read_str() */ static inline int read_str(char **buf, char *buf_end, char **str, uint8 *len) { if (*buf + ((uint) (uchar) **buf) >= buf_end) return 1; *len= (uint8) **buf; *str= (*buf)+1; (*buf)+= (uint) *len+1; return 0; } /* Transforms a string into "" or its expression in 0x... form. */ char *str_to_hex(char *to, const char *from, uint len) { if (len) { *to++= '0'; *to++= 'x'; to= octet2hex(to, from, len); } else to= strmov(to, "\"\""); return to; // pointer to end 0 of 'to' } /* Append a version of the 'from' string suitable for use in a query to the 'to' string. To generate a correct escaping, the character set information in 'csinfo' is used. */ #ifndef MYSQL_CLIENT int append_query_string(CHARSET_INFO *csinfo, String const *from, String *to) { char *beg, *ptr; uint32 const orig_len= to->length(); if (to->reserve(orig_len + from->length()*2+3)) return 1; beg= to->c_ptr_quick() + to->length(); ptr= beg; if (csinfo->escape_with_backslash_is_dangerous) ptr= str_to_hex(ptr, from->ptr(), from->length()); else { *ptr++= '\''; ptr+= escape_string_for_mysql(csinfo, ptr, 0, from->ptr(), from->length()); *ptr++='\''; } to->length(orig_len + ptr - beg); return 0; } #endif /* Prints a "session_var=value" string. Used by mysqlbinlog to print some SET commands just before it prints a query. */ #ifdef MYSQL_CLIENT static void print_set_option(IO_CACHE* file, uint32 bits_changed, uint32 option, uint32 flags, const char* name, bool* need_comma) { if (bits_changed & option) { if (*need_comma) my_b_printf(file,", "); my_b_printf(file,"%s=%d", name, test(flags & option)); *need_comma= 1; } } #endif /************************************************************************** Log_event methods (= the parent class of all events) **************************************************************************/ /* Log_event::get_type_str() */ const char* Log_event::get_type_str() { switch(get_type_code()) { case START_EVENT_V3: return "Start_v3"; case STOP_EVENT: return "Stop"; case QUERY_EVENT: return "Query"; case ROTATE_EVENT: return "Rotate"; case INTVAR_EVENT: return "Intvar"; case LOAD_EVENT: return "Load"; case NEW_LOAD_EVENT: return "New_load"; case SLAVE_EVENT: return "Slave"; case CREATE_FILE_EVENT: return "Create_file"; case APPEND_BLOCK_EVENT: return "Append_block"; case DELETE_FILE_EVENT: return "Delete_file"; case EXEC_LOAD_EVENT: return "Exec_load"; case RAND_EVENT: return "RAND"; case XID_EVENT: return "Xid"; case USER_VAR_EVENT: return "User var"; case FORMAT_DESCRIPTION_EVENT: return "Format_desc"; case TABLE_MAP_EVENT: return "Table_map"; case WRITE_ROWS_EVENT: return "Write_rows"; case UPDATE_ROWS_EVENT: return "Update_rows"; case DELETE_ROWS_EVENT: return "Delete_rows"; case BEGIN_LOAD_QUERY_EVENT: return "Begin_load_query"; case EXECUTE_LOAD_QUERY_EVENT: return "Execute_load_query"; default: return "Unknown"; /* impossible */ } } /* Log_event::Log_event() */ #ifndef MYSQL_CLIENT Log_event::Log_event(THD* thd_arg, uint16 flags_arg, bool using_trans) :log_pos(0), temp_buf(0), exec_time(0), flags(flags_arg), thd(thd_arg) { server_id= thd->server_id; when= thd->start_time; cache_stmt= using_trans; } /* This minimal constructor is for when you are not even sure that there is a valid THD. For example in the server when we are shutting down or flushing logs after receiving a SIGHUP (then we must write a Rotate to the binlog but we have no THD, so we need this minimal constructor). */ Log_event::Log_event() :temp_buf(0), exec_time(0), flags(0), cache_stmt(0), thd(0) { server_id= ::server_id; when= time(NULL); log_pos= 0; } #endif /* !MYSQL_CLIENT */ /* Log_event::Log_event() */ Log_event::Log_event(const char* buf, const Format_description_log_event* description_event) :temp_buf(0), cache_stmt(0) { #ifndef MYSQL_CLIENT thd = 0; #endif when = uint4korr(buf); server_id = uint4korr(buf + SERVER_ID_OFFSET); if (description_event->binlog_version==1) { log_pos= 0; flags= 0; return; } /* 4.0 or newer */ log_pos= uint4korr(buf + LOG_POS_OFFSET); /* If the log is 4.0 (so here it can only be a 4.0 relay log read by the SQL thread or a 4.0 master binlog read by the I/O thread), log_pos is the beginning of the event: we transform it into the end of the event, which is more useful. But how do you know that the log is 4.0: you know it if description_event is version 3 *and* you are not reading a Format_desc (remember that mysqlbinlog starts by assuming that 5.0 logs are in 4.0 format, until it finds a Format_desc). */ if (description_event->binlog_version==3 && buf[EVENT_TYPE_OFFSET]<FORMAT_DESCRIPTION_EVENT && log_pos) { /* If log_pos=0, don't change it. log_pos==0 is a marker to mean "don't change rli->group_master_log_pos" (see inc_group_relay_log_pos()). As it is unreal log_pos, adding the event len's is nonsense. For example, a fake Rotate event should not have its log_pos (which is 0) changed or it will modify Exec_master_log_pos in SHOW SLAVE STATUS, displaying a nonsense value of (a non-zero offset which does not exist in the master's binlog, so which will cause problems if the user uses this value in CHANGE MASTER). */ log_pos+= uint4korr(buf + EVENT_LEN_OFFSET); } DBUG_PRINT("info", ("log_pos: %lu", (ulong) log_pos)); flags= uint2korr(buf + FLAGS_OFFSET); if ((buf[EVENT_TYPE_OFFSET] == FORMAT_DESCRIPTION_EVENT) || (buf[EVENT_TYPE_OFFSET] == ROTATE_EVENT)) { /* These events always have a header which stops here (i.e. their header is FROZEN). */ /* Initialization to zero of all other Log_event members as they're not specified. Currently there are no such members; in the future there will be an event UID (but Format_description and Rotate don't need this UID, as they are not propagated through --log-slave-updates (remember the UID is used to not play a query twice when you have two masters which are slaves of a 3rd master). Then we are done. */ return; } /* otherwise, go on with reading the header from buf (nothing now) */ } #ifndef MYSQL_CLIENT #ifdef HAVE_REPLICATION /* Log_event::exec_event() */ int Log_event::exec_event(struct st_relay_log_info* rli) { DBUG_ENTER("Log_event::exec_event"); /* rli is null when (as far as I (Guilhem) know) the caller is Load_log_event::exec_event *and* that one is called from Execute_load_log_event::exec_event. In this case, we don't do anything here ; Execute_load_log_event::exec_event will call Log_event::exec_event again later with the proper rli. Strictly speaking, if we were sure that rli is null only in the case discussed above, 'if (rli)' is useless here. But as we are not 100% sure, keep it for now. */ if (rli) { /* If in a transaction, and if the slave supports transactions, just inc_event_relay_log_pos(). We only have to check for OPTION_BEGIN (not OPTION_NOT_AUTOCOMMIT) as transactions are logged with BEGIN/COMMIT, not with SET AUTOCOMMIT= . CAUTION: opt_using_transactions means innodb || bdb ; suppose the master supports InnoDB and BDB, but the slave supports only BDB, problems will arise: - suppose an InnoDB table is created on the master, - then it will be MyISAM on the slave - but as opt_using_transactions is true, the slave will believe he is transactional with the MyISAM table. And problems will come when one does START SLAVE; STOP SLAVE; START SLAVE; (the slave will resume at BEGIN whereas there has not been any rollback). This is the problem of using opt_using_transactions instead of a finer "does the slave support _the_transactional_handler_used_on_the_master_". More generally, we'll have problems when a query mixes a transactional handler and MyISAM and STOP SLAVE is issued in the middle of the "transaction". START SLAVE will resume at BEGIN while the MyISAM table has already been updated. */ if ((thd->options & OPTION_BEGIN) && opt_using_transactions) rli->inc_event_relay_log_pos(); else { rli->inc_group_relay_log_pos(log_pos); flush_relay_log_info(rli); /* Note that Rotate_log_event::exec_event() does not call this function, so there is no chance that a fake rotate event resets last_master_timestamp. Note that we update without mutex (probably ok - except in some very rare cases, only consequence is that value may take some time to display in Seconds_Behind_Master - not critical). */ rli->last_master_timestamp= when; } } DBUG_RETURN(0); } /* Log_event::pack_info() */ void Log_event::pack_info(Protocol *protocol) { protocol->store("", &my_charset_bin); } /* Log_event::net_send() Only called by SHOW BINLOG EVENTS */ int Log_event::net_send(Protocol *protocol, const char* log_name, my_off_t pos) { const char *p= strrchr(log_name, FN_LIBCHAR); const char *event_type; if (p) log_name = p + 1; protocol->prepare_for_resend(); protocol->store(log_name, &my_charset_bin); protocol->store((ulonglong) pos); event_type = get_type_str(); protocol->store(event_type, strlen(event_type), &my_charset_bin); protocol->store((uint32) server_id); protocol->store((ulonglong) log_pos); pack_info(protocol); return protocol->write(); } #endif /* HAVE_REPLICATION */ /* Log_event::init_show_field_list() */ void Log_event::init_show_field_list(List<Item>* field_list) { field_list->push_back(new Item_empty_string("Log_name", 20)); field_list->push_back(new Item_return_int("Pos", 11, MYSQL_TYPE_LONGLONG)); field_list->push_back(new Item_empty_string("Event_type", 20)); field_list->push_back(new Item_return_int("Server_id", 10, MYSQL_TYPE_LONG)); field_list->push_back(new Item_return_int("End_log_pos", 11, MYSQL_TYPE_LONGLONG)); field_list->push_back(new Item_empty_string("Info", 20)); } /* Log_event::write() */ bool Log_event::write_header(IO_CACHE* file, ulong event_data_length) { byte header[LOG_EVENT_HEADER_LEN]; DBUG_ENTER("Log_event::write_header"); /* Store number of bytes that will be written by this event */ data_written= event_data_length + sizeof(header); /* log_pos != 0 if this is relay-log event. In this case we should not change the position */ if (is_artificial_event()) { /* We should not do any cleanup on slave when reading this. We mark this by setting log_pos to 0. Start_log_event_v3() will detect this on reading and set artificial_event=1 for the event. */ log_pos= 0; } else if (!log_pos) { /* Calculate position of end of event Note that with a SEQ_READ_APPEND cache, my_b_tell() does not work well. So this will give slightly wrong positions for the Format_desc/Rotate/Stop events which the slave writes to its relay log. For example, the initial Format_desc will have end_log_pos=91 instead of 95. Because after writing the first 4 bytes of the relay log, my_b_tell() still reports 0. Because my_b_append() does not update the counter which my_b_tell() later uses (one should probably use my_b_append_tell() to work around this). To get right positions even when writing to the relay log, we use the (new) my_b_safe_tell(). Note that this raises a question on the correctness of all these DBUG_ASSERT(my_b_tell()=rli->event_relay_log_pos). If in a transaction, the log_pos which we calculate below is not very good (because then my_b_safe_tell() returns start position of the BEGIN, so it's like the statement was at the BEGIN's place), but it's not a very serious problem (as the slave, when it is in a transaction, does not take those end_log_pos into account (as it calls inc_event_relay_log_pos()). To be fixed later, so that it looks less strange. But not bug. */ log_pos= my_b_safe_tell(file)+data_written; } /* Header will be of size LOG_EVENT_HEADER_LEN for all events, except for FORMAT_DESCRIPTION_EVENT and ROTATE_EVENT, where it will be LOG_EVENT_MINIMAL_HEADER_LEN (remember these 2 have a frozen header, because we read them before knowing the format). */ int4store(header, (ulong) when); // timestamp header[EVENT_TYPE_OFFSET]= get_type_code(); int4store(header+ SERVER_ID_OFFSET, server_id); int4store(header+ EVENT_LEN_OFFSET, data_written); int4store(header+ LOG_POS_OFFSET, log_pos); int2store(header+ FLAGS_OFFSET, flags); DBUG_RETURN(my_b_safe_write(file, header, sizeof(header)) != 0); } /* Log_event::read_log_event() This needn't be format-tolerant, because we only read LOG_EVENT_MINIMAL_HEADER_LEN (we just want to read the event's length). */ int Log_event::read_log_event(IO_CACHE* file, String* packet, pthread_mutex_t* log_lock) { ulong data_len; int result=0; char buf[LOG_EVENT_MINIMAL_HEADER_LEN]; DBUG_ENTER("read_log_event"); if (log_lock) pthread_mutex_lock(log_lock); if (my_b_read(file, (byte*) buf, sizeof(buf))) { /* If the read hits eof, we must report it as eof so the caller will know it can go into cond_wait to be woken up on the next update to the log. */ DBUG_PRINT("error",("file->error: %d", file->error)); if (!file->error) result= LOG_READ_EOF; else result= (file->error > 0 ? LOG_READ_TRUNC : LOG_READ_IO); goto end; } data_len= uint4korr(buf + EVENT_LEN_OFFSET); if (data_len < LOG_EVENT_MINIMAL_HEADER_LEN || data_len > current_thd->variables.max_allowed_packet) { DBUG_PRINT("error",("data_len: %ld", data_len)); result= ((data_len < LOG_EVENT_MINIMAL_HEADER_LEN) ? LOG_READ_BOGUS : LOG_READ_TOO_LARGE); goto end; } packet->append(buf, sizeof(buf)); data_len-= LOG_EVENT_MINIMAL_HEADER_LEN; if (data_len) { if (packet->append(file, data_len)) { /* Here if we hit EOF it's really an error: as data_len is >=0 there's supposed to be more bytes available. EOF means we are reading the event partially, which should never happen: either we read badly or the binlog is truncated. */ result= file->error >= 0 ? LOG_READ_TRUNC: LOG_READ_IO; /* Implicit goto end; */ } } end: if (log_lock) pthread_mutex_unlock(log_lock); DBUG_RETURN(result); } #endif /* !MYSQL_CLIENT */ #ifndef MYSQL_CLIENT #define UNLOCK_MUTEX if (log_lock) pthread_mutex_unlock(log_lock); #define LOCK_MUTEX if (log_lock) pthread_mutex_lock(log_lock); #else #define UNLOCK_MUTEX #define LOCK_MUTEX #endif /* Log_event::read_log_event() NOTE: Allocates memory; The caller is responsible for clean-up. */ #ifndef MYSQL_CLIENT Log_event* Log_event::read_log_event(IO_CACHE* file, pthread_mutex_t* log_lock, const Format_description_log_event *description_event) #else Log_event* Log_event::read_log_event(IO_CACHE* file, const Format_description_log_event *description_event) #endif { DBUG_ENTER("Log_event::read_log_event(IO_CACHE *, Format_description_log_event *"); DBUG_ASSERT(description_event != 0); char head[LOG_EVENT_MINIMAL_HEADER_LEN]; /* First we only want to read at most LOG_EVENT_MINIMAL_HEADER_LEN, just to check the event for sanity and to know its length; no need to really parse it. We say "at most" because this could be a 3.23 master, which has header of 13 bytes, whereas LOG_EVENT_MINIMAL_HEADER_LEN is 19 bytes (it's "minimal" over the set {MySQL >=4.0}). */ uint header_size= min(description_event->common_header_len, LOG_EVENT_MINIMAL_HEADER_LEN); LOCK_MUTEX; DBUG_PRINT("info", ("my_b_tell: %lu", (ulong) my_b_tell(file))); if (my_b_read(file, (byte *) head, header_size)) { DBUG_PRINT("info", ("Log_event::read_log_event(IO_CACHE*,Format_desc*) \ failed my_b_read")); UNLOCK_MUTEX; /* No error here; it could be that we are at the file's end. However if the next my_b_read() fails (below), it will be an error as we were able to read the first bytes. */ DBUG_RETURN(0); } uint data_len = uint4korr(head + EVENT_LEN_OFFSET); char *buf= 0; const char *error= 0; Log_event *res= 0; #ifndef max_allowed_packet THD *thd=current_thd; uint max_allowed_packet= thd ? thd->variables.max_allowed_packet : ~(ulong)0; #endif if (data_len > max_allowed_packet) { error = "Event too big"; goto err; } if (data_len < header_size) { error = "Event too small"; goto err; } // some events use the extra byte to null-terminate strings if (!(buf = my_malloc(data_len+1, MYF(MY_WME)))) { error = "Out of memory"; goto err; } buf[data_len] = 0; memcpy(buf, head, header_size); if (my_b_read(file, (byte*) buf + header_size, data_len - header_size)) { error = "read error"; goto err; } if ((res= read_log_event(buf, data_len, &error, description_event))) res->register_temp_buf(buf); err: UNLOCK_MUTEX; if (!res) { DBUG_ASSERT(error != 0); sql_print_error("Error in Log_event::read_log_event(): " "'%s', data_len: %d, event_type: %d", error,data_len,head[EVENT_TYPE_OFFSET]); my_free(buf, MYF(MY_ALLOW_ZERO_PTR)); /* The SQL slave thread will check if file->error<0 to know if there was an I/O error. Even if there is no "low-level" I/O errors with 'file', any of the high-level above errors is worrying enough to stop the SQL thread now ; as we are skipping the current event, going on with reading and successfully executing other events can only corrupt the slave's databases. So stop. */ file->error= -1; } DBUG_RETURN(res); } /* Log_event::read_log_event() Binlog format tolerance is in (buf, event_len, description_event) constructors. */ Log_event* Log_event::read_log_event(const char* buf, uint event_len, const char **error, const Format_description_log_event *description_event) { Log_event* ev; DBUG_ENTER("Log_event::read_log_event(char*,...)"); DBUG_ASSERT(description_event != 0); DBUG_PRINT("info", ("binlog_version: %d", description_event->binlog_version)); if (event_len < EVENT_LEN_OFFSET || (uint) event_len != uint4korr(buf+EVENT_LEN_OFFSET)) { *error="Sanity check failed"; // Needed to free buffer DBUG_RETURN(NULL); // general sanity check - will fail on a partial read } /* To check the integrity of the Log_event_type enumeration */ DBUG_ASSERT(buf[EVENT_TYPE_OFFSET] < ENUM_END_EVENT); switch(buf[EVENT_TYPE_OFFSET]) { case QUERY_EVENT: ev = new Query_log_event(buf, event_len, description_event, QUERY_EVENT); break; case LOAD_EVENT: ev = new Load_log_event(buf, event_len, description_event); break; case NEW_LOAD_EVENT: ev = new Load_log_event(buf, event_len, description_event); break; case ROTATE_EVENT: ev = new Rotate_log_event(buf, event_len, description_event); break; #ifdef HAVE_REPLICATION case SLAVE_EVENT: /* can never happen (unused event) */ ev = new Slave_log_event(buf, event_len); break; #endif /* HAVE_REPLICATION */ case CREATE_FILE_EVENT: ev = new Create_file_log_event(buf, event_len, description_event); break; case APPEND_BLOCK_EVENT: ev = new Append_block_log_event(buf, event_len, description_event); break; case DELETE_FILE_EVENT: ev = new Delete_file_log_event(buf, event_len, description_event); break; case EXEC_LOAD_EVENT: ev = new Execute_load_log_event(buf, event_len, description_event); break; case START_EVENT_V3: /* this is sent only by MySQL <=4.x */ ev = new Start_log_event_v3(buf, description_event); break; case STOP_EVENT: ev = new Stop_log_event(buf, description_event); break; case INTVAR_EVENT: ev = new Intvar_log_event(buf, description_event); break; case XID_EVENT: ev = new Xid_log_event(buf, description_event); break; case RAND_EVENT: ev = new Rand_log_event(buf, description_event); break; case USER_VAR_EVENT: ev = new User_var_log_event(buf, description_event); break; case FORMAT_DESCRIPTION_EVENT: ev = new Format_description_log_event(buf, event_len, description_event); break; #if defined(HAVE_REPLICATION) case WRITE_ROWS_EVENT: ev = new Write_rows_log_event(buf, event_len, description_event); break; case UPDATE_ROWS_EVENT: ev = new Update_rows_log_event(buf, event_len, description_event); break; case DELETE_ROWS_EVENT: ev = new Delete_rows_log_event(buf, event_len, description_event); break; case TABLE_MAP_EVENT: ev = new Table_map_log_event(buf, event_len, description_event); break; #endif case BEGIN_LOAD_QUERY_EVENT: ev = new Begin_load_query_log_event(buf, event_len, description_event); break; case EXECUTE_LOAD_QUERY_EVENT: ev = new Execute_load_query_log_event(buf, event_len, description_event); break; default: DBUG_PRINT("error",("Unknown evernt code: %d",(int) buf[EVENT_TYPE_OFFSET])); ev= NULL; break; } /* is_valid() are small event-specific sanity tests which are important; for example there are some my_malloc() in constructors (e.g. Query_log_event::Query_log_event(char*...)); when these my_malloc() fail we can't return an error out of the constructor (because constructor is "void") ; so instead we leave the pointer we wanted to allocate (e.g. 'query') to 0 and we test it in is_valid(). Same for Format_description_log_event, member 'post_header_len'. */ if (!ev || !ev->is_valid()) { DBUG_PRINT("error",("Found invalid event in binary log")); delete ev; #ifdef MYSQL_CLIENT if (!force_opt) /* then mysqlbinlog dies */ { *error= "Found invalid event in binary log"; DBUG_RETURN(0); } ev= new Unknown_log_event(buf, description_event); #else *error= "Found invalid event in binary log"; DBUG_RETURN(0); #endif } DBUG_RETURN(ev); } #ifdef MYSQL_CLIENT /* Log_event::print_header() */ void Log_event::print_header(IO_CACHE* file, PRINT_EVENT_INFO* print_event_info, bool is_more __attribute__((unused))) { char llbuff[22]; my_off_t hexdump_from= print_event_info->hexdump_from; DBUG_ENTER("Log_event::print_header"); my_b_printf(file, "#"); print_timestamp(file); my_b_printf(file, " server id %d end_log_pos %s ", server_id, llstr(log_pos,llbuff)); /* mysqlbinlog --hexdump */ if (print_event_info->hexdump_from) { my_b_printf(file, "\n"); uchar *ptr= (uchar*)temp_buf; my_off_t size= uint4korr(ptr + EVENT_LEN_OFFSET) - LOG_EVENT_MINIMAL_HEADER_LEN; my_off_t i; /* Header len * 4 >= header len * (2 chars + space + extra space) */ char *h, hex_string[LOG_EVENT_MINIMAL_HEADER_LEN*4]= {0}; char *c, char_string[16+1]= {0}; /* Pretty-print event common header if header is exactly 19 bytes */ if (print_event_info->common_header_len == LOG_EVENT_MINIMAL_HEADER_LEN) { char emit_buf[256]; // Enough for storing one line my_b_printf(file, "# Position Timestamp Type Master ID " "Size Master Pos Flags \n"); int const bytes_written= my_snprintf(emit_buf, sizeof(emit_buf), "# %8.8lx %02x %02x %02x %02x %02x " "%02x %02x %02x %02x %02x %02x %02x %02x " "%02x %02x %02x %02x %02x %02x\n", (unsigned long) hexdump_from, ptr[0], ptr[1], ptr[2], ptr[3], ptr[4], ptr[5], ptr[6], ptr[7], ptr[8], ptr[9], ptr[10], ptr[11], ptr[12], ptr[13], ptr[14], ptr[15], ptr[16], ptr[17], ptr[18]); DBUG_ASSERT(bytes_written >= 0); DBUG_ASSERT(static_cast<my_size_t>(bytes_written) < sizeof(emit_buf)); my_b_write(file, (byte*) emit_buf, bytes_written); ptr += LOG_EVENT_MINIMAL_HEADER_LEN; hexdump_from += LOG_EVENT_MINIMAL_HEADER_LEN; } /* Rest of event (without common header) */ for (i= 0, c= char_string, h=hex_string; i < size; i++, ptr++) { my_snprintf(h, 4, "%02x ", *ptr); h += 3; *c++= my_isalnum(&my_charset_bin, *ptr) ? *ptr : '.'; if (i % 16 == 15) { /* my_b_printf() does not support full printf() formats, so we have to do it this way. TODO: Rewrite my_b_printf() to support full printf() syntax. */ char emit_buf[256]; int const bytes_written= my_snprintf(emit_buf, sizeof(emit_buf), "# %8.8lx %-48.48s |%16s|\n", (unsigned long) (hexdump_from + (i & 0xfffffff0)), hex_string, char_string); DBUG_ASSERT(bytes_written >= 0); DBUG_ASSERT(static_cast<my_size_t>(bytes_written) < sizeof(emit_buf)); my_b_write(file, (byte*) emit_buf, bytes_written); hex_string[0]= 0; char_string[0]= 0; c= char_string; h= hex_string; } else if (i % 8 == 7) *h++ = ' '; } *c= '\0'; /* Non-full last line */ if (hex_string[0]) { char emit_buf[256]; int const bytes_written= my_snprintf(emit_buf, sizeof(emit_buf), "# %8.8lx %-48.48s |%s|\n", (unsigned long) (hexdump_from + (i & 0xfffffff0)), hex_string, char_string); DBUG_ASSERT(bytes_written >= 0); DBUG_ASSERT(static_cast<my_size_t>(bytes_written) < sizeof(emit_buf)); my_b_write(file, (byte*) emit_buf, bytes_written); } /* need a # to prefix the rest of printouts for example those of Rows_log_event::print_helper(). */ my_b_write(file, reinterpret_cast<const byte*>("# "), 2); } DBUG_VOID_RETURN; } void Log_event::print_base64(IO_CACHE* file, PRINT_EVENT_INFO* print_event_info, bool more) { const uchar *ptr= (const uchar *)temp_buf; uint32 size= uint4korr(ptr + EVENT_LEN_OFFSET); DBUG_ENTER("Log_event::print_base64"); size_t const tmp_str_sz= base64_needed_encoded_length((int) size); char *const tmp_str= (char *) my_malloc(tmp_str_sz, MYF(MY_WME)); if (!tmp_str) { fprintf(stderr, "\nError: Out of memory. " "Could not print correct binlog event.\n"); DBUG_VOID_RETURN; } if (base64_encode(ptr, (size_t) size, tmp_str)) { DBUG_ASSERT(0); } if (my_b_tell(file) == 0) my_b_printf(file, "\nBINLOG '\n"); my_b_printf(file, "%s\n", tmp_str); if (!more) my_b_printf(file, "'%s\n", print_event_info->delimiter); my_free(tmp_str, MYF(0)); DBUG_VOID_RETURN; } /* Log_event::print_timestamp() */ void Log_event::print_timestamp(IO_CACHE* file, time_t* ts) { struct tm *res; DBUG_ENTER("Log_event::print_timestamp"); if (!ts) ts = &when; #ifdef MYSQL_SERVER // This is always false struct tm tm_tmp; localtime_r(ts,(res= &tm_tmp)); #else res=localtime(ts); #endif my_b_printf(file,"%02d%02d%02d %2d:%02d:%02d", res->tm_year % 100, res->tm_mon+1, res->tm_mday, res->tm_hour, res->tm_min, res->tm_sec); DBUG_VOID_RETURN; } #endif /* MYSQL_CLIENT */ /************************************************************************** Query_log_event methods **************************************************************************/ #if defined(HAVE_REPLICATION) && !defined(MYSQL_CLIENT) /* Query_log_event::pack_info() This (which is used only for SHOW BINLOG EVENTS) could be updated to print SET @@session_var=. But this is not urgent, as SHOW BINLOG EVENTS is only an information, it does not produce suitable queries to replay (for example it does not print LOAD DATA INFILE). */ void Query_log_event::pack_info(Protocol *protocol) { // TODO: show the catalog ?? char *buf, *pos; if (!(buf= my_malloc(9 + db_len + q_len, MYF(MY_WME)))) return; pos= buf; if (!