/* Copyright (c) 2000, 2019, Oracle and/or its affiliates. Copyright (c) 2010, 2022, MariaDB 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., 51 Franklin St, Fifth Floor, Boston, MA 02110-1335 USA */ /* drop and alter of tables */ #include "mariadb.h" #include "sql_class.h" #include "sql_priv.h" #include "unireg.h" #include "debug_sync.h" #include "sql_table.h" #include "sql_parse.h" // test_if_data_home_dir #include "sql_cache.h" // query_cache_* #include "sql_base.h" // lock_table_names #include "lock.h" // mysql_unlock_tables #include "strfunc.h" // find_type2, find_set #include "sql_truncate.h" // regenerate_locked_table #include "ha_partition.h" // PAR_EXT // mem_alloc_error, // partition_info // NOT_A_PARTITION_ID #include "sql_db.h" // load_db_opt_by_name #include "records.h" // init_read_record, end_read_record #include "filesort.h" // filesort_free_buffers #include "sql_select.h" // setup_order #include "sql_handler.h" // mysql_ha_rm_tables #include "discover.h" // readfrm #include "my_pthread.h" // pthread_mutex_t #include "log_event.h" // Query_log_event #include "sql_statistics.h" #include #include #include #include "create_options.h" #include "sp_head.h" #include "sp.h" #include "sql_trigger.h" #include "sql_show.h" #include "transaction.h" #include "sql_audit.h" #include "sql_sequence.h" #include "tztime.h" #include "sql_insert.h" // binlog_drop_table #include "ddl_log.h" #include "debug.h" // debug_crash_here() #include #include "wsrep_mysqld.h" #include "rpl_mi.h" #include "rpl_rli.h" #include "log.h" #include "sql_debug.h" #ifdef _WIN32 #include #endif const LEX_CSTRING primary_key_name= { STRING_WITH_LEN("PRIMARY") }; static const LEX_CSTRING generated_by_server= { STRING_WITH_LEN(" /* generated by server */") }; static const LEX_CSTRING SEQUENCE_clex_str= { STRING_WITH_LEN("SEQUENCE") }; static const LEX_CSTRING TABLE_clex_str= { STRING_WITH_LEN("TABLE") }; static int check_if_keyname_exists(const char *name,KEY *start, KEY *end); static char *make_unique_key_name(THD *, const char *, KEY *, KEY *); static bool make_unique_constraint_name(THD *, LEX_CSTRING *, const char *, List *, uint *); static const char *make_unique_invisible_field_name(THD *, const char *, List *); static int copy_data_between_tables(THD *, TABLE *,TABLE *, List &, bool, uint, ORDER *, ha_rows *, ha_rows *, Alter_info::enum_enable_or_disable, Alter_table_ctx *); static int append_system_key_parts(THD *thd, HA_CREATE_INFO *create_info, Key *key); static int mysql_prepare_create_table(THD *, HA_CREATE_INFO *, Alter_info *, uint *, handler *, KEY **, uint *, int, const LEX_CSTRING db, const LEX_CSTRING table_name); static uint blob_length_by_type(enum_field_types type); static bool fix_constraints_names(THD *, List *, const HA_CREATE_INFO *); static bool wait_for_master(THD *thd); static int process_master_state(THD *thd, int alter_result, uint64 &start_alter_id, bool if_exists); static bool write_bin_log_start_alter_rollback(THD *thd, uint64 &start_alter_id, bool &partial_alter, bool if_exists); /** @brief Helper function for explain_filename @param thd Thread handle @param to_p Explained name in system_charset_info @param end_p End of the to_p buffer @param name Name to be converted @param name_len Length of the name, in bytes */ static char* add_identifier(THD* thd, char *to_p, const char * end_p, const char* name, size_t name_len) { uint res; uint errors; const char *conv_name, *conv_name_end; char tmp_name[FN_REFLEN]; char conv_string[FN_REFLEN]; int quote; DBUG_ENTER("add_identifier"); if (!name[name_len]) conv_name= name; else { strnmov(tmp_name, name, name_len); tmp_name[name_len]= 0; conv_name= tmp_name; } res= strconvert(&my_charset_filename, conv_name, name_len, system_charset_info, conv_string, FN_REFLEN, &errors); if (unlikely(!res || errors)) { DBUG_PRINT("error", ("strconvert of '%s' failed with %u (errors: %u)", conv_name, res, errors)); conv_name= name; conv_name_end= name + name_len; } else { DBUG_PRINT("info", ("conv '%s' -> '%s'", conv_name, conv_string)); conv_name= conv_string; conv_name_end= conv_string + res; } quote= (likely(thd) ? get_quote_char_for_identifier(thd, conv_name, res - 1) : '`'); if (quote != EOF && (end_p - to_p > 2)) { *(to_p++)= (char) quote; while (*conv_name && (end_p - to_p - 1) > 0) { int length= system_charset_info->charlen(conv_name, conv_name_end); if (length <= 0) length= 1; if (length == 1 && *conv_name == (char) quote) { if ((end_p - to_p) < 3) break; *(to_p++)= (char) quote; *(to_p++)= *(conv_name++); } else if (((long) length) < (end_p - to_p)) { to_p= strnmov(to_p, conv_name, length); conv_name+= length; } else break; /* string already filled */ } if (end_p > to_p) { *(to_p++)= (char) quote; if (end_p > to_p) *to_p= 0; /* terminate by NUL, but do not include it in the count */ } } else to_p= strnmov(to_p, conv_name, end_p - to_p); DBUG_RETURN(to_p); } /** @brief Explain a path name by split it to database, table etc. @details Break down the path name to its logic parts (database, table, partition, subpartition). filename_to_tablename cannot be used on partitions, due to the #P# part. There can be up to 6 '#', #P# for partition, #SP# for subpartition and #TMP# or #REN# for temporary or renamed partitions. This should be used when something should be presented to a user in a diagnostic, error etc. when it would be useful to know what a particular file [and directory] means. Such as SHOW ENGINE STATUS, error messages etc. Examples: t1#P#p1 table t1 partition p1 t1#P#p1#SP#sp1 table t1 partition p1 subpartition sp1 t1#P#p1#SP#sp1#TMP# table t1 partition p1 subpartition sp1 temporary t1#P#p1#SP#sp1#REN# table t1 partition p1 subpartition sp1 renamed @param thd Thread handle @param from Path name in my_charset_filename Null terminated in my_charset_filename, normalized to use '/' as directory separation character. @param to Explained name in system_charset_info @param to_length Size of to buffer @param explain_mode Requested output format. EXPLAIN_ALL_VERBOSE -> [Database `db`, ]Table `tbl`[,[ Temporary| Renamed] Partition `p` [, Subpartition `sp`]] EXPLAIN_PARTITIONS_VERBOSE -> `db`.`tbl` [[ Temporary| Renamed] Partition `p` [, Subpartition `sp`]] EXPLAIN_PARTITIONS_AS_COMMENT -> `db`.`tbl` |* [,[ Temporary| Renamed] Partition `p` [, Subpartition `sp`]] *| (| is really a /, and it is all in one line) @retval Length of returned string */ uint explain_filename(THD* thd, const char *from, char *to, uint to_length, enum_explain_filename_mode explain_mode) { char *to_p= to; char *end_p= to_p + to_length; const char *db_name= NULL; size_t db_name_len= 0; const char *table_name; size_t table_name_len= 0; const char *part_name= NULL; size_t part_name_len= 0; const char *subpart_name= NULL; size_t subpart_name_len= 0; uint part_type= NORMAL_PART_NAME; const char *tmp_p; DBUG_ENTER("explain_filename"); DBUG_PRINT("enter", ("from '%s'", from)); tmp_p= from; table_name= from; /* If '/' then take last directory part as database. '/' is the directory separator, not FN_LIB_CHAR */ while ((tmp_p= strchr(tmp_p, '/'))) { db_name= table_name; /* calculate the length */ db_name_len= (int)(tmp_p - db_name); tmp_p++; table_name= tmp_p; } tmp_p= table_name; /* Look if there are partition tokens in the table name. */ while ((tmp_p= strchr(tmp_p, '#'))) { tmp_p++; switch (tmp_p[0]) { case 'P': case 'p': if (tmp_p[1] == '#') { part_name= tmp_p + 2; tmp_p+= 2; } break; case 'S': case 's': if ((tmp_p[1] == 'P' || tmp_p[1] == 'p') && tmp_p[2] == '#') { part_name_len= (int)(tmp_p - part_name - 1); subpart_name= tmp_p + 3; tmp_p+= 3; } break; case 'T': case 't': if ((tmp_p[1] == 'M' || tmp_p[1] == 'm') && (tmp_p[2] == 'P' || tmp_p[2] == 'p') && tmp_p[3] == '#' && !tmp_p[4]) { part_type= TEMP_PART_NAME; tmp_p+= 4; } break; case 'R': case 'r': if ((tmp_p[1] == 'E' || tmp_p[1] == 'e') && (tmp_p[2] == 'N' || tmp_p[2] == 'n') && tmp_p[3] == '#' && !tmp_p[4]) { part_type= RENAMED_PART_NAME; tmp_p+= 4; } break; default: /* Not partition name part. */ ; } } if (part_name) { table_name_len= (int)(part_name - table_name - 3); if (subpart_name) subpart_name_len= strlen(subpart_name); else part_name_len= strlen(part_name); if (part_type != NORMAL_PART_NAME) { if (subpart_name) subpart_name_len-= 5; else part_name_len-= 5; } } else table_name_len= strlen(table_name); if (db_name) { if (explain_mode == EXPLAIN_ALL_VERBOSE) { to_p= strnmov(to_p, ER_THD_OR_DEFAULT(thd, ER_DATABASE_NAME), end_p - to_p); *(to_p++)= ' '; to_p= add_identifier(thd, to_p, end_p, db_name, db_name_len); to_p= strnmov(to_p, ", ", end_p - to_p); } else { to_p= add_identifier(thd, to_p, end_p, db_name, db_name_len); to_p= strnmov(to_p, ".", end_p - to_p); } } if (explain_mode == EXPLAIN_ALL_VERBOSE) { to_p= strnmov(to_p, ER_THD_OR_DEFAULT(thd, ER_TABLE_NAME), end_p - to_p); *(to_p++)= ' '; to_p= add_identifier(thd, to_p, end_p, table_name, table_name_len); } else to_p= add_identifier(thd, to_p, end_p, table_name, table_name_len); if (part_name) { if (explain_mode == EXPLAIN_PARTITIONS_AS_COMMENT) to_p= strnmov(to_p, " /* ", end_p - to_p); else if (explain_mode == EXPLAIN_PARTITIONS_VERBOSE) to_p= strnmov(to_p, " ", end_p - to_p); else to_p= strnmov(to_p, ", ", end_p - to_p); if (part_type != NORMAL_PART_NAME) { if (part_type == TEMP_PART_NAME) to_p= strnmov(to_p, ER_THD_OR_DEFAULT(thd, ER_TEMPORARY_NAME), end_p - to_p); else to_p= strnmov(to_p, ER_THD_OR_DEFAULT(thd, ER_RENAMED_NAME), end_p - to_p); to_p= strnmov(to_p, " ", end_p - to_p); } to_p= strnmov(to_p, ER_THD_OR_DEFAULT(thd, ER_PARTITION_NAME), end_p - to_p); *(to_p++)= ' '; to_p= add_identifier(thd, to_p, end_p, part_name, part_name_len); if (subpart_name) { to_p= strnmov(to_p, ", ", end_p - to_p); to_p= strnmov(to_p, ER_THD_OR_DEFAULT(thd, ER_SUBPARTITION_NAME), end_p - to_p); *(to_p++)= ' '; to_p= add_identifier(thd, to_p, end_p, subpart_name, subpart_name_len); } if (explain_mode == EXPLAIN_PARTITIONS_AS_COMMENT) to_p= strnmov(to_p, " */", end_p - to_p); } DBUG_PRINT("exit", ("to '%s'", to)); DBUG_RETURN((uint)(to_p - to)); } /* Translate a file name to a table name (WL #1324). SYNOPSIS filename_to_tablename() from The file name in my_charset_filename. to OUT The table name in system_charset_info. to_length The size of the table name buffer. RETURN Table name length. */ uint filename_to_tablename(const char *from, char *to, size_t to_length, bool stay_quiet) { uint errors; size_t res; DBUG_ENTER("filename_to_tablename"); DBUG_PRINT("enter", ("from '%s'", from)); res= strconvert(&my_charset_filename, from, FN_REFLEN, system_charset_info, to, to_length, &errors); if (unlikely(errors)) // Old 5.0 name { res= (strxnmov(to, to_length, MYSQL50_TABLE_NAME_PREFIX, from, NullS) - to); if (!stay_quiet) sql_print_error("Invalid (old?) table or database name '%s'", from); } DBUG_PRINT("exit", ("to '%s'", to)); DBUG_RETURN((uint)res); } /** Check if given string begins with "#mysql50#" prefix @param name string to check cut @retval FALSE no prefix found @retval TRUE prefix found */ bool check_mysql50_prefix(const char *name) { return (name[0] == '#' && !strncmp(name, MYSQL50_TABLE_NAME_PREFIX, MYSQL50_TABLE_NAME_PREFIX_LENGTH)); } /** Check if given string begins with "#mysql50#" prefix, cut it if so. @param from string to check and cut @param to[out] buffer for result string @param to_length its size @retval 0 no prefix found @retval non-0 result string length */ uint check_n_cut_mysql50_prefix(const char *from, char *to, size_t to_length) { if (check_mysql50_prefix(from)) return (uint) (strmake(to, from + MYSQL50_TABLE_NAME_PREFIX_LENGTH, to_length - 1) - to); return 0; } static bool check_if_frm_exists(char *path, const char *db, const char *table) { fn_format(path, table, db, reg_ext, MYF(0)); return !access(path, F_OK); } /* Translate a table name to a file name (WL #1324). SYNOPSIS tablename_to_filename() from The table name in system_charset_info. to OUT The file name in my_charset_filename. to_length The size of the file name buffer. RETURN File name length. */ uint tablename_to_filename(const char *from, char *to, size_t to_length) { uint errors, length; DBUG_ENTER("tablename_to_filename"); DBUG_PRINT("enter", ("from '%s'", from)); if ((length= check_n_cut_mysql50_prefix(from, to, to_length))) { /* Check if the name supplied is a valid mysql 5.0 name and make the name a zero length string if it's not. Note that just returning zero length is not enough : a lot of places don't check the return value and expect a zero terminated string. */ if (check_table_name(to, length, TRUE)) { to[0]= 0; length= 0; } DBUG_RETURN(length); } length= strconvert(system_charset_info, from, FN_REFLEN, &my_charset_filename, to, to_length, &errors); if (check_if_legal_tablename(to) && length + 4 < to_length) { memcpy(to + length, "@@@", 4); length+= 3; } DBUG_PRINT("exit", ("to '%s'", to)); DBUG_RETURN(length); } /* Creates path to a file: mysql_data_dir/db/table.ext SYNOPSIS build_table_filename() buff Where to write result in my_charset_filename. This may be the same as table_name. bufflen buff size db Database name in system_charset_info. table_name Table name in system_charset_info. ext File extension. flags FN_FROM_IS_TMP or FN_TO_IS_TMP or FN_IS_TMP table_name is temporary, do not change. NOTES Uses database and table name, and extension to create a file name in mysql_data_dir. Database and table names are converted from system_charset_info into "fscs". Unless flags indicate a temporary table name. 'db' is always converted. 'ext' is not converted. The conversion suppression is required for ALTER TABLE. This statement creates intermediate tables. These are regular (non-temporary) tables with a temporary name. Their path names must be derivable from the table name. So we cannot use build_tmptable_filename() for them. RETURN path length */ uint build_table_filename(char *buff, size_t bufflen, const char *db, const char *table_name, const char *ext, uint flags) { char dbbuff[FN_REFLEN]; char tbbuff[FN_REFLEN]; DBUG_ENTER("build_table_filename"); DBUG_PRINT("enter", ("db: '%s' table_name: '%s' ext: '%s' flags: %x", db, table_name, ext, flags)); (void) tablename_to_filename(db, dbbuff, sizeof(dbbuff)); /* Check if this is a temporary table name. Allow it if a corresponding .frm file exists. */ if (!(flags & FN_IS_TMP) && is_prefix(table_name, tmp_file_prefix) && strlen(table_name) < NAME_CHAR_LEN && check_if_frm_exists(tbbuff, dbbuff, table_name)) flags|= FN_IS_TMP; if (flags & FN_IS_TMP) // FN_FROM_IS_TMP | FN_TO_IS_TMP strmake(tbbuff, table_name, sizeof(tbbuff)-1); else (void) tablename_to_filename(table_name, tbbuff, sizeof(tbbuff)); char *end = buff + bufflen; char *pos= strnmov(buff, mysql_data_home, bufflen-3); /* Add FN_LIBCHAR if mysql_data_home does not include it In most cases mysql_data_home is just '.' */ if (pos[-1] != FN_LIBCHAR) *pos++= FN_LIBCHAR; pos= strxnmov(pos, end - 2 - pos, dbbuff,NullS); *pos++= FN_LIBCHAR; *pos= 0; #ifdef USE_SYMDIR if (!(flags & SKIP_SYMDIR_ACCESS)) { unpack_dirname(buff, buff); pos= strend(buff); } #endif pos= strxnmov(pos, end - pos, tbbuff, ext, NullS); DBUG_PRINT("exit", ("buff: '%s'", buff)); DBUG_RETURN((uint)(pos - buff)); } /** Create path to a temporary table mysql_tmpdir/#sql-temptable-1234-12-1 (i.e. to its .FRM file but without an extension). @param thd The thread handle. @param buff Where to write result in my_charset_filename. @param bufflen buff size @note Uses current_pid, thread_id, and tmp_table counter to create a file name in mysql_tmpdir. @return Path length. */ uint build_tmptable_filename(THD* thd, char *buff, size_t bufflen) { DBUG_ENTER("build_tmptable_filename"); char *p= strnmov(buff, mysql_tmpdir, bufflen); my_snprintf(p, bufflen - (p - buff), "/%s-temptable-%lx-%llx-%x", tmp_file_prefix, current_pid, thd->thread_id, thd->tmp_table++); if (lower_case_table_names) { /* Convert all except tmpdir to lower case */ my_casedn_str(files_charset_info, p); } size_t length= unpack_filename(buff, buff); DBUG_PRINT("exit", ("buff: '%s'", buff)); DBUG_RETURN((uint)length); } /* Create lower case paths for engines that requires them */ void build_lower_case_table_filename(char *buff, size_t bufflen, const LEX_CSTRING *db, const LEX_CSTRING *table, uint flags) { char table_name[SAFE_NAME_LEN+1], db_name[SAFE_NAME_LEN+1]; DBUG_ASSERT(db->length <= SAFE_NAME_LEN && table->length <= SAFE_NAME_LEN); memcpy(db_name, db->str, db->length); db_name[db->length]= 0; my_casedn_str(files_charset_info, db_name); memcpy(table_name, table->str, table->length); table_name[table->length]= 0; my_casedn_str(files_charset_info, table_name); build_table_filename(buff, bufflen, db_name, table_name, "", flags & FN_IS_TMP); } /** @brief construct a temporary shadow file name. @details Make a shadow file name used by ALTER TABLE to construct the modified table (with keeping the original). The modified table is then moved back as original table. The name must start with the temp file prefix so it gets filtered out by table files listing routines. @param[out] buff buffer to receive the constructed name @param bufflen size of buff @param lpt alter table data structure @retval path length */ uint build_table_shadow_filename(char *buff, size_t bufflen, ALTER_PARTITION_PARAM_TYPE *lpt, bool backup) { char tmp_name[FN_REFLEN]; my_snprintf(tmp_name, sizeof (tmp_name), "%s-%s-%lx-%s", tmp_file_prefix, backup ? "backup" : "shadow", (ulong) current_thd->thread_id, lpt->table_name.str); return build_table_filename(buff, bufflen, lpt->db.str, tmp_name, "", FN_IS_TMP); } /* SYNOPSIS mysql_write_frm() lpt Struct carrying many parameters