(flags & LOG_EVENT_SUPPRESS_USE_F) && db && db_len) { pos= strmov(buf, "use `"); memcpy(pos, db, db_len); pos= strmov(pos+db_len, "`; "); } if (query && q_len) { memcpy(pos, query, q_len); pos+= q_len; } protocol->store(buf, pos-buf, &my_charset_bin); my_free(buf, MYF(MY_ALLOW_ZERO_PTR)); } #endif #ifndef MYSQL_CLIENT /* Utility function for the next method */ static void write_str_with_code_and_len(char **dst, const char *src, int len, uint code) { DBUG_ASSERT(src); *((*dst)++)= code; *((*dst)++)= (uchar) len; bmove(*dst, src, len); (*dst)+= len; } /* Query_log_event::write() NOTES: In this event we have to modify the header to have the correct EVENT_LEN_OFFSET as we don't yet know how many status variables we will print! */ bool Query_log_event::write(IO_CACHE* file) { uchar buf[QUERY_HEADER_LEN+ 1+4+ // code of flags2 and flags2 1+8+ // code of sql_mode and sql_mode 1+1+FN_REFLEN+ // code of catalog and catalog length and catalog 1+4+ // code of autoinc and the 2 autoinc variables 1+6+ // code of charset and charset 1+1+MAX_TIME_ZONE_NAME_LENGTH+ // code of tz and tz length and tz name 1+2+ // code of lc_time_names and lc_time_names_number 1+2 // code of charset_database and charset_database_number ], *start, *start_of_status; ulong event_length; if (!query) return 1; // Something wrong with event /* We want to store the thread id: (- as an information for the user when he reads the binlog) - if the query uses temporary table: for the slave SQL thread to know to which master connection the temp table belongs. Now imagine we (write()) are called by the slave SQL thread (we are logging a query executed by this thread; the slave runs with --log-slave-updates). Then this query will be logged with thread_id=the_thread_id_of_the_SQL_thread. Imagine that 2 temp tables of the same name were created simultaneously on the master (in the master binlog you have CREATE TEMPORARY TABLE t; (thread 1) CREATE TEMPORARY TABLE t; (thread 2) ...) then in the slave's binlog there will be CREATE TEMPORARY TABLE t; (thread_id_of_the_slave_SQL_thread) CREATE TEMPORARY TABLE t; (thread_id_of_the_slave_SQL_thread) which is bad (same thread id!). To avoid this, we log the thread's thread id EXCEPT for the SQL slave thread for which we log the original (master's) thread id. Now this moves the bug: what happens if the thread id on the master was 10 and when the slave replicates the query, a connection number 10 is opened by a normal client on the slave, and updates a temp table of the same name? We get a problem again. To avoid this, in the handling of temp tables (sql_base.cc) we use thread_id AND server_id. TODO when this is merged into 4.1: in 4.1, slave_proxy_id has been renamed to pseudo_thread_id and is a session variable: that's to make mysqlbinlog work with temp tables. We probably need to introduce SET PSEUDO_SERVER_ID for mysqlbinlog in 4.1. mysqlbinlog would print: SET PSEUDO_SERVER_ID= SET PSEUDO_THREAD_ID= for each query using temp tables. */ int4store(buf + Q_THREAD_ID_OFFSET, slave_proxy_id); int4store(buf + Q_EXEC_TIME_OFFSET, exec_time); buf[Q_DB_LEN_OFFSET] = (char) db_len; int2store(buf + Q_ERR_CODE_OFFSET, error_code); /* You MUST always write status vars in increasing order of code. This guarantees that a slightly older slave will be able to parse those he knows. */ start_of_status= start= buf+QUERY_HEADER_LEN; if (flags2_inited) { *start++= Q_FLAGS2_CODE; int4store(start, flags2); start+= 4; } if (sql_mode_inited) { *start++= Q_SQL_MODE_CODE; int8store(start, (ulonglong)sql_mode); start+= 8; } if (catalog_len) // i.e. this var is inited (false for 4.0 events) { write_str_with_code_and_len((char **)(&start), catalog, catalog_len, Q_CATALOG_NZ_CODE); /* In 5.0.x where x<4 masters we used to store the end zero here. This was a waste of one byte so we don't do it in x>=4 masters. We change code to Q_CATALOG_NZ_CODE, because re-using the old code would make x<4 slaves of this x>=4 master segfault (expecting a zero when there is none). Remaining compatibility problems are: the older slave will not find the catalog; but it is will not crash, and it's not an issue that it does not find the catalog as catalogs were not used in these older MySQL versions (we store it in binlog and read it from relay log but do nothing useful with it). What is an issue is that the older slave will stop processing the Q_* blocks (and jumps to the db/query) as soon as it sees unknown Q_CATALOG_NZ_CODE; so it will not be able to read Q_AUTO_INCREMENT*, Q_CHARSET and so replication will fail silently in various ways. Documented that you should not mix alpha/beta versions if they are not exactly the same version, with example of 5.0.3->5.0.2 and 5.0.4->5.0.3. If replication is from older to new, the new will recognize Q_CATALOG_CODE and have no problem. */ } if (auto_increment_increment != 1) { *start++= Q_AUTO_INCREMENT; int2store(start, auto_increment_increment); int2store(start+2, auto_increment_offset); start+= 4; } if (charset_inited) { *start++= Q_CHARSET_CODE; memcpy(start, charset, 6); start+= 6; } if (time_zone_len) { /* In the TZ sys table, column Name is of length 64 so this should be ok */ DBUG_ASSERT(time_zone_len <= MAX_TIME_ZONE_NAME_LENGTH); *start++= Q_TIME_ZONE_CODE; *start++= time_zone_len; memcpy(start, time_zone_str, time_zone_len); start+= time_zone_len; } if (lc_time_names_number) { DBUG_ASSERT(lc_time_names_number <= 0xFFFF); *start++= Q_LC_TIME_NAMES_CODE; int2store(start, lc_time_names_number); start+= 2; } if (charset_database_number) { DBUG_ASSERT(charset_database_number <= 0xFFFF); *start++= Q_CHARSET_DATABASE_CODE; int2store(start, charset_database_number); start+= 2; } /* Here there could be code like if (command-line-option-which-says-"log_this_variable" && inited) { *start++= Q_THIS_VARIABLE_CODE; int4store(start, this_variable); start+= 4; } */ /* Store length of status variables */ status_vars_len= (uint) (start-start_of_status); DBUG_ASSERT(status_vars_len <= MAX_SIZE_LOG_EVENT_STATUS); int2store(buf + Q_STATUS_VARS_LEN_OFFSET, status_vars_len); /* Calculate length of whole event The "1" below is the \0 in the db's length */ event_length= (uint) (start-buf) + get_post_header_size_for_derived() + db_len + 1 + q_len; return (write_header(file, event_length) || my_b_safe_write(file, (byte*) buf, QUERY_HEADER_LEN) || write_post_header_for_derived(file) || my_b_safe_write(file, (byte*) start_of_status, (uint) (start-start_of_status)) || my_b_safe_write(file, (db) ? (byte*) db : (byte*)"", db_len + 1) || my_b_safe_write(file, (byte*) query, q_len)) ? 1 : 0; } /* Query_log_event::Query_log_event() The simplest constructor that could possibly work. This is used for creating static objects that have a special meaning and are invisible to the log. */ Query_log_event::Query_log_event() :Log_event(), data_buf(0) { } /* Query_log_event::Query_log_event() */ Query_log_event::Query_log_event(THD* thd_arg, const char* query_arg, ulong query_length, bool using_trans, bool suppress_use) :Log_event(thd_arg, ((thd_arg->tmp_table_used ? LOG_EVENT_THREAD_SPECIFIC_F : 0) | (suppress_use ? LOG_EVENT_SUPPRESS_USE_F : 0)), using_trans), data_buf(0), query(query_arg), catalog(thd_arg->catalog), db(thd_arg->db), q_len((uint32) query_length), error_code((thd_arg->killed != THD::NOT_KILLED) ? ((thd_arg->system_thread & SYSTEM_THREAD_DELAYED_INSERT) ? 0 : thd->killed_errno()) : thd_arg->net.last_errno), thread_id(thd_arg->thread_id), /* save the original thread id; we already know the server id */ slave_proxy_id(thd_arg->variables.pseudo_thread_id), flags2_inited(1), sql_mode_inited(1), charset_inited(1), sql_mode(thd_arg->variables.sql_mode), auto_increment_increment(thd_arg->variables.auto_increment_increment), auto_increment_offset(thd_arg->variables.auto_increment_offset), lc_time_names_number(thd_arg->variables.lc_time_names->number), charset_database_number(0) { time_t end_time; time(&end_time); exec_time = (ulong) (end_time - thd->start_time); catalog_len = (catalog) ? (uint32) strlen(catalog) : 0; /* status_vars_len is set just before writing the event */ db_len = (db) ? (uint32) strlen(db) : 0; if (thd_arg->variables.collation_database != thd_arg->db_charset) charset_database_number= thd_arg->variables.collation_database->number; /* If we don't use flags2 for anything else than options contained in thd->options, it would be more efficient to flags2=thd_arg->options (OPTIONS_WRITTEN_TO_BINLOG would be used only at reading time). But it's likely that we don't want to use 32 bits for 3 bits; in the future we will probably want to reclaim the 29 bits. So we need the &. */ flags2= (uint32) (thd_arg->options & OPTIONS_WRITTEN_TO_BIN_LOG); DBUG_ASSERT(thd->variables.character_set_client->number < 256*256); DBUG_ASSERT(thd->variables.collation_connection->number < 256*256); DBUG_ASSERT(thd->variables.collation_server->number < 256*256); int2store(charset, thd_arg->variables.character_set_client->number); int2store(charset+2, thd_arg->variables.collation_connection->number); int2store(charset+4, thd_arg->variables.collation_server->number); if (thd_arg->time_zone_used) { /* Note that our event becomes dependent on the Time_zone object representing the time zone. Fortunately such objects are never deleted or changed during mysqld's lifetime. */ time_zone_len= thd_arg->variables.time_zone->get_name()->length(); time_zone_str= thd_arg->variables.time_zone->get_name()->ptr(); } else time_zone_len= 0; DBUG_PRINT("info",("Query_log_event has flags2: %lu sql_mode: %lu", (ulong) flags2, sql_mode)); } #endif /* MYSQL_CLIENT */ /* 2 utility functions for the next method */ /* Get the pointer for a string (src) that contains the length in the first byte. Set the output string (dst) to the string value and place the length of the string in the byte after the string. */ static void get_str_len_and_pointer(const Log_event::Byte **src, const char **dst, uint *len) { if ((*len= **src)) *dst= (char *)*src + 1; // Will be copied later (*src)+= *len + 1; } static void copy_str_and_move(const char **src, Log_event::Byte **dst, uint len) { memcpy(*dst, *src, len); *src= (const char *)*dst; (*dst)+= len; *(*dst)++= 0; } /* Query_log_event::Query_log_event() This is used by the SQL slave thread to prepare the event before execution. */ Query_log_event::Query_log_event(const char* buf, uint event_len, const Format_description_log_event *description_event, Log_event_type event_type) :Log_event(buf, description_event), data_buf(0), query(NullS), db(NullS), catalog_len(0), status_vars_len(0), flags2_inited(0), sql_mode_inited(0), charset_inited(0), auto_increment_increment(1), auto_increment_offset(1), time_zone_len(0), lc_time_names_number(0), charset_database_number(0) { ulong data_len; uint32 tmp; uint8 common_header_len, post_header_len; Log_event::Byte *start; const Log_event::Byte *end; bool catalog_nz= 1; DBUG_ENTER("Query_log_event::Query_log_event(char*,...)"); common_header_len= description_event->common_header_len; post_header_len= description_event->post_header_len[event_type-1]; DBUG_PRINT("info",("event_len: %u common_header_len: %d post_header_len: %d", event_len, common_header_len, post_header_len)); /* We test if the event's length is sensible, and if so we compute data_len. We cannot rely on QUERY_HEADER_LEN here as it would not be format-tolerant. We use QUERY_HEADER_MINIMAL_LEN which is the same for 3.23, 4.0 & 5.0. */ if (event_len < (uint)(common_header_len + post_header_len)) DBUG_VOID_RETURN; data_len = event_len - (common_header_len + post_header_len); buf+= common_header_len; slave_proxy_id= thread_id = uint4korr(buf + Q_THREAD_ID_OFFSET); exec_time = uint4korr(buf + Q_EXEC_TIME_OFFSET); db_len = (uint)buf[Q_DB_LEN_OFFSET]; // TODO: add a check of all *_len vars error_code = uint2korr(buf + Q_ERR_CODE_OFFSET); /* 5.0 format starts here. Depending on the format, we may or not have affected/warnings etc The remnent post-header to be parsed has length: */ tmp= post_header_len - QUERY_HEADER_MINIMAL_LEN; if (tmp) { status_vars_len= uint2korr(buf + Q_STATUS_VARS_LEN_OFFSET); data_len-= status_vars_len; DBUG_PRINT("info", ("Query_log_event has status_vars_len: %u", (uint) status_vars_len)); tmp-= 2; } /* We have parsed everything we know in the post header for QUERY_EVENT, the rest of post header is either comes from older version MySQL or dedicated to derived events (e.g. Execute_load_query...) */ /* variable-part: the status vars; only in MySQL 5.0 */ start= (Log_event::Byte*) (buf+post_header_len); end= (const Log_event::Byte*) (start+status_vars_len); for (const Log_event::Byte* pos= start; pos < end;) { switch (*pos++) { case Q_FLAGS2_CODE: flags2_inited= 1; flags2= uint4korr(pos); DBUG_PRINT("info",("In Query_log_event, read flags2: %lu", (ulong) flags2)); pos+= 4; break; case Q_SQL_MODE_CODE: { #ifndef DBUG_OFF char buff[22]; #endif sql_mode_inited= 1; sql_mode= (ulong) uint8korr(pos); // QQ: Fix when sql_mode is ulonglong DBUG_PRINT("info",("In Query_log_event, read sql_mode: %s", llstr(sql_mode, buff))); pos+= 8; break; } case Q_CATALOG_NZ_CODE: get_str_len_and_pointer(&pos, &catalog, &catalog_len); break; case Q_AUTO_INCREMENT: auto_increment_increment= uint2korr(pos); auto_increment_offset= uint2korr(pos+2); pos+= 4; break; case Q_CHARSET_CODE: { charset_inited= 1; memcpy(charset, pos, 6); pos+= 6; break; } case Q_TIME_ZONE_CODE: { get_str_len_and_pointer(&pos, &time_zone_str, &time_zone_len); break; } case Q_CATALOG_CODE: /* for 5.0.x where 0<=x<=3 masters */ if ((catalog_len= *pos)) catalog= (char*) pos+1; // Will be copied later pos+= catalog_len+2; // leap over end 0 catalog_nz= 0; // catalog has end 0 in event break; case Q_LC_TIME_NAMES_CODE: lc_time_names_number= uint2korr(pos); pos+= 2; break; case Q_CHARSET_DATABASE_CODE: charset_database_number= uint2korr(pos); pos+= 2; break; default: /* That's why you must write status vars in growing order of code */ DBUG_PRINT("info",("Query_log_event has unknown status vars (first has\ code: %u), skipping the rest of them", (uint) *(pos-1))); pos= (const uchar*) end; // Break loop } } #if !defined(MYSQL_CLIENT) && defined(HAVE_QUERY_CACHE) if (!(start= data_buf = (Log_event::Byte*) my_malloc(catalog_len + 1 + time_zone_len + 1 + data_len + 1 + QUERY_CACHE_FLAGS_SIZE + db_len + 1, MYF(MY_WME)))) #else if (!(start= data_buf = (Log_event::Byte*) my_malloc(catalog_len + 1 + time_zone_len + 1 + data_len + 1, MYF(MY_WME)))) #endif DBUG_VOID_RETURN; if (catalog_len) // If catalog is given { if (likely(catalog_nz)) // true except if event comes from 5.0.0|1|2|3. copy_str_and_move(&catalog, &start, catalog_len); else { memcpy(start, catalog, catalog_len+1); // copy end 0 catalog= (const char *)start; start+= catalog_len+1; } } if (time_zone_len) copy_str_and_move(&time_zone_str, &start, time_zone_len); /* A 2nd variable part; this is common to all versions */ memcpy((char*) start, end, data_len); // Copy db and query start[data_len]= '\0'; // End query with \0 (For safetly) db= (char *)start; query= (char *)(start + db_len + 1); q_len= data_len - db_len -1; DBUG_VOID_RETURN; } /* Query_log_event::print() */ #ifdef MYSQL_CLIENT void Query_log_event::print_query_header(IO_CACHE* file, PRINT_EVENT_INFO* print_event_info) { // TODO: print the catalog ?? char buff[40],*end; // Enough for SET TIMESTAMP bool different_db= 1; uint32 tmp; if (!print_event_info->short_form) { print_header(file, print_event_info, FALSE); my_b_printf(file, "\t%s\tthread_id=%lu\texec_time=%lu\terror_code=%d\n", get_type_str(), (ulong) thread_id, (ulong) exec_time, error_code); } if (!(flags & LOG_EVENT_SUPPRESS_USE_F) && db) { if (different_db= memcmp(print_event_info->db, db, db_len + 1)) memcpy(print_event_info->db, db, db_len + 1); if (db[0] && different_db) my_b_printf(file, "use %s%s\n", db, print_event_info->delimiter); } end=int10_to_str((long) when, strmov(buff,"SET TIMESTAMP="),10); end= strmov(end, print_event_info->delimiter); *end++='\n'; my_b_write(file, (byte*) buff, (uint) (end-buff)); if (flags & LOG_EVENT_THREAD_SPECIFIC_F) my_b_printf(file,"SET @@session.pseudo_thread_id=%lu%s\n", (ulong)thread_id, print_event_info->delimiter); /* If flags2_inited==0, this is an event from 3.23 or 4.0; nothing to print (remember we don't produce mixed relay logs so there cannot be 5.0 events before that one so there is nothing to reset). */ if (likely(flags2_inited)) /* likely as this will mainly read 5.0 logs */ { /* tmp is a bitmask of bits which have changed. */ if (likely(print_event_info->flags2_inited)) /* All bits which have changed */ tmp= (print_event_info->flags2) ^ flags2; else /* that's the first Query event we read */ { print_event_info->flags2_inited= 1; tmp= ~((uint32)0); /* all bits have changed */ } if (unlikely(tmp)) /* some bits have changed */ { bool need_comma= 0; my_b_printf(file, "SET "); print_set_option(file, tmp, OPTION_NO_FOREIGN_KEY_CHECKS, ~flags2, "@@session.foreign_key_checks", &need_comma); print_set_option(file, tmp, OPTION_AUTO_IS_NULL, flags2, "@@session.sql_auto_is_null", &need_comma); print_set_option(file, tmp, OPTION_RELAXED_UNIQUE_CHECKS, ~flags2, "@@session.unique_checks", &need_comma); my_b_printf(file,"%s\n", print_event_info->delimiter); print_event_info->flags2= flags2; } } /* Now the session variables; it's more efficient to pass SQL_MODE as a number instead of a comma-separated list. FOREIGN_KEY_CHECKS, SQL_AUTO_IS_NULL, UNIQUE_CHECKS are session-only variables (they have no global version; they're not listed in sql_class.h), The tests below work for pure binlogs or pure relay logs. Won't work for mixed relay logs but we don't create mixed relay logs (that is, there is no relay log with a format change except within the 3 first events, which mysqlbinlog handles gracefully). So this code should always be good. */ if (likely(sql_mode_inited)) { if (unlikely(!print_event_info->sql_mode_inited)) /* first Query event */ { print_event_info->sql_mode_inited= 1; /* force a difference to force write */ print_event_info->sql_mode= ~sql_mode; } if (unlikely(print_event_info->sql_mode != sql_mode)) { my_b_printf(file,"SET @@session.sql_mode=%lu%s\n", (ulong)sql_mode, print_event_info->delimiter); print_event_info->sql_mode= sql_mode; } } if (print_event_info->auto_increment_increment != auto_increment_increment || print_event_info->auto_increment_offset != auto_increment_offset) { my_b_printf(file,"SET @@session.auto_increment_increment=%lu, @@session.auto_increment_offset=%lu%s\n", auto_increment_increment,auto_increment_offset, print_event_info->delimiter); print_event_info->auto_increment_increment= auto_increment_increment; print_event_info->auto_increment_offset= auto_increment_offset; } /* TODO: print the catalog when we feature SET CATALOG */ if (likely(charset_inited)) { if (unlikely(!print_event_info->charset_inited)) /* first Query event */ { print_event_info->charset_inited= 1; print_event_info->charset[0]= ~charset[0]; // force a difference to force write } if (unlikely(bcmp(print_event_info->charset, charset, 6))) { CHARSET_INFO *cs_info= get_charset(uint2korr(charset), MYF(MY_WME)); if (cs_info) { /* for mysql client */ my_b_printf(file, "/*!\\C %s */%s\n", cs_info->csname, print_event_info->delimiter); } my_b_printf(file,"SET " "@@session.character_set_client=%d," "@@session.collation_connection=%d," "@@session.collation_server=%d" "%s\n", uint2korr(charset), uint2korr(charset+2), uint2korr(charset+4), print_event_info->delimiter); memcpy(print_event_info->charset, charset, 6); } } if (time_zone_len) { if (bcmp(print_event_info->time_zone_str, time_zone_str, time_zone_len+1)) { my_b_printf(file,"SET @@session.time_zone='%s'%s\n", time_zone_str, print_event_info->delimiter); memcpy(print_event_info->time_zone_str, time_zone_str, time_zone_len+1); } } if (lc_time_names_number != print_event_info->lc_time_names_number) { my_b_printf(file, "SET @@session.lc_time_names=%d%s\n", lc_time_names_number, print_event_info->delimiter); print_event_info->lc_time_names_number= lc_time_names_number; } if (charset_database_number != print_event_info->charset_database_number) { if (charset_database_number) my_b_printf(file, "SET @@session.collation_database=%d%s\n", charset_database_number, print_event_info->delimiter); else my_b_printf(file, "SET @@session.collation_database=DEFAULT%s\n", print_event_info->delimiter); print_event_info->charset_database_number= charset_database_number; } } void Query_log_event::print(FILE* file, PRINT_EVENT_INFO* print_event_info) { Write_on_release_cache cache(&print_event_info->head_cache, file); print_query_header(&cache, print_event_info); my_b_write(&cache, (byte*) query, q_len); my_b_printf(&cache, "%s\n", print_event_info->delimiter); } #endif /* MYSQL_CLIENT */ /* Query_log_event::exec_event() */ #if defined(HAVE_REPLICATION) && !defined(MYSQL_CLIENT) int Query_log_event::exec_event(struct st_relay_log_info* rli) { return exec_event(rli, query, q_len); } int Query_log_event::exec_event(struct st_relay_log_info* rli, const char *query_arg, uint32 q_len_arg) { LEX_STRING new_db; int expected_error,actual_error= 0; /* Colleagues: please never free(thd->catalog) in MySQL. This would lead to bugs as here thd->catalog is a part of an alloced block, not an entire alloced block (see Query_log_event::exec_event()). Same for thd->db. Thank you. */ thd->catalog= catalog_len ? (char *) catalog : (char *)""; new_db.length= db_len; new_db.str= (char *) rpl_filter->get_rewrite_db(db, &new_db.length); thd->set_db(new_db.str, new_db.length); /* allocates a copy of 'db' */ thd->variables.auto_increment_increment= auto_increment_increment; thd->variables.auto_increment_offset= auto_increment_offset; /* InnoDB internally stores the master log position it has executed so far, i.e. the position just after the COMMIT event. When InnoDB will want to store, the positions in rli won't have been updated yet, so group_master_log_* will point to old BEGIN and event_master_log* will point to the beginning of current COMMIT. But log_pos of the COMMIT Query event is what we want, i.e. the pos of the END of the current log event (COMMIT). We save it in rli so that InnoDB can access it. */ rli->future_group_master_log_pos= log_pos; DBUG_PRINT("info", ("log_pos: %lu", (ulong) log_pos)); clear_all_errors(thd, rli); rli->clear_tables_to_lock(); /* Note: We do not need to execute reset_one_shot_variables() if this db_ok() test fails. Reason: The db stored in binlog events is the same for SET and for its companion query. If the SET is ignored because of db_ok(), the companion query will also be ignored, and if the companion query is ignored in the db_ok() test of ::exec_event(), then the companion SET also have so we don't need to reset_one_shot_variables(). */ if (rpl_filter->db_ok(thd->db)) { thd->set_time((time_t)when); thd->query_length= q_len_arg; thd->query= (char*)query_arg; VOID(pthread_mutex_lock(&LOCK_thread_count)); thd->query_id = next_query_id(); VOID(pthread_mutex_unlock(&LOCK_thread_count)); thd->variables.pseudo_thread_id= thread_id; // for temp tables DBUG_PRINT("query",("%s",thd->query)); if (ignored_error_code((expected_error= error_code)) || !check_expected_error(thd,rli,expected_error)) { if (flags2_inited) /* all bits of thd->options which are 1 in OPTIONS_WRITTEN_TO_BIN_LOG must take their value from flags2. */ thd->options= flags2|(thd->options & ~OPTIONS_WRITTEN_TO_BIN_LOG); /* else, we are in a 3.23/4.0 binlog; we previously received a Rotate_log_event which reset thd->options and sql_mode etc, so nothing to do. */ /* We do not replicate IGNORE_DIR_IN_CREATE. That is, if the master is a slave which runs with SQL_MODE=IGNORE_DIR_IN_CREATE, this should not force us to ignore the dir too. Imagine you are a ring of machines, and one has a disk problem so that you temporarily need IGNORE_DIR_IN_CREATE on this machine; you don't want it to propagate elsewhere (you don't want all slaves to start ignoring the dirs). */ if (sql_mode_inited) thd->variables.sql_mode= (ulong) ((thd->variables.sql_mode & MODE_NO_DIR_IN_CREATE) | (sql_mode & ~(ulong) MODE_NO_DIR_IN_CREATE)); if (charset_inited) { if (rli->cached_charset_compare(charset)) { /* Verify that we support the charsets found in the event. */ if (!(thd->variables.character_set_client= get_charset(uint2korr(charset), MYF(MY_WME))) || !(thd->variables.collation_connection= get_charset(uint2korr(charset+2), MYF(MY_WME))) || !(thd->variables.collation_server= get_charset(uint2korr(charset+4), MYF(MY_WME)))) { /* We updated the thd->variables with nonsensical values (0). Let's set them to something safe (i.e. which avoids crash), and we'll stop with EE_UNKNOWN_CHARSET in compare_errors (unless set to ignore this error). */ set_slave_thread_default_charset(thd, rli); goto compare_errors; } thd->update_charset(); // for the charset change to take effect } } if (time_zone_len) { String tmp(time_zone_str, time_zone_len, &my_charset_bin); if (!(thd->variables.time_zone= my_tz_find_with_opening_tz_tables(thd, &tmp))) { my_error(ER_UNKNOWN_TIME_ZONE, MYF(0), tmp.c_ptr()); thd->variables.time_zone= global_system_variables.time_zone; goto compare_errors; } } if (lc_time_names_number) { if (!(thd->variables.lc_time_names= my_locale_by_number(lc_time_names_number))) { my_printf_error(ER_UNKNOWN_ERROR, "Unknown locale: '%d'", MYF(0), lc_time_names_number); thd->variables.lc_time_names= &my_locale_en_US; goto compare_errors; } } else thd->variables.lc_time_names= &my_locale_en_US; if (charset_database_number) { CHARSET_INFO *cs; if (!