needed for this method flags Flags as defined below WFRM_INITIAL_WRITE If set we need to prepare table before creating the frm file WFRM_INSTALL_SHADOW If set we should install the new frm WFRM_KEEP_SHARE If set we know that the share is to be retained and thus we should ensure share object is correct, if not set we don't set the new partition syntax string since we know the share object is destroyed. WFRM_PACK_FRM If set we should pack the frm file and delete the frm file RETURN VALUES TRUE Error FALSE Success DESCRIPTION A support method that creates a new frm file and in this process it regenerates the partition data. It works fine also for non-partitioned tables since it only handles partitioned data if it exists. */ /* TODO: Partitioning atomic DDL refactoring: WFRM_WRITE_SHADOW should be merged with create_table_impl(frm_only == true). */ bool mysql_write_frm(ALTER_PARTITION_PARAM_TYPE *lpt, uint flags) { /* Prepare table to prepare for writing a new frm file where the partitions in add/drop state have temporarily changed their state We set tmp_table to avoid get errors on naming of primary key index. */ int error= 0; char path[FN_REFLEN+1]; char shadow_path[FN_REFLEN+1]; char shadow_frm_name[FN_REFLEN+1]; char frm_name[FN_REFLEN+1]; #ifdef WITH_PARTITION_STORAGE_ENGINE char bak_path[FN_REFLEN+1]; char bak_frm_name[FN_REFLEN+1]; char *part_syntax_buf; uint syntax_len; partition_info *part_info= lpt->part_info; #endif DBUG_ENTER("mysql_write_frm"); /* Build shadow frm file name */ build_table_shadow_filename(shadow_path, sizeof(shadow_path) - 1, lpt); strxmov(shadow_frm_name, shadow_path, reg_ext, NullS); if (flags & WFRM_WRITE_SHADOW) { if (mysql_prepare_create_table(lpt->thd, lpt->create_info, lpt->alter_info, &lpt->db_options, lpt->table->file, &lpt->key_info_buffer, &lpt->key_count, C_ALTER_TABLE, lpt->db, lpt->table_name)) { DBUG_RETURN(TRUE); } #ifdef WITH_PARTITION_STORAGE_ENGINE { partition_info *part_info= lpt->table->part_info; if (part_info) { part_syntax_buf= generate_partition_syntax_for_frm(lpt->thd, part_info, &syntax_len, lpt->create_info, lpt->alter_info); if (!part_syntax_buf) DBUG_RETURN(TRUE); part_info->part_info_string= part_syntax_buf; part_info->part_info_len= syntax_len; } } #endif /* Write shadow frm file */ lpt->create_info->table_options= lpt->db_options; LEX_CUSTRING frm= build_frm_image(lpt->thd, lpt->table_name, lpt->create_info, lpt->alter_info->create_list, lpt->key_count, lpt->key_info_buffer, lpt->table->file); if (!frm.str) { error= 1; goto end; } int error= writefile(shadow_frm_name, lpt->db.str, lpt->table_name.str, lpt->create_info->tmp_table(), frm.str, frm.length); my_free(const_cast(frm.str)); if (unlikely(error) || unlikely(lpt->table->file-> ha_create_partitioning_metadata(shadow_path, NULL, CHF_CREATE_FLAG))) { mysql_file_delete(key_file_frm, shadow_frm_name, MYF(0)); error= 1; goto end; } } #ifdef WITH_PARTITION_STORAGE_ENGINE if (flags & WFRM_WRITE_CONVERTED_TO) { THD *thd= lpt->thd; Alter_table_ctx *alter_ctx= lpt->alter_ctx; HA_CREATE_INFO *create_info= lpt->create_info; LEX_CSTRING new_path= { alter_ctx->get_new_path(), 0 }; partition_info *work_part_info= thd->work_part_info; handlerton *db_type= create_info->db_type; DBUG_ASSERT(lpt->table->part_info); DBUG_ASSERT(lpt->table->part_info == part_info); handler *file= ((ha_partition *)(lpt->table->file))->get_child_handlers()[0]; DBUG_ASSERT(file); new_path.length= strlen(new_path.str); strxnmov(frm_name, sizeof(frm_name) - 1, new_path.str, reg_ext, NullS); create_info->alias= alter_ctx->table_name; thd->work_part_info= NULL; create_info->db_type= work_part_info->default_engine_type; /* NOTE: partitioned temporary tables are not supported. */ DBUG_ASSERT(!create_info->tmp_table()); if (ddl_log_create_table(part_info, create_info->db_type, &new_path, &alter_ctx->new_db, &alter_ctx->new_name, true) || ERROR_INJECT("create_before_create_frm")) DBUG_RETURN(TRUE); if (mysql_prepare_create_table(thd, create_info, lpt->alter_info, &lpt->db_options, file, &lpt->key_info_buffer, &lpt->key_count, C_ALTER_TABLE, alter_ctx->new_db, alter_ctx->new_name)) DBUG_RETURN(TRUE); lpt->create_info->table_options= lpt->db_options; LEX_CUSTRING frm= build_frm_image(thd, alter_ctx->new_name, create_info, lpt->alter_info->create_list, lpt->key_count, lpt->key_info_buffer, file); if (unlikely(!frm.str)) DBUG_RETURN(TRUE); thd->work_part_info= work_part_info; create_info->db_type= db_type; ERROR_INJECT("alter_partition_after_create_frm"); error= writefile(frm_name, alter_ctx->new_db.str, alter_ctx->new_name.str, create_info->tmp_table(), frm.str, frm.length); my_free((void *) frm.str); if (unlikely(error) || ERROR_INJECT("alter_partition_after_write_frm")) { mysql_file_delete(key_file_frm, frm_name, MYF(0)); DBUG_RETURN(TRUE); } DBUG_RETURN(false); } if (flags & WFRM_BACKUP_ORIGINAL) { build_table_filename(path, sizeof(path) - 1, lpt->db.str, lpt->table_name.str, "", 0); strxnmov(frm_name, sizeof(frm_name), path, reg_ext, NullS); build_table_shadow_filename(bak_path, sizeof(bak_path) - 1, lpt, true); strxmov(bak_frm_name, bak_path, reg_ext, NullS); DDL_LOG_MEMORY_ENTRY *main_entry= part_info->main_entry; mysql_mutex_lock(&LOCK_gdl); if (write_log_replace_frm(lpt, part_info->list->entry_pos, (const char*) bak_path, (const char*) path) || ddl_log_write_execute_entry(part_info->list->entry_pos, &part_info->execute_entry)) { mysql_mutex_unlock(&LOCK_gdl); DBUG_RETURN(TRUE); } mysql_mutex_unlock(&LOCK_gdl); part_info->main_entry= main_entry; if (mysql_file_rename(key_file_frm, frm_name, bak_frm_name, MYF(MY_WME))) DBUG_RETURN(TRUE); if (lpt->table->file->ha_create_partitioning_metadata(bak_path, path, CHF_RENAME_FLAG)) DBUG_RETURN(TRUE); } #else /* !WITH_PARTITION_STORAGE_ENGINE */ DBUG_ASSERT(!(flags & WFRM_BACKUP_ORIGINAL)); #endif /* !WITH_PARTITION_STORAGE_ENGINE */ if (flags & WFRM_INSTALL_SHADOW) { #ifdef WITH_PARTITION_STORAGE_ENGINE partition_info *part_info= lpt->part_info; #endif /* Build frm file name */ build_table_filename(path, sizeof(path) - 1, lpt->db.str, lpt->table_name.str, "", 0); strxnmov(frm_name, sizeof(frm_name), path, reg_ext, NullS); /* When we are changing to use new frm file we need to ensure that we don't collide with another thread in process to open the frm file. We start by deleting the .frm file and possible .par file. Then we write to the DDL log that we have completed the delete phase by increasing the phase of the log entry. Next step is to rename the new .frm file and the new .par file to the real name. After completing this we write a new phase to the log entry that will deactivate it. */ if (!(flags & WFRM_BACKUP_ORIGINAL) && ( mysql_file_delete(key_file_frm, frm_name, MYF(MY_WME)) #ifdef WITH_PARTITION_STORAGE_ENGINE || lpt->table->file->ha_create_partitioning_metadata(path, shadow_path, CHF_DELETE_FLAG) || ddl_log_increment_phase(part_info->main_entry->entry_pos) || (ddl_log_sync(), FALSE) #endif )) { error= 1; goto err; } if (mysql_file_rename(key_file_frm, shadow_frm_name, frm_name, MYF(MY_WME)) #ifdef WITH_PARTITION_STORAGE_ENGINE || lpt->table->file->ha_create_partitioning_metadata(path, shadow_path, CHF_RENAME_FLAG) #endif ) { error= 1; goto err; } #ifdef WITH_PARTITION_STORAGE_ENGINE if (part_info && (flags & WFRM_KEEP_SHARE)) { TABLE_SHARE *share= lpt->table->s; char *tmp_part_syntax_str; part_syntax_buf= generate_partition_syntax_for_frm(lpt->thd, part_info, &syntax_len, lpt->create_info, lpt->alter_info); if (!part_syntax_buf) { error= 1; goto err; } if (share->partition_info_buffer_size < syntax_len + 1) { share->partition_info_buffer_size= syntax_len+1; if (!(tmp_part_syntax_str= (char*) strmake_root(&share->mem_root, part_syntax_buf, syntax_len))) { error= 1; goto err; } share->partition_info_str= tmp_part_syntax_str; } else memcpy((char*) share->partition_info_str, part_syntax_buf, syntax_len + 1); share->partition_info_str_len= part_info->part_info_len= syntax_len; part_info->part_info_string= part_syntax_buf; } #endif err: #ifdef WITH_PARTITION_STORAGE_ENGINE ddl_log_increment_phase(part_info->main_entry->entry_pos); part_info->main_entry= NULL; (void) ddl_log_sync(); #endif ; } end: DBUG_RETURN(error); } /* SYNOPSIS write_bin_log() thd Thread object clear_error is clear_error to be called query Query to log query_length Length of query is_trans if the event changes either a trans or non-trans engine. RETURN VALUES NONE DESCRIPTION Write the binlog if open, routine used in multiple places in this file */ int write_bin_log(THD *thd, bool clear_error, char const *query, ulong query_length, bool is_trans) { int error= 0; if (mysql_bin_log.is_open()) { int errcode= 0; thd_proc_info(thd, "Writing to binlog"); if (clear_error) { if (global_system_variables.log_warnings > 2) { uint err_clear= thd->is_error() ? thd->get_stmt_da()->sql_errno() : 0; if (err_clear) sql_print_warning("Error code %d of query '%s' is cleared at its " "binary logging.", err_clear, query); } thd->clear_error(); } else errcode= query_error_code(thd, TRUE); error= thd->binlog_query(THD::STMT_QUERY_TYPE, query, query_length, is_trans, FALSE, FALSE, errcode) > 0; thd_proc_info(thd, 0); } return error; } /** Write to binary log the query event whose text is taken from thd->query(). @param thd Thread handle. @param clear_error Whether to clear out any error from execution context and binlog event. @param is_trans Whether the query changed transactional data. @param add_if_exists True indicates the binary logging of the query should be done with "if exists" option. @param commit_alter Whether the query should be binlogged as Commit Alter. @return false on Success @return true otherwise */ int write_bin_log_with_if_exists(THD *thd, bool clear_error, bool is_trans, bool add_if_exists, bool commit_alter) { int result; ulonglong save_option_bits= thd->variables.option_bits; if (add_if_exists) thd->variables.option_bits|= OPTION_IF_EXISTS; if (commit_alter) thd->set_binlog_flags_for_alter(Gtid_log_event::FL_COMMIT_ALTER_E1); result= write_bin_log(thd, clear_error, thd->query(), thd->query_length(), is_trans); if (commit_alter) { thd->set_binlog_flags_for_alter(0); thd->set_binlog_start_alter_seq_no(0); } thd->variables.option_bits= save_option_bits; return result; } /* delete (drop) tables. SYNOPSIS mysql_rm_table() thd Thread handle tables List of tables to delete if_exists If 1, don't give error if one table doesn't exists drop_temporary 1 if DROP TEMPORARY drop_sequence 1 if DROP SEQUENCE dont_log_query 1 if no write to binary log and no send of ok NOTES Will delete all tables that can be deleted and give a compact error messages for tables that could not be deleted. If a table is in use, we will wait for all users to free the table before dropping it Wait if global_read_lock (FLUSH TABLES WITH READ LOCK) is set, but not if under LOCK TABLES. RETURN FALSE OK. In this case ok packet is sent to user TRUE Error */ bool mysql_rm_table(THD *thd,TABLE_LIST *tables, bool if_exists, bool drop_temporary, bool drop_sequence, bool dont_log_query) { bool error; Drop_table_error_handler err_handler; TABLE_LIST *table; DBUG_ENTER("mysql_rm_table"); /* Disable drop of enabled log tables, must be done before name locking */ for (table= tables; table; table= table->next_local) { if (check_if_log_table(table, TRUE, "DROP")) DBUG_RETURN(true); } if (!drop_temporary) { if (!thd->locked_tables_mode) { if (drop_sequence) { /* We are trying to drop a sequence. Change all temporary tables that are not sequences to normal tables so that we can try to drop them instead. If we don't do this, we will get an error 'not a sequence' when trying to drop a sequence that is hidden by a temporary table. */ for (table= tables; table; table= table->next_global) { if (table->open_type == OT_TEMPORARY_OR_BASE && is_temporary_table(table) && !table->table->s->sequence) { thd->mark_tmp_table_as_free_for_reuse(table->table); table->table= NULL; } } } if (lock_table_names(thd, tables, NULL, thd->variables.lock_wait_timeout, 0)) DBUG_RETURN(true); } else { for (table= tables; table; table= table->next_local) { if (is_temporary_table(table)) { /* A temporary table. Don't try to find a corresponding MDL lock or assign it to table->mdl_request.ticket. There can't be metadata locks for temporary tables: they are local to the session. Later in this function we release the MDL lock only if table->mdl_requeset.ticket is not NULL. Thus here we ensure that we won't release the metadata lock on the base table locked with LOCK TABLES as a side effect of temporary table drop. */ DBUG_ASSERT(table->mdl_request.ticket == NULL); } else { /* Not a temporary table. Since 'tables' list can't contain duplicates (this is ensured by parser) it is safe to cache pointer to the TABLE instances in its elements. */ table->table= find_table_for_mdl_upgrade(thd, table->db.str, table->table_name.str, NULL); if (!table->table) DBUG_RETURN(true); table->mdl_request.ticket= table->table->mdl_ticket; } } } /* We remove statistics for table last, after we have the DDL lock */ for (table= tables; table; table= table->next_local) { LEX_CSTRING db_name= table->db; LEX_CSTRING table_name= table->table_name; if (!is_temporary_table(table)) (void) delete_statistics_for_table(thd, &db_name, &table_name); } } /* mark for close and remove all cached entries */ thd->push_internal_handler(&err_handler); error= mysql_rm_table_no_locks(thd, tables, &thd->db, (DDL_LOG_STATE*) 0, if_exists, drop_temporary, false, drop_sequence, dont_log_query, false); thd->pop_internal_handler(); if (unlikely(error)) DBUG_RETURN(TRUE); if (!dont_log_query) my_ok(thd); DBUG_RETURN(FALSE); } /** Find the comment in the query. That's auxiliary function to be used handling DROP TABLE [comment]. @param thd Thread handler @param comment_pos How many characters to skip before the comment. Can be either 9 for DROP TABLE or 17 for DROP TABLE IF EXISTS @param comment_start returns the beginning of the comment if found. @retval 0 no comment found @retval >0 the lenght of the comment found */ static uint32 get_comment(THD *thd, uint32 comment_pos, const char **comment_start) { /* We use uchar * here to make array indexing portable */ const uchar *query= (uchar*) thd->query(); const uchar *query_end= (uchar*) query + thd->query_length(); const uchar *const state_map= thd->charset()->state_map; *comment_start= ""; // Ensure it points to something for (; query < query_end; query++) { if (state_map[static_cast(*query)] == MY_LEX_SKIP) continue; if (comment_pos-- == 0) break; } if (query > query_end - 3 /* comment can't be shorter than 4 */ || state_map[static_cast(*query)] != MY_LEX_LONG_COMMENT || query[1] != '*') return 0; *comment_start= (char*) query; for (query+= 3; query < query_end; query++) { if (query[-1] == '*' && query[0] == '/') return (uint32)((char*) query - *comment_start + 1); } return 0; } /** Execute the drop of a sequence, view or table (normal or temporary). @param thd Thread handler @param tables Tables to drop @param current_db Current database, used for ddl logs @param ddl_log_state DDL log state, for global ddl logging (used by DROP DATABASE. If not set, an internal ddl log state will be used. If set then the caller must call ddl_log_complete(ddl_log_state); @param if_exists If set, don't give an error if table doesn't exists. In this case we give an warning of level 'NOTE' @param drop_temporary Only drop temporary tables @param drop_view Allow to delete VIEW .frm @param dont_log_query Don't write query to log files. This will also not generate warnings if the handler files doesn't exists @param dont_free_locks Don't do automatic UNLOCK TABLE if no more locked tables @retval 0 ok @retval 1 Error @retval -1 Thread was killed @note This function assumes that metadata locks have already been taken. It is also assumed that the tables have been removed from TDC. @note This function assumes that temporary tables to be dropped have been pre-opened using corresponding table list elements. @todo When logging to the binary log, we should log tmp_tables and transactional tables as separate statements if we are in a transaction; This is needed to get these tables into the cached binary log that is only written on COMMIT. The current code only writes DROP statements that only uses temporary tables to the cache binary log. This should be ok on most cases, but not all. */ int mysql_rm_table_no_locks(THD *thd, TABLE_LIST *tables, const LEX_CSTRING *current_db, DDL_LOG_STATE *ddl_log_state, bool if_exists, bool drop_temporary, bool drop_view, bool drop_sequence, bool dont_log_query, bool dont_free_locks) { TABLE_LIST *table; char path[FN_REFLEN + 1]; LEX_CSTRING alias= null_clex_str; LEX_CUSTRING version; LEX_CSTRING partition_engine_name= {NULL, 0}; StringBuffer<160> unknown_tables(system_charset_info); DDL_LOG_STATE local_ddl_log_state; const char *comment_start; uint table_count= 0, non_temp_tables_count= 0; int error= 0; uint32 comment_len; bool trans_tmp_table_deleted= 0, non_trans_tmp_table_deleted= 0; bool is_drop_tmp_if_exists_added= 0, non_tmp_table_deleted= 0; bool log_if_exists= if_exists; const LEX_CSTRING *object_to_drop= ((drop_sequence) ? &SEQUENCE_clex_str : &TABLE_clex_str); String normal_tables; String built_trans_tmp_query, built_non_trans_tmp_query; DBUG_ENTER("mysql_rm_table_no_locks"); if (!ddl_log_state) { ddl_log_state= &local_ddl_log_state; bzero(ddl_log_state, sizeof(*ddl_log_state)); } unknown_tables.length(0); comment_len= get_comment(thd, if_exists ? 17:9, &comment_start); /* Prepares the drop statements that will be written into the binary log as follows: 1 - If we are not processing a "DROP TEMPORARY" it prepares a "DROP". 