(cs= get_charset(charset_database_number, MYF(0)))) { char buf[20]; int10_to_str((int) charset_database_number, buf, -10); my_error(ER_UNKNOWN_COLLATION, MYF(0), buf); goto compare_errors; } thd->variables.collation_database= cs; } else thd->variables.collation_database= thd->db_charset; /* Execute the query (note that we bypass dispatch_command()) */ mysql_parse(thd, thd->query, thd->query_length); } else { /* The query got a really bad error on the master (thread killed etc), which could be inconsistent. Parse it to test the table names: if the replicate-*-do|ignore-table rules say "this query must be ignored" then we exit gracefully; otherwise we warn about the bad error and tell DBA to check/fix it. */ if (mysql_test_parse_for_slave(thd, thd->query, thd->query_length)) clear_all_errors(thd, rli); /* Can ignore query */ else { slave_print_msg(ERROR_LEVEL, rli, expected_error, "\ Query partially completed on the master (error on master: %d) \ and was aborted. There is a chance that your master is inconsistent at this \ point. If you are sure that your master is ok, run this query manually on the \ slave and then restart the slave with SET GLOBAL SQL_SLAVE_SKIP_COUNTER=1; \ START SLAVE; . Query: '%s'", expected_error, thd->query); thd->query_error= 1; } goto end; } /* If the query was not ignored, it is printed to the general log */ if (thd->net.last_errno != ER_SLAVE_IGNORED_TABLE) general_log_print(thd, COM_QUERY, "%s", thd->query); compare_errors: /* If we expected a non-zero error code, and we don't get the same error code, and none of them should be ignored. */ DBUG_PRINT("info",("expected_error: %d last_errno: %d", expected_error, thd->net.last_errno)); if ((expected_error != (actual_error= thd->net.last_errno)) && expected_error && !ignored_error_code(actual_error) && !ignored_error_code(expected_error)) { slave_print_msg(ERROR_LEVEL, rli, 0, "\ Query caused different errors on master and slave. \ Error on master: '%s' (%d), Error on slave: '%s' (%d). \ Default database: '%s'. Query: '%s'", ER_SAFE(expected_error), expected_error, actual_error ? thd->net.last_error: "no error", actual_error, print_slave_db_safe(db), query_arg); thd->query_error= 1; } /* If we get the same error code as expected, or they should be ignored. */ else if (expected_error == actual_error || ignored_error_code(actual_error)) { DBUG_PRINT("info",("error ignored")); clear_all_errors(thd, rli); } /* Other cases: mostly we expected no error and get one. */ else if (thd->query_error || thd->is_fatal_error) { slave_print_msg(ERROR_LEVEL, rli, actual_error, "Error '%s' on query. Default database: '%s'. Query: '%s'", (actual_error ? thd->net.last_error : "unexpected success or fatal error"), print_slave_db_safe(thd->db), query_arg); thd->query_error= 1; } /* TODO: compare the values of "affected rows" around here. Something like: if ((uint32) affected_in_event != (uint32) affected_on_slave) { sql_print_error("Slave: did not get the expected number of affected \ rows running query from master - expected %d, got %d (this numbers \ should have matched modulo 4294967296).", 0, ...); thd->query_error = 1; } We may also want an option to tell the slave to ignore "affected" mismatch. This mismatch could be implemented with a new ER_ code, and to ignore it you would use --slave-skip-errors... To do the comparison we need to know the value of "affected" which the above mysql_parse() computed. And we need to know the value of "affected" in the master's binlog. Both will be implemented later. The important thing is that we now have the format ready to log the values of "affected" in the binlog. So we can release 5.0.0 before effectively logging "affected" and effectively comparing it. */ } /* End of if (db_ok(... */ end: VOID(pthread_mutex_lock(&LOCK_thread_count)); /* Probably we have set thd->query, thd->db, thd->catalog to point to places in the data_buf of this event. Now the event is going to be deleted probably, so data_buf will be freed, so the thd->... listed above will be pointers to freed memory. So we must set them to 0, so that those bad pointers values are not later used. Note that "cleanup" queries like automatic DROP TEMPORARY TABLE don't suffer from these assignments to 0 as DROP TEMPORARY TABLE uses the db.table syntax. */ thd->catalog= 0; thd->set_db(NULL, 0); /* will free the current database */ thd->query= 0; // just to be sure thd->query_length= 0; VOID(pthread_mutex_unlock(&LOCK_thread_count)); close_thread_tables(thd); /* As a disk space optimization, future masters will not log an event for LAST_INSERT_ID() if that function returned 0 (and thus they will be able to replace the THD::stmt_depends_on_first_successful_insert_id_in_prev_stmt variable by (THD->first_successful_insert_id_in_prev_stmt > 0) ; with the resetting below we are ready to support that. */ thd->first_successful_insert_id_in_prev_stmt_for_binlog= 0; thd->first_successful_insert_id_in_prev_stmt= 0; thd->stmt_depends_on_first_successful_insert_id_in_prev_stmt= 0; free_root(thd->mem_root,MYF(MY_KEEP_PREALLOC)); /* If there was an error we stop. Otherwise we increment positions. Note that we will not increment group* positions if we are just after a SET ONE_SHOT, because SET ONE_SHOT should not be separated from its following updating query. */ return (thd->query_error ? thd->query_error : (thd->one_shot_set ? (rli->inc_event_relay_log_pos(),0) : Log_event::exec_event(rli))); } #endif /************************************************************************** Muted_query_log_event methods **************************************************************************/ #ifndef MYSQL_CLIENT /* Muted_query_log_event::Muted_query_log_event() */ Muted_query_log_event::Muted_query_log_event() :Query_log_event() { } #endif /************************************************************************** Start_log_event_v3 methods **************************************************************************/ #ifndef MYSQL_CLIENT Start_log_event_v3::Start_log_event_v3() :Log_event(), binlog_version(BINLOG_VERSION), artificial_event(0) { created= when; memcpy(server_version, ::server_version, ST_SERVER_VER_LEN); } #endif /* Start_log_event_v3::pack_info() */ #if defined(HAVE_REPLICATION) && !defined(MYSQL_CLIENT) void Start_log_event_v3::pack_info(Protocol *protocol) { char buf[12 + ST_SERVER_VER_LEN + 14 + 22], *pos; pos= strmov(buf, "Server ver: "); pos= strmov(pos, server_version); pos= strmov(pos, ", Binlog ver: "); pos= int10_to_str(binlog_version, pos, 10); protocol->store(buf, (uint) (pos-buf), &my_charset_bin); } #endif /* Start_log_event_v3::print() */ #ifdef MYSQL_CLIENT void Start_log_event_v3::print(FILE* file, PRINT_EVENT_INFO* print_event_info) { DBUG_ENTER("Start_log_event_v3::print"); Write_on_release_cache cache(&print_event_info->head_cache, file, Write_on_release_cache::FLUSH_F); if (!print_event_info->short_form) { print_header(&cache, print_event_info, FALSE); my_b_printf(&cache, "\tStart: binlog v %d, server v %s created ", binlog_version, server_version); print_timestamp(&cache); if (created) my_b_printf(&cache," at startup"); my_b_printf(&cache, "\n"); if (flags & LOG_EVENT_BINLOG_IN_USE_F) my_b_printf(&cache, "# Warning: this binlog was not closed properly. " "Most probably mysqld crashed writing it.\n"); } if (!artificial_event && created) { #ifdef WHEN_WE_HAVE_THE_RESET_CONNECTION_SQL_COMMAND /* This is for mysqlbinlog: like in replication, we want to delete the stale tmp files left by an unclean shutdown of mysqld (temporary tables) and rollback unfinished transaction. Probably this can be done with RESET CONNECTION (syntax to be defined). */ my_b_printf(&cache,"RESET CONNECTION%s\n", print_event_info->delimiter); #else my_b_printf(&cache,"ROLLBACK%s\n", print_event_info->delimiter); #endif } DBUG_VOID_RETURN; } #endif /* MYSQL_CLIENT */ /* Start_log_event_v3::Start_log_event_v3() */ Start_log_event_v3::Start_log_event_v3(const char* buf, const Format_description_log_event* description_event) :Log_event(buf, description_event) { buf+= description_event->common_header_len; binlog_version= uint2korr(buf+ST_BINLOG_VER_OFFSET); memcpy(server_version, buf+ST_SERVER_VER_OFFSET, ST_SERVER_VER_LEN); // prevent overrun if log is corrupted on disk server_version[ST_SERVER_VER_LEN-1]= 0; created= uint4korr(buf+ST_CREATED_OFFSET); /* We use log_pos to mark if this was an artificial event or not */ artificial_event= (log_pos == 0); } /* Start_log_event_v3::write() */ #ifndef MYSQL_CLIENT bool Start_log_event_v3::write(IO_CACHE* file) { char buff[START_V3_HEADER_LEN]; int2store(buff + ST_BINLOG_VER_OFFSET,binlog_version); memcpy(buff + ST_SERVER_VER_OFFSET,server_version,ST_SERVER_VER_LEN); int4store(buff + ST_CREATED_OFFSET,created); return (write_header(file, sizeof(buff)) || my_b_safe_write(file, (byte*) buff, sizeof(buff))); } #endif /* Start_log_event_v3::exec_event() The master started IMPLEMENTATION - To handle the case where the master died without having time to write DROP TEMPORARY TABLE, DO RELEASE_LOCK (prepared statements' deletion is TODO), we clean up all temporary tables that we got, if we are sure we can (see below). TODO - Remove all active user locks. Guilhem 2003-06: this is true but not urgent: the worst it can cause is the use of a bit of memory for a user lock which will not be used anymore. If the user lock is later used, the old one will be released. In other words, no deadlock problem. */ #if defined(HAVE_REPLICATION) && !defined(MYSQL_CLIENT) int Start_log_event_v3::exec_event(struct st_relay_log_info* rli) { DBUG_ENTER("Start_log_event_v3::exec_event"); switch (binlog_version) { case 3: case 4: /* This can either be 4.x (then a Start_log_event_v3 is only at master startup so we are sure the master has restarted and cleared his temp tables; the event always has 'created'>0) or 5.0 (then we have to test 'created'). */ if (created) { close_temporary_tables(thd); cleanup_load_tmpdir(); } break; /* Now the older formats; in that case load_tmpdir is cleaned up by the I/O thread. */ case 1: if (strncmp(rli->relay_log.description_event_for_exec->server_version, "3.23.57",7) >= 0 && created) { /* Can distinguish, based on the value of 'created': this event was generated at master startup. */ close_temporary_tables(thd); } /* Otherwise, can't distinguish a Start_log_event generated at master startup and one generated by master FLUSH LOGS, so cannot be sure temp tables have to be dropped. So do nothing. */ break; default: /* this case is impossible */ DBUG_RETURN(1); } DBUG_RETURN(Log_event::exec_event(rli)); } #endif /* defined(HAVE_REPLICATION) && !defined(MYSQL_CLIENT) */ /*************************************************************************** Format_description_log_event methods ****************************************************************************/ /* Format_description_log_event 1st ctor. SYNOPSIS Format_description_log_event::Format_description_log_event binlog_version the binlog version for which we want to build an event. Can be 1 (=MySQL 3.23), 3 (=4.0.x x>=2 and 4.1) or 4 (MySQL 5.0). Note that the old 4.0 (binlog version 2) is not supported; it should not be used for replication with 5.0. DESCRIPTION Ctor. Can be used to create the event to write to the binary log (when the server starts or when FLUSH LOGS), or to create artificial events to parse binlogs from MySQL 3.23 or 4.x. When in a client, only the 2nd use is possible. */ Format_description_log_event:: Format_description_log_event(uint8 binlog_ver, const char* server_ver) :Start_log_event_v3() { created= when; binlog_version= binlog_ver; switch (binlog_ver) { case 4: /* MySQL 5.0 */ memcpy(server_version, ::server_version, ST_SERVER_VER_LEN); DBUG_EXECUTE_IF("pretend_version_50034_in_binlog", strmov(server_version, "5.0.34");); common_header_len= LOG_EVENT_HEADER_LEN; number_of_event_types= LOG_EVENT_TYPES; /* we'll catch my_malloc() error in is_valid() */ post_header_len=(uint8*) my_malloc(number_of_event_types*sizeof(uint8), MYF(MY_ZEROFILL)); /* This long list of assignments is not beautiful, but I see no way to make it nicer, as the right members are #defines, not array members, so it's impossible to write a loop. */ if (post_header_len) { post_header_len[START_EVENT_V3-1]= START_V3_HEADER_LEN; post_header_len[QUERY_EVENT-1]= QUERY_HEADER_LEN; post_header_len[ROTATE_EVENT-1]= ROTATE_HEADER_LEN; post_header_len[LOAD_EVENT-1]= LOAD_HEADER_LEN; post_header_len[CREATE_FILE_EVENT-1]= CREATE_FILE_HEADER_LEN; post_header_len[APPEND_BLOCK_EVENT-1]= APPEND_BLOCK_HEADER_LEN; post_header_len[EXEC_LOAD_EVENT-1]= EXEC_LOAD_HEADER_LEN; post_header_len[DELETE_FILE_EVENT-1]= DELETE_FILE_HEADER_LEN; post_header_len[NEW_LOAD_EVENT-1]= post_header_len[LOAD_EVENT-1]; post_header_len[FORMAT_DESCRIPTION_EVENT-1]= FORMAT_DESCRIPTION_HEADER_LEN; post_header_len[TABLE_MAP_EVENT-1]= TABLE_MAP_HEADER_LEN; post_header_len[WRITE_ROWS_EVENT-1]= ROWS_HEADER_LEN; post_header_len[UPDATE_ROWS_EVENT-1]= ROWS_HEADER_LEN; post_header_len[DELETE_ROWS_EVENT-1]= ROWS_HEADER_LEN; /* We here have the possibility to simulate a master of before we changed the table map id to be stored in 6 bytes: when it was stored in 4 bytes (=> post_header_len was 6). This is used to test backward compatibility. This code can be removed after a few months (today is Dec 21st 2005), when we know that the 4-byte masters are not deployed anymore (check with Tomas Ulin first!), and the accompanying test (rpl_row_4_bytes) too. */ DBUG_EXECUTE_IF("old_row_based_repl_4_byte_map_id_master", post_header_len[TABLE_MAP_EVENT-1]= post_header_len[WRITE_ROWS_EVENT-1]= post_header_len[UPDATE_ROWS_EVENT-1]= post_header_len[DELETE_ROWS_EVENT-1]= 6;); post_header_len[BEGIN_LOAD_QUERY_EVENT-1]= post_header_len[APPEND_BLOCK_EVENT-1]; post_header_len[EXECUTE_LOAD_QUERY_EVENT-1]= EXECUTE_LOAD_QUERY_HEADER_LEN; } break; case 1: /* 3.23 */ case 3: /* 4.0.x x>=2 */ /* We build an artificial (i.e. not sent by the master) event, which describes what those old master versions send. */ if (binlog_ver==1) strmov(server_version, server_ver ? server_ver : "3.23"); else strmov(server_version, server_ver ? server_ver : "4.0"); common_header_len= binlog_ver==1 ? OLD_HEADER_LEN : LOG_EVENT_MINIMAL_HEADER_LEN; /* The first new event in binlog version 4 is Format_desc. So any event type after that does not exist in older versions. We use the events known by version 3, even if version 1 had only a subset of them (this is not a problem: it uses a few bytes for nothing but unifies code; it does not make the slave detect less corruptions). */ number_of_event_types= FORMAT_DESCRIPTION_EVENT - 1; post_header_len=(uint8*) my_malloc(number_of_event_types*sizeof(uint8), MYF(0)); if (post_header_len) { post_header_len[START_EVENT_V3-1]= START_V3_HEADER_LEN; post_header_len[QUERY_EVENT-1]= QUERY_HEADER_MINIMAL_LEN; post_header_len[STOP_EVENT-1]= 0; post_header_len[ROTATE_EVENT-1]= (binlog_ver==1) ? 0 : ROTATE_HEADER_LEN; post_header_len[INTVAR_EVENT-1]= 0; post_header_len[LOAD_EVENT-1]= LOAD_HEADER_LEN; post_header_len[SLAVE_EVENT-1]= 0; post_header_len[CREATE_FILE_EVENT-1]= CREATE_FILE_HEADER_LEN; post_header_len[APPEND_BLOCK_EVENT-1]= APPEND_BLOCK_HEADER_LEN; post_header_len[EXEC_LOAD_EVENT-1]= EXEC_LOAD_HEADER_LEN; post_header_len[DELETE_FILE_EVENT-1]= DELETE_FILE_HEADER_LEN; post_header_len[NEW_LOAD_EVENT-1]= post_header_len[LOAD_EVENT-1]; post_header_len[RAND_EVENT-1]= 0; post_header_len[USER_VAR_EVENT-1]= 0; } break; default: /* Includes binlog version 2 i.e. 4.0.x x<=1 */ post_header_len= 0; /* will make is_valid() fail */ break; } calc_server_version_split(); } /* The problem with this constructor is that the fixed header may have a length different from this version, but we don't know this length as we have not read the Format_description_log_event which says it, yet. This length is in the post-header of the event, but we don't know where the post-header starts. So this type of event HAS to: - either have the header's length at the beginning (in the header, at a fixed position which will never be changed), not in the post-header. That would make the header be "shifted" compared to other events. - or have a header of size LOG_EVENT_MINIMAL_HEADER_LEN (19), in all future versions, so that we know for sure. I (Guilhem) chose the 2nd solution. Rotate has the same constraint (because it is sent before Format_description_log_event). */ Format_description_log_event:: Format_description_log_event(const char* buf, uint event_len, const Format_description_log_event* description_event) :Start_log_event_v3(buf, description_event) { DBUG_ENTER("Format_description_log_event::Format_description_log_event(char*,...)"); buf+= LOG_EVENT_MINIMAL_HEADER_LEN; if ((common_header_len=buf[ST_COMMON_HEADER_LEN_OFFSET]) < OLD_HEADER_LEN) DBUG_VOID_RETURN; /* sanity check */ number_of_event_types= event_len-(LOG_EVENT_MINIMAL_HEADER_LEN+ST_COMMON_HEADER_LEN_OFFSET+1); DBUG_PRINT("info", ("common_header_len=%d number_of_event_types=%d", common_header_len, number_of_event_types)); /* If alloc fails, we'll detect it in is_valid() */ post_header_len= (uint8*) my_memdup((byte*)buf+ST_COMMON_HEADER_LEN_OFFSET+1, number_of_event_types* sizeof(*post_header_len), MYF(0)); calc_server_version_split(); DBUG_VOID_RETURN; } #ifndef MYSQL_CLIENT bool Format_description_log_event::write(IO_CACHE* file) { /* We don't call Start_log_event_v3::write() because this would make 2 my_b_safe_write(). */ byte buff[FORMAT_DESCRIPTION_HEADER_LEN]; int2store(buff + ST_BINLOG_VER_OFFSET,binlog_version); memcpy((char*) buff + ST_SERVER_VER_OFFSET,server_version,ST_SERVER_VER_LEN); int4store(buff + ST_CREATED_OFFSET,created); buff[ST_COMMON_HEADER_LEN_OFFSET]= LOG_EVENT_HEADER_LEN; memcpy((char*) buff+ST_COMMON_HEADER_LEN_OFFSET+1, (byte*) post_header_len, LOG_EVENT_TYPES); return (write_header(file, sizeof(buff)) || my_b_safe_write(file, buff, sizeof(buff))); } #endif /* SYNOPSIS Format_description_log_event::exec_event() IMPLEMENTATION Save the information which describes the binlog's format, to be able to read all coming events. Call Start_log_event_v3::exec_event(). */ #if defined(HAVE_REPLICATION) && !defined(MYSQL_CLIENT) int Format_description_log_event::exec_event(struct st_relay_log_info* rli) { DBUG_ENTER("Format_description_log_event::exec_event"); /* save the information describing this binlog */ delete rli->relay_log.description_event_for_exec; rli->relay_log.description_event_for_exec= this; #ifdef USING_TRANSACTIONS /* As a transaction NEVER spans on 2 or more binlogs: if we have an active transaction at this point, the master died while writing the transaction to the binary log, i.e. while flushing the binlog cache to the binlog. XA guarantees that master has rolled back. So we roll back. Note: this event could be sent by the master to inform us of the format of its binlog; in other words maybe it is not at its original place when it comes to us; we'll know this by checking log_pos ("artificial" events have log_pos == 0). */ if (!artificial_event && created && thd->transaction.all.nht) { /* This is not an error (XA is safe), just an information */ slave_print_msg(INFORMATION_LEVEL, rli, 0, "Rolling back unfinished transaction (no COMMIT " "or ROLLBACK in relay log). A probable cause is that " "the master died while writing the transaction to " "its binary log, thus rolled back too."); rli->cleanup_context(thd, 1); } #endif /* If this event comes from ourselves, there is no cleaning task to perform, we don't call Start_log_event_v3::exec_event() (this was just to update the log's description event). */ if (server_id == (uint32) ::server_id) { /* We only increase the relay log position if we are skipping events and do not touch any group_* variables, nor flush the relay log info. If there is a crash, we will have to re-skip the events again, but that is a minor issue. If we do not skip stepping the group log position (and the server id was changed when restarting the server), it might well be that we start executing at a position that is invalid, e.g., at a Rows_log_event or a Query_log_event preceeded by a Intvar_log_event instead of starting at a Table_map_log_event or the Intvar_log_event respectively. */ rli->inc_event_relay_log_pos(); DBUG_RETURN(0); } /* If the event was not requested by the slave i.e. the master sent it while the slave asked for a position >4, the event will make rli->group_master_log_pos advance. Say that the slave asked for position 1000, and the Format_desc event's end is 96. Then in the beginning of replication rli->group_master_log_pos will be 0, then 96, then jump to first really asked event (which is >96). So this is ok. */ DBUG_RETURN(Start_log_event_v3::exec_event(rli)); } #endif /** Splits the event's 'server_version' string into three numeric pieces stored into 'server_version_split': X.Y.Zabc (X,Y,Z numbers, a not a digit) -> {X,Y,Z} X.Yabc -> {X,Y,0} Xabc -> {X,0,0} 'server_version_split' is then used for lookups to find if the server which created this event has some known bug. */ void Format_description_log_event::calc_server_version_split() { char *p= server_version, *r; ulong number; for (uint i= 0; i<=2; i++) { number= strtoul(p, &r, 10); server_version_split[i]= (uchar)number; DBUG_ASSERT(number < 256); // fit in uchar p= r; DBUG_ASSERT(!((i == 0) && (*r != '.'))); // should be true in practice if (*r == '.') p++; // skip the dot } DBUG_PRINT("info",("Format_description_log_event::server_version_split:" " '%s' %d %d %d", server_version, server_version_split[0], server_version_split[1], server_version_split[2])); } /************************************************************************** Load_log_event methods General note about Load_log_event: the binlogging of LOAD DATA INFILE is going to be changed in 5.0 (or maybe in 5.1; not decided yet). However, the 5.0 slave could still have to read such events (from a 4.x master), convert them (which just means maybe expand the header, when 5.0 servers have a UID in events) (remember that whatever is after the header will be like in 4.x, as this event's format is not modified in 5.0 as we will use new types of events to log the new LOAD DATA INFILE features). To be able to read/convert, we just need to not assume that the common header is of length LOG_EVENT_HEADER_LEN (we must use the description event). Note that I (Guilhem) manually tested replication of a big LOAD DATA INFILE between 3.23 and 5.0, and between 4.0 and 5.0, and it works fine (and the positions displayed in SHOW SLAVE STATUS then are fine too). **************************************************************************/ /* Load_log_event::pack_info() */ #if defined(HAVE_REPLICATION) && !defined(MYSQL_CLIENT) uint Load_log_event::get_query_buffer_length() { return 5 + db_len + 3 + // "use DB; " 18 + fname_len + 2 + // "LOAD DATA INFILE 'file''" 7 + // LOCAL 9 + // " REPLACE or IGNORE " 13 + table_name_len*2 + // "INTO TABLE `table`" 21 + sql_ex.field_term_len*4 + 2 + // " FIELDS TERMINATED BY 'str'" 23 + sql_ex.enclosed_len*4 + 2 + // " OPTIONALLY ENCLOSED BY 'str'" 12 + sql_ex.escaped_len*4 + 2 + // " ESCAPED BY 'str'" 21 + sql_ex.line_term_len*4 + 2 + // " FIELDS TERMINATED BY 'str'" 19 + sql_ex.line_start_len*4 + 2 + // " LINES STARTING BY 'str'" 15 + 22 + // " IGNORE xxx LINES" 3 + (num_fields-1)*2 + field_block_len; // " (field1, field2, ...)" } void Load_log_event::print_query(bool need_db, char *buf, char **end, char **fn_start, char **fn_end) { char *pos= buf; if (need_db && db && db_len) { pos= strmov(pos, "use `"); memcpy(pos, db, db_len); pos= strmov(pos+db_len, "`; "); } pos= strmov(pos, "LOAD DATA "); if (fn_start) *fn_start= pos; if (check_fname_outside_temp_buf()) pos= strmov(pos, "LOCAL "); pos= strmov(pos, "INFILE '"); memcpy(pos, fname, fname_len); pos= strmov(pos+fname_len, "' "); if (sql_ex.opt_flags & REPLACE_FLAG) pos= strmov(pos, " REPLACE "); else if (sql_ex.opt_flags & IGNORE_FLAG) pos= strmov(pos, " IGNORE "); pos= strmov(pos ,"INTO"); if (fn_end) *fn_end= pos; pos= strmov(pos ," TABLE `"); memcpy(pos, table_name, table_name_len); pos+= table_name_len; /* We have to create all optinal fields as the default is not empty */ pos= strmov(pos, "` FIELDS TERMINATED BY "); pos= pretty_print_str(pos, sql_ex.field_term, sql_ex.field_term_len); if (sql_ex.opt_flags & OPT_ENCLOSED_FLAG) pos= strmov(pos, " OPTIONALLY "); pos= strmov(pos, " ENCLOSED BY "); pos= pretty_print_str(pos, sql_ex.enclosed, sql_ex.enclosed_len); pos= strmov(pos, " ESCAPED BY "); pos= pretty_print_str(pos, sql_ex.escaped, sql_ex.escaped_len); pos= strmov(pos, " LINES TERMINATED BY "); pos= pretty_print_str(pos, sql_ex.line_term, sql_ex.line_term_len); if (sql_ex.line_start_len) { pos= strmov(pos, " STARTING BY "); pos= pretty_print_str(pos, sql_ex.line_start, sql_ex.line_start_len); } if ((long) skip_lines > 0) { pos= strmov(pos, " IGNORE "); pos= longlong10_to_str((longlong) skip_lines, pos, 10); pos= strmov(pos," LINES "); } if (num_fields) { uint i; const char *field= fields; pos= strmov(pos, " ("); for (i = 0; i < num_fields; i++) { if (i) { *pos++= ' '; *pos++= ','; } memcpy(pos, field, field_lens[i]); pos+= field_lens[i]; field+= field_lens[i] + 1; } *pos++= ')'; } *end= pos; } void Load_log_event::pack_info(Protocol *protocol) { char *buf, *end; if (!(buf= my_malloc(get_query_buffer_length(), MYF(MY_WME)))) return; print_query(TRUE, buf, &end, 0, 0); protocol->store(buf, end-buf, &my_charset_bin); my_free(buf, MYF(0)); } #endif /* defined(HAVE_REPLICATION) && !defined(MYSQL_CLIENT) */ #ifndef MYSQL_CLIENT /* Load_log_event::write_data_header() */ bool Load_log_event::write_data_header(IO_CACHE* file) { char buf[LOAD_HEADER_LEN]; int4store(buf + L_THREAD_ID_OFFSET, slave_proxy_id); int4store(buf + L_EXEC_TIME_OFFSET, exec_time); int4store(buf + L_SKIP_LINES_OFFSET, skip_lines); buf[L_TBL_LEN_OFFSET] = (char)table_name_len; buf[L_DB_LEN_OFFSET] = (char)db_len; int4store(buf + L_NUM_FIELDS_OFFSET, num_fields); return my_b_safe_write(file, (byte*)buf, LOAD_HEADER_LEN) != 0; } /* Load_log_event::write_data_body() */ bool Load_log_event::write_data_body(IO_CACHE* file) { if (sql_ex.write_data(file)) return 1; if (num_fields && fields && field_lens) { if (my_b_safe_write(file, (byte*)field_lens, num_fields) || my_b_safe_write(file, (byte*)fields, field_block_len)) return 1; } return (my_b_safe_write(file, (byte*)table_name, table_name_len + 1) || my_b_safe_write(file, (byte*)db, db_len + 1) || my_b_safe_write(file, (byte*)fname, fname_len)); } /* Load_log_event::Load_log_event() */ Load_log_event::Load_log_event(THD *thd_arg, sql_exchange *ex, const char *db_arg, const char *table_name_arg, List<Item> &fields_arg, enum enum_duplicates handle_dup, bool ignore, bool using_trans) :Log_event(thd_arg, !thd_arg->tmp_table_used ? 0 : LOG_EVENT_THREAD_SPECIFIC_F, using_trans), thread_id(thd_arg->thread_id), slave_proxy_id(thd_arg->variables.pseudo_thread_id), num_fields(0),fields(0), field_lens(0),field_block_len(0), table_name(table_name_arg ? table_name_arg : ""), db(db_arg), fname(ex->file_name), local_fname(FALSE) { time_t end_time; time(&end_time); exec_time = (ulong) (end_time - thd_arg->start_time); /* db can never be a zero pointer in 4.0 */ db_len = (uint32) strlen(db); table_name_len = (uint32) strlen(table_name); fname_len = (fname) ? (uint) strlen(fname) : 0; sql_ex.field_term = (char*) ex->field_term->ptr(); sql_ex.field_term_len = (uint8) ex->field_term->length(); sql_ex.enclosed = (char*) ex->enclosed->ptr(); sql_ex.enclosed_len = (uint8) ex->enclosed->length(); sql_ex.line_term = (char*) ex->line_term->ptr(); sql_ex.line_term_len = (uint8) ex->line_term->length(); sql_ex.line_start = (char*) ex->line_start->ptr(); sql_ex.line_start_len = (uint8) ex->line_start->length(); sql_ex.escaped = (char*) ex->escaped->ptr(); sql_ex.escaped_len = (uint8) ex->escaped->length(); sql_ex.opt_flags = 0; sql_ex.cached_new_format = -1; if (ex->dumpfile) sql_ex.opt_flags|= DUMPFILE_FLAG; if (ex->opt_enclosed) sql_ex.opt_flags|= OPT_ENCLOSED_FLAG; sql_ex.empty_flags= 0; switch (handle_dup) { case DUP_REPLACE: sql_ex.opt_flags|= REPLACE_FLAG; break; case DUP_UPDATE: // Impossible here case DUP_ERROR: break; } if (ignore) sql_ex.opt_flags|= IGNORE_FLAG; if (!ex->field_term->length()) sql_ex.empty_flags |= FIELD_TERM_EMPTY; if (!ex->enclosed->length()) sql_ex.empty_flags |= ENCLOSED_EMPTY; if (!ex->line_term->length()) sql_ex.empty_flags |= LINE_TERM_EMPTY; if (!ex->line_start->length()) sql_ex.empty_flags |= LINE_START_EMPTY; if (!ex->escaped->length()) sql_ex.empty_flags |= ESCAPED_EMPTY; skip_lines = ex->skip_lines; List_iterator<Item> li(fields_arg); field_lens_buf.length(0); fields_buf.length(0); Item* item; while ((item = li++)) { num_fields++; uchar len = (uchar) strlen(item->name); field_block_len += len + 1; fields_buf.append(item->name, len + 1); field_lens_buf.append((char*)&len, 1); } field_lens = (const uchar*)field_lens_buf.ptr(); fields = fields_buf.ptr(); } #endif /* !MYSQL_CLIENT */ /* Load_log_event::Load_log_event() NOTE The caller must do buf[event_len] = 0 before he starts using the constructed event. */ Load_log_event::Load_log_event(const char *buf, uint event_len, const Format_description_log_event *description_event) :Log_event(buf, description_event), num_fields(0), fields(0), field_lens(0),field_block_len(0), table_name(0), db(0), fname(0), local_fname(FALSE) { DBUG_ENTER("Load_log_event"); /* I (Guilhem) manually tested replication of LOAD DATA INFILE for 3.23->5.0, 4.0->5.0 and 5.0->5.0 and it works. */ if (event_len) copy_log_event(buf, event_len, ((buf[EVENT_TYPE_OFFSET] == LOAD_EVENT) ? LOAD_HEADER_LEN + description_event->common_header_len : LOAD_HEADER_LEN + LOG_EVENT_HEADER_LEN), description_event); /* otherwise it's a derived class, will call copy_log_event() itself */ DBUG_VOID_RETURN; } /* Load_log_event::copy_log_event() */ int Load_log_event::copy_log_event(const char *buf, ulong event_len, int body_offset, const Format_description_log_event *description_event) { DBUG_ENTER("Load_log_event::copy_log_event"); uint data_len; char* buf_end = (char*)buf + event_len; /* this is the beginning of the post-header */ const char* data_head = buf + description_event->common_header_len; slave_proxy_id= thread_id= uint4korr(data_head + L_THREAD_ID_OFFSET); exec_time = uint4korr(data_head + L_EXEC_TIME_OFFSET); skip_lines = uint4korr(data_head + L_SKIP_LINES_OFFSET); table_name_len = (uint)data_head[L_TBL_LEN_OFFSET]; db_len = (uint)data_head[L_DB_LEN_OFFSET]; num_fields = uint4korr(data_head + L_NUM_FIELDS_OFFSET); if ((int) event_len < body_offset) DBUG_RETURN(1); /* Sql_ex.init() on success returns the pointer to the first byte after the sql_ex structure, which is the start of field lengths array. */ if (!(field_lens= (uchar*)sql_ex.init((char*)buf + body_offset, buf_end, buf[EVENT_TYPE_OFFSET] != LOAD_EVENT))) DBUG_RETURN(1); data_len = event_len - body_offset; if (num_fields > data_len) // simple sanity check against corruption DBUG_RETURN(1); for (uint i = 0; i < num_fields; i++) field_block_len += (uint)field_lens[i] + 1; fields = (char*)field_lens + num_fields; table_name = fields + field_block_len; db = table_name + table_name_len + 1; fname = db + db_len + 1; fname_len = strlen(fname); // null termination is accomplished by the caller doing buf[event_len]=0 DBUG_RETURN(0); } /* Load_log_event::print() */ #ifdef MYSQL_CLIENT void Load_log_event::print(FILE* file, PRINT_EVENT_INFO* print_event_info) { print(file, print_event_info, 0); } void Load_log_event::print(FILE* file_arg, PRINT_EVENT_INFO* print_event_info, bool commented) { Write_on_release_cache cache(&print_event_info->head_cache, file_arg); DBUG_ENTER("Load_log_event::print"); if (!print_event_info->short_form) { print_header(&cache, print_event_info, FALSE); my_b_printf(&cache, "\tQuery\tthread_id=%ld\texec_time=%ld\n", thread_id, exec_time); } bool different_db= 1; if (db) { /* If the database is different from the one of the previous statement, we need to print the "use" command, and we update the last_db. But if commented, the "use" is going to be commented so we should not update the last_db. */ if ((different_db= memcmp(print_event_info->db, db, db_len + 1)) && !commented) memcpy(print_event_info->db, db, db_len + 1); } if (db && db[0] && different_db) my_b_printf(&cache, "%suse %s%s\n", commented ? "# " : "", db, print_event_info->delimiter); if (flags & LOG_EVENT_THREAD_SPECIFIC_F) my_b_printf(&cache,"%sSET @@session.pseudo_thread_id=%lu%s\n", commented ? "# " : "", (ulong)thread_id, print_event_info->delimiter); my_b_printf(&cache, "%sLOAD DATA ", commented ? "# " : ""); if (check_fname_outside_temp_buf()) my_b_printf(&cache, "LOCAL "); my_b_printf(&cache, "INFILE '%-*s' ", fname_len, fname); if (sql_ex.opt_flags & REPLACE_FLAG) my_b_printf(&cache," REPLACE "); else if (sql_ex.opt_flags & IGNORE_FLAG) my_b_printf(&cache," IGNORE "); my_b_printf(&cache, "INTO TABLE `%s`", table_name); my_b_printf(&cache, " FIELDS TERMINATED BY "); pretty_print_str(&cache, sql_ex.field_term, sql_ex.field_term_len); if (sql_ex.opt_flags & OPT_ENCLOSED_FLAG) my_b_printf(&cache," OPTIONALLY "); my_b_printf(&cache, " ENCLOSED BY "); pretty_print_str(&cache, sql_ex.enclosed, sql_ex.enclosed_len); my_b_printf(&cache, " ESCAPED BY "); pretty_print_str(&cache, sql_ex.escaped, sql_ex.escaped_len); my_b_printf(&cache," LINES TERMINATED BY "); pretty_print_str(&cache, sql_ex.line_term, sql_ex.line_term_len); if (sql_ex.line_start) { my_b_printf(&cache," STARTING BY "); pretty_print_str(&cache, sql_ex.line_start, sql_ex.line_start_len); } if ((long) skip_lines > 0) my_b_printf(&cache, " IGNORE %ld LINES", (long) skip_lines); if (num_fields) { uint i; const char* field = fields; my_b_printf(&cache, " ("); for (i = 0; i < num_fields; i++) { if (i) my_b_printf(&cache, ","); my_b_printf(&cache, field); field += field_lens[i] + 1; } my_b_printf(&cache, ")"); } my_b_printf(&cache, "%s\n", print_event_info->delimiter); DBUG_VOID_RETURN; } #endif /* MYSQL_CLIENT */ /* Load_log_event::set_fields() Note that this function can not use the member variable for the database, since LOAD DATA INFILE on the slave can be for a different database than the current one. This is the reason for the affected_db argument to this method. */ #ifndef MYSQL_CLIENT void Load_log_event::set_fields(const char* affected_db, List<Item> &field_list, Name_resolution_context *context) { uint i; const char* field = fields; for (i= 0; i < num_fields; i++) { field_list.push_back(new Item_field(context, affected_db, table_name, field)); field+= field_lens[i] + 1; } } #endif /* !MYSQL_CLIENT */ #if defined(HAVE_REPLICATION) && !defined(MYSQL_CLIENT) /* Does the data loading job when executing a LOAD DATA on the slave SYNOPSIS Load_log_event::exec_event net rli use_rli_only_for_errors - if set to 1, rli is provided to Load_log_event::exec_event only for this function to have RPL_LOG_NAME and rli->last_slave_error, both being used by error reports. rli's position advancing is skipped (done by the caller which is Execute_load_log_event::exec_event). - if set to 0, rli is provided for full use, i.e. for error reports and position advancing. DESCRIPTION Does the data loading job when executing a LOAD DATA on the slave RETURN VALUE 0 Success 1 Failure */ int Load_log_event::exec_event(NET* net, struct st_relay_log_info* rli, bool use_rli_only_for_errors) { LEX_STRING new_db; new_db.length= db_len; new_db.str= (char *) rpl_filter->get_rewrite_db(db, &new_db.length); thd->set_db(new_db.str, new_db.length); DBUG_ASSERT(thd->query == 0); thd->query_length= 0; // Should not be needed thd->query_error= 0; clear_all_errors(thd, rli); /* see Query_log_event::exec_event() and BUG#13360 */ DBUG_ASSERT(!rli->m_table_map.count()); /* Usually mysql_init_query() is called by mysql_parse(), but we need it here as the present method does not call mysql_parse(). */ mysql_init_query(thd, 0, 0); if (!use_rli_only_for_errors) { /* Saved for InnoDB, see comment in Query_log_event::exec_event() */ rli->future_group_master_log_pos= log_pos; DBUG_PRINT("info", ("log_pos: %lu", (ulong) log_pos)); } /* We test replicate_*_db rules. Note that we have already prepared the file to load, even if we are going to ignore and delete it now. So it is possible that we did a lot of disk writes for nothing. In other words, a big LOAD DATA INFILE on the master will still consume a lot of space on the slave (space in the relay log + space of temp files: twice the space of the file to load...) even if it will finally be ignored. TODO: fix this; this can be done by testing rules in Create_file_log_event::exec_event() and then discarding Append_block and al. Another way is do the filtering in the I/O thread (more efficient: no disk writes at all). Note: We do not need to execute reset_one_shot_variables() if this db_ok() test fails. Reason: The db stored in binlog events is the same for SET and for its companion query. If the SET is ignored because of db_ok(), the companion query will also be ignored, and if the companion query is ignored in the db_ok() test of ::exec_event(), then the companion SET also have so we don't need to reset_one_shot_variables(). */ if (rpl_filter->db_ok(thd->db)) { thd->set_time((time_t)when); VOID(pthread_mutex_lock(&LOCK_thread_count)); thd->query_id = next_query_id(); VOID(pthread_mutex_unlock(&LOCK_thread_count)); /* Initing thd->row_count is not necessary in theory as this variable has no influence in the case of the slave SQL thread (it is used to generate a "data truncated" warning but which is absorbed and never gets to the error log); still we init it to avoid a Valgrind message. */ mysql_reset_errors(thd, 0); TABLE_LIST tables; bzero((char*) &tables,sizeof(tables)); tables.db= thd->strmake(thd->db, thd->db_length); tables.alias = tables.table_name = (char*) table_name; tables.lock_type = TL_WRITE; tables.updating= 1; // the table will be opened in mysql_load if (rpl_filter->is_on() && !rpl_filter->tables_ok(thd->db, &tables)) { // TODO: this is a bug - this needs to be moved to the I/O thread if (net) skip_load_data_infile(net); } else { char llbuff[22]; char *end; enum enum_duplicates handle_dup; bool ignore= 0; char *load_data_query; /* Forge LOAD DATA INFILE query which will be used in SHOW PROCESS LIST and written to slave's binlog if binlogging is on. */ if (!(load_data_query= (char *)thd->alloc(get_query_buffer_length() + 1))) { /* This will set thd->fatal_error in case of OOM. So we surely will notice that something is wrong. */ goto error; } print_query(FALSE, load_data_query, &end, (char **)&thd->lex->fname_start, (char **)&thd->lex->fname_end); *end= 0; thd->query_length= end - load_data_query; thd->query= load_data_query; if (sql_ex.opt_flags & REPLACE_FLAG) { handle_dup= DUP_REPLACE; } else if (sql_ex.opt_flags & IGNORE_FLAG) { ignore= 1; handle_dup= DUP_ERROR; } else { /* When replication is running fine, if it was DUP_ERROR on the master then we could choose IGNORE here, because if DUP_ERROR suceeded on master, and data is identical on the master and slave, then there should be no uniqueness errors on slave, so IGNORE is the same as DUP_ERROR. But in the unlikely case of uniqueness errors (because the data on the master and slave happen to be different (user error or bug), we want LOAD DATA to print an error message on the slave to discover the problem. If reading from net (a 3.23 master), mysql_load() will change this to IGNORE. */ handle_dup= DUP_ERROR; } /* We need to set thd->lex->sql_command and thd->lex->duplicates since InnoDB tests these variables to decide if this is a LOAD DATA ... REPLACE INTO ... statement even though mysql_parse() is not called. This is not needed in 5.0 since there the LOAD DATA ... statement is replicated using mysql_parse(), which sets the thd->lex fields correctly. */ thd->lex->sql_command= SQLCOM_LOAD; thd->lex->duplicates= handle_dup; sql_exchange ex((char*)fname, sql_ex.opt_flags & DUMPFILE_FLAG); String field_term(sql_ex.field_term,sql_ex.field_term_len,log_cs); String enclosed(sql_ex.enclosed,sql_ex.enclosed_len,log_cs); String line_term(sql_ex.line_term,sql_ex.line_term_len,log_cs); String line_start(sql_ex.line_start,sql_ex.line_start_len,log_cs); String escaped(sql_ex.escaped,sql_ex.escaped_len, log_cs); ex.field_term= &field_term; ex.enclosed= &enclosed; ex.line_term= &line_term; ex.line_start= &line_start; ex.escaped= &escaped; ex.opt_enclosed = (sql_ex.opt_flags & OPT_ENCLOSED_FLAG); if (sql_ex.empty_flags & FIELD_TERM_EMPTY) ex.field_term->length(0); ex.skip_lines = skip_lines; List<Item> field_list; thd->main_lex.select_lex.context.resolve_in_table_list_only(&tables); set_fields(tables.db, field_list, &thd->main_lex.select_lex.context); thd->variables.pseudo_thread_id= thread_id; if (net) { // mysql_load will use thd->net to read the file thd->net.vio = net->vio; /* Make sure the client does not get confused about the packet sequence */ thd->net.pkt_nr = net->pkt_nr; } /* It is safe to use tmp_list twice because we are not going to update it inside mysql_load(). */ List<Item> tmp_list; if (mysql_load(thd, &ex, &tables, field_list, tmp_list, tmp_list, handle_dup, ignore, net != 0)) thd->query_error= 1; if (thd->cuted_fields) { /* log_pos is the position of the LOAD event in the master log */ sql_print_warning("Slave: load data infile on table '%s' at " "log position %s in log '%s' produced %ld " "warning(s). Default database: '%s'", (char*) table_name, llstr(log_pos,llbuff), RPL_LOG_NAME, (ulong) thd->cuted_fields, print_slave_db_safe(thd->db)); } if (net) net->pkt_nr= thd->net.pkt_nr; } } else { /* We will just ask the master to send us /dev/null if we do not want to load the data. TODO: this a bug - needs to be done in I/O thread */ if (net) skip_load_data_infile(net); } error: thd->net.vio = 0; const char *remember_db= thd->db; VOID(pthread_mutex_lock(&LOCK_thread_count)); thd->catalog= 0; thd->set_db(NULL, 0); /* will free the current database */ thd->query= 0; thd->query_length= 0; VOID(pthread_mutex_unlock(&LOCK_thread_count)); close_thread_tables(thd); if (thd->query_error) { /* this err/sql_errno code is copy-paste from net_send_error() */ const char *err; int sql_errno; if ((err=thd->net.last_error)[0]) sql_errno=thd->net.last_errno; else { sql_errno=ER_UNKNOWN_ERROR; err=ER(sql_errno); } slave_print_msg(ERROR_LEVEL, rli, sql_errno,"\ Error '%s' running LOAD DATA INFILE on table '%s'. Default database: '%s'", err, (char*)table_name, print_slave_db_safe(remember_db)); free_root(thd->mem_root,MYF(MY_KEEP_PREALLOC)); return 1; } free_root(thd->mem_root,MYF(MY_KEEP_PREALLOC)); if (thd->is_fatal_error) { slave_print_msg(ERROR_LEVEL, rli, ER_UNKNOWN_ERROR, "\ Fatal error running LOAD DATA INFILE on table '%s'. Default database: '%s'", (char*)table_name, print_slave_db_safe(remember_db)); return 1; } return ( use_rli_only_for_errors ? 0 : Log_event::exec_event(rli) ); } #endif /************************************************************************** Rotate_log_event methods **************************************************************************/ /* Rotate_log_event::pack_info() */ #if defined(HAVE_REPLICATION) && !defined(MYSQL_CLIENT) void Rotate_log_event::pack_info(Protocol *protocol) { char buf1[256], buf[22]; String tmp(buf1, sizeof(buf1), log_cs); tmp.length(0); tmp.append(new_log_ident, ident_len); tmp.append(STRING_WITH_LEN(";pos=")); tmp.append(llstr(pos,buf)); protocol->store(tmp.ptr(), tmp.length(), &my_charset_bin); } #endif /* Rotate_log_event::print() */ #ifdef MYSQL_CLIENT void Rotate_log_event::print(FILE* file, PRINT_EVENT_INFO* print_event_info) { char buf[22]; Write_on_release_cache cache(&print_event_info->head_cache, file, Write_on_release_cache::FLUSH_F); if (print_event_info->short_form) return; print_header(&cache, print_event_info, FALSE); my_b_printf(&cache, "\tRotate to "); if (new_log_ident) my_b_write(&cache, (byte*) new_log_ident, (uint)ident_len); my_b_printf(&cache, " pos: %s\n", llstr(pos, buf)); } #endif /* MYSQL_CLIENT */ /* Rotate_log_event::Rotate_log_event() (2 constructors) */ #ifndef MYSQL_CLIENT Rotate_log_event::Rotate_log_event(const char* new_log_ident_arg, uint ident_len_arg, ulonglong pos_arg, uint flags_arg) :Log_event(), new_log_ident(new_log_ident_arg), pos(pos_arg),ident_len(ident_len_arg ? ident_len_arg : (uint) strlen(new_log_ident_arg)), flags(flags_arg) { #ifndef DBUG_OFF char buff[22]; DBUG_ENTER("Rotate_log_event::Rotate_log_event(...,flags)"); DBUG_PRINT("enter",("new_log_ident: %s pos: %s flags: %lu", new_log_ident_arg, llstr(pos_arg, buff), (ulong) flags)); #endif if (flags & DUP_NAME) new_log_ident= my_strndup(new_log_ident_arg, ident_len, MYF(MY_WME)); DBUG_VOID_RETURN; } #endif Rotate_log_event::Rotate_log_event(const char* buf, uint event_len, const Format_description_log_event* description_event) :Log_event(buf, description_event) ,new_log_ident(0), flags(DUP_NAME) { DBUG_ENTER("Rotate_log_event::Rotate_log_event(char*,...)"); // The caller will ensure that event_len is what we have at EVENT_LEN_OFFSET uint8 header_size= description_event->common_header_len; uint8 post_header_len= description_event->post_header_len[ROTATE_EVENT-1]; uint ident_offset; if (event_len < header_size) DBUG_VOID_RETURN; buf += header_size; pos = post_header_len ? uint8korr(buf + R_POS_OFFSET) : 4; ident_len = (uint)(event_len - (header_size+post_header_len)); ident_offset = post_header_len; set_if_smaller(ident_len,FN_REFLEN-1); new_log_ident= my_strndup(buf + ident_offset, (uint) ident_len, MYF(MY_WME)); DBUG_VOID_RETURN; } /* Rotate_log_event::write() */ #ifndef MYSQL_CLIENT bool Rotate_log_event::write(IO_CACHE* file) { char buf[ROTATE_HEADER_LEN]; int8store(buf + R_POS_OFFSET, pos); return (write_header(file, ROTATE_HEADER_LEN + ident_len) || my_b_safe_write(file, (byte*)buf, ROTATE_HEADER_LEN) || my_b_safe_write(file, (byte*)new_log_ident, (uint) ident_len)); } #endif /* Rotate_log_event::exec_event() Got a rotate log event from the master IMPLEMENTATION This is mainly used so that we can later figure out the logname and position for the master. We can't rotate the slave's BINlog as this will cause infinitive rotations in a A -> B -> A setup. The NOTES below is a wrong comment which will disappear when 4.1 is merged. RETURN VALUES 0 ok */ #if defined(HAVE_REPLICATION) && !defined(MYSQL_CLIENT) int Rotate_log_event::exec_event(struct st_relay_log_info* rli) { DBUG_ENTER("Rotate_log_event::exec_event"); pthread_mutex_lock(&rli->data_lock); rli->event_relay_log_pos= my_b_tell(rli->cur_log); /* If we are in a transaction: the only normal case is when the I/O thread was copying a big transaction, then it was stopped and restarted: we have this in the relay log: BEGIN ... ROTATE (a fake one) ... COMMIT or ROLLBACK In that case, we don't want to touch the coordinates which correspond to the beginning of the transaction. Starting from 5.0.0, there also are some rotates from the slave itself, in the relay log. */ if (!(thd->options & OPTION_BEGIN)) { memcpy(rli->group_master_log_name, new_log_ident, ident_len+1); rli->notify_group_master_log_name_update(); rli->group_master_log_pos= pos; rli->group_relay_log_pos= rli->event_relay_log_pos; DBUG_PRINT("info", ("group_master_log_name: '%s' " "group_master_log_pos: %lu", rli->group_master_log_name, (ulong) rli->group_master_log_pos)); /* Reset thd->options and sql_mode etc, because this could be the signal of a master's downgrade from 5.0 to 4.0. However, no need to reset description_event_for_exec: indeed, if the next master is 5.0 (even 5.0.1) we will soon get a Format_desc; if the next master is 4.0 then the events are in the slave's format (conversion). */ set_slave_thread_options(thd); set_slave_thread_default_charset(thd, rli); thd->variables.sql_mode= global_system_variables.sql_mode; thd->variables.auto_increment_increment= thd->variables.auto_increment_offset= 1; } pthread_mutex_unlock(&rli->data_lock); pthread_cond_broadcast(&rli->data_cond); flush_relay_log_info(rli); DBUG_RETURN(0); } #endif /************************************************************************** Intvar_log_event methods **************************************************************************/ /* Intvar_log_event::pack_info() */ #if defined(HAVE_REPLICATION) && !defined(MYSQL_CLIENT) void Intvar_log_event::pack_info(Protocol *protocol) { char buf[256], *pos; pos= strmake(buf, get_var_type_name(), sizeof(buf)-23); *pos++= '='; pos= longlong10_to_str(val, pos, -10); protocol->store(buf, (uint) (pos-buf), &my_charset_bin); } #endif /* Intvar_log_event::Intvar_log_event() */ Intvar_log_event::Intvar_log_event(const char* buf, const Format_description_log_event* description_event) :Log_event(buf, description_event) { buf+= description_event->common_header_len; type= buf[I_TYPE_OFFSET]; val= uint8korr(buf+I_VAL_OFFSET); } /* Intvar_log_event::get_var_type_name() */ const char* Intvar_log_event::get_var_type_name() { switch(type) { case LAST_INSERT_ID_EVENT: return "LAST_INSERT_ID"; case INSERT_ID_EVENT: return "INSERT_ID"; default: /* impossible */ return "UNKNOWN"; } } /* Intvar_log_event::write() */ #ifndef MYSQL_CLIENT bool Intvar_log_event::write(IO_CACHE* file) { byte buf[9]; buf[I_TYPE_OFFSET]= (byte) type; int8store(buf + I_VAL_OFFSET, val); return (write_header(file, sizeof(buf)) || my_b_safe_write(file, buf, sizeof(buf))); } #endif /* Intvar_log_event::print() */ #ifdef MYSQL_CLIENT void Intvar_log_event::print(FILE* file, PRINT_EVENT_INFO* print_event_info) { char llbuff[22]; const char *msg; LINT_INIT(msg); Write_on_release_cache cache(&print_event_info->head_cache, file, Write_on_release_cache::FLUSH_F); if (!print_event_info->short_form) { print_header(&cache, print_event_info, FALSE); my_b_printf(&cache, "\tIntvar\n"); } my_b_printf(&cache, "SET "); switch (type) { case LAST_INSERT_ID_EVENT: msg="LAST_INSERT_ID"; break; case INSERT_ID_EVENT: msg="INSERT_ID"; break; case INVALID_INT_EVENT: default: // cannot happen msg="INVALID_INT"; break; } my_b_printf(&cache, "%s=%s%s\n", msg, llstr(val,llbuff), print_event_info->delimiter); } #endif /* Intvar_log_event::exec_event() */ #if defined(HAVE_REPLICATION)&& !defined(MYSQL_CLIENT) int Intvar_log_event::exec_event(struct st_relay_log_info* rli) { switch (type) { case LAST_INSERT_ID_EVENT: thd->stmt_depends_on_first_successful_insert_id_in_prev_stmt= 1; thd->first_successful_insert_id_in_prev_stmt= val; break; case INSERT_ID_EVENT: thd->force_one_auto_inc_interval(val); break; } rli->inc_event_relay_log_pos(); return 0; } #endif /************************************************************************** Rand_log_event methods **************************************************************************/ #if defined(HAVE_REPLICATION) && !defined(MYSQL_CLIENT) void Rand_log_event::pack_info(Protocol *protocol) { char buf1[256], *pos; pos= strmov(buf1,"rand_seed1="); pos= int10_to_str((long) seed1, pos, 10); pos= strmov(pos, ",rand_seed2="); pos= int10_to_str((long) seed2, pos, 10); protocol->store(buf1, (uint) (pos-buf1), &my_charset_bin); } #endif Rand_log_event::Rand_log_event(const char* buf, const