2 - A "DROP" may result in a "DROP TEMPORARY" but the opposite is not true. 3 - If the current format is row, the IF EXISTS token needs to be appended because one does not know if CREATE TEMPORARY was previously written to the binary log. 4 - Add the IF_EXISTS token if necessary, i.e. if_exists is TRUE. 5 - For temporary tables, there is a need to differentiate tables in transactional and non-transactional storage engines. For that, reason, two types of drop statements are prepared. The need to different the type of tables when dropping a temporary table stems from the fact that such drop does not commit an ongoing transaction and changes to non-transactional tables must be written ahead of the transaction in some circumstances. 6- Slave SQL thread ignores all replicate-* filter rules for temporary tables with 'IF EXISTS' clause. (See sql/sql_parse.cc: mysql_execute_command() for details). These commands will be binlogged as they are, even if the default database (from USE `db`) is not present on the Slave. This can cause point in time recovery failures later when user uses the slave's binlog to re-apply. Hence at the time of binary logging, these commands will be written with fully qualified table names and use `db` will be suppressed. */ normal_tables.set_charset(thd->charset()); if (!dont_log_query) { built_trans_tmp_query.set_charset(system_charset_info); built_trans_tmp_query.append(STRING_WITH_LEN("DROP TEMPORARY ")); built_trans_tmp_query.append(object_to_drop); built_trans_tmp_query.append(' '); if (thd->is_current_stmt_binlog_format_row() || if_exists) { is_drop_tmp_if_exists_added= true; built_trans_tmp_query.append(STRING_WITH_LEN("IF EXISTS ")); } built_non_trans_tmp_query.set_charset(system_charset_info); built_non_trans_tmp_query.copy(built_trans_tmp_query); } for (table= tables; table; table= table->next_local) { bool is_trans= 0, temporary_table_was_dropped= 0; bool table_creation_was_logged= 0; bool wrong_drop_sequence= 0; bool table_dropped= 0, res; bool is_temporary= 0; const LEX_CSTRING db= table->db; const LEX_CSTRING table_name= table->table_name; LEX_CSTRING cpath= {0,0}; handlerton *hton= 0; Table_type table_type; size_t path_length= 0; char *path_end= 0; error= 0; DBUG_PRINT("table", ("table_l: '%s'.'%s' table: %p s: %p", db.str, table_name.str, table->table, table->table ? table->table->s : NULL)); /* If we are in locked tables mode and are dropping a temporary table, the ticket should be NULL to ensure that we don't release a lock on a base table later. */ DBUG_ASSERT(!(thd->locked_tables_mode && table->open_type != OT_BASE_ONLY && thd->find_temporary_table(table) && table->mdl_request.ticket != NULL)); if (drop_sequence && table->table && table->table->s->table_type != TABLE_TYPE_SEQUENCE) { if (if_exists) { char buff[FN_REFLEN]; String tbl_name(buff, sizeof(buff), system_charset_info); tbl_name.length(0); tbl_name.append(&db); tbl_name.append('.'); tbl_name.append(&table->table_name); push_warning_printf(thd, Sql_condition::WARN_LEVEL_NOTE, ER_NOT_SEQUENCE2, ER_THD(thd, ER_NOT_SEQUENCE2), tbl_name.c_ptr_safe()); /* Our job is done here. This statement was added to avoid executing unnecessary code farther below which in some strange corner cases caused the server to crash (see MDEV-17896). */ continue; } /* "DROP SEQUENCE" but a sequence table was not found */ unknown_tables.append(&db); unknown_tables.append('.'); unknown_tables.append(&table_name); unknown_tables.append(','); error= ENOENT; continue; } /* First try to delete temporary tables and temporary sequences */ if ((table->open_type != OT_BASE_ONLY && is_temporary_table(table))) { table_creation_was_logged= table->table->s->table_creation_was_logged; if (thd->drop_temporary_table(table->table, &is_trans, true)) error= 1; else { table->table= 0; temporary_table_was_dropped= 1; } is_temporary= 1; } if ((drop_temporary && if_exists) || temporary_table_was_dropped) { /* This handles the case of temporary tables. We have the following cases: - "DROP TEMPORARY" was executed and table was dropped temporary_table_was_dropped == 1 - "DROP TEMPORARY IF EXISTS" was specified but no temporary table existed temporary_table_was_dropped == 0 */ if (!dont_log_query && table_creation_was_logged) { if (is_trans) trans_tmp_table_deleted= TRUE; else non_trans_tmp_table_deleted= TRUE; String *built_ptr_query= (is_trans ? &built_trans_tmp_query : &built_non_trans_tmp_query); /* Write the database name if it is not the current one or if thd->db is NULL or 'IF EXISTS' clause is present in 'DROP TEMPORARY' query. */ if (thd->db.str == NULL || cmp(&db, &thd->db) || is_drop_tmp_if_exists_added ) { append_identifier(thd, built_ptr_query, &db); built_ptr_query->append('.'); } append_identifier(thd, built_ptr_query, &table_name); built_ptr_query->append(','); } /* This means that a temporary table was droped and as such there is no need to proceed with the code that tries to drop a regular table. */ if (temporary_table_was_dropped) continue; } else if (!drop_temporary) { non_temp_tables_count++; DBUG_ASSERT(thd->mdl_context.is_lock_owner(MDL_key::TABLE, db.str, table_name.str, MDL_SHARED)); alias= (lower_case_table_names == 2) ? table->alias : table_name; /* remove .frm file and engine files */ path_length= build_table_filename(path, sizeof(path) - 1, db.str, alias.str, reg_ext, 0); path_end= path + path_length - reg_ext_length; } DEBUG_SYNC(thd, "rm_table_no_locks_before_delete_table"); if (drop_temporary) { /* "DROP TEMPORARY" but a temporary table was not found */ unknown_tables.append(&db); unknown_tables.append('.'); unknown_tables.append(&table_name); unknown_tables.append(','); error= ENOENT; continue; } lex_string_set3(&cpath, path, (size_t) (path_end - path)); { char engine_buf[NAME_CHAR_LEN + 1]; LEX_CSTRING engine= { engine_buf, 0 }; table_type= dd_frm_type(thd, path, &engine, &partition_engine_name, &version); if (table_type == TABLE_TYPE_NORMAL || table_type == TABLE_TYPE_SEQUENCE) { plugin_ref p= plugin_lock_by_name(thd, &engine, MYSQL_STORAGE_ENGINE_PLUGIN); hton= p ? plugin_hton(p) : NULL; } // note that for TABLE_TYPE_VIEW and TABLE_TYPE_UNKNOWN hton == NULL } thd->replication_flags= 0; const bool was_view= table_type == TABLE_TYPE_VIEW; if (!table_count++) { LEX_CSTRING comment= {comment_start, (size_t) comment_len}; if (ddl_log_drop_table_init(ddl_log_state, current_db, &comment)) { error= 1; goto err; } } if ((table_type == TABLE_TYPE_UNKNOWN) || (was_view && !drop_view) || (table_type != TABLE_TYPE_SEQUENCE && drop_sequence)) { /* One of the following cases happened: . "DROP" but table was not found . "DROP TABLE" statement, but it's a view. . "DROP SEQUENCE", but it's not a sequence */ wrong_drop_sequence= drop_sequence && hton; error= table_type == TABLE_TYPE_UNKNOWN ? ENOENT : -1; tdc_remove_table(thd, db.str, table_name.str); if (wrong_drop_sequence) goto report_error; } else { if (WSREP(thd) && hton && !wsrep_should_replicate_ddl(thd, hton)) { error= 1; goto err; } if (thd->locked_tables_mode == LTM_LOCK_TABLES || thd->locked_tables_mode == LTM_PRELOCKED_UNDER_LOCK_TABLES) { if (wait_while_table_is_used(thd, table->table, HA_EXTRA_NOT_USED)) { error= -1; goto err; } close_all_tables_for_name(thd, table->table->s, HA_EXTRA_PREPARE_FOR_DROP, NULL); table->table= 0; } else tdc_remove_table(thd, db.str, table_name.str); /* Check that we have an exclusive lock on the table to be dropped. */ DBUG_ASSERT(thd->mdl_context.is_lock_owner(MDL_key::TABLE, db.str, table_name.str, MDL_EXCLUSIVE)); // Remove extension for delete *path_end= '\0'; if (hton && hton->flags & HTON_TABLE_MAY_NOT_EXIST_ON_SLAVE) log_if_exists= 1; bool enoent_warning= !dont_log_query && !(hton && hton->discover_table); if (was_view) res= ddl_log_drop_view(ddl_log_state, &cpath, &db, &table_name); else res= ddl_log_drop_table(ddl_log_state, hton, &cpath, &db, &table_name); if (res) { error= -1; goto err; } debug_crash_here("ddl_log_drop_before_delete_table"); error= ha_delete_table(thd, hton, path, &db, &table_name, enoent_warning); debug_crash_here("ddl_log_drop_after_delete_table"); if (!error) table_dropped= 1; else if (error < 0) error= 0; // Table didn't exists else if (error) { if (thd->is_killed()) { error= -1; goto err; } } /* Delete the .frm file if we managed to delete the table from the engine or the table didn't exists in the engine */ strmov(path_end, reg_ext); if ((likely(!error) || non_existing_table_error(error)) && !access(path, F_OK)) { int frm_delete_error= 0; /* Delete the table definition file */ if (hton && (hton->discover_table || error)) { /* Table type is using discovery and may not need a .frm file or the .frm file existed but no table in engine. Delete it silently if it exists */ if (mysql_file_delete(key_file_frm, path, MYF(MY_WME | MY_IGNORE_ENOENT))) frm_delete_error= my_errno; } else if (unlikely(mysql_file_delete(key_file_frm, path, !error ? MYF(MY_WME) : MYF(MY_WME | MY_IGNORE_ENOENT)))) { frm_delete_error= my_errno; DBUG_ASSERT(frm_delete_error); } if (frm_delete_error) { /* Remember unexpected error from dropping the .frm file */ error= frm_delete_error; } else { error= 0; // We succeeded to delete the frm table_dropped= 1; } } } /* If there was no .frm file and the table is not temporary, scan all engines try to drop the table from there. This is to ensure we don't have any partial table files left. */ if (non_existing_table_error(error)) { int ferror= 0; DBUG_ASSERT(!was_view); if (ddl_log_drop_table(ddl_log_state, 0, &cpath, &db, &table_name)) { error= -1; goto err; } /* Remove extension for delete */ *path_end= '\0'; ferror= ha_delete_table_force(thd, path, &db, &table_name); if (!ferror) { table_dropped= 1; error= 0; } if (ferror <= 0) { ferror= 0; // Ignore table not found /* Delete the frm file again (just in case it was rediscovered) */ strmov(path_end, reg_ext); if (mysql_file_delete(key_file_frm, path, MYF(MY_WME|MY_IGNORE_ENOENT))) ferror= my_errno; } if (!error) error= ferror; } /* This may be set - by the storage engine in handler::delete_table() - when deleting a table without .frm file: delete_table_force() will check if the storage engine that had the table had HTON_TABLE_MAY_NOT_EXIST_ON_SLAVE flag */ if (thd->replication_flags & OPTION_IF_EXISTS) log_if_exists= 1; if (!was_view) { debug_crash_here("ddl_log_drop_before_drop_trigger"); ddl_log_update_phase(ddl_log_state, DDL_DROP_PHASE_TRIGGER); debug_crash_here("ddl_log_drop_before_drop_trigger2"); } if (likely(!error) || non_existing_table_error(error)) { if (Table_triggers_list::drop_all_triggers(thd, &db, &table_name, MYF(MY_WME | MY_IGNORE_ENOENT))) error= error ? error : -1; } debug_crash_here("ddl_log_drop_after_drop_trigger"); report_error: if (error) { StringBuffer tbl_name(system_charset_info); uint is_note= (if_exists && (was_view || wrong_drop_sequence) ? ME_NOTE : 0); tbl_name.length(0); tbl_name.append(&db); tbl_name.append('.'); tbl_name.append(&table_name); if (!non_existing_table_error(error) || is_note) { /* Error from engine already given. Here we only have to take care about errors for trying to drop view or sequence */ if (was_view) my_error(ER_IT_IS_A_VIEW, MYF(is_note), tbl_name.c_ptr_safe()); else if (wrong_drop_sequence) my_error(ER_NOT_SEQUENCE2, MYF(is_note), tbl_name.c_ptr_safe()); if (is_note) error= ENOENT; } else { if (unknown_tables.append(tbl_name) || unknown_tables.append(',')) { error= 1; goto err; } } } /* Don't give an error if we are using IF EXISTS for a table that didn't exists */ if (if_exists && non_existing_table_error(error)) error= 0; if (!error && table_dropped) { PSI_CALL_drop_table_share(temporary_table_was_dropped, db.str, (uint)db.length, table_name.str, (uint)table_name.length); mysql_audit_drop_table(thd, table); if (!is_temporary) { backup_log_info ddl_log; bzero(&ddl_log, sizeof(ddl_log)); ddl_log.query= { C_STRING_WITH_LEN("DROP") }; if ((ddl_log.org_partitioned= (partition_engine_name.str != 0))) ddl_log.org_storage_engine_name= partition_engine_name; else lex_string_set(&ddl_log.org_storage_engine_name, ha_resolve_storage_engine_name(hton)); ddl_log.org_database= table->db; ddl_log.org_table= table->table_name; ddl_log.org_table_id= version; backup_log_ddl(&ddl_log); } } if (!was_view) ddl_log_update_phase(ddl_log_state, DDL_DROP_PHASE_BINLOG); if (!dont_log_query && (!error || table_dropped || non_existing_table_error(error))) { non_tmp_table_deleted|= (if_exists || table_dropped); /* Don't write the database name if it is the current one (or if thd->db is NULL). */ if (thd->db.str == NULL || cmp(&db, &thd->db) != 0) { append_identifier(thd, &normal_tables, &db); normal_tables.append('.'); } append_identifier(thd, &normal_tables, &table_name); normal_tables.append(','); } DBUG_PRINT("table", ("table: %p s: %p", table->table, table->table ? table->table->s : NULL)); } DEBUG_SYNC(thd, "rm_table_no_locks_before_binlog"); thd->used|= THD::THREAD_SPECIFIC_USED; error= 0; err: if (unknown_tables.length() > 1) { uint is_note= if_exists ? ME_NOTE : 0; unknown_tables.chop(); my_error((drop_sequence ? ER_UNKNOWN_SEQUENCES : ER_BAD_TABLE_ERROR), MYF(is_note), unknown_tables.c_ptr_safe()); } error= thd->is_error(); if (non_temp_tables_count) query_cache_invalidate3(thd, tables, 0); /* We are always logging drop of temporary tables. The reason is to handle the following case: - Use statement based replication - CREATE TEMPORARY TABLE foo (logged) - set row based replication - DROP TEMPORARY TABLE foo (needs to be logged) This should be fixed so that we remember if creation of the temporary table was logged and only log it if the creation was logged. */ if (non_trans_tmp_table_deleted || trans_tmp_table_deleted || non_tmp_table_deleted) { if (non_trans_tmp_table_deleted || trans_tmp_table_deleted) thd->transaction->stmt.mark_dropped_temp_table(); if (!dont_log_query && mysql_bin_log.is_open()) { debug_crash_here("ddl_log_drop_before_binlog"); if (non_trans_tmp_table_deleted) { /* Chop of the last comma */ built_non_trans_tmp_query.chop(); built_non_trans_tmp_query.append(generated_by_server); error |= (thd->binlog_query(THD::STMT_QUERY_TYPE, built_non_trans_tmp_query.ptr(), built_non_trans_tmp_query.length(), FALSE, FALSE, is_drop_tmp_if_exists_added, 0) > 0); } if (trans_tmp_table_deleted) { /* Chop of the last comma */ built_trans_tmp_query.chop(); built_trans_tmp_query.append(generated_by_server); error |= (thd->binlog_query(THD::STMT_QUERY_TYPE, built_trans_tmp_query.ptr(), built_trans_tmp_query.length(), TRUE, FALSE, is_drop_tmp_if_exists_added, 0) > 0); } if (non_tmp_table_deleted) { String built_query; built_query.set_charset(thd->charset()); built_query.append(STRING_WITH_LEN("DROP ")); built_query.append(object_to_drop); built_query.append(' '); if (log_if_exists) built_query.append(STRING_WITH_LEN("IF EXISTS ")); /* Preserve comment in original query */ if (comment_len) { built_query.append(comment_start, comment_len); built_query.append(' '); } /* Chop of the last comma */ normal_tables.chop(); built_query.append(normal_tables.ptr(), normal_tables.length()); built_query.append(generated_by_server); thd->binlog_xid= thd->query_id; ddl_log_update_xid(ddl_log_state, thd->binlog_xid); error |= (thd->binlog_query(THD::STMT_QUERY_TYPE, built_query.ptr(), built_query.length(), TRUE, FALSE, FALSE, 0) > 0); thd->binlog_xid= 0; } debug_crash_here("ddl_log_drop_after_binlog"); } } if (ddl_log_state == &local_ddl_log_state) ddl_log_complete(ddl_log_state); if (!drop_temporary) { /* Under LOCK TABLES we should release meta-data locks on the tables which were dropped. Leave LOCK TABLES mode if we managed to drop all tables which were locked. Additional check for 'non_temp_tables_count' is to avoid leaving LOCK TABLES mode if we have dropped only temporary tables. */ if (thd->locked_tables_mode) { if (thd->lock && thd->lock->table_count == 0 && non_temp_tables_count > 0 && !dont_free_locks) { if (thd->locked_tables_list.unlock_locked_tables(thd)) error= 1; goto end; } for (table= tables; table; table= table->next_local) { /* Drop locks for all successfully dropped tables. */ if (table->table == NULL && table->mdl_request.ticket) { /* Under LOCK TABLES we may have several instances of table open and locked and therefore have to remove several metadata lock requests associated with them. */ thd->mdl_context.release_all_locks_for_name(table->mdl_request.ticket); } } } /* Rely on the caller to implicitly commit the transaction and release metadata locks. */ } end: DBUG_RETURN(error || thd->is_error()); } /** Log the drop of a table. @param thd Thread handler @param db_name Database name @param table_name Table name @param temporary_table 1 if table was a temporary table This code is only used in the case of failed CREATE OR REPLACE TABLE when the original table was dropped but we could not create the new one. */ bool log_drop_table(THD *thd, const LEX_CSTRING *db_name, const LEX_CSTRING *table_name, const LEX_CSTRING *handler_name, bool partitioned, const LEX_CUSTRING *id, bool temporary_table) { char buff[NAME_LEN*2 + 80]; String query(buff, sizeof(buff), system_charset_info); bool error= 0; DBUG_ENTER("log_drop_table"); if (mysql_bin_log.is_open()) { query.length(0); query.append(STRING_WITH_LEN("DROP ")); if (temporary_table) query.append(STRING_WITH_LEN("TEMPORARY ")); query.append(STRING_WITH_LEN("TABLE IF EXISTS ")); append_identifier(thd, &query, db_name); query.append('.'); append_identifier(thd, &query, table_name); query.append(STRING_WITH_LEN("/* Generated to handle " "failed CREATE OR REPLACE */")); /* In case of temporary tables we don't have to log the database name in the binary log. We log this for non temporary tables, as the slave may use a filter to ignore queries for a specific database. */ error= thd->binlog_query(THD::STMT_QUERY_TYPE, query.ptr(), query.length(), FALSE, FALSE, temporary_table, 0) > 0; } if (!temporary_table) { backup_log_info ddl_log; bzero(&ddl_log, sizeof(ddl_log)); ddl_log.query= { C_STRING_WITH_LEN("DROP_AFTER_CREATE") }; ddl_log.org_storage_engine_name= *handler_name; ddl_log.org_partitioned= partitioned; ddl_log.org_database= *db_name; ddl_log.org_table= *table_name; ddl_log.org_table_id= *id; backup_log_ddl(&ddl_log); } DBUG_RETURN(error); } /** Quickly remove a table, without any logging @param thd Thread context. @param base The handlerton handle. @param db The database name. @param table_name The table name. @param flags Flags for build_table_filename() as well as describing if handler files / .FRM should be deleted as well. @return False in case of success, True otherwise. */ bool quick_rm_table(THD *thd, handlerton *base, const LEX_CSTRING *db, const LEX_CSTRING *table_name, uint flags, const char *table_path) { char path[FN_REFLEN + 1]; const size_t pathmax = sizeof(path) - 1 - reg_ext_length; int error= 0; DBUG_ENTER("quick_rm_table"); size_t path_length= table_path ? (strxnmov(path, pathmax, table_path, NullS) - path) : build_table_filename(path, pathmax, db->str, table_name->str, "", flags); if ((flags & (NO_HA_TABLE | NO_PAR_TABLE)) == NO_HA_TABLE) { handler *file= get_new_handler((TABLE_SHARE*) 0, thd->mem_root, base); if (!file) DBUG_RETURN(true); (void) file->ha_create_partitioning_metadata(path, NULL, CHF_DELETE_FLAG); delete file; } if (!