Format_description_log_event* description_event) :Log_event(buf, description_event) { buf+= description_event->common_header_len; seed1= uint8korr(buf+RAND_SEED1_OFFSET); seed2= uint8korr(buf+RAND_SEED2_OFFSET); } #ifndef MYSQL_CLIENT bool Rand_log_event::write(IO_CACHE* file) { byte buf[16]; int8store(buf + RAND_SEED1_OFFSET, seed1); int8store(buf + RAND_SEED2_OFFSET, seed2); return (write_header(file, sizeof(buf)) || my_b_safe_write(file, buf, sizeof(buf))); } #endif #ifdef MYSQL_CLIENT void Rand_log_event::print(FILE* file, PRINT_EVENT_INFO* print_event_info) { Write_on_release_cache cache(&print_event_info->head_cache, file, Write_on_release_cache::FLUSH_F); char llbuff[22],llbuff2[22]; if (!print_event_info->short_form) { print_header(&cache, print_event_info, FALSE); my_b_printf(&cache, "\tRand\n"); } my_b_printf(&cache, "SET @@RAND_SEED1=%s, @@RAND_SEED2=%s%s\n", llstr(seed1, llbuff),llstr(seed2, llbuff2), print_event_info->delimiter); } #endif /* MYSQL_CLIENT */ #if defined(HAVE_REPLICATION) && !defined(MYSQL_CLIENT) int Rand_log_event::exec_event(struct st_relay_log_info* rli) { thd->rand.seed1= (ulong) seed1; thd->rand.seed2= (ulong) seed2; rli->inc_event_relay_log_pos(); return 0; } #endif /* !MYSQL_CLIENT */ /************************************************************************** Xid_log_event methods **************************************************************************/ #if defined(HAVE_REPLICATION) && !defined(MYSQL_CLIENT) void Xid_log_event::pack_info(Protocol *protocol) { char buf[128], *pos; pos= strmov(buf, "COMMIT /* xid="); pos= longlong10_to_str(xid, pos, 10); pos= strmov(pos, " */"); protocol->store(buf, (uint) (pos-buf), &my_charset_bin); } #endif /* NOTE it's ok not to use int8store here, as long as xid_t::set(ulonglong) and xid_t::get_my_xid doesn't do it either we don't care about actual values of xids as long as identical numbers compare identically */ Xid_log_event:: Xid_log_event(const char* buf, const Format_description_log_event *description_event) :Log_event(buf, description_event) { buf+= description_event->common_header_len; memcpy((char*) &xid, buf, sizeof(xid)); } #ifndef MYSQL_CLIENT bool Xid_log_event::write(IO_CACHE* file) { return write_header(file, sizeof(xid)) || my_b_safe_write(file, (byte*) &xid, sizeof(xid)); } #endif #ifdef MYSQL_CLIENT void Xid_log_event::print(FILE* file, PRINT_EVENT_INFO* print_event_info) { Write_on_release_cache cache(&print_event_info->head_cache, file, Write_on_release_cache::FLUSH_F); if (!print_event_info->short_form) { char buf[64]; longlong10_to_str(xid, buf, 10); print_header(&cache, print_event_info, FALSE); my_b_printf(&cache, "\tXid = %s\n", buf); } my_b_printf(&cache, "COMMIT%s\n", print_event_info->delimiter); } #endif /* MYSQL_CLIENT */ #if defined(HAVE_REPLICATION) && !defined(MYSQL_CLIENT) int Xid_log_event::exec_event(struct st_relay_log_info* rli) { /* For a slave Xid_log_event is COMMIT */ general_log_print(thd, COM_QUERY, "COMMIT /* implicit, from Xid_log_event */"); return end_trans(thd, COMMIT) || Log_event::exec_event(rli); } #endif /* !MYSQL_CLIENT */ /************************************************************************** User_var_log_event methods **************************************************************************/ #if defined(HAVE_REPLICATION) && !defined(MYSQL_CLIENT) void User_var_log_event::pack_info(Protocol* protocol) { char *buf= 0; uint val_offset= 4 + name_len; uint event_len= val_offset; if (is_null) { buf= my_malloc(val_offset + 5, MYF(MY_WME)); strmov(buf + val_offset, "NULL"); event_len= val_offset + 4; } else { switch (type) { case REAL_RESULT: double real_val; float8get(real_val, val); buf= my_malloc(val_offset + FLOATING_POINT_BUFFER, MYF(MY_WME)); event_len+= my_sprintf(buf + val_offset, (buf + val_offset, "%.14g", real_val)); break; case INT_RESULT: buf= my_malloc(val_offset + 22, MYF(MY_WME)); event_len= longlong10_to_str(uint8korr(val), buf + val_offset,-10)-buf; break; case DECIMAL_RESULT: { buf= my_malloc(val_offset + DECIMAL_MAX_STR_LENGTH, MYF(MY_WME)); String str(buf+val_offset, DECIMAL_MAX_STR_LENGTH, &my_charset_bin); my_decimal dec; binary2my_decimal(E_DEC_FATAL_ERROR, val+2, &dec, val[0], val[1]); my_decimal2string(E_DEC_FATAL_ERROR, &dec, 0, 0, 0, &str); event_len= str.length() + val_offset; break; } case STRING_RESULT: /* 15 is for 'COLLATE' and other chars */ buf= my_malloc(event_len+val_len*2+1+2*MY_CS_NAME_SIZE+15, MYF(MY_WME)); CHARSET_INFO *cs; if (!(cs= get_charset(charset_number, MYF(0)))) { strmov(buf+val_offset, "???"); event_len+= 3; } else { char *p= strxmov(buf + val_offset, "_", cs->csname, " ", NullS); p= str_to_hex(p, val, val_len); p= strxmov(p, " COLLATE ", cs->name, NullS); event_len= p-buf; } break; case ROW_RESULT: default: DBUG_ASSERT(1); return; } } buf[0]= '@'; buf[1]= '`'; buf[2+name_len]= '`'; buf[3+name_len]= '='; memcpy(buf+2, name, name_len); protocol->store(buf, event_len, &my_charset_bin); my_free(buf, MYF(MY_ALLOW_ZERO_PTR)); } #endif /* !MYSQL_CLIENT */ User_var_log_event:: User_var_log_event(const char* buf, const Format_description_log_event* description_event) :Log_event(buf, description_event) { buf+= description_event->common_header_len; name_len= uint4korr(buf); name= (char *) buf + UV_NAME_LEN_SIZE; buf+= UV_NAME_LEN_SIZE + name_len; is_null= (bool) *buf; if (is_null) { type= STRING_RESULT; charset_number= my_charset_bin.number; val_len= 0; val= 0; } else { type= (Item_result) buf[UV_VAL_IS_NULL]; charset_number= uint4korr(buf + UV_VAL_IS_NULL + UV_VAL_TYPE_SIZE); val_len= uint4korr(buf + UV_VAL_IS_NULL + UV_VAL_TYPE_SIZE + UV_CHARSET_NUMBER_SIZE); val= (char *) (buf + UV_VAL_IS_NULL + UV_VAL_TYPE_SIZE + UV_CHARSET_NUMBER_SIZE + UV_VAL_LEN_SIZE); } } #ifndef MYSQL_CLIENT bool User_var_log_event::write(IO_CACHE* file) { char buf[UV_NAME_LEN_SIZE]; char buf1[UV_VAL_IS_NULL + UV_VAL_TYPE_SIZE + UV_CHARSET_NUMBER_SIZE + UV_VAL_LEN_SIZE]; char buf2[max(8, DECIMAL_MAX_FIELD_SIZE + 2)], *pos= buf2; uint buf1_length; ulong event_length; int4store(buf, name_len); if ((buf1[0]= is_null)) { buf1_length= 1; val_len= 0; } else { buf1[1]= type; int4store(buf1 + 2, charset_number); switch (type) { case REAL_RESULT: float8store(buf2, *(double*) val); break; case INT_RESULT: int8store(buf2, *(longlong*) val); break; case DECIMAL_RESULT: { my_decimal *dec= (my_decimal *)val; dec->fix_buffer_pointer(); buf2[0]= (char)(dec->intg + dec->frac); buf2[1]= (char)dec->frac; decimal2bin((decimal_t*)val, buf2+2, buf2[0], buf2[1]); val_len= decimal_bin_size(buf2[0], buf2[1]) + 2; break; } case STRING_RESULT: pos= val; break; case ROW_RESULT: default: DBUG_ASSERT(1); return 0; } int4store(buf1 + 2 + UV_CHARSET_NUMBER_SIZE, val_len); buf1_length= 10; } /* Length of the whole event */ event_length= sizeof(buf)+ name_len + buf1_length + val_len; return (write_header(file, event_length) || my_b_safe_write(file, (byte*) buf, sizeof(buf)) || my_b_safe_write(file, (byte*) name, name_len) || my_b_safe_write(file, (byte*) buf1, buf1_length) || my_b_safe_write(file, (byte*) pos, val_len)); } #endif /* User_var_log_event::print() */ #ifdef MYSQL_CLIENT void User_var_log_event::print(FILE* file, PRINT_EVENT_INFO* print_event_info) { Write_on_release_cache cache(&print_event_info->head_cache, file, Write_on_release_cache::FLUSH_F); if (!print_event_info->short_form) { print_header(&cache, print_event_info, FALSE); my_b_printf(&cache, "\tUser_var\n"); } my_b_printf(&cache, "SET @`"); my_b_write(&cache, (byte*) name, (uint) (name_len)); my_b_printf(&cache, "`"); if (is_null) { my_b_printf(&cache, ":=NULL%s\n", print_event_info->delimiter); } else { switch (type) { case REAL_RESULT: double real_val; float8get(real_val, val); my_b_printf(&cache, ":=%.14g%s\n", real_val, print_event_info->delimiter); break; case INT_RESULT: char int_buf[22]; longlong10_to_str(uint8korr(val), int_buf, -10); my_b_printf(&cache, ":=%s%s\n", int_buf, print_event_info->delimiter); break; case DECIMAL_RESULT: { char str_buf[200]; int str_len= sizeof(str_buf) - 1; int precision= (int)val[0]; int scale= (int)val[1]; decimal_digit_t dec_buf[10]; decimal_t dec; dec.len= 10; dec.buf= dec_buf; bin2decimal(val+2, &dec, precision, scale); decimal2string(&dec, str_buf, &str_len, 0, 0, 0); str_buf[str_len]= 0; my_b_printf(&cache, ":=%s%s\n", str_buf, print_event_info->delimiter); break; } case STRING_RESULT: { /* Let's express the string in hex. That's the most robust way. If we print it in character form instead, we need to escape it with character_set_client which we don't know (we will know it in 5.0, but in 4.1 we don't know it easily when we are printing User_var_log_event). Explanation why we would need to bother with character_set_client (quoting Bar): > Note, the parser doesn't switch to another unescaping mode after > it has met a character set introducer. > For example, if an SJIS client says something like: > SET @a= _ucs2 \0a\0b' > the string constant is still unescaped according to SJIS, not > according to UCS2. */ char *hex_str; CHARSET_INFO *cs; if (!(hex_str= (char *)my_alloca(2*val_len+1+2))) // 2 hex digits / byte break; // no error, as we are 'void' str_to_hex(hex_str, val, val_len); /* For proper behaviour when mysqlbinlog|mysql, we need to explicitely specify the variable's collation. It will however cause problems when people want to mysqlbinlog|mysql into another server not supporting the character set. But there's not much to do about this and it's unlikely. */ if (!(cs= get_charset(charset_number, MYF(0)))) /* Generate an unusable command (=> syntax error) is probably the best thing we can do here. */ my_b_printf(&cache, ":=???%s\n", print_event_info->delimiter); else my_b_printf(&cache, ":=_%s %s COLLATE `%s`%s\n", cs->csname, hex_str, cs->name, print_event_info->delimiter); my_afree(hex_str); } break; case ROW_RESULT: default: DBUG_ASSERT(1); return; } } } #endif /* User_var_log_event::exec_event() */ #if defined(HAVE_REPLICATION) && !defined(MYSQL_CLIENT) int User_var_log_event::exec_event(struct st_relay_log_info* rli) { Item *it= 0; CHARSET_INFO *charset; if (!(charset= get_charset(charset_number, MYF(MY_WME)))) return 1; LEX_STRING user_var_name; user_var_name.str= name; user_var_name.length= name_len; double real_val; longlong int_val; if (is_null) { it= new Item_null(); } else { switch (type) { case REAL_RESULT: float8get(real_val, val); it= new Item_float(real_val); val= (char*) &real_val; // Pointer to value in native format val_len= 8; break; case INT_RESULT: int_val= (longlong) uint8korr(val); it= new Item_int(int_val); val= (char*) &int_val; // Pointer to value in native format val_len= 8; break; case DECIMAL_RESULT: { Item_decimal *dec= new Item_decimal(val+2, val[0], val[1]); it= dec; val= (char *)dec->val_decimal(NULL); val_len= sizeof(my_decimal); break; } case STRING_RESULT: it= new Item_string(val, val_len, charset); break; case ROW_RESULT: default: DBUG_ASSERT(1); return 0; } } Item_func_set_user_var e(user_var_name, it); /* Item_func_set_user_var can't substitute something else on its place => 0 can be passed as last argument (reference on item) */ e.fix_fields(thd, 0); /* A variable can just be considered as a table with a single record and with a single column. Thus, like a column value, it could always have IMPLICIT derivation. */ e.update_hash(val, val_len, type, charset, DERIVATION_IMPLICIT, 0); free_root(thd->mem_root,0); rli->inc_event_relay_log_pos(); return 0; } #endif /* !MYSQL_CLIENT */ /************************************************************************** Slave_log_event methods **************************************************************************/ #ifdef HAVE_REPLICATION #ifdef MYSQL_CLIENT void Unknown_log_event::print(FILE* file_arg, PRINT_EVENT_INFO* print_event_info) { Write_on_release_cache cache(&print_event_info->head_cache, file_arg); if (print_event_info->short_form) return; print_header(&cache, print_event_info, FALSE); my_b_printf(&cache, "\n# %s", "Unknown event\n"); } #endif #ifndef MYSQL_CLIENT void Slave_log_event::pack_info(Protocol *protocol) { char buf[256+HOSTNAME_LENGTH], *pos; pos= strmov(buf, "host="); pos= strnmov(pos, master_host, HOSTNAME_LENGTH); pos= strmov(pos, ",port="); pos= int10_to_str((long) master_port, pos, 10); pos= strmov(pos, ",log="); pos= strmov(pos, master_log); pos= strmov(pos, ",pos="); pos= longlong10_to_str(master_pos, pos, 10); protocol->store(buf, pos-buf, &my_charset_bin); } #endif /* !MYSQL_CLIENT */ #ifndef MYSQL_CLIENT Slave_log_event::Slave_log_event(THD* thd_arg, struct st_relay_log_info* rli) :Log_event(thd_arg, 0, 0) , mem_pool(0), master_host(0) { DBUG_ENTER("Slave_log_event"); if (!rli->inited) // QQ When can this happen ? DBUG_VOID_RETURN; MASTER_INFO* mi = rli->mi; // TODO: re-write this better without holding both locks at the same time pthread_mutex_lock(&mi->data_lock); pthread_mutex_lock(&rli->data_lock); master_host_len = strlen(mi->host); master_log_len = strlen(rli->group_master_log_name); // on OOM, just do not initialize the structure and print the error if ((mem_pool = (char*)my_malloc(get_data_size() + 1, MYF(MY_WME)))) { master_host = mem_pool + SL_MASTER_HOST_OFFSET ; memcpy(master_host, mi->host, master_host_len + 1); master_log = master_host + master_host_len + 1; memcpy(master_log, rli->group_master_log_name, master_log_len + 1); master_port = mi->port; master_pos = rli->group_master_log_pos; DBUG_PRINT("info", ("master_log: %s pos: %lu", master_log, (ulong) master_pos)); } else sql_print_error("Out of memory while recording slave event"); pthread_mutex_unlock(&rli->data_lock); pthread_mutex_unlock(&mi->data_lock); DBUG_VOID_RETURN; } #endif /* !MYSQL_CLIENT */ Slave_log_event::~Slave_log_event() { my_free(mem_pool, MYF(MY_ALLOW_ZERO_PTR)); } #ifdef MYSQL_CLIENT void Slave_log_event::print(FILE* file, PRINT_EVENT_INFO* print_event_info) { Write_on_release_cache cache(&print_event_info->head_cache, file); char llbuff[22]; if (print_event_info->short_form) return; print_header(&cache, print_event_info, FALSE); my_b_printf(&cache, "\n\ Slave: master_host: '%s' master_port: %d master_log: '%s' master_pos: %s\n", master_host, master_port, master_log, llstr(master_pos, llbuff)); } #endif /* MYSQL_CLIENT */ int Slave_log_event::get_data_size() { return master_host_len + master_log_len + 1 + SL_MASTER_HOST_OFFSET; } #ifndef MYSQL_CLIENT bool Slave_log_event::write(IO_CACHE* file) { ulong event_length= get_data_size(); int8store(mem_pool + SL_MASTER_POS_OFFSET, master_pos); int2store(mem_pool + SL_MASTER_PORT_OFFSET, master_port); // log and host are already there return (write_header(file, event_length) || my_b_safe_write(file, (byte*) mem_pool, event_length)); } #endif void Slave_log_event::init_from_mem_pool(int data_size) { master_pos = uint8korr(mem_pool + SL_MASTER_POS_OFFSET); master_port = uint2korr(mem_pool + SL_MASTER_PORT_OFFSET); master_host = mem_pool + SL_MASTER_HOST_OFFSET; master_host_len = strlen(master_host); // safety master_log = master_host + master_host_len + 1; if (master_log > mem_pool + data_size) { master_host = 0; return; } master_log_len = strlen(master_log); } /* This code is not used, so has not been updated to be format-tolerant */ Slave_log_event::Slave_log_event(const char* buf, uint event_len) :Log_event(buf,0) /*unused event*/ ,mem_pool(0),master_host(0) { if (event_len < LOG_EVENT_HEADER_LEN) return; event_len -= LOG_EVENT_HEADER_LEN; if (!(mem_pool = (char*) my_malloc(event_len + 1, MYF(MY_WME)))) return; memcpy(mem_pool, buf + LOG_EVENT_HEADER_LEN, event_len); mem_pool[event_len] = 0; init_from_mem_pool(event_len); } #ifndef MYSQL_CLIENT int Slave_log_event::exec_event(struct st_relay_log_info* rli) { if (mysql_bin_log.is_open()) mysql_bin_log.write(this); return Log_event::exec_event(rli); } #endif /* !MYSQL_CLIENT */ /************************************************************************** Stop_log_event methods **************************************************************************/ /* Stop_log_event::print() */ #ifdef MYSQL_CLIENT void Stop_log_event::print(FILE* file, PRINT_EVENT_INFO* print_event_info) { Write_on_release_cache cache(&print_event_info->head_cache, file, Write_on_release_cache::FLUSH_F); if (print_event_info->short_form) return; print_header(&cache, print_event_info, FALSE); my_b_printf(&cache, "\tStop\n"); } #endif /* MYSQL_CLIENT */ /* Stop_log_event::exec_event() The master stopped. We used to clean up all temporary tables but this is useless as, as the master has shut down properly, it has written all DROP TEMPORARY TABLE (prepared statements' deletion is TODO only when we binlog prep stmts). We used to clean up slave_load_tmpdir, but this is useless as it has been cleared at the end of LOAD DATA INFILE. So we have nothing to do here. The place were we must do this cleaning is in Start_log_event_v3::exec_event(), not here. Because if we come here, the master was sane. */ #ifndef MYSQL_CLIENT int Stop_log_event::exec_event(struct st_relay_log_info* rli) { /* We do not want to update master_log pos because we get a rotate event before stop, so by now group_master_log_name is set to the next log. If we updated it, we will have incorrect master coordinates and this could give false triggers in MASTER_POS_WAIT() that we have reached the target position when in fact we have not. */ if (thd->options & OPTION_BEGIN) rli->inc_event_relay_log_pos(); else { rli->inc_group_relay_log_pos(0); flush_relay_log_info(rli); } return 0; } #endif /* !MYSQL_CLIENT */ #endif /* HAVE_REPLICATION */ /************************************************************************** Create_file_log_event methods **************************************************************************/ /* Create_file_log_event ctor */ #ifndef MYSQL_CLIENT Create_file_log_event:: Create_file_log_event(THD* thd_arg, sql_exchange* ex, const char* db_arg, const char* table_name_arg, List<Item>& fields_arg, enum enum_duplicates handle_dup, bool ignore, char* block_arg, uint block_len_arg, bool using_trans) :Load_log_event(thd_arg,ex,db_arg,table_name_arg,fields_arg,handle_dup, ignore, using_trans), fake_base(0), block(block_arg), event_buf(0), block_len(block_len_arg), file_id(thd_arg->file_id = mysql_bin_log.next_file_id()) { DBUG_ENTER("Create_file_log_event"); sql_ex.force_new_format(); DBUG_VOID_RETURN; } /* Create_file_log_event::write_data_body() */ bool Create_file_log_event::write_data_body(IO_CACHE* file) { bool res; if ((res= Load_log_event::write_data_body(file)) || fake_base) return res; return (my_b_safe_write(file, (byte*) "", 1) || my_b_safe_write(file, (byte*) block, block_len)); } /* Create_file_log_event::write_data_header() */ bool Create_file_log_event::write_data_header(IO_CACHE* file) { bool res; byte buf[CREATE_FILE_HEADER_LEN]; if ((res= Load_log_event::write_data_header(file)) || fake_base) return res; int4store(buf + CF_FILE_ID_OFFSET, file_id); return my_b_safe_write(file, buf, CREATE_FILE_HEADER_LEN) != 0; } /* Create_file_log_event::write_base() */ bool Create_file_log_event::write_base(IO_CACHE* file) { bool res; fake_base= 1; // pretend we are Load event res= write(file); fake_base= 0; return res; } #endif /* !MYSQL_CLIENT */ /* Create_file_log_event ctor */ Create_file_log_event::Create_file_log_event(const char* buf, uint len, const Format_description_log_event* description_event) :Load_log_event(buf,0,description_event),fake_base(0),block(0),inited_from_old(0) { DBUG_ENTER("Create_file_log_event::Create_file_log_event(char*,...)"); uint block_offset; uint header_len= description_event->common_header_len; uint8 load_header_len= description_event->post_header_len[LOAD_EVENT-1]; uint8 create_file_header_len= description_event->post_header_len[CREATE_FILE_EVENT-1]; if (!(event_buf= my_memdup((byte*) buf, len, MYF(MY_WME))) || copy_log_event(event_buf,len, ((buf[EVENT_TYPE_OFFSET] == LOAD_EVENT) ? load_header_len + header_len : (fake_base ? (header_len+load_header_len) : (header_len+load_header_len) + create_file_header_len)), description_event)) DBUG_VOID_RETURN; if (description_event->binlog_version!=1) { file_id= uint4korr(buf + header_len + load_header_len + CF_FILE_ID_OFFSET); /* Note that it's ok to use get_data_size() below, because it is computed with values we have already read from this event (because we called copy_log_event()); we are not using slave's format info to decode master's format, we are really using master's format info. Anyway, both formats should be identical (except the common_header_len) as these Load events are not changed between 4.0 and 5.0 (as logging of LOAD DATA INFILE does not use Load_log_event in 5.0). The + 1 is for \0 terminating fname */ block_offset= (description_event->common_header_len + Load_log_event::get_data_size() + create_file_header_len + 1); if (len < block_offset) return; block = (char*)buf + block_offset; block_len = len - block_offset; } else { sql_ex.force_new_format(); inited_from_old = 1; } DBUG_VOID_RETURN; } /* Create_file_log_event::print() */ #ifdef MYSQL_CLIENT void Create_file_log_event::print(FILE* file, PRINT_EVENT_INFO* print_event_info, bool enable_local) { Write_on_release_cache cache(&print_event_info->head_cache, file); if (print_event_info->short_form) { if (enable_local && check_fname_outside_temp_buf()) Load_log_event::print(file, print_event_info); return; } if (enable_local) { Load_log_event::print(file, print_event_info, !check_fname_outside_temp_buf()); /* That one is for "file_id: etc" below: in mysqlbinlog we want the #, in SHOW BINLOG EVENTS we don't. */ my_b_printf(&cache, "#"); } my_b_printf(&cache, " file_id: %d block_len: %d\n", file_id, block_len); } void Create_file_log_event::print(FILE* file, PRINT_EVENT_INFO* print_event_info) { print(file, print_event_info, 0); } #endif /* MYSQL_CLIENT */ /* Create_file_log_event::pack_info() */ #if defined(HAVE_REPLICATION) && !defined(MYSQL_CLIENT) void Create_file_log_event::pack_info(Protocol *protocol) { char buf[NAME_LEN*2 + 30 + 21*2], *pos; pos= strmov(buf, "db="); memcpy(pos, db, db_len); pos= strmov(pos + db_len, ";table="); memcpy(pos, table_name, table_name_len); pos= strmov(pos + table_name_len, ";file_id="); pos= int10_to_str((long) file_id, pos, 10); pos= strmov(pos, ";block_len="); pos= int10_to_str((long) block_len, pos, 10); protocol->store(buf, (uint) (pos-buf), &my_charset_bin); } #endif /* defined(HAVE_REPLICATION) && !defined(MYSQL_CLIENT) */ /* Create_file_log_event::exec_event() */ #if defined(HAVE_REPLICATION) && !defined(MYSQL_CLIENT) int Create_file_log_event::exec_event(struct st_relay_log_info* rli) { char proc_info[17+FN_REFLEN+10], *fname_buf; char *ext; int fd = -1; IO_CACHE file; int error = 1; bzero((char*)&file, sizeof(file)); fname_buf= strmov(proc_info, "Making temp file "); ext= slave_load_file_stem(fname_buf, file_id, server_id, ".info"); thd->proc_info= proc_info; my_delete(fname_buf, MYF(0)); // old copy may exist already if ((fd= my_create(fname_buf, CREATE_MODE, O_WRONLY | O_BINARY | O_EXCL | O_NOFOLLOW, MYF(MY_WME))) < 0 || init_io_cache(&file, fd, IO_SIZE, WRITE_CACHE, (my_off_t)0, 0, MYF(MY_WME|MY_NABP))) { slave_print_msg(ERROR_LEVEL, rli, my_errno, "Error in Create_file event: " "could not open file '%s'", fname_buf); goto err; } // a trick to avoid allocating another buffer fname= fname_buf; fname_len= (uint) (strmov(ext, ".data") - fname); if (write_base(&file)) { strmov(ext, ".info"); // to have it right in the error message slave_print_msg(ERROR_LEVEL, rli, my_errno, "Error in Create_file event: could not write to file '%s'", fname_buf); goto err; } end_io_cache(&file); my_close(fd, MYF(0)); // fname_buf now already has .data, not .info, because we did our trick my_delete(fname_buf, MYF(0)); // old copy may exist already if ((fd= my_create(fname_buf, CREATE_MODE, O_WRONLY | O_BINARY | O_EXCL | O_NOFOLLOW, MYF(MY_WME))) < 0) { slave_print_msg(ERROR_LEVEL, rli, my_errno, "Error in Create_file event: " "could not open file '%s'", fname_buf); goto err; } if (my_write(fd, (byte*) block, block_len, MYF(MY_WME+MY_NABP))) { slave_print_msg(ERROR_LEVEL, rli, my_errno, "Error in Create_file event: " "write to '%s' failed", fname_buf); goto err; } error=0; // Everything is ok err: if (error) end_io_cache(&file); if (fd >= 0) my_close(fd, MYF(0)); thd->proc_info= 0; return error ? 1 : Log_event::exec_event(rli); } #endif /* defined(HAVE_REPLICATION) && !defined(MYSQL_CLIENT) */ /************************************************************************** Append_block_log_event methods **************************************************************************/ /* Append_block_log_event ctor */ #ifndef MYSQL_CLIENT Append_block_log_event::Append_block_log_event(THD* thd_arg, const char* db_arg, char* block_arg, uint block_len_arg, bool using_trans) :Log_event(thd_arg,0, using_trans), block(block_arg), block_len(block_len_arg), file_id(thd_arg->file_id), db(db_arg) { } #endif /* Append_block_log_event ctor */ Append_block_log_event::Append_block_log_event(const char* buf, uint len, const Format_description_log_event* description_event) :Log_event(buf, description_event),block(0) { DBUG_ENTER("Append_block_log_event::Append_block_log_event(char*,...)"); uint8 common_header_len= description_event->common_header_len; uint8 append_block_header_len= description_event->post_header_len[APPEND_BLOCK_EVENT-1]; uint total_header_len= common_header_len+append_block_header_len; if (len < total_header_len) DBUG_VOID_RETURN; file_id= uint4korr(buf + common_header_len + AB_FILE_ID_OFFSET); block= (char*)buf + total_header_len; block_len= len - total_header_len; DBUG_VOID_RETURN; } /* Append_block_log_event::write() */ #ifndef MYSQL_CLIENT bool Append_block_log_event::write(IO_CACHE* file) { byte buf[APPEND_BLOCK_HEADER_LEN]; int4store(buf + AB_FILE_ID_OFFSET, file_id); return (write_header(file, APPEND_BLOCK_HEADER_LEN + block_len) || my_b_safe_write(file, buf, APPEND_BLOCK_HEADER_LEN) || my_b_safe_write(file, (byte*) block, block_len)); } #endif /* Append_block_log_event::print() */ #ifdef MYSQL_CLIENT void Append_block_log_event::print(FILE* file, PRINT_EVENT_INFO* print_event_info) { Write_on_release_cache cache(&print_event_info->head_cache, file); if (print_event_info->short_form) return; print_header(&cache, print_event_info, FALSE); my_b_printf(&cache, "\n#%s: file_id: %d block_len: %d\n", get_type_str(), file_id, block_len); } #endif /* MYSQL_CLIENT */ /* Append_block_log_event::pack_info() */ #if defined(HAVE_REPLICATION) && !defined(MYSQL_CLIENT) void Append_block_log_event::pack_info(Protocol *protocol) { char buf[256]; uint length; length= (uint) my_sprintf(buf, (buf, ";file_id=%u;block_len=%u", file_id, block_len)); protocol->store(buf, length, &my_charset_bin); } /* Append_block_log_event::get_create_or_append() */ int Append_block_log_event::get_create_or_append() const { return 0; /* append to the file, fail if not exists */ } /* Append_block_log_event::exec_event() */ int Append_block_log_event::exec_event(struct st_relay_log_info* rli) { char proc_info[17+FN_REFLEN+10], *fname= proc_info+17; int fd; int error = 1; DBUG_ENTER("Append_block_log_event::exec_event"); fname= strmov(proc_info, "Making temp file "); slave_load_file_stem(fname, file_id, server_id, ".data"); thd->proc_info= proc_info; if (get_create_or_append()) { my_delete(fname, MYF(0)); // old copy may exist already if ((fd= my_create(fname, CREATE_MODE, O_WRONLY | O_BINARY | O_EXCL | O_NOFOLLOW, MYF(MY_WME))) < 0) { slave_print_msg(ERROR_LEVEL, rli, my_errno, "Error in %s event: could not create file '%s'", get_type_str(), fname); goto err; } } else if ((fd = my_open(fname, O_WRONLY | O_APPEND | O_BINARY | O_NOFOLLOW, MYF(MY_WME))) < 0) { slave_print_msg(ERROR_LEVEL, rli, my_errno, "Error in %s event: could not open file '%s'", get_type_str(), fname); goto err; } if (my_write(fd, (byte*) block, block_len, MYF(MY_WME+MY_NABP))) { slave_print_msg(ERROR_LEVEL, rli, my_errno, "Error in %s event: write to '%s' failed", get_type_str(), fname); goto err; } error=0; err: if (fd >= 0) my_close(fd, MYF(0)); thd->proc_info= 0; DBUG_RETURN(error ? error : Log_event::exec_event(rli)); } #endif /************************************************************************** Delete_file_log_event methods **************************************************************************/ /* Delete_file_log_event ctor */ #ifndef MYSQL_CLIENT Delete_file_log_event::Delete_file_log_event(THD *thd_arg, const char* db_arg, bool using_trans) :Log_event(thd_arg, 0, using_trans), file_id(thd_arg->file_id), db(db_arg) { } #endif /* Delete_file_log_event ctor */ Delete_file_log_event::Delete_file_log_event(const char* buf, uint len, const Format_description_log_event* description_event) :Log_event(buf, description_event),file_id(0) { uint8 common_header_len= description_event->common_header_len; uint8 delete_file_header_len= description_event->post_header_len[DELETE_FILE_EVENT-1]; if (len < (uint)(common_header_len + delete_file_header_len)) return; file_id= uint4korr(buf + common_header_len + DF_FILE_ID_OFFSET); } /* Delete_file_log_event::write() */ #ifndef MYSQL_CLIENT bool Delete_file_log_event::write(IO_CACHE* file) { byte buf[DELETE_FILE_HEADER_LEN]; int4store(buf + DF_FILE_ID_OFFSET, file_id); return (write_header(file, sizeof(buf)) || my_b_safe_write(file, buf, sizeof(buf))); } #endif /* Delete_file_log_event::print() */ #ifdef MYSQL_CLIENT void Delete_file_log_event::print(FILE* file, PRINT_EVENT_INFO* print_event_info) { Write_on_release_cache cache(&print_event_info->head_cache, file); if (print_event_info->short_form) return; print_header(&cache, print_event_info, FALSE); my_b_printf(&cache, "\n#Delete_file: file_id=%u\n", file_id); } #endif /* MYSQL_CLIENT */ /* Delete_file_log_event::pack_info() */ #if defined(HAVE_REPLICATION) && !defined(MYSQL_CLIENT) void Delete_file_log_event::pack_info(Protocol *protocol) { char buf[64]; uint length; length= (uint) my_sprintf(buf, (buf, ";file_id=%u", (uint) file_id)); protocol->store(buf, (int32) length, &my_charset_bin); } #endif /* Delete_file_log_event::exec_event() */ #if defined(HAVE_REPLICATION) && !defined(MYSQL_CLIENT) int Delete_file_log_event::exec_event(struct st_relay_log_info* rli) { char fname[FN_REFLEN+10]; char *ext= slave_load_file_stem(fname, file_id, server_id, ".data"); (void) my_delete(fname, MYF(MY_WME)); strmov(ext, ".info"); (void) my_delete(fname, MYF(MY_WME)); return Log_event::exec_event(rli); } #endif /* defined(HAVE_REPLICATION) && !defined(MYSQL_CLIENT) */ /************************************************************************** Execute_load_log_event methods **************************************************************************/ /* Execute_load_log_event ctor */ #ifndef MYSQL_CLIENT Execute_load_log_event::Execute_load_log_event(THD *thd_arg, const char* db_arg, bool using_trans) :Log_event(thd_arg, 0, using_trans), file_id(thd_arg->file_id), db(db_arg) { } #endif /* Execute_load_log_event ctor */ Execute_load_log_event::Execute_load_log_event(const char* buf, uint len, const Format_description_log_event* description_event) :Log_event(buf, description_event), file_id(0) { uint8 common_header_len= description_event->common_header_len; uint8 exec_load_header_len= description_event->post_header_len[EXEC_LOAD_EVENT-1]; if (len < (uint)(common_header_len+exec_load_header_len)) return; file_id= uint4korr(buf + common_header_len + EL_FILE_ID_OFFSET); } /* Execute_load_log_event::write() */ #ifndef MYSQL_CLIENT bool Execute_load_log_event::write(IO_CACHE* file) { byte buf[EXEC_LOAD_HEADER_LEN]; int4store(buf + EL_FILE_ID_OFFSET, file_id); return (write_header(file, sizeof(buf)) || my_b_safe_write(file, buf, sizeof(buf))); } #endif /* Execute_load_log_event::print() */ #ifdef MYSQL_CLIENT void Execute_load_log_event::print(FILE* file, PRINT_EVENT_INFO* print_event_info) { Write_on_release_cache cache(&print_event_info->head_cache, file); if (print_event_info->short_form) return; print_header(&cache, print_event_info, FALSE); my_b_printf(&cache, "\n#Exec_load: file_id=%d\n", file_id); } #endif /* Execute_load_log_event::pack_info() */ #if defined(HAVE_REPLICATION) && !defined(MYSQL_CLIENT) void Execute_load_log_event::pack_info(Protocol *protocol) { char buf[64]; uint length; length= (uint) my_sprintf(buf, (buf, ";file_id=%u", (uint) file_id)); protocol->store(buf, (int32) length, &my_charset_bin); } /* Execute_load_log_event::exec_event() */ int Execute_load_log_event::exec_event(struct st_relay_log_info* rli) { char fname[FN_REFLEN+10]; char *ext; int fd; int error= 1; IO_CACHE file; Load_log_event *lev= 0; ext= slave_load_file_stem(fname, file_id, server_id, ".info"); if ((fd = my_open(fname, O_RDONLY | O_BINARY | O_NOFOLLOW, MYF(MY_WME))) < 0 || init_io_cache(&file, fd, IO_SIZE, READ_CACHE, (my_off_t)0, 0, MYF(MY_WME|MY_NABP))) { slave_print_msg(ERROR_LEVEL, rli, my_errno, "Error in Exec_load event: " "could not open file '%s'", fname); goto err; } if (!(lev = (Load_log_event*)Log_event::read_log_event(&file, (pthread_mutex_t*)0, rli->relay_log.description_event_for_exec)) || lev->get_type_code() != NEW_LOAD_EVENT) { slave_print_msg(ERROR_LEVEL, rli, 0, "Error in Exec_load event: " "file '%s' appears corrupted", fname); goto err; } lev->thd = thd; /* lev->exec_event should use rli only for errors i.e. should not advance rli's position. lev->exec_event is the place where the table is loaded (it calls mysql_load()). */ rli->future_group_master_log_pos= log_pos; if (lev->exec_event(0,rli,1)) { /* We want to indicate the name of the file that could not be loaded (SQL_LOADxxx). But as we are here we are sure the error is in rli->last_slave_error and rli->last_slave_errno (example of error: duplicate entry for key), so we don't want to overwrite it with the filename. What we want instead is add the filename to the current error message. */ char *tmp= my_strdup(rli->last_slave_error,MYF(MY_WME)); if (tmp) { slave_print_msg(ERROR_LEVEL, rli, rli->last_slave_errno, /* ok to re-use error code */ "%s. Failed executing load from '%s'", tmp, fname); my_free(tmp,MYF(0)); } goto err; } /* We have an open file descriptor to the .info file; we need to close it or Windows will refuse to delete the file in my_delete(). */ if (fd >= 0) { my_close(fd, MYF(0)); end_io_cache(&file); fd= -1; } (void) my_delete(fname, MYF(MY_WME)); memcpy(ext, ".data", 6); (void) my_delete(fname, MYF(MY_WME)); error = 0; err: delete lev; if (fd >= 0) { my_close(fd, MYF(0)); end_io_cache(&file); } return error ? error : Log_event::exec_event(rli); } #endif /* defined(HAVE_REPLICATION) && !defined(MYSQL_CLIENT) */ /************************************************************************** Begin_load_query_log_event methods **************************************************************************/ #ifndef MYSQL_CLIENT Begin_load_query_log_event:: Begin_load_query_log_event(THD* thd_arg, const char* db_arg, char* block_arg, uint block_len_arg, bool using_trans) :Append_block_log_event(thd_arg, db_arg, block_arg, block_len_arg, using_trans) { file_id= thd_arg->file_id= mysql_bin_log.next_file_id(); } #endif Begin_load_query_log_event:: Begin_load_query_log_event(const char* buf, uint len, const Format_description_log_event* desc_event) :Append_block_log_event(buf, len, desc_event) { } #if defined( HAVE_REPLICATION) && !defined(MYSQL_CLIENT) int Begin_load_query_log_event::get_create_or_append() const { return 1; /* create the file */ } #endif /* defined( HAVE_REPLICATION) && !defined(MYSQL_CLIENT) */ /************************************************************************** Execute_load_query_log_event methods **************************************************************************/ #ifndef MYSQL_CLIENT Execute_load_query_log_event:: Execute_load_query_log_event(THD* thd_arg, const char* query_arg, ulong query_length_arg, uint fn_pos_start_arg, uint fn_pos_end_arg, enum_load_dup_handling dup_handling_arg, bool using_trans, bool suppress_use): Query_log_event(thd_arg, query_arg, query_length_arg, using_trans, suppress_use), file_id(thd_arg->file_id), fn_pos_start(fn_pos_start_arg), fn_pos_end(fn_pos_end_arg), dup_handling(dup_handling_arg) { } #endif /* !MYSQL_CLIENT */ Execute_load_query_log_event:: Execute_load_query_log_event(const char* buf, uint event_len, const Format_description_log_event* desc_event): Query_log_event(buf, event_len, desc_event, EXECUTE_LOAD_QUERY_EVENT), file_id(0), fn_pos_start(0), fn_pos_end(0) { if (!Query_log_event::is_valid()) return; buf+= desc_event->common_header_len; fn_pos_start= uint4korr(buf + ELQ_FN_POS_START_OFFSET); fn_pos_end= uint4korr(buf + ELQ_FN_POS_END_OFFSET); dup_handling= (enum_load_dup_handling)(*(buf + ELQ_DUP_HANDLING_OFFSET)); if (fn_pos_start > q_len || fn_pos_end > q_len || dup_handling > LOAD_DUP_REPLACE) return; file_id= uint4korr(buf + ELQ_FILE_ID_OFFSET); } ulong Execute_load_query_log_event::get_post_header_size_for_derived() { return EXECUTE_LOAD_QUERY_EXTRA_HEADER_LEN; } #ifndef MYSQL_CLIENT bool Execute_load_query_log_event::write_post_header_for_derived(IO_CACHE* file) { char buf[EXECUTE_LOAD_QUERY_EXTRA_HEADER_LEN]; int4store(buf, file_id); int4store(buf + 4, fn_pos_start); int4store(buf + 4 + 4, fn_pos_end); *(buf + 4 + 4 + 4)= (char)dup_handling; return my_b_safe_write(file, (byte*) buf, EXECUTE_LOAD_QUERY_EXTRA_HEADER_LEN); } #endif #ifdef MYSQL_CLIENT void Execute_load_query_log_event::print(FILE* file, PRINT_EVENT_INFO* print_event_info) { print(file, print_event_info, 0); } void Execute_load_query_log_event::print(FILE* file, PRINT_EVENT_INFO* print_event_info, const char *local_fname) { Write_on_release_cache cache(&print_event_info->head_cache, file); print_query_header(&cache, print_event_info); if (local_fname) { my_b_write(&cache, (byte*) query, fn_pos_start); my_b_printf(&cache, " LOCAL INFILE \'"); my_b_printf(&cache, local_fname); my_b_printf(&cache, "\'"); if (dup_handling == LOAD_DUP_REPLACE) my_b_printf(&cache, " REPLACE"); my_b_printf(&cache, " INTO"); my_b_write(&cache, (byte*) query + fn_pos_end, q_len-fn_pos_end); my_b_printf(&cache, "%s\n", print_event_info->delimiter); } else { my_b_write(&cache, (byte*) query, q_len); my_b_printf(&cache, "%s\n", print_event_info->delimiter); } if (!print_event_info->short_form) my_b_printf(&cache, "# file_id: %d \n", file_id); } #endif #if defined(HAVE_REPLICATION) && !defined(MYSQL_CLIENT) void Execute_load_query_log_event::pack_info(Protocol *protocol) { char *buf, *pos; if (!(buf= my_malloc(9 + db_len + q_len + 10 + 21, MYF(MY_WME)))) return; pos= buf; if (db && db_len) { pos= strmov(buf, "use `"); memcpy(pos, db, db_len); pos= strmov(pos+db_len, "`; "); } if (query && q_len) { memcpy(pos, query, q_len); pos+= q_len; } pos= strmov(pos, " ;file_id="); pos= int10_to_str((long) file_id, pos, 10); protocol->store(buf, pos-buf, &my_charset_bin); my_free(buf, MYF(MY_ALLOW_ZERO_PTR)); } int Execute_load_query_log_event::exec_event(struct st_relay_log_info* rli) { char *p; char *buf; char *fname; char *fname_end; int error; /* Replace filename and LOCAL keyword in query before executing it */ if (!(buf = my_malloc(q_len + 1 - (fn_pos_end - fn_pos_start) + (FN_REFLEN + 10) + 10 + 8 + 5, MYF(MY_WME)))) { slave_print_msg(ERROR_LEVEL, rli, my_errno, "Not enough memory"); return 1; } p= buf; memcpy(p, query, fn_pos_start); p+= fn_pos_start; fname= (p= strmake(p, STRING_WITH_LEN(" INFILE \'"))); p= slave_load_file_stem(p, file_id, server_id, ".data"); fname_end= p= strend(p); // Safer than p=p+5 *(p++)='\''; switch (dup_handling) { case LOAD_DUP_IGNORE: p= strmake(p, STRING_WITH_LEN(" IGNORE")); break; case LOAD_DUP_REPLACE: p= strmake(p, STRING_WITH_LEN(" REPLACE")); break; default: /* Ordinary load data */ break; } p= strmake(p, STRING_WITH_LEN(" INTO")); p= strmake(p, query+fn_pos_end, q_len-fn_pos_end); error= Query_log_event::exec_event(rli, buf, p-buf); /* Forging file name for deletion in same buffer */ *fname_end= 0; /* If there was an error the slave is going to stop, leave the file so that we can re-execute this event at START SLAVE. */ if (!error) (void) my_delete(fname, MYF(MY_WME)); my_free(buf, MYF(MY_ALLOW_ZERO_PTR)); return error; } #endif /************************************************************************** sql_ex_info methods **************************************************************************/ /* sql_ex_info::write_data() */ bool sql_ex_info::write_data(IO_CACHE* file) { if (new_format()) { return (write_str(file, field_term, (uint) field_term_len) || write_str(file, enclosed, (uint) enclosed_len) || write_str(file, line_term, (uint) line_term_len) || write_str(file, line_start, (uint) line_start_len) || write_str(file, escaped, (uint) escaped_len) || my_b_safe_write(file,(byte*) &opt_flags,1)); } else { old_sql_ex old_ex; old_ex.field_term= *field_term; old_ex.enclosed= *enclosed; old_ex.line_term= *line_term; old_ex.line_start= *line_start; old_ex.escaped= *escaped; old_ex.opt_flags= opt_flags; old_ex.empty_flags=empty_flags; return my_b_safe_write(file, (byte*) &old_ex, sizeof(old_ex)) != 0; } } /* sql_ex_info::init() */ char* sql_ex_info::init(char* buf,char* buf_end,bool use_new_format) { cached_new_format = use_new_format; if (use_new_format) { empty_flags=0; /* The code below assumes that buf will not disappear from under our feet during the lifetime of the event. This assumption holds true in the slave thread if the log is in new format, but is not the case when we have old format because we will be reusing net buffer to read the actual file before we write out the Create_file event. */ if (read_str(&buf, buf_end, &field_term, &field_term_len) || read_str(&buf, buf_end, &enclosed, &enclosed_len) || read_str(&buf, buf_end, &line_term, &line_term_len) || read_str(&buf, buf_end, &line_start, &line_start_len) || read_str(&buf, buf_end, &escaped, &escaped_len)) return 0; opt_flags = *buf++; } else { field_term_len= enclosed_len= line_term_len= line_start_len= escaped_len=1; field_term = buf++; // Use first byte in string enclosed= buf++; line_term= buf++; line_start= buf++; escaped= buf++; opt_flags = *buf++; empty_flags= *buf++; if (empty_flags & FIELD_TERM_EMPTY) field_term_len=0; if (empty_flags & ENCLOSED_EMPTY) enclosed_len=0; if (empty_flags & LINE_TERM_EMPTY) line_term_len=0; if (empty_flags & LINE_START_EMPTY) line_start_len=0; if (empty_flags & ESCAPED_EMPTY) escaped_len=0; } return buf; } /************************************************************************** Rows_log_event member functions **************************************************************************/ #ifndef MYSQL_CLIENT Rows_log_event::Rows_log_event(THD *thd_arg, TABLE *tbl_arg, ulong tid, MY_BITMAP const *cols, bool is_transactional) : Log_event(thd_arg, 0, is_transactional), m_row_count(0), m_table(tbl_arg), m_table_id(tid), m_width(tbl_arg ? tbl_arg->s->fields : 1), m_rows_buf(0), m_rows_cur(0), m_rows_end(0), m_flags(0) { /* We allow a special form of dummy event when the table, and cols are null and the table id is ~0UL. This is a temporary solution, to be able to terminate a started statement in the binary log: the extreneous events will be removed in the future. */ DBUG_ASSERT(tbl_arg && tbl_arg->s && tid != ~0UL || !tbl_arg && !cols && tid == ~0UL); if (thd_arg->options & OPTION_NO_FOREIGN_KEY_CHECKS) set_flags(NO_FOREIGN_KEY_CHECKS_F); if (thd_arg->options & OPTION_RELAXED_UNIQUE_CHECKS) set_flags(RELAXED_UNIQUE_CHECKS_F); /* if bitmap_init fails, catched in is_valid() */ if (likely(!bitmap_init(&m_cols, m_width <= sizeof(m_bitbuf)*8 ? m_bitbuf : NULL, (m_width + 7) & ~7UL, false))) { /* Cols can be zero if this is a dummy binrows event */ if (likely(cols != NULL)) memcpy(m_cols.bitmap, cols->bitmap, no_bytes_in_map(cols)); } else m_cols.bitmap= 0; // to not free it } #endif Rows_log_event::Rows_log_event(const char *buf, uint event_len, Log_event_type event_type, const Format_description_log_event *description_event) : Log_event(buf, description_event), m_row_count(0), m_rows_buf(0), m_rows_cur(0), m_rows_end(0) { DBUG_ENTER("Rows_log_event::Rows_log_event(const char*,...)"); uint8 const common_header_len= description_event->common_header_len; uint8 const post_header_len= description_event->post_header_len[event_type-1]; DBUG_PRINT("enter",("event_len: %u common_header_len: %d " "post_header_len: %d", event_len, common_header_len, post_header_len)); const char *post_start= buf + common_header_len; post_start+= RW_MAPID_OFFSET; if (post_header_len == 6) { /* Master is of an intermediate source tree before 5.1.4. Id is 4 bytes */ m_table_id= uint4korr(post_start); post_start+= 4; } else { m_table_id= (ulong) uint6korr(post_start); post_start+= RW_FLAGS_OFFSET; } m_flags= uint2korr(post_start); byte const *const var_start= (const byte *)buf + common_header_len + post_header_len; byte const *const ptr_width= var_start; uchar *ptr_after_width= (uchar*) ptr_width; m_width = net_field_length(&ptr_after_width); const uint byte_count= (m_width + 7) / 8; const byte* const ptr_rows_data= var_start + byte_count + 1; my_size_t const data_size= event_len - (ptr_rows_data - (const byte *) buf); DBUG_PRINT("info",("m_table_id: %lu m_flags: %d m_width: %lu data_size: %lu", m_table_id, m_flags, m_width, data_size)); m_rows_buf= (byte*)my_malloc(data_size, MYF(MY_WME)); if (likely((bool)m_rows_buf)) { /* if bitmap_init fails, catched in is_valid() */ if (likely(!bitmap_init(&m_cols, m_width <= sizeof(m_bitbuf)*8 ? m_bitbuf : NULL, (m_width + 7) & ~7UL, false))) memcpy(m_cols.bitmap, ptr_after_width, byte_count); m_rows_end= m_rows_buf + data_size; m_rows_cur= m_rows_end; memcpy(m_rows_buf, ptr_rows_data, data_size); } else m_cols.bitmap= 0; // to not free it DBUG_VOID_RETURN; } Rows_log_event::~Rows_log_event() { if (m_cols.bitmap == m_bitbuf) // no my_malloc happened m_cols.bitmap= 0; // so no my_free in bitmap_free bitmap_free(&m_cols); // To pair with bitmap_init(). my_free((gptr)m_rows_buf, MYF(MY_ALLOW_ZERO_PTR)); } #ifndef MYSQL_CLIENT int Rows_log_event::do_add_row_data(byte *const row_data, my_size_t const length) { /* When the table has a primary key, we would probably want, by default, to log only the primary key value instead of the entire "before image". This would save binlog space. TODO */ DBUG_ENTER("Rows_log_event::do_add_row_data"); DBUG_PRINT("enter", ("row_data: 0x%lx length: %lu", (ulong) row_data, (ulong) length)); /* Don't print debug messages when running valgrind since they can trigger false warnings. */ #ifndef HAVE_purify DBUG_DUMP("row_data", (const char*)row_data, min(length, 32)); #endif DBUG_ASSERT(m_rows_buf <= m_rows_cur); DBUG_ASSERT(!m_rows_buf || m_rows_end && m_rows_buf < m_rows_end); DBUG_ASSERT(m_rows_cur <= m_rows_end); /* The cast will always work since m_rows_cur <= m_rows_end */ if (static_cast<my_size_t>(m_rows_end - m_rows_cur) <= length) { my_size_t const block_size= 1024; my_ptrdiff_t const cur_size= m_rows_cur - m_rows_buf; my_ptrdiff_t const new_alloc= block_size * ((cur_size + length + block_size - 1) / block_size); byte* const new_buf= (byte*)my_realloc((gptr)m_rows_buf, (uint) new_alloc, MYF(MY_ALLOW_ZERO_PTR|MY_WME)); if (unlikely(!new_buf)) DBUG_RETURN(HA_ERR_OUT_OF_MEM); /* If the memory moved, we need to move the pointers */ if (new_buf != m_rows_buf) { m_rows_buf= new_buf; m_rows_cur= m_rows_buf + cur_size; } /* The end pointer should always be changed to point to the end of the allocated memory. */ m_rows_end= m_rows_buf + new_alloc; } DBUG_ASSERT(m_rows_cur + length <= m_rows_end); memcpy(m_rows_cur, row_data, length); m_rows_cur+= length; m_row_count++; DBUG_RETURN(0); } #endif #if !defined(MYSQL_CLIENT) && defined(HAVE_REPLICATION) /* Unpack a row into table->record[0]. SYNOPSIS unpack_row() rli Relay log info table Table to unpack into colcnt Number of columns to read from record row Packed row data cols Pointer to columns data to fill in row_end Pointer to variable that will hold the value of the one-after-end position for the row master_reclength Pointer to variable that will be set to the length of the record on the master side rw_set Pointer to bitmap that holds either the read_set or the write_set of the table DESCRIPTION The function will always unpack into the table->record[0] record. This is because there are too many dependencies on where the various member functions of Field and subclasses expect to write. The row is assumed to only consist of the fields for which the bitset represented by 'arr' and 'bits'; the other parts of the record are left alone. At most 'colcnt' columns are read: if the table is larger than that, the remaining fields are not filled in. RETURN VALUE Error code, or zero if no error. The following error codes can be returned: ER_NO_DEFAULT_FOR_FIELD Returned if one of the fields existing on the slave but not on the master does not have a default value (and isn't nullable) */ static int unpack_row(RELAY_LOG_INFO *rli, TABLE *table, uint const colcnt, char const *row, MY_BITMAP const *cols, char const **row_end, ulong *master_reclength, MY_BITMAP* const rw_set, Log_event_type const event_type) { byte *const record= table->record[0]; DBUG_ENTER("unpack_row"); DBUG_ASSERT(record && row); DBUG_PRINT("enter", ("row: 0x%lx table->record[0]: 0x%lx", (long) row, (long) record)); my_size_t master_null_bytes= table->s->null_bytes; if (colcnt != table->s->fields) { Field **fptr= &table->field[colcnt-1]; do master_null_bytes= (*fptr)->last_null_byte(); while (master_null_bytes == Field::LAST_NULL_BYTE_UNDEF && fptr-- > table->field); /* If master_null_bytes is LAST_NULL_BYTE_UNDEF (0) at this time, there were no nullable fields nor BIT fields at all in the columns that are common to the master and the slave. In that case, there is only one null byte holding the X bit. OBSERVE! There might still be nullable columns following the common columns, so table->s->null_bytes might be greater than 1. */ if (master_null_bytes == Field::LAST_NULL_BYTE_UNDEF) master_null_bytes= 1; } DBUG_ASSERT(master_null_bytes <= table->s->null_bytes); memcpy(record, row, master_null_bytes); // [1] int error= 0; bitmap_set_all(rw_set); Field **const begin_ptr = table->field; Field **field_ptr; char const *ptr= row + master_null_bytes; Field **const end_ptr= begin_ptr + colcnt; for (field_ptr= begin_ptr ; field_ptr < end_ptr ; ++field_ptr) { Field *const f= *field_ptr; if (bitmap_is_set(cols, field_ptr - begin_ptr)) { DBUG_ASSERT((const char *)table->record[0] <= f->ptr); DBUG_ASSERT(f->ptr < (char*)(table->record[0] + table->s->reclength + (f->pack_length_in_rec() == 0))); DBUG_PRINT("info", ("unpacking column '%s' to 0x%lx", f->field_name, (long) f->ptr)); ptr= f->unpack(f->ptr, ptr); /* Field...::unpack() cannot return 0 */ DBUG_ASSERT(ptr != NULL); } else bitmap_clear_bit(rw_set, field_ptr - begin_ptr); } *row_end = ptr; if (master_reclength) { if (*field_ptr) *master_reclength = (*field_ptr)->ptr - (char*) table->record[0]; else *master_reclength = table->s->reclength; } /* Set properties for remaining columns, if there are any. We let the corresponding bit in the write_set be set, to write the value if it was not there already. We iterate over all remaining columns, even if there were an error, to get as many error messages as possible. We are still able to return a pointer to the next row, so redo that. This generation of error messages is only relevant when inserting new rows. */ for ( ; *field_ptr ; ++field_ptr) { uint32 const mask= NOT_NULL_FLAG | NO_DEFAULT_VALUE_FLAG; Field *const f= *field_ptr; DBUG_PRINT("info", ("processing column '%s' @ 0x%lx", f->field_name, (long) f->ptr)); if (event_type == WRITE_ROWS_EVENT && (f->flags & mask) == mask) { slave_print_msg(ERROR_LEVEL, rli, ER_NO_DEFAULT_FOR_FIELD, "Field `%s` of table `%s`.