(flags & (FRM_ONLY|NO_HA_TABLE))) error|= ha_delete_table(thd, base, path, db, table_name, 0) > 0; if (!(flags & NO_FRM_RENAME)) { memcpy(path + path_length, reg_ext, reg_ext_length + 1); if (mysql_file_delete(key_file_frm, path, MYF(0))) error= 1; /* purecov: inspected */ } if (likely(error == 0)) { PSI_CALL_drop_table_share(flags & FN_IS_TMP, db->str, (uint)db->length, table_name->str, (uint)table_name->length); } DBUG_RETURN(error); } /* Sort keys in the following order: - PRIMARY KEY - UNIQUE keys where all column are NOT NULL - UNIQUE keys that don't contain partial segments - Other UNIQUE keys - LONG UNIQUE keys - Normal keys - Fulltext keys This will make checking for duplicated keys faster and ensure that PRIMARY keys are prioritized. */ static int sort_keys(KEY *a, KEY *b) { ulong a_flags= a->flags, b_flags= b->flags; /* Do not reorder LONG_HASH indexes, because they must match the order of their LONG_UNIQUE_HASH_FIELD's. */ if (a->algorithm == HA_KEY_ALG_LONG_HASH && b->algorithm == HA_KEY_ALG_LONG_HASH) return a->usable_key_parts - b->usable_key_parts; if (a_flags & HA_NOSAME) { if (!(b_flags & HA_NOSAME)) return -1; /* Long Unique keys should always be last unique key. Before this patch they used to change order wrt to partial keys (MDEV-19049) */ if (a->algorithm == HA_KEY_ALG_LONG_HASH) return 1; if (b->algorithm == HA_KEY_ALG_LONG_HASH) return -1; if ((a_flags ^ b_flags) & HA_NULL_PART_KEY) { /* Sort NOT NULL keys before other keys */ return (a_flags & HA_NULL_PART_KEY) ? 1 : -1; } if (a->name.str == primary_key_name.str) return -1; if (b->name.str == primary_key_name.str) return 1; /* Sort keys don't containing partial segments before others */ if ((a_flags ^ b_flags) & HA_KEY_HAS_PART_KEY_SEG) return (a_flags & HA_KEY_HAS_PART_KEY_SEG) ? 1 : -1; } else if (b_flags & HA_NOSAME) return 1; // Prefer b if ((a_flags ^ b_flags) & HA_FULLTEXT) { return (a_flags & HA_FULLTEXT) ? 1 : -1; } /* Prefer original key order. usable_key_parts contains here the original key position. */ return a->usable_key_parts - b->usable_key_parts; } /* Check TYPELIB (set or enum) for duplicates SYNOPSIS check_duplicates_in_interval() set_or_name "SET" or "ENUM" string for warning message name name of the checked column typelib list of values for the column dup_val_count returns count of duplicate elements DESCRIPTION This function prints an warning for each value in list which has some duplicates on its right RETURN VALUES 0 ok 1 Error */ bool check_duplicates_in_interval(const char *set_or_name, const char *name, const TYPELIB *typelib, CHARSET_INFO *cs, unsigned int *dup_val_count) { TYPELIB tmp= *typelib; const char **cur_value= typelib->type_names; unsigned int *cur_length= typelib->type_lengths; *dup_val_count= 0; for ( ; tmp.count > 1; cur_value++, cur_length++) { tmp.type_names++; tmp.type_lengths++; tmp.count--; if (find_type2(&tmp, (const char*)*cur_value, *cur_length, cs)) { THD *thd= current_thd; ErrConvString err(*cur_value, *cur_length, cs); if (current_thd->is_strict_mode()) { my_error(ER_DUPLICATED_VALUE_IN_TYPE, MYF(0), name, err.ptr(), set_or_name); return 1; } push_warning_printf(thd,Sql_condition::WARN_LEVEL_NOTE, ER_DUPLICATED_VALUE_IN_TYPE, ER_THD(thd, ER_DUPLICATED_VALUE_IN_TYPE), name, err.ptr(), set_or_name); (*dup_val_count)++; } } return 0; } /* Resolves the column collation if: - it was not typed at all, or - it was contextually typed according to the table level character set. Generates an error to the diagnostics area in case of a failure. */ bool Column_definition:: prepare_charset_for_string(const Column_derived_attributes *dattr) { CHARSET_INFO *tmp= charset_collation_attrs(). resolved_to_character_set(dattr->charset()); if (!tmp) return true; charset= tmp; /* Remove the "is contextually typed collation" indicator on success, for safety. */ flags&= ~CONTEXT_COLLATION_FLAG; return false; } bool Column_definition::prepare_stage2_blob(handler *file, ulonglong table_flags, uint field_flags) { if (table_flags & HA_NO_BLOBS) { my_error(ER_TABLE_CANT_HANDLE_BLOB, MYF(0), file->table_type()); return true; } pack_flag= field_flags | pack_length_to_packflag(pack_length - portable_sizeof_char_ptr); if (charset->state & MY_CS_BINSORT) pack_flag|= FIELDFLAG_BINARY; length= 8; // Unireg field length return false; } bool Column_definition::prepare_stage2_typelib(const char *type_name, uint field_flags, uint *dup_val_count) { pack_flag= pack_length_to_packflag(pack_length) | field_flags; if (charset->state & MY_CS_BINSORT) pack_flag|= FIELDFLAG_BINARY; return check_duplicates_in_interval(type_name, field_name.str, interval, charset, dup_val_count); } uint Column_definition::pack_flag_numeric() const { return (FIELDFLAG_NUMBER | (flags & UNSIGNED_FLAG ? 0 : FIELDFLAG_DECIMAL) | (flags & ZEROFILL_FLAG ? FIELDFLAG_ZEROFILL : 0)); } bool Column_definition::prepare_stage2_varchar(ulonglong table_flags) { pack_flag= (charset->state & MY_CS_BINSORT) ? FIELDFLAG_BINARY : 0; return false; } /* Prepare a Column_definition instance for packing Members such as pack_flag are valid after this call. @param IN handler - storage engine handler, or NULL if preparing for an SP variable @param IN table_flags - table flags @retval false - ok @retval true - error (not supported type, bad definition, etc) */ bool Column_definition::prepare_stage2(handler *file, ulonglong table_flags) { DBUG_ENTER("Column_definition::prepare_stage2"); /* This code came from mysql_prepare_create_table. Indent preserved to make patching easier */ DBUG_ASSERT(charset); if (type_handler()->Column_definition_prepare_stage2(this, file, table_flags)) DBUG_RETURN(true); if (!(flags & NOT_NULL_FLAG) || (vcol_info)) /* Make virtual columns allow NULL values */ pack_flag|= FIELDFLAG_MAYBE_NULL; if (flags & NO_DEFAULT_VALUE_FLAG) pack_flag|= FIELDFLAG_NO_DEFAULT; DBUG_RETURN(false); } /** Modifies the first column definition whose SQL type is TIMESTAMP by adding the features DEFAULT CURRENT_TIMESTAMP ON UPDATE CURRENT_TIMESTAMP. If the first TIMESTAMP column appears to be nullable, or to have an explicit default, or to be a virtual column, or to be part of table period, then no promotion is done. @param column_definitions The list of column definitions, in the physical order in which they appear in the table. */ void promote_first_timestamp_column(List *column_definitions) { bool first= true; for (Create_field &column_definition : *column_definitions) { if (column_definition.is_timestamp_type() || // TIMESTAMP column_definition.unireg_check == Field::TIMESTAMP_OLD_FIELD) // Legacy { if (!column_definition.explicitly_nullable) column_definition.flags|= NOT_NULL_FLAG; DBUG_PRINT("info", ("field-ptr:%p", column_definition.field)); if (first && (column_definition.flags & NOT_NULL_FLAG) != 0 && // NOT NULL, column_definition.default_value == NULL && // no constant default, column_definition.unireg_check == Field::NONE && // no function default column_definition.vcol_info == NULL && column_definition.period == NULL && !(column_definition.flags & VERS_SYSTEM_FIELD)) // column isn't generated { DBUG_PRINT("info", ("First TIMESTAMP column '%s' was promoted to " "DEFAULT CURRENT_TIMESTAMP ON UPDATE " "CURRENT_TIMESTAMP", column_definition.field_name.str )); column_definition.unireg_check= Field::TIMESTAMP_DNUN_FIELD; } first= false; } } } static bool key_cmp(const Key_part_spec &a, const Key_part_spec &b) { return a.length == b.length && a.asc == b.asc && !lex_string_cmp(system_charset_info, &a.field_name, &b.field_name); } /** Check if there is a duplicate key. Report a warning for every duplicate key. @param thd Thread context. @param key Key to be checked. @param key_info Key meta-data info. @param key_list List of existing keys. */ static void check_duplicate_key(THD *thd, const Key *key, const KEY *key_info, const List *key_list) { /* We only check for duplicate indexes if it is requested and the key is not auto-generated. Check is requested if the key was explicitly created or altered by the user (unless it's a foreign key). */ if (!key->key_create_info.check_for_duplicate_indexes || key->generated) return; for (const Key &k : *key_list) { // Looking for a similar key... if (&k == key) break; if (k.generated || (key->type != k.type) || (key->key_create_info.algorithm != k.key_create_info.algorithm) || (key->columns.elements != k.columns.elements)) { // Keys are different. continue; } if (std::equal(key->columns.begin(), key->columns.end(), k.columns.begin(), key_cmp)) { push_warning_printf(thd, Sql_condition::WARN_LEVEL_NOTE, ER_DUP_INDEX, ER_THD(thd, ER_DUP_INDEX), key_info->name.str); return; } } } bool Column_definition::prepare_stage1_typelib(THD *thd, MEM_ROOT *mem_root, column_definition_type_t deftype) { /* Pass the last parameter to prepare_interval_field() as follows: - If we are preparing for an SP variable, we pass "false", to force allocation and full copying of TYPELIB values on the given mem_root, even if no character set conversion is needed. This is needed because a life cycle of an SP variable is longer than the current query. - If we are preparing for a CREATE TABLE, we pass "true". This will create the typelib in runtime memory - we will free the occupied memory at the same time when we free this sql_field -- at the end of execution. Pass "true" as the last argument to reuse "interval_list" values in "interval" in cases when no character conversion is needed, to avoid extra copying. */ if (prepare_interval_field(mem_root, deftype == COLUMN_DEFINITION_TABLE_FIELD)) return true; // E.g. wrong values with commas: SET('a,b') create_length_to_internal_length_typelib(); if (default_value && default_value->expr->basic_const_item()) { if ((charset != default_value->expr->collation.collation && prepare_stage1_convert_default(thd, mem_root, charset)) || prepare_stage1_check_typelib_default()) return true; } return false; } bool Column_definition::prepare_stage1_string(THD *thd, MEM_ROOT *mem_root) { create_length_to_internal_length_string(); if (prepare_blob_field(thd)) return true; /* Convert the default value from client character set into the column character set if necessary. We can only do this for constants as we have not yet run fix_fields. But not for blobs, as they will be stored as SQL expressions, not written down into the record image. */ if (!(flags & BLOB_FLAG) && default_value && default_value->expr->basic_const_item() && charset != default_value->expr->collation.collation) { if (prepare_stage1_convert_default(thd, mem_root, charset)) return true; } return false; } bool Column_definition::prepare_stage1_bit(THD *thd, MEM_ROOT *mem_root) { pack_flag= FIELDFLAG_NUMBER; create_length_to_internal_length_bit(); return false; } bool Column_definition::prepare_stage1(THD *thd, MEM_ROOT *mem_root, column_definition_type_t deftype, const Column_derived_attributes *derived_attr) { // SP variables have no default_value DBUG_ASSERT(deftype == COLUMN_DEFINITION_TABLE_FIELD || !default_value); return type_handler()->Column_definition_prepare_stage1(thd, mem_root, this, deftype, derived_attr); } bool Column_definition::prepare_stage1_convert_default(THD *thd, MEM_ROOT *mem_root, CHARSET_INFO *cs) { DBUG_ASSERT(thd->mem_root == mem_root); Item *item; if (!(item= default_value->expr->safe_charset_converter(thd, cs))) { my_error(ER_INVALID_DEFAULT, MYF(0), field_name.str); return true; // Could not convert } /* Fix for prepare statement */ thd->change_item_tree(&default_value->expr, item); return false; } bool Column_definition::prepare_stage1_check_typelib_default() { StringBuffer str; String *def= default_value->expr->val_str(&str); bool not_found; if (def == NULL) /* SQL "NULL" maps to NULL */ { not_found= flags & NOT_NULL_FLAG; } else { not_found= false; if (real_field_type() == MYSQL_TYPE_SET) { char *not_used; uint not_used2; find_set(interval, def->ptr(), def->length(), charset, ¬_used, ¬_used2, ¬_found); } else /* MYSQL_TYPE_ENUM */ { def->length(charset->lengthsp(def->ptr(), def->length())); not_found= !find_type2(interval, def->ptr(), def->length(), charset); } } if (not_found) { my_error(ER_INVALID_DEFAULT, MYF(0), field_name.str); return true; } return false; } /* This function adds a invisible field to field_list SYNOPSIS mysql_add_invisible_field() thd Thread Object field_list list of all table fields field_name name/prefix of invisible field ( Prefix in the case when it is *INVISIBLE_FULL* and given name is duplicate) type_handler field data type invisible default value RETURN VALUE Create_field pointer */ int mysql_add_invisible_field(THD *thd, List * field_list, const char *field_name, Type_handler *type_handler, field_visibility_t invisible, Item* default_value) { Create_field *fld= new(thd->mem_root)Create_field(); const char *new_name= NULL; /* Get unique field name if invisible == INVISIBLE_FULL */ if (invisible == INVISIBLE_FULL) { if ((new_name= make_unique_invisible_field_name(thd, field_name, field_list))) { fld->field_name.str= new_name; fld->field_name.length= strlen(new_name); } else return 1; //Should not happen } else { fld->field_name.str= thd->strmake(field_name, strlen(field_name)); fld->field_name.length= strlen(field_name); } fld->set_handler(type_handler); fld->invisible= invisible; if (default_value) { Virtual_column_info *v= new (thd->mem_root) Virtual_column_info(); v->expr= default_value; v->utf8= 0; fld->default_value= v; } field_list->push_front(fld, thd->mem_root); return 0; } #define LONG_HASH_FIELD_NAME_LENGTH 30 static inline void make_long_hash_field_name(LEX_CSTRING *buf, uint num) { buf->length= my_snprintf((char *)buf->str, LONG_HASH_FIELD_NAME_LENGTH, "DB_ROW_HASH_%u", num); } /** Add fully invisible hash field to table in case of long unique column @param thd Thread Context. @param create_list List of table fields. @param key_info current long unique key info */ static Create_field * add_hash_field(THD * thd, List *create_list, KEY *key_info) { List_iterator it(*create_list); Create_field *dup_field, *cf= new (thd->mem_root) Create_field(); cf->flags|= UNSIGNED_FLAG | LONG_UNIQUE_HASH_FIELD; cf->decimals= 0; cf->length= cf->char_length= cf->pack_length= HA_HASH_FIELD_LENGTH; cf->invisible= INVISIBLE_FULL; cf->pack_flag|= FIELDFLAG_MAYBE_NULL; cf->vcol_info= new (thd->mem_root) Virtual_column_info(); cf->vcol_info->stored_in_db= false; uint num= 1; LEX_CSTRING field_name; field_name.str= (char *)thd->alloc(LONG_HASH_FIELD_NAME_LENGTH); make_long_hash_field_name(&field_name, num); /* Check for collisions */ while ((dup_field= it++)) { if (!my_strcasecmp(system_charset_info, field_name.str, dup_field->field_name.str)) { num++; make_long_hash_field_name(&field_name, num); it.rewind(); } } cf->field_name= field_name; cf->set_handler(&type_handler_slonglong); key_info->algorithm= HA_KEY_ALG_LONG_HASH; create_list->push_back(cf,thd->mem_root); return cf; } Key * mysql_add_invisible_index(THD *thd, List *key_list, LEX_CSTRING* field_name, enum Key::Keytype type) { Key *key= new (thd->mem_root) Key(type, &null_clex_str, HA_KEY_ALG_UNDEF, false, DDL_options(DDL_options::OPT_NONE)); key->columns.push_back(new(thd->mem_root) Key_part_spec(field_name, 0, true), thd->mem_root); key_list->push_back(key, thd->mem_root); return key; } bool Type_handler_string::Key_part_spec_init_ft(Key_part_spec *part, const Column_definition &def) const { /* Set length to 0. It's set to the real column width later for CHAR. It has to be the correct col width for CHAR, as its data are not prefixed with length (unlike blobs). */ part->length= 0; return !Charset(def.charset).is_good_for_ft(); } bool Type_handler_varchar::Key_part_spec_init_ft(Key_part_spec *part, const Column_definition &def) const { part->length= 0; return !Charset(def.charset).is_good_for_ft(); } bool Type_handler_blob_common::Key_part_spec_init_ft(Key_part_spec *part, const Column_definition &def) const { /* Set keyseg length to 1 for blobs. It's ignored in ft code: the data length is taken from the length prefix. */ part->length= 1; return !Charset(def.charset).is_good_for_ft(); } static bool key_add_part_check_null(const handler *file, KEY *key_info, const Column_definition *sql_field, const Key_part_spec *column) { if (!