`%s` " "has no default value and cannot be NULL", (*field_ptr)->field_name, table->s->db.str, table->s->table_name.str); error = ER_NO_DEFAULT_FOR_FIELD; } else f->set_default(); } DBUG_RETURN(error); } int Rows_log_event::exec_event(st_relay_log_info *rli) { DBUG_ENTER("Rows_log_event::exec_event(st_relay_log_info*)"); int error= 0; char const *row_start= (char const *)m_rows_buf; /* If m_table_id == ~0UL, then we have a dummy event that does not contain any data. In that case, we just remove all tables in the tables_to_lock list, close the thread tables, step the relay log position, and return with success. */ if (m_table_id == ~0UL) { /* This one is supposed to be set: just an extra check so that nothing strange has happened. */ DBUG_ASSERT(get_flags(STMT_END_F)); rli->clear_tables_to_lock(); close_thread_tables(thd); thd->clear_error(); rli->inc_event_relay_log_pos(); DBUG_RETURN(0); } /* 'thd' has been set by exec_relay_log_event(), just before calling exec_event(). We still check here to prevent future coding errors. */ DBUG_ASSERT(rli->sql_thd == thd); /* If there is no locks taken, this is the first binrow event seen after the table map events. We should then lock all the tables used in the transaction and proceed with execution of the actual event. */ if (!thd->lock) { bool need_reopen= 1; /* To execute the first lap of the loop below */ /* lock_tables() reads the contents of thd->lex, so they must be initialized. Contrary to in Table_map_log_event::exec_event() we don't call mysql_init_query() as that may reset the binlog format. */ lex_start(thd, NULL, 0); while ((error= lock_tables(thd, rli->tables_to_lock, rli->tables_to_lock_count, &need_reopen))) { if (!need_reopen) { if (thd->query_error || thd->is_fatal_error) { /* Error reporting borrowed from Query_log_event with many excessive simplifications (we don't honour --slave-skip-errors) */ uint actual_error= thd->net.last_errno; slave_print_msg(ERROR_LEVEL, rli, actual_error, "Error '%s' in %s event: when locking tables", (actual_error ? thd->net.last_error : "unexpected success or fatal error"), get_type_str()); thd->is_fatal_error= 1; } else { slave_print_msg(ERROR_LEVEL, rli, error, "Error in %s event: when locking tables", get_type_str()); } rli->clear_tables_to_lock(); DBUG_RETURN(error); } /* So we need to reopen the tables. We need to flush the pending RBR event, since it keeps a pointer to an open table. ALTERNATIVE SOLUTION (not implemented): Extract a pointer to the pending RBR event and reset the table pointer after the tables has been reopened. NOTE: For this new scheme there should be no pending event: need to add code to assert that is the case. */ thd->binlog_flush_pending_rows_event(false); TABLE_LIST *tables= rli->tables_to_lock; close_tables_for_reopen(thd, &tables); if ((error= open_tables(thd, &tables, &rli->tables_to_lock_count, 0))) { if (thd->query_error || thd->is_fatal_error) { /* Error reporting borrowed from Query_log_event with many excessive simplifications (we don't honour --slave-skip-errors) */ uint actual_error= thd->net.last_errno; slave_print_msg(ERROR_LEVEL, rli, actual_error, "Error '%s' on reopening tables", (actual_error ? thd->net.last_error : "unexpected success or fatal error")); thd->query_error= 1; } rli->clear_tables_to_lock(); DBUG_RETURN(error); } } /* When the open and locking succeeded, we check all tables to ensure that they still have the correct type. We can use a down cast here since we know that every table added to the tables_to_lock is a RPL_TABLE_LIST. */ { RPL_TABLE_LIST *ptr= rli->tables_to_lock; for ( ; ptr ; ptr= static_cast<RPL_TABLE_LIST*>(ptr->next_global)) { if (ptr->m_tabledef.compatible_with(rli, ptr->table)) { mysql_unlock_tables(thd, thd->lock); thd->lock= 0; thd->query_error= 1; rli->clear_tables_to_lock(); DBUG_RETURN(ERR_BAD_TABLE_DEF); } } } /* ... and then we add all the tables to the table map and remove them from tables to lock. We also invalidate the query cache for all the tables, since they will now be changed. TODO [/Matz]: Maybe the query cache should not be invalidated here? It might be that a table is not changed, even though it was locked for the statement. We do know that each Rows_log_event contain at least one row, so after processing one Rows_log_event, we can invalidate the query cache for the associated table. */ for (TABLE_LIST *ptr= rli->tables_to_lock ; ptr ; ptr= ptr->next_global) { rli->m_table_map.set_table(ptr->table_id, ptr->table); } #ifdef HAVE_QUERY_CACHE query_cache.invalidate_locked_for_write(rli->tables_to_lock); #endif rli->clear_tables_to_lock(); } DBUG_ASSERT(rli->tables_to_lock == NULL && rli->tables_to_lock_count == 0); TABLE* table= rli->m_table_map.get_table(m_table_id); if (table) { /* table == NULL means that this table should not be replicated (this was set up by Table_map_log_event::exec_event() which tested replicate-* rules). */ /* It's not needed to set_time() but 1) it continues the property that "Time" in SHOW PROCESSLIST shows how much slave is behind 2) it will be needed when we allow replication from a table with no TIMESTAMP column to a table with one. So we call set_time(), like in SBR. Presently it changes nothing. */ thd->set_time((time_t)when); /* There are a few flags that are replicated with each row event. Make sure to set/clear them before executing the main body of the event. */ if (get_flags(NO_FOREIGN_KEY_CHECKS_F)) thd->options|= OPTION_NO_FOREIGN_KEY_CHECKS; else thd->options&= ~OPTION_NO_FOREIGN_KEY_CHECKS; if (get_flags(RELAXED_UNIQUE_CHECKS_F)) thd->options|= OPTION_RELAXED_UNIQUE_CHECKS; else thd->options&= ~OPTION_RELAXED_UNIQUE_CHECKS; /* A small test to verify that objects have consistent types */ DBUG_ASSERT(sizeof(thd->options) == sizeof(OPTION_RELAXED_UNIQUE_CHECKS)); error= do_before_row_operations(table); while (error == 0 && row_start < (const char*) m_rows_end) { char const *row_end= NULL; if ((error= do_prepare_row(thd, rli, table, row_start, &row_end))) break; // We should perform the after-row operation even in // the case of error DBUG_ASSERT(row_end != NULL); // cannot happen DBUG_ASSERT(row_end <= (const char*)m_rows_end); /* in_use can have been set to NULL in close_tables_for_reopen */ THD* old_thd= table->in_use; if (!table->in_use) table->in_use= thd; error= do_exec_row(table); table->in_use = old_thd; switch (error) { /* Some recoverable errors */ case HA_ERR_RECORD_CHANGED: case HA_ERR_KEY_NOT_FOUND: /* Idempotency support: OK if tuple does not exist */ error= 0; case 0: break; default: slave_print_msg(ERROR_LEVEL, rli, error, "Error in %s event: row application failed", get_type_str()); thd->query_error= 1; break; } row_start= row_end; } DBUG_EXECUTE_IF("STOP_SLAVE_after_first_Rows_event", rli->abort_slave=1;); error= do_after_row_operations(table, error); if (!cache_stmt) { DBUG_PRINT("info", ("Marked that we need to keep log")); thd->options|= OPTION_KEEP_LOG; } } if (error) { /* error has occured during the transaction */ slave_print_msg(ERROR_LEVEL, rli, error, "Error in %s event: error during transaction execution " "on table %s.%s", get_type_str(), table->s->db.str, table->s->table_name.str); /* If one day we honour --skip-slave-errors in row-based replication, and the error should be skipped, then we would clear mappings, rollback, close tables, but the slave SQL thread would not stop and then may assume the mapping is still available, the tables are still open... So then we should clear mappings/rollback/close here only if this is a STMT_END_F. For now we code, knowing that error is not skippable and so slave SQL thread is certainly going to stop. rollback at the caller along with sbr. */ thd->reset_current_stmt_binlog_row_based(); rli->cleanup_context(thd, 0); /* rollback at caller in step with sbr */ thd->query_error= 1; DBUG_RETURN(error); } if (get_flags(STMT_END_F)) { /* This is the end of a statement or transaction, so close (and unlock) the tables we opened when processing the Table_map_log_event starting the statement. OBSERVER. This will clear *all* mappings, not only those that are open for the table. There is not good handle for on-close actions for tables. NOTE. Even if we have no table ('table' == 0) we still need to be here, so that we increase the group relay log position. If we didn't, we could have a group relay log position which lags behind "forever" (assume the last master's transaction is ignored by the slave because of replicate-ignore rules). */ thd->binlog_flush_pending_rows_event(true); /* If this event is not in a transaction, the call below will, if some transactional storage engines are involved, commit the statement into them and flush the pending event to binlog. If this event is in a transaction, the call will do nothing, but a Xid_log_event will come next which will, if some transactional engines are involved, commit the transaction and flush the pending event to the binlog. */ error= ha_autocommit_or_rollback(thd, 0); /* Now what if this is not a transactional engine? we still need to flush the pending event to the binlog; we did it with thd->binlog_flush_pending_rows_event(). Note that we imitate what is done for real queries: a call to ha_autocommit_or_rollback() (sometimes only if involves a transactional engine), and a call to be sure to have the pending event flushed. */ thd->reset_current_stmt_binlog_row_based(); rli->cleanup_context(thd, 0); rli->transaction_end(thd); if (error == 0) { /* Clear any errors pushed in thd->net.last_err* if for example "no key found" (as this is allowed). This is a safety measure; apparently those errors (e.g. when executing a Delete_rows_log_event of a non-existing row, like in rpl_row_mystery22.test, thd->net.last_error = "Can't find record in 't1'" and last_errno=1032) do not become visible. We still prefer to wipe them out. */ thd->clear_error(); error= Log_event::exec_event(rli); } else slave_print_msg(ERROR_LEVEL, rli, error, "Error in %s event: commit of row events failed, " "table `%s`.`%s`", get_type_str(), table->s->db.str, table->s->table_name.str); DBUG_RETURN(error); } if (table && (table->s->primary_key == MAX_KEY) && !cache_stmt) { /* ------------ Temporary fix until WL#2975 is implemented --------- This event is not the last one (no STMT_END_F). If we stop now (in case of terminate_slave_thread()), how will we restart? We have to restart from Table_map_log_event, but as this table is not transactional, the rows already inserted will still be present, and idempotency is not guaranteed (no PK) so we risk that repeating leads to double insert. So we desperately try to continue, hope we'll eventually leave this buggy situation (by executing the final Rows_log_event). If we are in a hopeless wait (reached end of last relay log and nothing gets appended there), we timeout after one minute, and notify DBA about the problem. When WL#2975 is implemented, just remove the member st_relay_log_info::unsafe_to_stop_at and all its occurences. */ rli->unsafe_to_stop_at= time(0); } DBUG_ASSERT(error == 0); thd->clear_error(); rli->inc_event_relay_log_pos(); DBUG_RETURN(0); } #endif /* !defined(MYSQL_CLIENT) && defined(HAVE_REPLICATION) */ #ifndef MYSQL_CLIENT bool Rows_log_event::write_data_header(IO_CACHE *file) { byte buf[ROWS_HEADER_LEN]; // No need to init the buffer DBUG_ASSERT(m_table_id != ~0UL); DBUG_EXECUTE_IF("old_row_based_repl_4_byte_map_id_master", { int4store(buf + 0, m_table_id); int2store(buf + 4, m_flags); return (my_b_safe_write(file, buf, 6)); }); int6store(buf + RW_MAPID_OFFSET, (ulonglong)m_table_id); int2store(buf + RW_FLAGS_OFFSET, m_flags); return (my_b_safe_write(file, buf, ROWS_HEADER_LEN)); } bool Rows_log_event::write_data_body(IO_CACHE*file) { /* Note that this should be the number of *bits*, not the number of bytes. */ char sbuf[sizeof(m_width)]; my_ptrdiff_t const data_size= m_rows_cur - m_rows_buf; char *const sbuf_end= net_store_length((char*) sbuf, (uint) m_width); DBUG_ASSERT(static_cast<my_size_t>(sbuf_end - sbuf) <= sizeof(sbuf)); return (my_b_safe_write(file, reinterpret_cast<byte*>(sbuf), sbuf_end - sbuf) || my_b_safe_write(file, reinterpret_cast<byte*>(m_cols.bitmap), no_bytes_in_map(&m_cols)) || my_b_safe_write(file, m_rows_buf, (uint) data_size)); } #endif #if defined(HAVE_REPLICATION) && !defined(MYSQL_CLIENT) void Rows_log_event::pack_info(Protocol *protocol) { char buf[256]; char const *const flagstr= get_flags(STMT_END_F) ? " flags: STMT_END_F" : ""; my_size_t bytes= my_snprintf(buf, sizeof(buf), "table_id: %lu%s", m_table_id, flagstr); protocol->store(buf, bytes, &my_charset_bin); } #endif #ifdef MYSQL_CLIENT void Rows_log_event::print_helper(FILE *file, PRINT_EVENT_INFO *print_event_info, char const *const name) { IO_CACHE *const head= &print_event_info->head_cache; IO_CACHE *const body= &print_event_info->body_cache; if (!print_event_info->short_form) { bool const last_stmt_event= get_flags(STMT_END_F); print_header(head, print_event_info, !last_stmt_event); my_b_printf(head, "\t%s: table id %lu\n", name, m_table_id); print_base64(body, print_event_info, !last_stmt_event); } if (get_flags(STMT_END_F)) { my_b_copy_to_file(head, file); my_b_copy_to_file(body, file); reinit_io_cache(head, WRITE_CACHE, 0, FALSE, TRUE); reinit_io_cache(body, WRITE_CACHE, 0, FALSE, TRUE); } } #endif /************************************************************************** Table_map_log_event member functions and support functions **************************************************************************/ /* Constructor used to build an event for writing to the binary log. Mats says tbl->s lives longer than this event so it's ok to copy pointers (tbl->s->db etc) and not pointer content. */ #if !defined(MYSQL_CLIENT) Table_map_log_event::Table_map_log_event(THD *thd, TABLE *tbl, ulong tid, bool is_transactional, uint16 flags) : Log_event(thd, 0, is_transactional), m_table(tbl), m_dbnam(tbl->s->db.str), m_dblen(m_dbnam ? tbl->s->db.length : 0), m_tblnam(tbl->s->table_name.str), m_tbllen(tbl->s->table_name.length), m_colcnt(tbl->s->fields), m_coltype(0), m_table_id(tid), m_flags(flags) { DBUG_ASSERT(m_table_id != ~0UL); /* In TABLE_SHARE, "db" and "table_name" are 0-terminated (see this comment in table.cc / alloc_table_share(): Use the fact the key is db/0/table_name/0 As we rely on this let's assert it. */ DBUG_ASSERT((tbl->s->db.str == 0) || (tbl->s->db.str[tbl->s->db.length] == 0)); DBUG_ASSERT(tbl->s->table_name.str[tbl->s->table_name.length] == 0); m_data_size= TABLE_MAP_HEADER_LEN; DBUG_EXECUTE_IF("old_row_based_repl_4_byte_map_id_master", m_data_size= 6;); m_data_size+= m_dblen + 2; // Include length and terminating \0 m_data_size+= m_tbllen + 2; // Include length and terminating \0 m_data_size+= 1 + m_colcnt; // COLCNT and column types /* If malloc fails, catched in is_valid() */ if ((m_memory= my_malloc(m_colcnt, MYF(MY_WME)))) { m_coltype= reinterpret_cast<uchar*>(m_memory); for (unsigned int i= 0 ; i < m_table->s->fields ; ++i) m_coltype[i]= m_table->field[i]->type(); } } #endif /* !defined(MYSQL_CLIENT) */ /* Constructor used by slave to read the event from the binary log. */ #if defined(HAVE_REPLICATION) Table_map_log_event::Table_map_log_event(const char *buf, uint event_len, const Format_description_log_event *description_event) : Log_event(buf, description_event), #ifndef MYSQL_CLIENT m_table(NULL), #endif m_memory(NULL) { DBUG_ENTER("Table_map_log_event::Table_map_log_event(const char*,uint,...)"); uint8 common_header_len= description_event->common_header_len; uint8 post_header_len= description_event->post_header_len[TABLE_MAP_EVENT-1]; DBUG_PRINT("info",("event_len: %u common_header_len: %d post_header_len: %d", event_len, common_header_len, post_header_len)); /* Don't print debug messages when running valgrind since they can trigger false warnings. */ #ifndef HAVE_purify DBUG_DUMP("event buffer", buf, event_len); #endif /* Read the post-header */ const char *post_start= buf + common_header_len; post_start+= TM_MAPID_OFFSET; if (post_header_len == 6) { /* Master is of an intermediate source tree before 5.1.4. Id is 4 bytes */ m_table_id= uint4korr(post_start); post_start+= 4; } else { DBUG_ASSERT(post_header_len == TABLE_MAP_HEADER_LEN); m_table_id= (ulong) uint6korr(post_start); post_start+= TM_FLAGS_OFFSET; } DBUG_ASSERT(m_table_id != ~0UL); m_flags= uint2korr(post_start); /* Read the variable part of the event */ const char *const vpart= buf + common_header_len + post_header_len; /* Extract the length of the various parts from the buffer */ byte const* const ptr_dblen= (byte const*)vpart + 0; m_dblen= *(uchar*) ptr_dblen; /* Length of database name + counter + terminating null */ byte const* const ptr_tbllen= ptr_dblen + m_dblen + 2; m_tbllen= *(uchar*) ptr_tbllen; /* Length of table name + counter + terminating null */ byte const* const ptr_colcnt= ptr_tbllen + m_tbllen + 2; uchar *ptr_after_colcnt= (uchar*) ptr_colcnt; m_colcnt= net_field_length(&ptr_after_colcnt); DBUG_PRINT("info",("m_dblen: %lu off: %ld m_tbllen: %lu off: %ld m_colcnt: %lu off: %ld", m_dblen, (long) (ptr_dblen-(const byte*)vpart), m_tbllen, (long) (ptr_tbllen-(const byte*)vpart), m_colcnt, (long) (ptr_colcnt-(const byte*)vpart))); /* Allocate mem for all fields in one go. If fails, catched in is_valid() */ m_memory= my_multi_malloc(MYF(MY_WME), &m_dbnam, m_dblen + 1, &m_tblnam, m_tbllen + 1, &m_coltype, m_colcnt, NULL); if (m_memory) { /* Copy the different parts into their memory */ strncpy(const_cast<char*>(m_dbnam), (const char*)ptr_dblen + 1, m_dblen + 1); strncpy(const_cast<char*>(m_tblnam), (const char*)ptr_tbllen + 1, m_tbllen + 1); memcpy(m_coltype, ptr_after_colcnt, m_colcnt); } DBUG_VOID_RETURN; } #endif Table_map_log_event::~Table_map_log_event() { my_free(m_memory, MYF(MY_ALLOW_ZERO_PTR)); } /* Return value is an error code, one of: -1 Failure to open table [from open_tables()] 0 Success 1 No room for more tables [from set_table()] 2 Out of memory [from set_table()] 3 Wrong table definition 4 Daisy-chaining RBR with SBR not possible */ #if !defined(MYSQL_CLIENT) && defined(HAVE_REPLICATION) int Table_map_log_event::exec_event(st_relay_log_info *rli) { DBUG_ENTER("Table_map_log_event::exec_event(st_relay_log_info*)"); DBUG_ASSERT(rli->sql_thd == thd); /* Step the query id to mark what columns that are actually used. */ pthread_mutex_lock(&LOCK_thread_count); thd->query_id= next_query_id(); pthread_mutex_unlock(&LOCK_thread_count); RPL_TABLE_LIST *table_list; char *db_mem, *tname_mem; void *const memory= my_multi_malloc(MYF(MY_WME), &table_list, sizeof(RPL_TABLE_LIST), &db_mem, NAME_LEN + 1, &tname_mem, NAME_LEN + 1, NULL); if (memory == NULL) DBUG_RETURN(HA_ERR_OUT_OF_MEM); uint dummy_len; bzero(table_list, sizeof(*table_list)); table_list->db = db_mem; table_list->alias= table_list->table_name = tname_mem; table_list->lock_type= TL_WRITE; table_list->next_global= table_list->next_local= 0; table_list->table_id= m_table_id; table_list->updating= 1; strmov(table_list->db, rpl_filter->get_rewrite_db(m_dbnam, &dummy_len)); strmov(table_list->table_name, m_tblnam); int error= 0; if (!rpl_filter->db_ok(table_list->db) || (rpl_filter->is_on() && !rpl_filter->tables_ok("", table_list))) { my_free((gptr) memory, MYF(MY_WME)); } else { /* open_tables() reads the contents of thd->lex, so they must be initialized, so we should call lex_start(); to be even safer, we call mysql_init_query() which does a more complete set of inits. */ mysql_init_query(thd, NULL, 0); /* Check if the slave is set to use SBR. If so, it should switch to using RBR until the end of the "statement", i.e., next STMT_END_F or next error. */ if (!thd->current_stmt_binlog_row_based && mysql_bin_log.is_open() && (thd->options & OPTION_BIN_LOG)) { thd->set_current_stmt_binlog_row_based(); } /* Open the table if it is not already open and add the table to table map. Note that for any table that should not be replicated, a filter is needed. The creation of a new TABLE_LIST is used to up-cast the table_list consisting of RPL_TABLE_LIST items. This will work since the only case where the argument to open_tables() is changed, is when thd->lex->query_tables == table_list, i.e., when the statement requires prelocking. Since this is not executed when a statement is executed, this case will not occur. As a precaution, an assertion is added to ensure that the bad case is not a fact. Either way, the memory in the list is *never* released internally in the open_tables() function, hence we take a copy of the pointer to make sure that it's not lost. */ uint count; DBUG_ASSERT(thd->lex->query_tables != table_list); TABLE_LIST *tmp_table_list= table_list; if ((error= open_tables(thd, &tmp_table_list, &count, 0))) { if (thd->query_error || thd->is_fatal_error) { /* Error reporting borrowed from Query_log_event with many excessive simplifications (we don't honour --slave-skip-errors) */ uint actual_error= thd->net.last_errno; slave_print_msg(ERROR_LEVEL, rli, actual_error, "Error '%s' on opening table `%s`.`%s`", (actual_error ? thd->net.last_error : "unexpected success or fatal error"), table_list->db, table_list->table_name); thd->query_error= 1; } goto err; } m_table= table_list->table; /* This will fail later otherwise, the 'in_use' field should be set to the current thread. */ DBUG_ASSERT(m_table->in_use); /* Use placement new to construct the table_def instance in the memory allocated for it inside table_list. The memory allocated by the table_def structure (i.e., not the memory allocated *for* the table_def structure) is released inside st_relay_log_info::clear_tables_to_lock() by calling the table_def destructor explicitly. */ new (&table_list->m_tabledef) table_def(m_coltype, m_colcnt); table_list->m_tabledef_valid= TRUE; /* We record in the slave's information that the table should be locked by linking the table into the list of tables to lock. */ table_list->next_global= table_list->next_local= rli->tables_to_lock; rli->tables_to_lock= table_list; rli->tables_to_lock_count++; /* 'memory' is freed in clear_tables_to_lock */ } /* We explicitly do not call Log_event::exec_event() here since we do not want the relay log position to be flushed to disk. The flushing will be done by the last Rows_log_event that either ends a statement (outside a transaction) or a transaction. A table map event can *never* end a transaction or a statement, so we just step the relay log position. */ if (likely(!error)) rli->inc_event_relay_log_pos(); DBUG_RETURN(error); err: my_free((gptr) memory, MYF(MY_WME)); DBUG_RETURN(error); } #endif /* !defined(MYSQL_CLIENT) && defined(HAVE_REPLICATION) */ #ifndef MYSQL_CLIENT bool Table_map_log_event::write_data_header(IO_CACHE *file) { DBUG_ASSERT(m_table_id != ~0UL); byte buf[TABLE_MAP_HEADER_LEN]; DBUG_EXECUTE_IF("old_row_based_repl_4_byte_map_id_master", { int4store(buf + 0, m_table_id); int2store(buf + 4, m_flags); return (my_b_safe_write(file, buf, 6)); }); int6store(buf + TM_MAPID_OFFSET, (ulonglong)m_table_id); int2store(buf + TM_FLAGS_OFFSET, m_flags); return (my_b_safe_write(file, buf, TABLE_MAP_HEADER_LEN)); } bool Table_map_log_event::write_data_body(IO_CACHE *file) { DBUG_ASSERT(m_dbnam != NULL); DBUG_ASSERT(m_tblnam != NULL); /* We use only one byte per length for storage in event: */ DBUG_ASSERT(m_dblen < 128); DBUG_ASSERT(m_tbllen < 128); byte const dbuf[]= { (byte) m_dblen }; byte const tbuf[]= { (byte) m_tbllen }; char cbuf[sizeof(m_colcnt)]; char *const cbuf_end= net_store_length((char*) cbuf, (uint) m_colcnt); DBUG_ASSERT(static_cast<my_size_t>(cbuf_end - cbuf) <= sizeof(cbuf)); return (my_b_safe_write(file, dbuf, sizeof(dbuf)) || my_b_safe_write(file, (const byte*)m_dbnam, m_dblen+1) || my_b_safe_write(file, tbuf, sizeof(tbuf)) || my_b_safe_write(file, (const byte*)m_tblnam, m_tbllen+1) || my_b_safe_write(file, reinterpret_cast<byte*>(cbuf), cbuf_end - (char*) cbuf) || my_b_safe_write(file, reinterpret_cast<byte*>(m_coltype), m_colcnt)); } #endif #if defined(HAVE_REPLICATION) && !defined(MYSQL_CLIENT) /* Print some useful information for the SHOW BINARY LOG information field. */ #if defined(HAVE_REPLICATION) && !defined(MYSQL_CLIENT) void Table_map_log_event::pack_info(Protocol *protocol) { char buf[256]; my_size_t bytes= my_snprintf(buf, sizeof(buf), "table_id: %lu (%s.%s)", m_table_id, m_dbnam, m_tblnam); protocol->store(buf, bytes, &my_charset_bin); } #endif #endif #ifdef MYSQL_CLIENT void Table_map_log_event::print(FILE *file, PRINT_EVENT_INFO *print_event_info) { if (!print_event_info->short_form) { print_header(&print_event_info->head_cache, print_event_info, TRUE); my_b_printf(&print_event_info->head_cache, "\tTable_map: `%s`.