(sql_field->flags & NOT_NULL_FLAG)) { key_info->flags|= HA_NULL_PART_KEY; if (!(file->ha_table_flags() & HA_NULL_IN_KEY)) { my_error(ER_NULL_COLUMN_IN_INDEX, MYF(0), column->field_name.str); return true; } } return false; } /* Prepare for a table creation. Stage 1: prepare the field list. */ static bool mysql_prepare_create_table_stage1(THD *thd, HA_CREATE_INFO *create_info, Alter_info *alter_info) { DBUG_ENTER("mysql_prepare_create_table_stage1"); const Column_derived_attributes dattr(create_info->default_table_charset); const Column_bulk_alter_attributes battr(create_info->alter_table_convert_to_charset); Create_field *sql_field; List_iterator_fast it(alter_info->create_list); DBUG_EXECUTE_IF("test_pseudo_invisible",{ mysql_add_invisible_field(thd, &alter_info->create_list, "invisible", &type_handler_slong, INVISIBLE_SYSTEM, new (thd->mem_root)Item_int(thd, 9)); }); DBUG_EXECUTE_IF("test_completely_invisible",{ mysql_add_invisible_field(thd, &alter_info->create_list, "invisible", &type_handler_slong, INVISIBLE_FULL, new (thd->mem_root)Item_int(thd, 9)); }); DBUG_EXECUTE_IF("test_invisible_index",{ LEX_CSTRING temp; temp.str= "invisible"; temp.length= strlen("invisible"); mysql_add_invisible_index(thd, &alter_info->key_list , &temp, Key::MULTIPLE); }); for ( ; (sql_field=it++) ; ) { /* Virtual fields are always NULL */ if (sql_field->vcol_info) sql_field->flags&= ~NOT_NULL_FLAG; /* Initialize length from its original value (number of characters), which was set in the parser. This is necessary if we're executing a prepared statement for the second time. */ sql_field->length= sql_field->char_length; if (sql_field->bulk_alter(&dattr, &battr)) DBUG_RETURN(true); if (sql_field->prepare_stage1(thd, thd->mem_root, COLUMN_DEFINITION_TABLE_FIELD, &dattr)) DBUG_RETURN(true); DBUG_ASSERT(sql_field->charset); if (check_column_name(sql_field->field_name.str)) { my_error(ER_WRONG_COLUMN_NAME, MYF(0), sql_field->field_name.str); DBUG_RETURN(TRUE); } } DBUG_RETURN(false); } /* Preparation for table creation, final stage. SYNOPSIS mysql_prepare_create_table_finalize() thd Thread object. create_info Create information (like MAX_ROWS). alter_info List of columns and indexes to create db_options INOUT Table options (like HA_OPTION_PACK_RECORD). file The handler for the new table. key_info_buffer OUT An array of KEY structs for the indexes. key_count OUT The number of elements in the array. create_table_mode C_ORDINARY_CREATE, C_ALTER_TABLE, C_CREATE_SELECT, C_ASSISTED_DISCOVERY DESCRIPTION Prepares the table and key structures for table creation. NOTES sets create_info->varchar if the table has a varchar RETURN VALUES FALSE OK TRUE error */ static int mysql_prepare_create_table_finalize(THD *thd, HA_CREATE_INFO *create_info, Alter_info *alter_info, uint *db_options, handler *file, KEY **key_info_buffer, uint *key_count, int create_table_mode, const LEX_CSTRING db, const LEX_CSTRING table_name) { const char *key_name; Create_field *sql_field,*dup_field; uint field,null_fields,max_key_length; ulong record_offset= 0; KEY_PART_INFO *key_part_info; int field_no,dup_no; int select_field_pos,auto_increment=0; List_iterator_fast it(alter_info->create_list); List_iterator it2(alter_info->create_list); uint total_uneven_bit_length= 0; int select_field_count= C_CREATE_SELECT(create_table_mode); bool tmp_table= create_table_mode == C_ALTER_TABLE; const bool create_simple= thd->lex->create_simple(); bool is_hash_field_needed= false; DBUG_ENTER("mysql_prepare_create_table"); LEX_CSTRING* connect_string = &create_info->connect_string; if (connect_string->length != 0 && connect_string->length > CONNECT_STRING_MAXLEN && (system_charset_info->charpos(connect_string->str, (connect_string->str + connect_string->length), CONNECT_STRING_MAXLEN) < connect_string->length)) { my_error(ER_WRONG_STRING_LENGTH, MYF(0), connect_string->str, "CONNECTION", CONNECT_STRING_MAXLEN); DBUG_RETURN(TRUE); } select_field_pos= alter_info->create_list.elements - select_field_count; null_fields= 0; create_info->varchar= 0; max_key_length= file->max_key_length(); /* Handle creation of sequences */ if (create_info->sequence) { if (!(file->ha_table_flags() & HA_CAN_TABLES_WITHOUT_ROLLBACK)) { my_error(ER_ILLEGAL_HA_CREATE_OPTION, MYF(0), file->table_type(), SEQUENCE_clex_str.str); DBUG_RETURN(TRUE); } /* The user specified fields: check that structure is ok */ if (check_sequence_fields(thd->lex, &alter_info->create_list)) DBUG_RETURN(TRUE); } for (field_no=0; (sql_field=it++) ; field_no++) { if (!(sql_field->flags & NOT_NULL_FLAG)) null_fields++; if (sql_field->real_field_type() == MYSQL_TYPE_BIT && file->ha_table_flags() & HA_CAN_BIT_FIELD) total_uneven_bit_length+= sql_field->length & 7; /* Check if we have used the same field name before */ for (dup_no=0; (dup_field=it2++) != sql_field; dup_no++) { if (lex_string_cmp(system_charset_info, &sql_field->field_name, &dup_field->field_name) == 0) { /* If this was a CREATE ... SELECT statement, accept a field redefinition if we are changing a field in the SELECT part */ if (field_no < select_field_pos || dup_no >= select_field_pos || dup_field->invisible >= INVISIBLE_SYSTEM) { my_error(ER_DUP_FIELDNAME, MYF(0), sql_field->field_name.str); DBUG_RETURN(TRUE); } else { /* Field redefined */ /* If we are replacing a BIT field, revert the increment of total_uneven_bit_length that was done above. */ if (sql_field->real_field_type() == MYSQL_TYPE_BIT && file->ha_table_flags() & HA_CAN_BIT_FIELD) total_uneven_bit_length-= sql_field->length & 7; /* We're making one field from two, the result field will have dup_field->flags as flags. If we've incremented null_fields because of sql_field->flags, decrement it back. */ if (!(sql_field->flags & NOT_NULL_FLAG)) null_fields--; if (sql_field->redefine_stage1(dup_field, file)) DBUG_RETURN(true); it2.remove(); // Remove first (create) definition select_field_pos--; break; } } } /* Don't pack rows in old tables if the user has requested this */ if ((sql_field->flags & BLOB_FLAG) || (sql_field->real_field_type() == MYSQL_TYPE_VARCHAR && create_info->row_type != ROW_TYPE_FIXED)) (*db_options)|= HA_OPTION_PACK_RECORD; it2.rewind(); } /* record_offset will be increased with 'length-of-null-bits' later */ record_offset= 0; null_fields+= total_uneven_bit_length; it.rewind(); while ((sql_field=it++)) { DBUG_ASSERT(sql_field->charset != 0); if (sql_field->prepare_stage2(file, file->ha_table_flags())) DBUG_RETURN(TRUE); if (sql_field->real_field_type() == MYSQL_TYPE_VARCHAR) create_info->varchar= TRUE; sql_field->offset= record_offset; if (MTYP_TYPENR(sql_field->unireg_check) == Field::NEXT_NUMBER) auto_increment++; if (parse_option_list(thd, create_info->db_type, &sql_field->option_struct, &sql_field->option_list, create_info->db_type->field_options, FALSE, thd->mem_root)) DBUG_RETURN(TRUE); /* For now skip fields that are not physically stored in the database (virtual fields) and update their offset later (see the next loop). */ if (sql_field->stored_in_db()) record_offset+= sql_field->pack_length; } /* Update virtual fields' offset and give error if All fields are invisible */ bool is_all_invisible= true; it.rewind(); while ((sql_field=it++)) { if (!sql_field->stored_in_db()) { sql_field->offset= record_offset; record_offset+= sql_field->pack_length; } if (sql_field->invisible == VISIBLE) is_all_invisible= false; } if (is_all_invisible) { my_error(ER_TABLE_MUST_HAVE_COLUMNS, MYF(0)); DBUG_RETURN(TRUE); } if (auto_increment > 1) { my_message(ER_WRONG_AUTO_KEY, ER_THD(thd, ER_WRONG_AUTO_KEY), MYF(0)); DBUG_RETURN(TRUE); } if (auto_increment && (file->ha_table_flags() & HA_NO_AUTO_INCREMENT)) { my_error(ER_TABLE_CANT_HANDLE_AUTO_INCREMENT, MYF(0), file->table_type()); DBUG_RETURN(TRUE); } /* CREATE TABLE[with auto_increment column] SELECT is unsafe as the rows inserted in the created table depends on the order of the rows fetched from the select tables. This order may differ on master and slave. We therefore mark it as unsafe. */ if (select_field_count > 0 && auto_increment) thd->lex->set_stmt_unsafe(LEX::BINLOG_STMT_UNSAFE_CREATE_SELECT_AUTOINC); /* Create keys */ List_iterator key_iterator(alter_info->key_list); List_iterator key_iterator2(alter_info->key_list); uint key_parts=0; bool primary_key=0,unique_key=0; Key *key, *key2; uint tmp, key_number; /* special marker for keys to be ignored */ static char ignore_key[1]; /* Calculate number of key segements */ *key_count= 0; while ((key=key_iterator++)) { DBUG_PRINT("info", ("key name: '%s' type: %d", key->name.str ? key->name.str : "(none)" , key->type)); if (key->type == Key::FOREIGN_KEY) { Foreign_key *fk_key= (Foreign_key*) key; if (fk_key->validate(alter_info->create_list)) DBUG_RETURN(TRUE); if (fk_key->ref_columns.elements) { if (fk_key->ref_columns.elements != fk_key->columns.elements) { my_error(ER_WRONG_FK_DEF, MYF(0), (fk_key->name.str ? fk_key->name.str : "foreign key without name"), ER_THD(thd, ER_KEY_REF_DO_NOT_MATCH_TABLE_REF)); DBUG_RETURN(TRUE); } } else fk_key->ref_columns.append(&fk_key->columns); continue; } (*key_count)++; tmp=file->max_key_parts(); if (key->columns.elements > tmp) { my_error(ER_TOO_MANY_KEY_PARTS,MYF(0),tmp); DBUG_RETURN(TRUE); } if (check_ident_length(&key->name)) DBUG_RETURN(TRUE); key_iterator2.rewind (); if (key->type != Key::FOREIGN_KEY) { while ((key2 = key_iterator2++) != key) { /* foreign_key_prefix(key, key2) returns 0 if key or key2, or both, is 'generated', and a generated key is a prefix of the other key. Then we do not need the generated shorter key. */ if ((key2->type != Key::FOREIGN_KEY && key2->name.str != ignore_key && !foreign_key_prefix(key, key2))) { /* TODO: issue warning message */ /* mark that the generated key should be ignored */ if (!key2->generated || (key->generated && key->columns.elements < key2->columns.elements)) key->name.str= ignore_key; else { key2->name.str= ignore_key; key_parts-= key2->columns.elements; (*key_count)--; } break; } } } if (key->name.str != ignore_key) key_parts+=key->columns.elements; else (*key_count)--; if (key->name.str && !tmp_table && (key->type != Key::PRIMARY) && !my_strcasecmp(system_charset_info, key->name.str, primary_key_name.str)) { my_error(ER_WRONG_NAME_FOR_INDEX, MYF(0), key->name.str); DBUG_RETURN(TRUE); } if (key->type == Key::PRIMARY && key->name.str && my_strcasecmp(system_charset_info, key->name.str, primary_key_name.str) != 0) { bool sav_abort_on_warning= thd->abort_on_warning; thd->abort_on_warning= FALSE; /* Don't make an error out of this. */ push_warning_printf(thd, Sql_condition::WARN_LEVEL_WARN, ER_WRONG_NAME_FOR_INDEX, "Name '%-.100s' ignored for PRIMARY key.", key->name.str); thd->abort_on_warning= sav_abort_on_warning; } } KEY *key_info= *key_info_buffer= (KEY*)thd->calloc(sizeof(KEY) * (*key_count)); if (!*key_info_buffer) DBUG_RETURN(true); // Out of memory key_iterator.rewind(); while ((key=key_iterator++)) { if (key->name.str == ignore_key || key->type == Key::FOREIGN_KEY) continue; /* Create the key name based on the first column (if not given) */ if (key->type == Key::PRIMARY) { if (primary_key) { my_message(ER_MULTIPLE_PRI_KEY, ER_THD(thd, ER_MULTIPLE_PRI_KEY), MYF(0)); DBUG_RETURN(true); } key_name= primary_key_name.str; primary_key=1; } else if (!(key_name= key->name.str)) { auto field_name= key->columns.elem(0)->field_name; it.rewind(); while ((sql_field=it++) && lex_string_cmp(system_charset_info, &field_name, &sql_field->field_name)); if (sql_field) field_name= sql_field->field_name; key_name=make_unique_key_name(thd, field_name.str, *key_info_buffer, key_info); } if (check_if_keyname_exists(key_name, *key_info_buffer, key_info)) { my_error(ER_DUP_KEYNAME, MYF(0), key_name); DBUG_RETURN(true); } key_info->name.str= (char*) key_name; key_info->name.length= strlen(key_name); key->name= key_info->name; int parts_added= append_system_key_parts(thd, create_info, key); if (parts_added < 0) DBUG_RETURN(true); key_parts += parts_added; key_info++; } tmp=file->max_keys(); if (*key_count > tmp) { my_error(ER_TOO_MANY_KEYS,MYF(0),tmp); DBUG_RETURN(TRUE); } key_part_info=(KEY_PART_INFO*) thd->calloc(sizeof(KEY_PART_INFO)*key_parts); if (!key_part_info) DBUG_RETURN(true); // Out of memory key_info= *key_info_buffer; key_iterator.rewind(); key_number=0; for (; (key=key_iterator++) ; key_number++) { uint key_length=0; Create_field *auto_increment_key= 0; Key_part_spec *column; is_hash_field_needed= false; if (key->name.str == ignore_key) { /* ignore redundant keys */ do key=key_iterator++; while (key && key->name.str == ignore_key); if (!key) break; } switch (key->type) { case Key::MULTIPLE: key_info->flags= 0; break; case Key::FULLTEXT: key_info->flags= HA_FULLTEXT; if ((key_info->parser_name= &key->key_create_info.parser_name)->str) key_info->flags|= HA_USES_PARSER; else key_info->parser_name= 0; break; case Key::SPATIAL: #ifdef HAVE_SPATIAL key_info->flags= HA_SPATIAL; break; #else my_error(ER_FEATURE_DISABLED, MYF(0), sym_group_geom.name, sym_group_geom.needed_define); DBUG_RETURN(TRUE); #endif case Key::FOREIGN_KEY: key_number--; // Skip this key continue; default: key_info->flags = HA_NOSAME; break; } if (key->generated) key_info->flags|= HA_GENERATED_KEY; key_info->user_defined_key_parts=(uint8) key->columns.elements; key_info->key_part=key_part_info; key_info->usable_key_parts= key_number; key_info->algorithm= key->key_create_info.algorithm; key_info->option_list= key->option_list; if (parse_option_list(thd, create_info->db_type, &key_info->option_struct, &key_info->option_list, create_info->db_type->index_options, FALSE, thd->mem_root)) DBUG_RETURN(TRUE); if (key->type == Key::FULLTEXT) { if (!(file->ha_table_flags() & HA_CAN_FULLTEXT)) { my_error(ER_TABLE_CANT_HANDLE_FT, MYF(0), file->table_type()); DBUG_RETURN(TRUE); } } /* Make SPATIAL to be RTREE by default SPATIAL only on BLOB or at least BINARY, this actually should be replaced by special GEOM type in near future when new frm file is ready checking for proper key parts number: */ /* TODO: Add proper checks if handler supports key_type and algorithm */ if (key_info->flags & HA_SPATIAL) { if (!(file->ha_table_flags() & HA_CAN_RTREEKEYS)) { my_error(ER_TABLE_CANT_HANDLE_SPKEYS, MYF(0), file->table_type()); DBUG_RETURN(TRUE); } if (key_info->user_defined_key_parts != 1) { my_error(ER_WRONG_ARGUMENTS, MYF(0), "SPATIAL INDEX"); DBUG_RETURN(TRUE); } } else if (key_info->algorithm == HA_KEY_ALG_RTREE) { #ifdef HAVE_RTREE_KEYS if ((key_info->user_defined_key_parts & 1) == 1) { my_error(ER_WRONG_ARGUMENTS, MYF(0), "RTREE INDEX"); DBUG_RETURN(TRUE); } /* TODO: To be deleted */ my_error(ER_NOT_SUPPORTED_YET, MYF(0), "RTREE INDEX"); DBUG_RETURN(TRUE); #else my_error(ER_FEATURE_DISABLED, MYF(0), sym_group_rtree.name, sym_group_rtree.needed_define); DBUG_RETURN(TRUE); #endif } /* Take block size from key part or table part */ /* TODO: Add warning if block size changes. We can't do it here, as this may depend on the size of the key */ key_info->block_size= (key->key_create_info.block_size ? key->key_create_info.block_size : create_info->key_block_size); /* Remember block_size for the future if the block size was given either for key or table and it was given for the key during create/alter table or we have an active key_block_size for the table. The idea is that table specific key_block_size > 0 will only affect new keys and old keys will remember their original value. */ if (key_info->block_size && ((key->key_create_info.flags & HA_USES_BLOCK_SIZE) || create_info->key_block_size)) key_info->flags|= HA_USES_BLOCK_SIZE; List_iterator cols(key->columns), cols2(key->columns); CHARSET_INFO *ft_key_charset=0; // for FULLTEXT for (uint column_nr=0 ; (column=cols++) ; column_nr++) { Key_part_spec *dup_column; it.rewind(); field=0; while ((sql_field=it++) && lex_string_cmp(system_charset_info, &column->field_name, &sql_field->field_name)) field++; /* Either field is not present or field visibility is > INVISIBLE_USER */ if (!sql_field || (sql_field->invisible > INVISIBLE_USER && !column->generated)) { my_error(ER_KEY_COLUMN_DOES_NOT_EXIST, MYF(0), column->field_name.str); DBUG_RETURN(TRUE); } if (sql_field->invisible > INVISIBLE_USER && !(sql_field->flags & VERS_SYSTEM_FIELD) && !key->invisible && !DBUG_IF("test_invisible_index")) { my_error(ER_KEY_COLUMN_DOES_NOT_EXIST, MYF(0), column->field_name.str); DBUG_RETURN(TRUE); } while ((dup_column= cols2++) != column) { if (!lex_string_cmp(system_charset_info, &column->field_name, &dup_column->field_name)) { my_error(ER_DUP_FIELDNAME, MYF(0), column->field_name.str); DBUG_RETURN(TRUE); } } if (sql_field->compression_method()) { my_error(ER_COMPRESSED_COLUMN_USED_AS_KEY, MYF(0), column->field_name.str); DBUG_RETURN(TRUE); } cols2.rewind(); switch(key->type) { case Key::FULLTEXT: if (sql_field->type_handler()->Key_part_spec_init_ft(column, *sql_field) || (ft_key_charset && sql_field->charset != ft_key_charset)) { my_error(ER_BAD_FT_COLUMN, MYF(0), column->field_name.str); DBUG_RETURN(-1); } ft_key_charset= sql_field->charset; break; case Key::SPATIAL: if (sql_field->type_handler()->Key_part_spec_init_spatial(column, *sql_field) || sql_field->check_vcol_for_key(thd)) DBUG_RETURN(TRUE); if (!(sql_field->flags & NOT_NULL_FLAG)) { my_message(ER_SPATIAL_CANT_HAVE_NULL, ER_THD(thd, ER_SPATIAL_CANT_HAVE_NULL), MYF(0)); DBUG_RETURN(TRUE); } break; case Key::PRIMARY: if (sql_field->vcol_info) { my_error(ER_PRIMARY_KEY_BASED_ON_GENERATED_COLUMN, MYF(0)); DBUG_RETURN(TRUE); } if (sql_field->type_handler()->Key_part_spec_init_primary(column, *sql_field, file)) DBUG_RETURN(TRUE); if (!(sql_field->flags & NOT_NULL_FLAG)) { /* Implicitly set primary key fields to NOT NULL for ISO conf. */ sql_field->flags|= NOT_NULL_FLAG; sql_field->pack_flag&= ~FIELDFLAG_MAYBE_NULL; null_fields--; } break; case Key::MULTIPLE: if (sql_field->type_handler()->Key_part_spec_init_multiple(column, *sql_field, file) || sql_field->check_vcol_for_key(thd) || key_add_part_check_null(file, key_info, sql_field, column)) DBUG_RETURN(TRUE); break; case Key::FOREIGN_KEY: if (sql_field->type_handler()->Key_part_spec_init_foreign(column, *sql_field, file) || sql_field->check_vcol_for_key(thd) || key_add_part_check_null(file, key_info, sql_field, column)) DBUG_RETURN(TRUE); break; case Key::UNIQUE: if (sql_field->type_handler()->Key_part_spec_init_unique(column, *sql_field, file, &is_hash_field_needed) || sql_field->check_vcol_for_key(thd) || key_add_part_check_null(file, key_info, sql_field, column)) DBUG_RETURN(TRUE); break; } if (MTYP_TYPENR(sql_field->unireg_check) == Field::NEXT_NUMBER) { DBUG_ASSERT(key->type != Key::FULLTEXT); DBUG_ASSERT(key->type != Key::SPATIAL); if (column_nr == 0 || (file->ha_table_flags() & HA_AUTO_PART_KEY)) auto_increment--; // Field is used auto_increment_key= sql_field; } key_part_info->fieldnr= field; key_part_info->offset= (uint16) sql_field->offset; key_part_info->key_type=sql_field->pack_flag; key_part_info->key_part_flag= column->asc ? 0 : HA_REVERSE_SORT; uint key_part_length= sql_field->type_handler()-> calc_key_length(*sql_field); if (column->length) { if (f_is_blob(sql_field->pack_flag)) { key_part_length= MY_MIN(column->length, blob_length_by_type(sql_field->real_field_type()) * sql_field->charset->mbmaxlen); if (key_part_length > max_key_length || key_part_length > file->max_key_part_length()) { if (key->type == Key::MULTIPLE) { key_part_length= MY_MIN(max_key_length, file->max_key_part_length()); /* not a critical problem */ push_warning_printf(thd, Sql_condition::WARN_LEVEL_NOTE, ER_TOO_LONG_KEY, ER_THD(thd, ER_TOO_LONG_KEY), key_part_length); /* Align key length to multibyte char boundary */ key_part_length-= key_part_length % sql_field->charset->mbmaxlen; } } } // Catch invalid use of partial keys else if (!f_is_geom(sql_field->pack_flag) && // is the key partial? column->length != key_part_length && // is prefix length bigger than field length? (column->length > key_part_length || // can the field have a partial key? !sql_field->type_handler()->type_can_have_key_part() || // a packed field can't be used in a partial key f_is_packed(sql_field->pack_flag) || // does the storage engine allow prefixed search? ((file->ha_table_flags() & HA_NO_PREFIX_CHAR_KEYS) && // and is this a 'unique' key? (key_info->flags & HA_NOSAME)))) { my_message(ER_WRONG_SUB_KEY, ER_THD(thd, ER_WRONG_SUB_KEY), MYF(0)); DBUG_RETURN(TRUE); } else if (!(file->ha_table_flags() & HA_NO_PREFIX_CHAR_KEYS)) key_part_length= column->length; } else if (key_part_length == 0 && (sql_field->flags & NOT_NULL_FLAG) && !is_hash_field_needed) { my_error(ER_WRONG_KEY_COLUMN, MYF(0), file->table_type(), column->field_name.str); DBUG_RETURN(TRUE); } if (key_part_length > file->max_key_part_length() && key->type != Key::FULLTEXT) { if (key->type == Key::MULTIPLE) { key_part_length= file->max_key_part_length(); /* not a critical problem */ push_warning_printf(thd, Sql_condition::WARN_LEVEL_NOTE, ER_TOO_LONG_KEY, ER_THD(thd, ER_TOO_LONG_KEY), key_part_length); /* Align key length to multibyte char boundary */ key_part_length-= key_part_length % sql_field->charset->mbmaxlen; } else { if (key->type != Key::UNIQUE) { key_part_length= MY_MIN(max_key_length, file->max_key_part_length()); my_error(ER_TOO_LONG_KEY, MYF(0), key_part_length); DBUG_RETURN(TRUE); } } } if (key->type == Key::UNIQUE && key_part_length > MY_MIN(max_key_length, file->max_key_part_length())) is_hash_field_needed= true; /* We can not store key_part_length more then 2^16 - 1 in frm */ if (is_hash_field_needed && column->length > UINT_MAX16) { my_error(ER_TOO_LONG_KEYPART, MYF(0), UINT_MAX16); DBUG_RETURN(TRUE); } else key_part_info->length= (uint16) key_part_length; /* Use packed keys for long strings on the first column */ if (!((*db_options) & HA_OPTION_NO_PACK_KEYS) && !((create_info->table_options & HA_OPTION_NO_PACK_KEYS)) && (key_part_length >= KEY_DEFAULT_PACK_LENGTH) && !is_hash_field_needed) { key_info->flags|= sql_field->type_handler()->KEY_pack_flags(column_nr); } /* Check if the key segment is partial, set the key flag accordingly */ if (key_part_length != sql_field->type_handler()-> calc_key_length(*sql_field) && key_part_length != sql_field->type_handler()->max_octet_length()) key_info->flags|= HA_KEY_HAS_PART_KEY_SEG; key_length+= key_part_length; key_part_info++; } if (!key_info->name.str || check_column_name(key_info->name.str)) { my_error(ER_WRONG_NAME_FOR_INDEX, MYF(0), key_info->name.str); DBUG_RETURN(TRUE); } if (key->type == Key::UNIQUE && !(key_info->flags & HA_NULL_PART_KEY)) unique_key=1; key_info->key_length=(uint16) key_length; if (key_info->key_length > max_key_length && key->type == Key::UNIQUE) is_hash_field_needed= true; // for case "a BLOB UNIQUE" if (key_length > max_key_length && key->type != Key::FULLTEXT && !is_hash_field_needed) { my_error(ER_TOO_LONG_KEY, MYF(0), max_key_length); DBUG_RETURN(TRUE); } /* Check long unique keys */ if (is_hash_field_needed) { if (auto_increment_key) { my_error(ER_NO_AUTOINCREMENT_WITH_UNIQUE, MYF(0), sql_field->field_name.str, key_info->name.str); DBUG_RETURN(TRUE); } if (key_info->algorithm != HA_KEY_ALG_UNDEF && key_info->algorithm != HA_KEY_ALG_HASH ) { my_error(ER_TOO_LONG_KEY, MYF(0), max_key_length); DBUG_RETURN(TRUE); } } if (is_hash_field_needed || (key_info->algorithm == HA_KEY_ALG_HASH && key->type != Key::PRIMARY && key_info->flags & HA_NOSAME && !(file->ha_table_flags() & HA_CAN_HASH_KEYS ) && file->ha_table_flags() & HA_CAN_VIRTUAL_COLUMNS)) { Create_field *hash_fld= add_hash_field(thd, &alter_info->create_list, key_info); if (!hash_fld) DBUG_RETURN(TRUE); hash_fld->offset= record_offset; hash_fld->charset= create_info->default_table_charset; record_offset+= hash_fld->pack_length; if (key_info->flags & HA_NULL_PART_KEY) null_fields++; else { hash_fld->flags|= NOT_NULL_FLAG; hash_fld->pack_flag&= ~FIELDFLAG_MAYBE_NULL; } } if (validate_comment_length(thd, &key->key_create_info.comment, INDEX_COMMENT_MAXLEN, ER_TOO_LONG_INDEX_COMMENT, key_info->name.str)) DBUG_RETURN(TRUE); key_info->comment.length= key->key_create_info.comment.length; if (key_info->comment.length > 0) { key_info->flags|= HA_USES_COMMENT; key_info->comment.str= key->key_create_info.comment.str; } // Check if a duplicate index is defined. check_duplicate_key(thd, key, key_info, &alter_info->key_list); key_info->without_overlaps= key->without_overlaps; if (key_info->without_overlaps) { if (key_info->algorithm == HA_KEY_ALG_HASH || key_info->algorithm == HA_KEY_ALG_LONG_HASH) { without_overlaps_err: my_error(ER_KEY_CANT_HAVE_WITHOUT_OVERLAPS, MYF(0), key_info->name.str); DBUG_RETURN(true); } key_iterator2.rewind(); while ((key2 = key_iterator2++)) { if (key2->type != Key::FOREIGN_KEY) continue; DBUG_ASSERT(key != key2); Foreign_key *fk= (Foreign_key*) key2; if (fk->update_opt != FK_OPTION_CASCADE) continue; for (Key_part_spec& kp: key->columns) { for (Key_part_spec& kp2: fk->columns) { if (!lex_string_cmp(system_charset_info, &kp.field_name, &kp2.field_name)) { goto without_overlaps_err; } } } } create_info->period_info.unique_keys++; } key_info->is_ignored= key->key_create_info.is_ignored; key_info++; } if (!unique_key && !primary_key && !create_info->sequence && (file->ha_table_flags() & HA_REQUIRE_PRIMARY_KEY)) { my_message(ER_REQUIRES_PRIMARY_KEY, ER_THD(thd, ER_REQUIRES_PRIMARY_KEY), MYF(0)); DBUG_RETURN(TRUE); } if (auto_increment > 0) { my_message(ER_WRONG_AUTO_KEY, ER_THD(thd, ER_WRONG_AUTO_KEY), MYF(0)); DBUG_RETURN(TRUE); } /* We cannot do qsort of key info if MyISAM/Aria does inplace. These engines do not synchronise key info on inplace alter and that qsort is indeterministic (MDEV-25803). Yet we do not know whether we do inplace or not. That detection is done after this create_table_impl() and that cannot be changed because of chicken and egg problem (inplace processing requires key info made by create_table_impl()). MyISAM/Aria cannot add index inplace so we are safe to qsort key info in that case. And if we don't add index then we do not need qsort at all. */ if (!(create_info->options & HA_SKIP_KEY_SORT)) { /* Sort keys in optimized order. Note: PK must be always first key, otherwise init_from_binary_frm_image() can not understand it. */ my_qsort((uchar*) *key_info_buffer, *key_count, sizeof(KEY), (qsort_cmp) sort_keys); } create_info->null_bits= null_fields; /* Check fields. */ Item::Check_table_name_prm walk_prm(db, table_name); it.rewind(); while ((sql_field=it++)) { Field::utype type= (Field::utype) MTYP_TYPENR(sql_field->unireg_check); /* Set NO_DEFAULT_VALUE_FLAG if this field doesn't have a default value and it is NOT NULL, not an AUTO_INCREMENT field, not a TIMESTAMP and not updated trough a NOW() function. */ if (!sql_field->default_value && !sql_field->has_default_function() && (sql_field->flags & NOT_NULL_FLAG) && (!sql_field->is_timestamp_type() || (thd->variables.option_bits & OPTION_EXPLICIT_DEF_TIMESTAMP))&& !sql_field->vers_sys_field()) { sql_field->flags|= NO_DEFAULT_VALUE_FLAG; sql_field->pack_flag|= FIELDFLAG_NO_DEFAULT; } if (thd->variables.sql_mode & MODE_NO_ZERO_DATE && !sql_field->default_value && !sql_field->vcol_info && !sql_field->vers_sys_field() && sql_field->is_timestamp_type() && !(thd->variables.option_bits & OPTION_EXPLICIT_DEF_TIMESTAMP) && (sql_field->flags & NOT_NULL_FLAG) && (type == Field::NONE || type == Field::TIMESTAMP_UN_FIELD)) { /* An error should be reported if: - NO_ZERO_DATE SQL mode is active; - there is no explicit DEFAULT clause (default column value); - this is a TIMESTAMP column; - the column is not NULL; - this is not the DEFAULT CURRENT_TIMESTAMP column. In other words, an error should be reported if - NO_ZERO_DATE SQL mode is active; - the column definition is equivalent to 'column_name TIMESTAMP DEFAULT 0'. */ my_error(ER_INVALID_DEFAULT, MYF(0), sql_field->field_name.str); DBUG_RETURN(TRUE); } if (sql_field->invisible == INVISIBLE_USER && sql_field->flags & NOT_NULL_FLAG && sql_field->flags & NO_DEFAULT_VALUE_FLAG && !sql_field->vers_sys_field()) { my_error(ER_INVISIBLE_NOT_NULL_WITHOUT_DEFAULT, MYF(0), sql_field->field_name.str); DBUG_RETURN(TRUE); } if (create_simple) { /* NOTE: we cannot do this in check_vcol_func_processor() as there is already no table name qualifier in expression. */ if (sql_field->vcol_info && sql_field->vcol_info->expr && sql_field->vcol_info->expr->walk(&Item::check_table_name_processor, false, (void *) &walk_prm)) { my_error(ER_BAD_FIELD_ERROR, MYF(0), walk_prm.field.c_ptr(), "GENERATED ALWAYS"); DBUG_RETURN(TRUE); } if (sql_field->default_value && sql_field->default_value->expr->walk(&Item::check_table_name_processor, false, (void *) &walk_prm)) { my_error(ER_BAD_FIELD_ERROR, MYF(0), walk_prm.field.c_ptr(), "DEFAULT"); DBUG_RETURN(TRUE); } if (sql_field->check_constraint && sql_field->check_constraint->expr->walk(&Item::check_table_name_processor, false, (void *) &walk_prm)) { my_error(ER_BAD_FIELD_ERROR, MYF(0), walk_prm.field.c_ptr(), "CHECK"); DBUG_RETURN(TRUE); } } } /* Check table level constraints */ create_info->check_constraint_list= &alter_info->check_constraint_list; { List_iterator_fast c_it(alter_info->check_constraint_list); Virtual_column_info *check; while ((check= c_it++)) { if (create_simple && check->expr->walk(&Item::check_table_name_processor, false, (void *) &walk_prm)) { my_error(ER_BAD_FIELD_ERROR, MYF(0), walk_prm.field.c_ptr(), "CHECK"); DBUG_RETURN(TRUE); } if (!check->name.length || check->automatic_name) { if (check_expression(check, &check->name, VCOL_CHECK_TABLE, alter_info)) DBUG_RETURN(TRUE); continue; } { /* Check that there's no repeating table CHECK constraint names. */ List_iterator_fast dup_it(alter_info->check_constraint_list); const Virtual_column_info *dup_check; while ((dup_check= dup_it++) && dup_check != check) { if (!lex_string_cmp(system_charset_info, &check->name, &dup_check->name)) { my_error(ER_DUP_CONSTRAINT_NAME, MYF(0), "CHECK", check->name.str); DBUG_RETURN(TRUE); } } } /* Check that there's no repeating key constraint names. */ List_iterator_fast key_it(alter_info->key_list); while (const Key *key= key_it++) { /* Not all keys considered to be the CONSTRAINT Noly Primary Key UNIQUE and Foreign keys. */ if (key->type != Key::PRIMARY && key->type != Key::UNIQUE && key->type != Key::FOREIGN_KEY) continue; if (check->name.length == key->name.length && my_strcasecmp(system_charset_info, check->name.str, key->name.str) == 0) { my_error(ER_DUP_CONSTRAINT_NAME, MYF(0), "CHECK", check->name.str); DBUG_RETURN(TRUE); } } if (check_string_char_length(&check->name, 0, NAME_CHAR_LEN, system_charset_info, 1)) { my_error(ER_TOO_LONG_IDENT, MYF(0), check->name.str); DBUG_RETURN(TRUE); } if (check_expression(check, &check->name, VCOL_CHECK_TABLE, alter_info)) DBUG_RETURN(TRUE); } } /* Give warnings for not supported table options */ extern handlerton *maria_hton; if (file->partition_ht() != maria_hton && create_info->transactional && !file->has_transaction_manager()) push_warning_printf(thd, Sql_condition::WARN_LEVEL_WARN, ER_ILLEGAL_HA_CREATE_OPTION, ER_THD(thd, ER_ILLEGAL_HA_CREATE_OPTION), file->engine_name()->str, create_info->transactional == HA_CHOICE_YES ? "TRANSACTIONAL=1" : "TRANSACTIONAL=0"); if (parse_option_list(thd, file->partition_ht(), &create_info->option_struct, &create_info->option_list, file->partition_ht()->table_options, FALSE, thd->mem_root)) DBUG_RETURN(TRUE); #ifndef DBUG_OFF DBUG_EXECUTE_IF("key", Debug_key::print_keys(thd, "prep_create_table: ", *key_info_buffer, *key_count); ); #endif DBUG_RETURN(FALSE); } /* Preparation for table creation SYNOPSIS mysql_prepare_create_table() thd Thread object. create_info Create information (like MAX_ROWS). alter_info List of columns and indexes to create db_options INOUT Table options (like HA_OPTION_PACK_RECORD). file The handler for the new table. key_info_buffer OUT An array of KEY structs for the indexes. key_count OUT The number of elements in the array. create_table_mode C_ORDINARY_CREATE, C_ALTER_TABLE, C_CREATE_SELECT, C_ASSISTED_DISCOVERY DESCRIPTION Prepares the table and key structures for table creation. NOTES sets create_info->varchar if the table has a varchar RETURN VALUES FALSE OK TRUE error */ static int mysql_prepare_create_table(THD *thd, HA_CREATE_INFO *create_info, Alter_info *alter_info, uint *db_options, handler *file, KEY **key_info_buffer, uint *key_count, int create_table_mode, const LEX_CSTRING db, const LEX_CSTRING table_name) { return mysql_prepare_create_table_stage1(thd, create_info, alter_info) || mysql_prepare_create_table_finalize(thd, create_info, alter_info, db_options, file, key_info_buffer, key_count, create_table_mode, db, table_name); } /** check comment length of table, column, index and partition If comment length is more than the standard length truncate it and store the comment length upto the standard comment length size @param thd Thread handle @param[in,out] comment Comment @param max_len Maximum allowed comment length @param err_code Error message @param name Name of commented object @return Operation status @retval true Error found @retval false On Success */ bool validate_comment_length(THD *thd, LEX_CSTRING *comment, size_t max_len, uint err_code, const char *name) { DBUG_ENTER("validate_comment_length"); if (comment->length == 0) DBUG_RETURN(false); size_t tmp_len= Well_formed_prefix(system_charset_info, *comment, max_len).length(); if (tmp_len < comment->length) { if (comment->length <= max_len) { if (thd->is_strict_mode()) { my_error(ER_INVALID_CHARACTER_STRING, MYF(0), system_charset_info->cs_name.str, comment->str); DBUG_RETURN(true); } push_warning_printf(thd, Sql_condition::WARN_LEVEL_WARN, ER_INVALID_CHARACTER_STRING, ER_THD(thd, ER_INVALID_CHARACTER_STRING), system_charset_info->cs_name.str, comment->str); comment->length= tmp_len; DBUG_RETURN(false); } if (thd->is_strict_mode()) { my_error(err_code, MYF(0), name, static_cast(max_len)); DBUG_RETURN(true); } push_warning_printf(thd, Sql_condition::WARN_LEVEL_WARN, err_code, ER_THD(thd, err_code), name, static_cast(max_len)); comment->length= tmp_len; } DBUG_RETURN(false); } /* Extend long VARCHAR fields to blob & prepare field if it's a blob SYNOPSIS prepare_blob_field() RETURN 0 ok 1 Error (sql_field can't be converted to blob) In this case the error is given */ bool Column_definition::prepare_blob_field(THD *thd) { DBUG_ENTER("Column_definition::prepare_blob_field"); if (length > MAX_FIELD_VARCHARLENGTH && !