`%s` mapped to number %lu\n", m_dbnam, m_tblnam, m_table_id); print_base64(&print_event_info->body_cache, print_event_info, TRUE); } } #endif /************************************************************************** Write_rows_log_event member functions **************************************************************************/ /* Constructor used to build an event for writing to the binary log. */ #if !defined(MYSQL_CLIENT) Write_rows_log_event::Write_rows_log_event(THD *thd_arg, TABLE *tbl_arg, ulong tid_arg, MY_BITMAP const *cols, bool is_transactional) : Rows_log_event(thd_arg, tbl_arg, tid_arg, cols, is_transactional) { } #endif /* Constructor used by slave to read the event from the binary log. */ #ifdef HAVE_REPLICATION Write_rows_log_event::Write_rows_log_event(const char *buf, uint event_len, const Format_description_log_event *description_event) : Rows_log_event(buf, event_len, WRITE_ROWS_EVENT, description_event) { } #endif #if !defined(MYSQL_CLIENT) && defined(HAVE_REPLICATION) int Write_rows_log_event::do_before_row_operations(TABLE *table) { int error= 0; /* We are using REPLACE semantics and not INSERT IGNORE semantics when writing rows, that is: new rows replace old rows. We need to inform the storage engine that it should use this behaviour. */ /* Tell the storage engine that we are using REPLACE semantics. */ thd->lex->duplicates= DUP_REPLACE; /* Pretend we're executing a REPLACE command: this is needed for InnoDB and NDB Cluster since they are not (properly) checking the lex->duplicates flag. */ thd->lex->sql_command= SQLCOM_REPLACE; table->file->extra(HA_EXTRA_IGNORE_DUP_KEY); // Needed for ndbcluster table->file->extra(HA_EXTRA_WRITE_CAN_REPLACE); // Needed for ndbcluster table->file->extra(HA_EXTRA_IGNORE_NO_KEY); // Needed for ndbcluster /* TODO: the cluster team (Tomas?) says that it's better if the engine knows how many rows are going to be inserted, then it can allocate needed memory from the start. */ table->file->ha_start_bulk_insert(0); /* We need TIMESTAMP_NO_AUTO_SET otherwise ha_write_row() will not use fill any TIMESTAMP column with data from the row but instead will use the event's current time. As we replicate from TIMESTAMP to TIMESTAMP and slave has no extra columns, we know that all TIMESTAMP columns on slave will receive explicit data from the row, so TIMESTAMP_NO_AUTO_SET is ok. When we allow a table without TIMESTAMP to be replicated to a table having more columns including a TIMESTAMP column, or when we allow a TIMESTAMP column to be replicated into a BIGINT column and the slave's table has a TIMESTAMP column, then the slave's TIMESTAMP column will take its value from set_time() which we called earlier (consistent with SBR). And then in some cases we won't want TIMESTAMP_NO_AUTO_SET (will require some code to analyze if explicit data is provided for slave's TIMESTAMP columns). */ table->timestamp_field_type= TIMESTAMP_NO_AUTO_SET; return error; } int Write_rows_log_event::do_after_row_operations(TABLE *table, int error) { if (error == 0) error= table->file->ha_end_bulk_insert(); return error; } int Write_rows_log_event::do_prepare_row(THD *thd, RELAY_LOG_INFO *rli, TABLE *table, char const *const row_start, char const **const row_end) { DBUG_ASSERT(table != NULL); DBUG_ASSERT(row_start && row_end); int error; error= unpack_row(rli, table, m_width, row_start, &m_cols, row_end, &m_master_reclength, table->write_set, WRITE_ROWS_EVENT); bitmap_copy(table->read_set, table->write_set); return error; } /* Check if there are more UNIQUE keys after the given key. */ static int last_uniq_key(TABLE *table, uint keyno) { while (++keyno < table->s->keys) if (table->key_info[keyno].flags & HA_NOSAME) return 0; return 1; } /* Anonymous namespace for template functions/classes */ namespace { /* Smart pointer that will automatically call my_afree (a macro) when the pointer goes out of scope. This is used so that I do not have to remember to call my_afree() before each return. There is no overhead associated with this, since all functions are inline. I (Matz) would prefer to use the free function as a template parameter, but that is not possible when the "function" is a macro. */ template <class Obj> class auto_afree_ptr { Obj* m_ptr; public: auto_afree_ptr(Obj* ptr) : m_ptr(ptr) { } ~auto_afree_ptr() { if (m_ptr) my_afree(m_ptr); } void assign(Obj* ptr) { /* Only to be called if it hasn't been given a value before. */ DBUG_ASSERT(m_ptr == NULL); m_ptr= ptr; } Obj* get() { return m_ptr; } }; } /* Copy "extra" columns from record[1] to record[0]. Copy the extra fields that are not present on the master but are present on the slave from record[1] to record[0]. This is used after fetching a record that are to be updated, either inside replace_record() or as part of executing an update_row(). */ static int copy_extra_record_fields(TABLE *table, my_size_t master_reclength, my_ptrdiff_t master_fields) { DBUG_PRINT("info", ("Copying to 0x%lx " "from field %lu at offset %lu " "to field %d at offset %lu", (long) table->record[0], (ulong) master_fields, (ulong) master_reclength, table->s->fields, table->s->reclength)); /* Copying the extra fields of the slave that does not exist on master into record[0] (which are basically the default values). */ DBUG_ASSERT(master_reclength <= table->s->reclength); if (master_reclength < table->s->reclength) bmove_align(table->record[0] + master_reclength, table->record[1] + master_reclength, table->s->reclength - master_reclength); /* Bit columns are special. We iterate over all the remaining columns and copy the "extra" bits to the new record. This is not a very good solution: it should be refactored on opportunity. REFACTORING SUGGESTION (Matz). Introduce a member function similar to move_field_offset() called copy_field_offset() to copy field values and implement it for all Field subclasses. Use this function to copy data from the found record to the record that are going to be inserted. The copy_field_offset() function need to be a virtual function, which in this case will prevent copying an entire range of fields efficiently. */ { Field **field_ptr= table->field + master_fields; for ( ; *field_ptr ; ++field_ptr) { /* Set the null bit according to the values in record[1] */ if ((*field_ptr)->maybe_null() && (*field_ptr)->is_null_in_record(reinterpret_cast<uchar*>(table->record[1]))) (*field_ptr)->set_null(); else (*field_ptr)->set_notnull(); /* Do the extra work for special columns. */ switch ((*field_ptr)->real_type()) { default: /* Nothing to do */ break; case MYSQL_TYPE_BIT: Field_bit *f= static_cast<Field_bit*>(*field_ptr); if (f->bit_len > 0) { my_ptrdiff_t const offset= table->record[1] - table->record[0]; uchar const bits= get_rec_bits(f->bit_ptr + offset, f->bit_ofs, f->bit_len); set_rec_bits(bits, f->bit_ptr, f->bit_ofs, f->bit_len); } break; } } } return 0; // All OK } /* Replace the provided record in the database. SYNOPSIS replace_record() thd Thread context for writing the record. table Table to which record should be written. master_reclength Offset to first column that is not present on the master, alternatively the length of the record on the master side. RETURN VALUE Error code on failure, 0 on success. DESCRIPTION Similar to how it is done in mysql_insert(), we first try to do a ha_write_row() and of that fails due to duplicated keys (or indices), we do an ha_update_row() or a ha_delete_row() instead. */ static int replace_record(THD *thd, TABLE *table, ulong const master_reclength, uint const master_fields) { DBUG_ENTER("replace_record"); DBUG_ASSERT(table != NULL && thd != NULL); int error; int keynum; auto_afree_ptr<char> key(NULL); while ((error= table->file->ha_write_row(table->record[0]))) { if (error == HA_ERR_LOCK_DEADLOCK || error == HA_ERR_LOCK_WAIT_TIMEOUT) { table->file->print_error(error, MYF(0)); /* to check at exec_relay_log_event */ DBUG_RETURN(error); } if ((keynum= table->file->get_dup_key(error)) < 0) { /* We failed to retrieve the duplicate key */ DBUG_RETURN(HA_ERR_FOUND_DUPP_KEY); } /* We need to retrieve the old row into record[1] to be able to either update or delete the offending record. We either: - use rnd_pos() with a row-id (available as dupp_row) to the offending row, if that is possible (MyISAM and Blackhole), or else - use index_read_idx() with the key that is duplicated, to retrieve the offending row. */ if (table->file->ha_table_flags() & HA_DUPLICATE_POS) { error= table->file->rnd_pos(table->record[1], table->file->dup_ref); if (error) DBUG_RETURN(error); } else { if (table->file->extra(HA_EXTRA_FLUSH_CACHE)) { DBUG_RETURN(my_errno); } if (key.get() == NULL) { key.assign(static_cast<char*>(my_alloca(table->s->max_unique_length))); if (key.get() == NULL) DBUG_RETURN(ENOMEM); } key_copy((byte*)key.get(), table->record[0], table->key_info + keynum, 0); error= table->file->index_read_idx(table->record[1], keynum, (const byte*)key.get(), table->key_info[keynum].key_length, HA_READ_KEY_EXACT); if (error) DBUG_RETURN(error); } /* Now, table->record[1] should contain the offending row. That will enable us to update it or, alternatively, delete it (so that we can insert the new row afterwards). First we copy the columns into table->record[0] that are not present on the master from table->record[1], if there are any. */ copy_extra_record_fields(table, master_reclength, master_fields); /* REPLACE is defined as either INSERT or DELETE + INSERT. If possible, we can replace it with an UPDATE, but that will not work on InnoDB if FOREIGN KEY checks are necessary. I (Matz) am not sure of the reason for the last_uniq_key() check as, but I'm guessing that it's something along the following lines. Suppose that we got the duplicate key to be a key that is not the last unique key for the table and we perform an update: then there might be another key for which the unique check will fail, so we're better off just deleting the row and inserting the correct row. */ if (last_uniq_key(table, keynum) && !table->file->referenced_by_foreign_key()) { error=table->file->ha_update_row(table->record[1], table->record[0]); DBUG_RETURN(error); } else { if ((error= table->file->ha_delete_row(table->record[1]))) DBUG_RETURN(error); /* Will retry ha_write_row() with the offending row removed. */ } } DBUG_RETURN(error); } int Write_rows_log_event::do_exec_row(TABLE *table) { DBUG_ASSERT(table != NULL); int error= replace_record(thd, table, m_master_reclength, m_width); return error; } #endif /* !defined(MYSQL_CLIENT) && defined(HAVE_REPLICATION) */ #ifdef MYSQL_CLIENT void Write_rows_log_event::print(FILE *file, PRINT_EVENT_INFO* print_event_info) { Rows_log_event::print_helper(file, print_event_info, "Write_rows"); } #endif /************************************************************************** Delete_rows_log_event member functions **************************************************************************/ #if !defined(MYSQL_CLIENT) && defined(HAVE_REPLICATION) /* Compares table->record[0] and table->record[1] Returns TRUE if different. */ static bool record_compare(TABLE *table) { if (table->s->blob_fields + table->s->varchar_fields == 0) return cmp_record(table,record[1]); /* Compare null bits */ if (memcmp(table->null_flags, table->null_flags+table->s->rec_buff_length, table->s->null_bytes)) return TRUE; // Diff in NULL value /* Compare updated fields */ for (Field **ptr=table->field ; *ptr ; ptr++) { if ((*ptr)->cmp_binary_offset(table->s->rec_buff_length)) return TRUE; } return FALSE; } /* Find the row given by 'key', if the table has keys, or else use a table scan to find (and fetch) the row. If the engine allows random access of the records, a combination of position() and rnd_pos() will be used. @param table Pointer to table to search @param key Pointer to key to use for search, if table has key @pre <code>table->record[0]</code> shall contain the row to locate and <code>key</code> shall contain a key to use for searching, if the engine has a key. @post If the return value is zero, <code>table->record[1]</code> will contain the fetched row and the internal "cursor" will refer to the row. If the return value is non-zero, <code>table->record[1]</code> is undefined. In either case, <code>table->record[0]</code> is undefined. @return Zero if the row was successfully fetched into <code>table->record[1]</code>, error code otherwise. */ static int find_and_fetch_row(TABLE *table, byte *key) { DBUG_ENTER("find_and_fetch_row(TABLE *table, byte *key, byte *record)"); DBUG_PRINT("enter", ("table: 0x%lx, key: 0x%lx record: 0x%lx", (long) table, (long) key, (long) table->record[1])); DBUG_ASSERT(table->in_use != NULL); if ((table->file->ha_table_flags() & HA_PRIMARY_KEY_REQUIRED_FOR_POSITION) && table->s->primary_key < MAX_KEY) { /* Use a more efficient method to fetch the record given by table->record[0] if the engine allows it. We first compute a row reference using the position() member function (it will be stored in table->file->ref) and the use rnd_pos() to position the "cursor" (i.e., record[0] in this case) at the correct row. TODO: Add a check that the correct record has been fetched by comparing with the original record. Take into account that the record on the master and slave can be of different length. Something along these lines should work: ADD>>> store_record(table,record[1]); int error= table->file->rnd_pos(table->record[0], table->file->ref); ADD>>> DBUG_ASSERT(memcmp(table->record[1], table->record[0], table->s->reclength) == 0); */ table->file->position(table->record[0]); int error= table->file->rnd_pos(table->record[0], table->file->ref); /* rnd_pos() returns the record in table->record[0], so we have to move it to table->record[1]. */ bmove_align(table->record[1], table->record[0], table->s->reclength); DBUG_RETURN(error); } /* We need to retrieve all fields */ /* TODO: Move this out from this function to main loop */ table->use_all_columns(); if (table->s->keys > 0) { int error; /* We have a key: search the table using the index */ if (!table->file->inited && (error= table->file->ha_index_init(0, FALSE))) DBUG_RETURN(error); /* Don't print debug messages when running valgrind since they can trigger false warnings. */ #ifndef HAVE_purify DBUG_DUMP("table->record[0]", (const char *)table->record[0], table->s->reclength); DBUG_DUMP("table->record[1]", (const char *)table->record[1], table->s->reclength); #endif /* We need to set the null bytes to ensure that the filler bit are all set when returning. There are storage engines that just set the necessary bits on the bytes and don't set the filler bits correctly. */ my_ptrdiff_t const pos= table->s->null_bytes > 0 ? table->s->null_bytes - 1 : 0; table->record[1][pos]= 0xFF; if ((error= table->file->index_read(table->record[1], key, table->key_info->key_length, HA_READ_KEY_EXACT))) { table->file->print_error(error, MYF(0)); table->file->ha_index_end(); DBUG_RETURN(error); } /* Don't print debug messages when running valgrind since they can trigger false warnings. */ #ifndef HAVE_purify DBUG_DUMP("table->record[0]", (const char *)table->record[0], table->s->reclength); DBUG_DUMP("table->record[1]", (const char *)table->record[1], table->s->reclength); #endif /* Below is a minor "optimization". If the key (i.e., key number 0) has the HA_NOSAME flag set, we know that we have found the correct record (since there can be no duplicates); otherwise, we have to compare the record with the one found to see if it is the correct one. CAVEAT! This behaviour is essential for the replication of, e.g., the mysql.proc table since the correct record *shall* be found using the primary key *only*. There shall be no comparison of non-PK columns to decide if the correct record is found. I can see no scenario where it would be incorrect to chose the row to change only using a PK or an UNNI. */ if (table->key_info->flags & HA_NOSAME) { table->file->ha_index_end(); DBUG_RETURN(0); } while (record_compare(table)) { int error; /* We need to set the null bytes to ensure that the filler bit are all set when returning. There are storage engines that just set the necessary bits on the bytes and don't set the filler bits correctly. */ my_ptrdiff_t const pos= table->s->null_bytes > 0 ? table->s->null_bytes - 1 : 0; table->record[1][pos]= 0xFF; if ((error= table->file->index_next(table->record[1]))) { table->file->print_error(error, MYF(0)); table->file->ha_index_end(); DBUG_RETURN(error); } } /* Have to restart the scan to be able to fetch the next row. */ table->file->ha_index_end(); } else { int restart_count= 0; // Number of times scanning has restarted from top int error; /* We don't have a key: search the table using rnd_next() */ if ((error= table->file->ha_rnd_init(1))) return error; /* Continue until we find the right record or have made a full loop */ do { /* We need to set the null bytes to ensure that the filler bit are all set when returning. There are storage engines that just set the necessary bits on the bytes and don't set the filler bits correctly. */ my_ptrdiff_t const pos= table->s->null_bytes > 0 ? table->s->null_bytes - 1 : 0; table->record[1][pos]= 0xFF; error= table->file->rnd_next(table->record[1]); switch (error) { case 0: case HA_ERR_RECORD_DELETED: break; case HA_ERR_END_OF_FILE: if (++restart_count < 2) table->file->ha_rnd_init(1); break; default: table->file->print_error(error, MYF(0)); table->file->ha_rnd_end(); DBUG_RETURN(error); } } while (restart_count < 2 && record_compare(table)); /* Have to restart the scan to be able to fetch the next row. */ table->file->ha_rnd_end(); DBUG_ASSERT(error == HA_ERR_END_OF_FILE || error == 0); DBUG_RETURN(error); } DBUG_RETURN(0); } #endif /* Constructor used to build an event for writing to the binary log. */ #ifndef MYSQL_CLIENT Delete_rows_log_event::Delete_rows_log_event(THD *thd_arg, TABLE *tbl_arg, ulong tid, MY_BITMAP const *cols, bool is_transactional) : Rows_log_event(thd_arg, tbl_arg, tid, cols, is_transactional) #ifdef HAVE_REPLICATION ,m_memory(NULL), m_key(NULL), m_after_image(NULL) #endif { } #endif /* #if !defined(MYSQL_CLIENT) */ /* Constructor used by slave to read the event from the binary log. */ #ifdef HAVE_REPLICATION Delete_rows_log_event::Delete_rows_log_event(const char *buf, uint event_len, const Format_description_log_event *description_event) #if defined(MYSQL_CLIENT) : Rows_log_event(buf, event_len, DELETE_ROWS_EVENT, description_event) #else : Rows_log_event(buf, event_len, DELETE_ROWS_EVENT, description_event), m_memory(NULL), m_key(NULL), m_after_image(NULL) #endif { } #endif #if !defined(MYSQL_CLIENT) && defined(HAVE_REPLICATION) int Delete_rows_log_event::do_before_row_operations(TABLE *table) { DBUG_ASSERT(m_memory == NULL); if ((table->file->ha_table_flags() & HA_PRIMARY_KEY_REQUIRED_FOR_POSITION) && table->s->primary_key < MAX_KEY) { /* We don't need to allocate any memory for m_after_image and m_key since they are not used. */ return 0; } int error= 0; if (table->s->keys > 0) { m_memory= my_multi_malloc(MYF(MY_WME), &m_after_image, table->s->reclength, &m_key, table->key_info->key_length, NULL); } else { m_after_image= (byte*)my_malloc(table->s->reclength, MYF(MY_WME)); m_memory= (gptr)m_after_image; m_key= NULL; } if (!m_memory) return HA_ERR_OUT_OF_MEM; return error; } int Delete_rows_log_event::do_after_row_operations(TABLE *table, int error) { /*error= ToDo:find out what this should really be, this triggers close_scan in nbd, returning error?*/ table->file->ha_index_or_rnd_end(); my_free(m_memory, MYF(MY_ALLOW_ZERO_PTR)); // Free for multi_malloc m_memory= NULL; m_after_image= NULL; m_key= NULL; return error; } int Delete_rows_log_event::do_prepare_row(THD *thd, RELAY_LOG_INFO *rli, TABLE *table, char const *const row_start, char const **const row_end) { int error; DBUG_ASSERT(row_start && row_end); /* This assertion actually checks that there is at least as many columns on the slave as on the master. */ DBUG_ASSERT(table->s->fields >= m_width); error= unpack_row(rli, table, m_width, row_start, &m_cols, row_end, &m_master_reclength, table->read_set, DELETE_ROWS_EVENT); /* If we will access rows using the random access method, m_key will be set to NULL, so we do not need to make a key copy in that case. */ if (m_key) { KEY *const key_info= table->key_info; key_copy(m_key, table->record[0], key_info, 0); } return error; } int Delete_rows_log_event::do_exec_row(TABLE *table) { int error; DBUG_ASSERT(table != NULL); if (!(error= find_and_fetch_row(table, m_key))) { /* Now we should have the right row to delete. We are using record[0] since it is guaranteed to point to a record with the correct value. */ error= table->file->ha_delete_row(table->record[0]); } return error; } #endif /* !defined(MYSQL_CLIENT) && defined(HAVE_REPLICATION) */ #ifdef MYSQL_CLIENT void Delete_rows_log_event::print(FILE *file, PRINT_EVENT_INFO* print_event_info) { Rows_log_event::print_helper(file, print_event_info, "Delete_rows"); } #endif /************************************************************************** Update_rows_log_event member functions **************************************************************************/ /* Constructor used to build an event for writing to the binary log. */ #if !defined(MYSQL_CLIENT) Update_rows_log_event::Update_rows_log_event(THD *thd_arg, TABLE *tbl_arg, ulong tid, MY_BITMAP const *cols, bool is_transactional) : Rows_log_event(thd_arg, tbl_arg, tid, cols, is_transactional) #ifdef HAVE_REPLICATION , m_memory(NULL), m_key(NULL) #endif { } #endif /* !defined(MYSQL_CLIENT) */ /* Constructor used by slave to read the event from the binary log. */ #ifdef HAVE_REPLICATION Update_rows_log_event::Update_rows_log_event(const char *buf, uint event_len, const Format_description_log_event *description_event) #if defined(MYSQL_CLIENT) : Rows_log_event(buf, event_len, UPDATE_ROWS_EVENT, description_event) #else : Rows_log_event(buf, event_len, UPDATE_ROWS_EVENT, description_event), m_memory(NULL), m_key(NULL) #endif { } #endif #if !defined(MYSQL_CLIENT) && defined(HAVE_REPLICATION) int Update_rows_log_event::do_before_row_operations(TABLE *table) { DBUG_ASSERT(m_memory == NULL); int error= 0; if (table->s->keys > 0) { m_memory= my_multi_malloc(MYF(MY_WME), &m_after_image, table->s->reclength, &m_key, table->key_info->key_length, NULL); } else { m_after_image= (byte*)my_malloc(table->s->reclength, MYF(MY_WME)); m_memory= (gptr)m_after_image; m_key= NULL; } if (!m_memory) return HA_ERR_OUT_OF_MEM; table->timestamp_field_type= TIMESTAMP_NO_AUTO_SET; return error; } int Update_rows_log_event::do_after_row_operations(TABLE *table, int error) { /*error= ToDo:find out what this should really be, this triggers close_scan in nbd, returning error?*/ table->file->ha_index_or_rnd_end(); my_free(m_memory, MYF(MY_ALLOW_ZERO_PTR)); m_memory= NULL; m_after_image= NULL; m_key= NULL; return error; } int Update_rows_log_event::do_prepare_row(THD *thd, RELAY_LOG_INFO *rli, TABLE *table, char const *const row_start, char const **const row_end) { int error; DBUG_ASSERT(row_start && row_end); /* This assertion actually checks that there is at least as many columns on the slave as on the master. */ DBUG_ASSERT(table->s->fields >= m_width); /* We need to perform some juggling below since unpack_row() always unpacks into table->record[0]. For more information, see the comments for unpack_row(). */ /* record[0] is the before image for the update */ error= unpack_row(rli, table, m_width, row_start, &m_cols, row_end, &m_master_reclength, table->read_set, UPDATE_ROWS_EVENT); store_record(table, record[1]); char const *next_start = *row_end; /* m_after_image is the after image for the update */ error= unpack_row(rli, table, m_width, next_start, &m_cols, row_end, &m_master_reclength, table->write_set, UPDATE_ROWS_EVENT); bmove_align(m_after_image, table->record[0], table->s->reclength); restore_record(table, record[1]); /* Don't print debug messages when running valgrind since they can trigger false warnings. */ #ifndef HAVE_purify DBUG_DUMP("record[0]", (const char *)table->record[0], table->s->reclength); DBUG_DUMP("m_after_image", (const char *)m_after_image, table->s->reclength); #endif /* If we will access rows using the random access method, m_key will be set to NULL, so we do not need to make a key copy in that case. */ if (m_key) { KEY *const key_info= table->key_info; key_copy(m_key, table->record[0], key_info, 0); } return error; } int Update_rows_log_event::do_exec_row(TABLE *table) { DBUG_ASSERT(table != NULL); int error= find_and_fetch_row(table, m_key); if (error) return error; /* We have to ensure that the new record (i.e., the after image) is in record[0] and the old record (i.e., the before image) is in record[1]. This since some storage engines require this (for example, the partition engine). Since find_and_fetch_row() puts the fetched record (i.e., the old record) in record[1], we can keep it there. We put the new record (i.e., the after image) into record[0], and copy the fields that are on the slave (i.e., in record[1]) into record[0], effectively overwriting the default values that where put there by the unpack_row() function. */ bmove_align(table->record[0], m_after_image, table->s->reclength); copy_extra_record_fields(table, m_master_reclength, m_width); /* Now we have the right row to update. The old row (the one we're looking for) is in record[1] and the new row has is in record[0]. We also have copied the original values already in the slave's database into the after image delivered from the master. */ error= table->file->ha_update_row(table->record[1], table->record[0]); return error; } #endif /* !defined(MYSQL_CLIENT) && defined(HAVE_REPLICATION) */ #ifdef MYSQL_CLIENT void Update_rows_log_event::print(FILE *file, PRINT_EVENT_INFO* print_event_info) { Rows_log_event::print_helper(file, print_event_info, "Update_rows"); } #endif