(flags & BLOB_FLAG)) { /* Convert long VARCHAR columns to TEXT or BLOB */ char warn_buff[MYSQL_ERRMSG_SIZE]; if (thd->is_strict_mode()) { my_error(ER_TOO_BIG_FIELDLENGTH, MYF(0), field_name.str, static_cast(MAX_FIELD_VARCHARLENGTH / charset->mbmaxlen)); DBUG_RETURN(1); } set_handler(&type_handler_blob); flags|= BLOB_FLAG; my_snprintf(warn_buff, sizeof(warn_buff), ER_THD(thd, ER_AUTO_CONVERT), field_name.str, (charset == &my_charset_bin) ? "VARBINARY" : "VARCHAR", (charset == &my_charset_bin) ? "BLOB" : "TEXT"); push_warning(thd, Sql_condition::WARN_LEVEL_NOTE, ER_AUTO_CONVERT, warn_buff); } if ((flags & BLOB_FLAG) && length) { if (real_field_type() == FIELD_TYPE_BLOB || real_field_type() == FIELD_TYPE_TINY_BLOB || real_field_type() == FIELD_TYPE_MEDIUM_BLOB) { /* The user has given a length to the blob column */ set_handler(Type_handler::blob_type_handler((uint) length)); pack_length= type_handler()->calc_pack_length(0); } length= 0; } DBUG_RETURN(0); } /* Preparation of Create_field for SP function return values. Based on code used in the inner loop of mysql_prepare_create_table() above. SYNOPSIS sp_prepare_create_field() thd Thread object mem_root Memory root to allocate components on (e.g. interval) DESCRIPTION Prepares the field structures for field creation. */ bool Column_definition::sp_prepare_create_field(THD *thd, MEM_ROOT *mem_root) { const Column_derived_attributes dattr(thd->variables.collation_database); return prepare_stage1(thd, mem_root, COLUMN_DEFINITION_ROUTINE_LOCAL, &dattr) || prepare_stage2(NULL, HA_CAN_GEOMETRY); } /** Appends key parts generated by mariadb server. Adds row_end in UNIQUE keys for system versioning, and period fields for WITHOUT OVERLAPS. @param thd Thread data @param create_info Table create info @param key Parsed key @return a number of key parts added to key. */ static int append_system_key_parts(THD *thd, HA_CREATE_INFO *create_info, Key *key) { const Lex_ident &row_start_field= create_info->vers_info.as_row.start; const Lex_ident &row_end_field= create_info->vers_info.as_row.end; DBUG_ASSERT(!create_info->versioned() || (row_start_field && row_end_field)); int result = 0; if (create_info->versioned() && (key->type == Key::PRIMARY || key->type == Key::UNIQUE)) { Key_part_spec *key_part=NULL; List_iterator part_it(key->columns); while ((key_part=part_it++)) { if (row_start_field.streq(key_part->field_name) || row_end_field.streq(key_part->field_name)) break; } if (!key_part) { key->columns.push_back(new (thd->mem_root) Key_part_spec(&row_end_field, 0, true)); result++; } } if (key->without_overlaps) { DBUG_ASSERT(key->type == Key::PRIMARY || key->type == Key::UNIQUE); if (!create_info->period_info.is_set() || !key->period.streq(create_info->period_info.name)) { my_error(ER_PERIOD_NOT_FOUND, MYF(0), key->period.str); return -1; } const auto &period_start= create_info->period_info.period.start; const auto &period_end= create_info->period_info.period.end; List_iterator part_it(key->columns); while (Key_part_spec *key_part= part_it++) { if (period_start.streq(key_part->field_name) || period_end.streq(key_part->field_name)) { my_error(ER_KEY_CONTAINS_PERIOD_FIELDS, MYF(0), key->name.str, key_part->field_name.str); return -1; } } const auto &period= create_info->period_info.period; key->columns.push_back(new (thd->mem_root) Key_part_spec(&period.end, 0, true)); key->columns.push_back(new (thd->mem_root) Key_part_spec(&period.start, 0, true)); result += 2; } return result; } handler *mysql_create_frm_image(THD *thd, const LEX_CSTRING &db, const LEX_CSTRING &table_name, HA_CREATE_INFO *create_info, Alter_info *alter_info, int create_table_mode, KEY **key_info, uint *key_count, LEX_CUSTRING *frm) { uint db_options; handler *file; DBUG_ENTER("mysql_create_frm_image"); DBUG_ASSERT(create_info->default_table_charset); if (!alter_info->create_list.elements) { my_error(ER_TABLE_MUST_HAVE_COLUMNS, MYF(0)); DBUG_RETURN(NULL); } if (mysql_prepare_create_table_stage1(thd, create_info, alter_info)) DBUG_RETURN(NULL); db_options= create_info->table_options_with_row_type(); if (unlikely(!(file= get_new_handler((TABLE_SHARE*) 0, thd->mem_root, create_info->db_type)))) DBUG_RETURN(NULL); #ifdef WITH_PARTITION_STORAGE_ENGINE partition_info *part_info= thd->work_part_info; if (!part_info && create_info->db_type->partition_flags && (create_info->db_type->partition_flags() & HA_USE_AUTO_PARTITION)) { /* Table is not defined as a partitioned table but the engine handles all tables as partitioned. The handler will set up the partition info object with the default settings. */ thd->work_part_info= part_info= new partition_info(); if (unlikely(!part_info)) goto err; file->set_auto_partitions(part_info); part_info->default_engine_type= create_info->db_type; part_info->is_auto_partitioned= TRUE; } if (part_info) { /* The table has been specified as a partitioned table. If this is part of an ALTER TABLE the handler will be the partition handler but we need to specify the default handler to use for partitions also in the call to check_partition_info. We transport this information in the default_db_type variable, it is either DB_TYPE_DEFAULT or the engine set in the ALTER TABLE command. */ handlerton *part_engine_type= create_info->db_type; char *part_syntax_buf; uint syntax_len; handlerton *engine_type; List_iterator part_it(part_info->partitions); partition_element *part_elem; while ((part_elem= part_it++)) { if (part_elem->part_comment) { LEX_CSTRING comment= { part_elem->part_comment, strlen(part_elem->part_comment) }; if (validate_comment_length(thd, &comment, TABLE_PARTITION_COMMENT_MAXLEN, ER_TOO_LONG_TABLE_PARTITION_COMMENT, part_elem->partition_name)) DBUG_RETURN(NULL); /* cut comment length. Safe to do in all cases */ ((char*)part_elem->part_comment)[comment.length]= '\0'; } if (part_elem->subpartitions.elements) { List_iterator sub_it(part_elem->subpartitions); partition_element *subpart_elem; while ((subpart_elem= sub_it++)) { if (subpart_elem->part_comment) { LEX_CSTRING comment= { subpart_elem->part_comment, strlen(subpart_elem->part_comment) }; if (validate_comment_length(thd, &comment, TABLE_PARTITION_COMMENT_MAXLEN, ER_TOO_LONG_TABLE_PARTITION_COMMENT, subpart_elem->partition_name)) DBUG_RETURN(NULL); /* cut comment length. Safe to do in all cases */ ((char*)subpart_elem->part_comment)[comment.length]= '\0'; } } } } if (create_info->tmp_table()) { my_error(ER_FEATURE_NOT_SUPPORTED_WITH_PARTITIONING, MYF(0), "CREATE TEMPORARY TABLE"); goto err; } if ((part_engine_type == partition_hton) && part_info->default_engine_type) { /* This only happens at ALTER TABLE. default_engine_type was assigned from the engine set in the ALTER TABLE command. */ ; } else { if (create_info->used_fields & HA_CREATE_USED_ENGINE) { part_info->default_engine_type= create_info->db_type; } else { if (part_info->default_engine_type == NULL) { part_info->default_engine_type= ha_default_handlerton(thd); } } } DBUG_PRINT("info", ("db_type = %s create_info->db_type = %s", ha_resolve_storage_engine_name(part_info->default_engine_type), ha_resolve_storage_engine_name(create_info->db_type))); if (part_info->check_partition_info(thd, &engine_type, file, create_info, FALSE)) goto err; part_info->default_engine_type= engine_type; if (part_info->vers_info && !create_info->versioned()) { my_error(ER_VERS_NOT_VERSIONED, MYF(0), table_name.str); goto err; } /* We reverse the partitioning parser and generate a standard format for syntax stored in frm file. */ part_syntax_buf= generate_partition_syntax_for_frm(thd, part_info, &syntax_len, create_info, alter_info); if (!part_syntax_buf) goto err; part_info->part_info_string= part_syntax_buf; part_info->part_info_len= syntax_len; if ((!(engine_type->partition_flags && ((engine_type->partition_flags() & HA_CAN_PARTITION) || (part_info->part_type == VERSIONING_PARTITION && engine_type->partition_flags() & HA_ONLY_VERS_PARTITION)) )) || create_info->db_type == partition_hton) { /* The handler assigned to the table cannot handle partitioning. Assign the partition handler as the handler of the table. */ DBUG_PRINT("info", ("db_type: %s", ha_resolve_storage_engine_name(create_info->db_type))); delete file; create_info->db_type= partition_hton; if (!(file= get_ha_partition(part_info))) DBUG_RETURN(NULL); /* If we have default number of partitions or subpartitions we might require to set-up the part_info object such that it creates a proper .par file. The current part_info object is only used to create the frm-file and .par-file. */ if (part_info->use_default_num_partitions && part_info->num_parts && (int)part_info->num_parts != file->get_default_no_partitions(create_info)) { uint i; List_iterator part_it(part_info->partitions); part_it++; DBUG_ASSERT(thd->lex->sql_command != SQLCOM_CREATE_TABLE); for (i= 1; i < part_info->partitions.elements; i++) (part_it++)->part_state= PART_TO_BE_DROPPED; } else if (part_info->is_sub_partitioned() && part_info->use_default_num_subpartitions && part_info->num_subparts && (int)part_info->num_subparts != file->get_default_no_partitions(create_info)) { DBUG_ASSERT(thd->lex->sql_command != SQLCOM_CREATE_TABLE); part_info->num_subparts= file->get_default_no_partitions(create_info); } } else if (create_info->db_type != engine_type) { /* We come here when we don't use a partitioned handler. Since we use a partitioned table it must be "native partitioned". We have switched engine from defaults, most likely only specified engines in partition clauses. */ delete file; if (unlikely(!(file= get_new_handler((TABLE_SHARE*) 0, thd->mem_root, engine_type)))) DBUG_RETURN(NULL); } } /* Unless table's storage engine supports partitioning natively don't allow foreign keys on partitioned tables (they won't work work even with InnoDB beneath of partitioning engine). If storage engine handles partitioning natively (like NDB) foreign keys support is possible, so we let the engine decide. */ if (create_info->db_type == partition_hton) { List_iterator_fast key_iterator(alter_info->key_list); Key *key; while ((key= key_iterator++)) { if (key->type == Key::FOREIGN_KEY) { my_error(ER_FEATURE_NOT_SUPPORTED_WITH_PARTITIONING, MYF(0), "FOREIGN KEY"); goto err; } } } #endif if (mysql_prepare_create_table_finalize(thd, create_info, alter_info, &db_options, file, key_info, key_count, create_table_mode, db, table_name)) goto err; create_info->table_options=db_options; *frm= build_frm_image(thd, table_name, create_info, alter_info->create_list, *key_count, *key_info, file); if (frm->str) DBUG_RETURN(file); err: delete file; DBUG_RETURN(NULL); } /** Create a table @param thd Thread object @param orig_db Database for error messages @param orig_table_name Table name for error messages (it's different from table_name for ALTER TABLE) @param db Database @param table_name Table name @param path Path to table (i.e. to its .FRM file without the extension). @param create_info Create information (like MAX_ROWS) @param alter_info Description of fields and keys for new table @param create_table_mode C_ORDINARY_CREATE, C_ALTER_TABLE, C_ASSISTED_DISCOVERY or C_ALTER_TABLE_FRM_ONLY. or any positive number (for C_CREATE_SELECT). If set to C_ALTER_TABLE_FRM_ONY then no frm or table is created, only the frm image in memory. @param[out] is_trans Identifies the type of engine where the table was created: either trans or non-trans. @param[out] key_info Array of KEY objects describing keys in table which was created. @param[out] key_count Number of keys in table which was created. @param[out] frm The frm image. If one creates a temporary table, its is automatically opened and its TABLE_SHARE is added to THD::all_temp_tables list. Note that this function assumes that caller already have taken exclusive metadata lock on table being created or used some other way to ensure that concurrent operations won't intervene. mysql_create_table() is a wrapper that can be used for this. @retval 0 OK @retval 1 error @retval -1 table existed but IF NOT EXISTS was used */ static int create_table_impl(THD *thd, DDL_LOG_STATE *ddl_log_state_create, DDL_LOG_STATE *ddl_log_state_rm, const LEX_CSTRING &orig_db, const LEX_CSTRING &orig_table_name, const LEX_CSTRING &db, const LEX_CSTRING &table_name, const LEX_CSTRING &path, const DDL_options_st options, HA_CREATE_INFO *create_info, Alter_info *alter_info, int create_table_mode, bool *is_trans, KEY **key_info, uint *key_count, LEX_CUSTRING *frm) { LEX_CSTRING *alias; handler *file= 0; int error= 1; bool frm_only= create_table_mode == C_ALTER_TABLE_FRM_ONLY; bool internal_tmp_table= create_table_mode == C_ALTER_TABLE || frm_only; DBUG_ENTER("create_table_impl"); DBUG_PRINT("enter", ("db: '%s' table: '%s' tmp: %d path: %s", db.str, table_name.str, internal_tmp_table, path.str)); DBUG_ASSERT(create_info->default_table_charset); /* Easy check for ddl logging if we are creating a temporary table */ if (create_info->tmp_table()) { ddl_log_state_create= 0; ddl_log_state_rm= 0; } if (fix_constraints_names(thd, &alter_info->check_constraint_list, create_info)) DBUG_RETURN(1); if (thd->variables.sql_mode & MODE_NO_DIR_IN_CREATE) { if (create_info->data_file_name) push_warning_printf(thd, Sql_condition::WARN_LEVEL_WARN, WARN_OPTION_IGNORED, ER_THD(thd, WARN_OPTION_IGNORED), "DATA DIRECTORY"); if (create_info->index_file_name) push_warning_printf(thd, Sql_condition::WARN_LEVEL_WARN, WARN_OPTION_IGNORED, ER_THD(thd, WARN_OPTION_IGNORED), "INDEX DIRECTORY"); create_info->data_file_name= create_info->index_file_name= 0; } else { if (unlikely(error_if_data_home_dir(create_info->data_file_name, "DATA DIRECTORY")) || unlikely(error_if_data_home_dir(create_info->index_file_name, "INDEX DIRECTORY")) || unlikely(check_partition_dirs(thd->lex->part_info))) goto err; } alias= const_cast(table_case_name(create_info, &table_name)); /* Check if table exists */ if (create_info->tmp_table()) { /* If a table exists, it must have been pre-opened. Try looking for one in-use in THD::all_temp_tables list of TABLE_SHAREs. */ TABLE *tmp_table= thd->find_temporary_table(db.str, table_name.str, THD::TMP_TABLE_ANY); if (tmp_table) { bool table_creation_was_logged= tmp_table->s->table_creation_was_logged; if (options.or_replace()) { /* We are using CREATE OR REPLACE on an existing temporary table Remove the old table so that we can re-create it. */ if (thd->drop_temporary_table(tmp_table, NULL, true)) goto err; } else if (options.if_not_exists()) goto warn; else { my_error(ER_TABLE_EXISTS_ERROR, MYF(0), alias->str); goto err; } /* We have to log this query, even if it failed later to ensure the drop is done. */ if (table_creation_was_logged) { thd->variables.option_bits|= OPTION_BINLOG_THIS; create_info->table_was_deleted= 1; } } } else { if (ha_check_if_updates_are_ignored(thd, create_info->db_type, "CREATE")) { /* Don't create table. CREATE will still be logged in binary log This can happen for shared storage engines that supports ENGINE= in the create statement (Note that S3 doesn't support this. */ error= 0; goto err; } handlerton *db_type; if (!internal_tmp_table && ha_table_exists(thd, &db, &table_name, &create_info->org_tabledef_version, NULL, &db_type)) { if (ha_check_if_updates_are_ignored(thd, db_type, "CREATE")) { /* Don't create table. CREATE will still be logged in binary log */ error= 0; goto err; } if (options.or_replace()) { (void) delete_statistics_for_table(thd, &db, &table_name); TABLE_LIST table_list; table_list.init_one_table(&db, &table_name, 0, TL_WRITE_ALLOW_WRITE); table_list.table= create_info->table; if (check_if_log_table(&table_list, TRUE, "CREATE OR REPLACE")) goto err; /* Rollback the empty transaction started in mysql_create_table() call to open_and_lock_tables() when we are using LOCK TABLES. */ (void) trans_rollback_stmt(thd); /* Remove normal table without logging. Keep tables locked */ if (mysql_rm_table_no_locks(thd, &table_list, &thd->db, ddl_log_state_rm, 0, 0, 0, 0, 1, 1)) goto err; debug_crash_here("ddl_log_create_after_drop"); /* We have to log this query, even if it failed later to ensure the drop is done. */ thd->variables.option_bits|= OPTION_BINLOG_THIS; create_info->table_was_deleted= 1; lex_string_set(&create_info->org_storage_engine_name, ha_resolve_storage_engine_name(db_type)); DBUG_EXECUTE_IF("send_kill_after_delete", thd->set_killed(KILL_QUERY);); /* Restart statement transactions for the case of CREATE ... SELECT. */ if (thd->lex->first_select_lex()->item_list.elements && restart_trans_for_tables(thd, thd->lex->query_tables)) goto err; } else if (options.if_not_exists()) { /* We never come here as part of normal create table as table existence is checked in open_and_lock_tables(). We may come here as part of ALTER TABLE when converting a table for a distributed engine to a a local one. */ /* Log CREATE IF NOT EXISTS on slave for distributed engines */ if (thd->slave_thread && db_type && db_type->flags & HTON_IGNORE_UPDATES) thd->variables.option_bits|= OPTION_BINLOG_THIS; goto warn; } else { my_error(ER_TABLE_EXISTS_ERROR, MYF(0), table_name.str); goto err; } } } THD_STAGE_INFO(thd, stage_creating_table); if (check_engine(thd, orig_db.str, orig_table_name.str, create_info)) goto err; if (create_table_mode == C_ASSISTED_DISCOVERY) { /* check that it's used correctly */ DBUG_ASSERT(alter_info->create_list.elements == 0); DBUG_ASSERT(alter_info->key_list.elements == 0); TABLE_SHARE share; handlerton *hton= create_info->db_type; int ha_err; Field *no_fields= 0; if (!hton->discover_table_structure) { my_error(ER_TABLE_MUST_HAVE_COLUMNS, MYF(0)); goto err; } init_tmp_table_share(thd, &share, db.str, 0, table_name.str, path.str); /* prepare everything for discovery */ share.field= &no_fields; share.db_plugin= ha_lock_engine(thd, hton); share.option_list= create_info->option_list; share.connect_string= create_info->connect_string; if (parse_engine_table_options(thd, hton, &share)) goto err; /* Log that we are going to do discovery. If things fails, any generated .frm files are deleted */ if (ddl_log_state_create) ddl_log_create_table(ddl_log_state_create, (handlerton*) 0, &path, &db, &table_name, 1); ha_err= hton->discover_table_structure(hton, thd, &share, create_info); /* if discovery failed, the plugin will be auto-unlocked, as it was locked on the THD, see above. if discovery succeeded, the plugin was replaced by a globally locked plugin, that will be unlocked by free_table_share() */ if (ha_err) share.db_plugin= 0; // will be auto-freed, locked above on the THD free_table_share(&share); if (ha_err) { my_error(ER_GET_ERRNO, MYF(0), ha_err, hton_name(hton)->str); goto err; } } else { if (ddl_log_state_create) ddl_log_create_table(ddl_log_state_create, create_info->db_type, &path, &db, &table_name, frm_only); debug_crash_here("ddl_log_create_before_create_frm"); file= mysql_create_frm_image(thd, orig_db, orig_table_name, create_info, alter_info, create_table_mode, key_info, key_count, frm); /* TODO: remove this check of thd->is_error() (now it intercept errors in some val_*() methods and bring some single place to such error interception). */ if (!file || thd->is_error()) { if (!file) deletefrm(path.str); goto err; } if (thd->variables.keep_files_on_create) create_info->options|= HA_CREATE_KEEP_FILES; if (file->ha_create_partitioning_metadata(path.str, NULL, CHF_CREATE_FLAG)) goto err; if (!frm_only) { debug_crash_here("ddl_log_create_before_create_table"); if (ha_create_table(thd, path.str, db.str, table_name.str, create_info, frm, 0)) { file->ha_create_partitioning_metadata(path.str, NULL, CHF_DELETE_FLAG); deletefrm(path.str); goto err; } debug_crash_here("ddl_log_create_after_create_table"); } } create_info->table= 0; if (!frm_only && create_info->tmp_table()) { TABLE *table= thd->create_and_open_tmp_table(frm, path.str, db.str, table_name.str, false); if (!table) { (void) thd->rm_temporary_table(create_info->db_type, path.str); goto err; } if (is_trans != NULL) *is_trans= table->file->has_transactions(); thd->used|= THD::THREAD_SPECIFIC_USED; create_info->table= table; // Store pointer to table } error= 0; err: if (unlikely(error) && ddl_log_state_create) { /* Table was never created, so we can ignore the ddl log entry */ ddl_log_complete(ddl_log_state_create); } THD_STAGE_INFO(thd, stage_after_create); delete file; DBUG_PRINT("exit", ("return: %d", error)); DBUG_RETURN(error); warn: error= -1; push_warning_printf(thd, Sql_condition::WARN_LEVEL_NOTE, ER_TABLE_EXISTS_ERROR, ER_THD(thd, ER_TABLE_EXISTS_ERROR), alias->str); goto err; } /** Simple wrapper around create_table_impl() to be used in various version of CREATE TABLE statement. @result 1 unspecifed error 2 error; Don't log create statement 0 ok -1 Table was used with IF NOT EXISTS and table existed (warning, not error) */ int mysql_create_table_no_lock(THD *thd, DDL_LOG_STATE *ddl_log_state_create, DDL_LOG_STATE *ddl_log_state_rm, const LEX_CSTRING *db, const LEX_CSTRING *table_name, Table_specification_st *create_info, Alter_info *alter_info, bool *is_trans, int create_table_mode, TABLE_LIST *table_list) { KEY *not_used_1; uint not_used_2; int res; uint path_length; char path[FN_REFLEN + 1]; LEX_CSTRING cpath; LEX_CUSTRING frm= {0,0}; DBUG_ASSERT(create_info->default_table_charset); if (create_info->tmp_table()) path_length= build_tmptable_filename(thd, path, sizeof(path)); else { const LEX_CSTRING *alias= table_case_name(create_info, table_name); path_length= build_table_filename(path, sizeof(path) - 1, db->str, alias->str, "", 0); // Check if we hit FN_REFLEN bytes along with file extension. if (path_length+reg_ext_length > FN_REFLEN) { my_error(ER_IDENT_CAUSES_TOO_LONG_PATH, MYF(0), (int) sizeof(path)-1, path); return true; } } lex_string_set3(&cpath, path, path_length); res= create_table_impl(thd, ddl_log_state_create, ddl_log_state_rm, *db, *table_name, *db, *table_name, cpath, *create_info, create_info, alter_info, create_table_mode, is_trans, ¬_used_1, ¬_used_2, &frm); my_free(const_cast(frm.str)); if (!res && create_info->sequence) { /* Set create_info.table if temporary table */ if (create_info->tmp_table()) table_list->table= create_info->table; else table_list->table= 0; res= sequence_insert(thd, thd->lex, table_list); if (res) { DBUG_ASSERT(thd->is_error()); /* Drop the table as it wasn't completely done */ if (!mysql_rm_table_no_locks(thd, table_list, &thd->db, (DDL_LOG_STATE*) 0, 1, create_info->tmp_table(), false, true /* Sequence*/, true /* Don't log_query */, true /* Don't free locks */ )) { /* From the user point of view, the table creation failed We return 2 to indicate that this statement doesn't have to be logged. */ res= 2; } } } return res; } /** Implementation of SQLCOM_CREATE_TABLE. Take the metadata locks (including a shared lock on the affected schema) and create the table. Is written to be called from mysql_execute_command(), to which it delegates the common parts with other commands (i.e. implicit commit before and after, close of thread tables. */ static bool mysql_create_table(THD *thd, TABLE_LIST *create_table, Table_specification_st *create_info, Alter_info *alter_info) { TABLE_LIST *pos_in_locked_tables= 0; MDL_ticket *mdl_ticket= 0; DDL_LOG_STATE ddl_log_state_create, ddl_log_state_rm; int create_table_mode; uint save_thd_create_info_options; bool is_trans= FALSE; bool result; DBUG_ENTER("mysql_create_table"); DBUG_ASSERT(create_info->default_table_charset); DBUG_ASSERT(create_table == thd->lex->query_tables); bzero(&ddl_log_state_create, sizeof(ddl_log_state_create)); bzero(&ddl_log_state_rm, sizeof(ddl_log_state_rm)); /* Copy temporarily the statement flags to thd for lock_table_names() */ save_thd_create_info_options= thd->lex->create_info.options; thd->lex->create_info.options|= create_info->options; /* Open or obtain an exclusive metadata lock on table being created */ create_table->db_type= 0; result= open_and_lock_tables(thd, *create_info, create_table, FALSE, 0); thd->lex->create_info.options= save_thd_create_info_options; if (result) { if (thd->slave_thread && !thd->is_error() && create_table->db_type && (create_table->db_type->flags & HTON_IGNORE_UPDATES)) { /* Table existed in distributed engine. Log query to binary log */ result= 0; goto err; } /* is_error() may be 0 if table existed and we generated a warning */ DBUG_RETURN(thd->is_error()); } /* The following is needed only in case of lock tables */ if ((create_info->table= create_table->table)) { pos_in_locked_tables= create_info->table->pos_in_locked_tables; mdl_ticket= create_table->table->mdl_ticket; } /* Got lock. */ DEBUG_SYNC(thd, "locked_table_name"); if (alter_info->create_list.elements || alter_info->key_list.elements) create_table_mode= C_ORDINARY_CREATE; else create_table_mode= C_ASSISTED_DISCOVERY; if (!(thd->variables.option_bits & OPTION_EXPLICIT_DEF_TIMESTAMP)) promote_first_timestamp_column(&alter_info->create_list); /* We can abort create table for any table type */ thd->abort_on_warning= thd->is_strict_mode(); if (mysql_create_table_no_lock(thd, &ddl_log_state_create, &ddl_log_state_rm, &create_table->db, &create_table->table_name, create_info, alter_info, &is_trans, create_table_mode, create_table) > 0) { result= 1; goto err; } /* Check if we are doing CREATE OR REPLACE TABLE under LOCK TABLES on a non temporary table */ if (thd->locked_tables_mode && pos_in_locked_tables && create_info->or_replace()) { DBUG_ASSERT(thd->variables.option_bits & OPTION_TABLE_LOCK); /* Add back the deleted table and re-created table as a locked table This should always work as we have a meta lock on the table. */ thd->locked_tables_list.add_back_last_deleted_lock(pos_in_locked_tables); if (thd->locked_tables_list.reopen_tables(thd, false)) { thd->locked_tables_list.unlink_all_closed_tables(thd, NULL, 0); result= 1; goto err; } else { TABLE *table= pos_in_locked_tables->table; table->mdl_ticket->downgrade_lock(MDL_SHARED_NO_READ_WRITE); } } err: thd->abort_on_warning= 0; /* In RBR or readonly server we don't need to log CREATE TEMPORARY TABLE */ if (!result && create_info->tmp_table() && (thd->is_current_stmt_binlog_format_row() || (opt_readonly && !thd->slave_thread))) { /* Note that table->s->table_creation_was_logged is not set! */ DBUG_RETURN(result); } if (create_info->tmp_table()) thd->transaction->stmt.mark_created_temp_table(); /* Write log if no error or if we already deleted a table */ if (!result || thd->log_current_statement()) { if (unlikely(result) && create_info->table_was_deleted && pos_in_locked_tables) { /* Possible locked table was dropped. We should remove meta data locks associated with it and do UNLOCK_TABLES if no more locked tables. */ (void) thd->locked_tables_list.unlock_locked_table(thd, mdl_ticket); } else if (likely(!result) && create_info->table) { /* Remember that table creation was logged so that we know if we should log a delete of it. If create_info->table was not set, it's a normal table and table_creation_was_logged will be set when the share is created. */ create_info->table->s->table_creation_was_logged= 1; } thd->binlog_xid= thd->query_id; ddl_log_update_xid(&ddl_log_state_create, thd->binlog_xid); if (ddl_log_state_rm.is_active()) ddl_log_update_xid(&ddl_log_state_rm, thd->binlog_xid); debug_crash_here("ddl_log_create_before_binlog"); if (unlikely(write_bin_log(thd, result ? FALSE : TRUE, thd->query(), thd->query_length(), is_trans))) result= 1; debug_crash_here("ddl_log_create_after_binlog"); thd->binlog_xid= 0; if (!create_info->tmp_table()) { backup_log_info ddl_log; bzero(&ddl_log, sizeof(ddl_log)); ddl_log.query= { C_STRING_WITH_LEN("CREATE") }; ddl_log.org_partitioned= (create_info->db_type == partition_hton); ddl_log.org_storage_engine_name= create_info->new_storage_engine_name; ddl_log.org_database= create_table->db; ddl_log.org_table= create_table->table_name; ddl_log.org_table_id= create_info->tabledef_version; backup_log_ddl(&ddl_log); } } ddl_log_complete(&ddl_log_state_rm); ddl_log_complete(&ddl_log_state_create); DBUG_RETURN(result); } /* ** Give the key name after the first field with an optional '_#' after @returns 0 if keyname does not exists [1..) index + 1 of duplicate key name **/ static int check_if_keyname_exists(const char *name, KEY *start, KEY *end) { uint i= 1; for (KEY *key=start; key != end ; key++, i++) if (!my_strcasecmp(system_charset_info, name, key->name.str)) return i; return 0; } /** Returns 1 if field name exists otherwise 0 */ static bool check_if_field_name_exists(const char *name, List * fields) { Create_field *fld; List_iteratorit(*fields); while ((fld = it++)) { if (!my_strcasecmp(system_charset_info, fld->field_name.str, name)) return 1; } return 0; } static char * make_unique_key_name(THD *thd, const char *field_name,KEY *start,KEY *end) { char buff[MAX_FIELD_NAME],*buff_end; if (!check_if_keyname_exists(field_name,start,end) && my_strcasecmp(system_charset_info,field_name,primary_key_name.str)) return (char*) field_name; // Use fieldname buff_end=strmake(buff,field_name, sizeof(buff)-4); /* Only 3 chars + '\0' left, so need to limit to 2 digit This is ok as we can't have more than 100 keys anyway */ for (uint i=2 ; i< 100; i++) { *buff_end= '_'; int10_to_str(i, buff_end+1, 10); if (!check_if_keyname_exists(buff,start,end)) return thd->strdup(buff); } return (char*) "not_specified"; // Should never happen } /** Make an unique name for constraints without a name */ static bool make_unique_constraint_name(THD *thd, LEX_CSTRING *name, const char *own_name_base, List *vcol, uint *nr) { char buff[MAX_FIELD_NAME], *end; List_iterator_fast it(*vcol); end=strmov(buff, own_name_base ? own_name_base : "CONSTRAINT_"); for (int round= 0;; round++) { Virtual_column_info *check; char *real_end= end; if (round == 1 && own_name_base) *end++= '_'; // if own_base_name provided, try it first if (round != 0 || !own_name_base) real_end= int10_to_str((*nr)++, end, 10); it.rewind(); while ((check= it++)) { if (check->name.str && !my_strcasecmp(system_charset_info, buff, check->name.str)) break; } if (!check) // Found unique name { name->length= (size_t) (real_end - buff); name->str= strmake_root(thd->stmt_arena->mem_root, buff, name->length); return (name->str == NULL); } } return FALSE; } /** INVISIBLE_FULL are internally created. They are completely invisible to Alter command (Opposite of SYSTEM_INVISIBLE which throws an error when same name column is added by Alter). So in the case of when user added a same column name as of INVISIBLE_FULL , we change INVISIBLE_FULL column name. */ static const char * make_unique_invisible_field_name(THD *thd, const char *field_name, List *fields) { if (!check_if_field_name_exists(field_name, fields)) return field_name; char buff[MAX_FIELD_NAME], *buff_end; buff_end= strmake_buf(buff, field_name); if (buff_end - buff < 5) return NULL; // Should not happen for (uint i=1 ; i < 10000; i++) { char *real_end= int10_to_str(i, buff_end, 10); if (check_if_field_name_exists(buff, fields)) continue; return (const char *)thd->strmake(buff, real_end - buff); } return NULL; //Should not happen } /**************************************************************************** ** Alter a table definition ****************************************************************************/ bool operator!=(const MYSQL_TIME &lhs, const MYSQL_TIME &rhs) { return lhs.year != rhs.year || lhs.month != rhs.month || lhs.day != rhs.day || lhs.hour != rhs.hour || lhs.minute != rhs.minute || lhs.second_part != rhs.second_part || lhs.neg != rhs.neg || lhs.time_type != rhs.time_type; } /** Rename a table. @param base The handlerton handle. @param old_db The old database name. @param old_name The old table name. @param new_db The new database name. @param new_name The new table name. @param id Table version id (for ddl log) @param flags flags FN_FROM_IS_TMP old_name is temporary. FN_TO_IS_TMP new_name is temporary. NO_FRM_RENAME Don't rename the FRM file but only the table in the storage engine. NO_HA_TABLE Don't rename table in engine. NO_FK_CHECKS Don't check FK constraints during rename. @return false OK @return true Error */ bool mysql_rename_table(handlerton *base, const LEX_CSTRING *old_db, const LEX_CSTRING *old_name, const LEX_CSTRING *new_db, const LEX_CSTRING *new_name, LEX_CUSTRING *id, uint flags) { THD *thd= current_thd; char from[FN_REFLEN], to[FN_REFLEN], lc_from[FN_REFLEN], lc_to[FN_REFLEN]; char *from_base= from, *to_base= to; handler *file; int error=0; ulonglong save_bits= thd->variables.option_bits; int length; bool log_query= 0; DBUG_ENTER("mysql_rename_table"); DBUG_ASSERT(base); DBUG_PRINT("enter", ("old: '%s'.'%s' new: '%s'.'%s'", old_db->str, old_name->str, new_db->str, new_name->str)); // Temporarily disable foreign key checks if (flags & NO_FK_CHECKS) thd->variables.option_bits|= OPTION_NO_FOREIGN_KEY_CHECKS; file= get_new_handler((TABLE_SHARE*) 0, thd->mem_root, base); build_table_filename(from, sizeof(from) - 1, old_db->str, old_name->str, "", flags & FN_FROM_IS_TMP); length= build_table_filename(to, sizeof(to) - 1, new_db->str, new_name->str, "", flags & FN_TO_IS_TMP); // Check if we hit FN_REFLEN bytes along with file extension. if (length+reg_ext_length > FN_REFLEN) { my_error(ER_IDENT_CAUSES_TOO_LONG_PATH, MYF(0), (int) sizeof(to)-1, to); DBUG_RETURN(TRUE); } if (file && file->needs_lower_case_filenames()) { build_lower_case_table_filename(lc_from, sizeof(lc_from) -1, old_db, old_name, flags & FN_FROM_IS_TMP); build_lower_case_table_filename(lc_to, sizeof(lc_from) -1, new_db, new_name, flags & FN_TO_IS_TMP); from_base= lc_from; to_base= lc_to; } if (flags & NO_HA_TABLE) { if (rename_file_ext(from,to,reg_ext)) error= my_errno; log_query= true; if (file && !(flags & NO_PAR_TABLE)) (void) file->ha_create_partitioning_metadata(to, from, CHF_RENAME_FLAG); } else if (!file || likely(!(error=file->ha_rename_table(from_base, to_base)))) { if (!(flags & NO_FRM_RENAME) && unlikely(rename_file_ext(from,to,reg_ext))) { error=my_errno; if (file) { if (error == ENOENT) error= 0; // this is ok if file->ha_rename_table() succeeded else file->ha_rename_table(to_base, from_base); // Restore old file name } } else log_query= true; } if (!error && log_query && !(flags & (FN_TO_IS_TMP | FN_FROM_IS_TMP))) { backup_log_info ddl_log; bzero(&ddl_log, sizeof(ddl_log)); ddl_log.query= { C_STRING_WITH_LEN("RENAME") }; ddl_log.org_partitioned= file->partition_engine(); ddl_log.new_partitioned= ddl_log.org_partitioned; lex_string_set(&ddl_log.org_storage_engine_name, file->real_table_type()); ddl_log.org_database= *old_db; ddl_log.org_table= *old_name; ddl_log.org_table_id= *id; ddl_log.new_storage_engine_name= ddl_log.org_storage_engine_name; ddl_log.new_database= *new_db; ddl_log.new_table= *new_name; ddl_log.new_table_id= *id; backup_log_ddl(&ddl_log); } delete file; if (error == HA_ERR_WRONG_COMMAND) my_error(ER_NOT_SUPPORTED_YET, MYF(0), "ALTER TABLE"); else if (error == ENOTDIR) my_error(ER_BAD_DB_ERROR, MYF(0), new_db->str); else if (error) my_error(ER_ERROR_ON_RENAME, MYF(0), from, to, error); else if (!(flags & FN_IS_TMP)) mysql_audit_rename_table(thd, old_db, old_name, new_db, new_name); /* Remove the old table share from the pfs table share array. The new table share will be created when the renamed table is first accessed. */ if (likely(error == 0)) { PSI_CALL_drop_table_share(flags & FN_FROM_IS_TMP, old_db->str, (uint)old_db->length, old_name->str, (uint)old_name->length); } // Restore options bits to the original value thd->variables.option_bits= save_bits; DBUG_RETURN(error != 0); } /* Create a table identical to the specified table SYNOPSIS mysql_create_like_table() thd Thread object table Table list element for target table src_table Table list element for source table create_info Create info RETURN VALUES FALSE OK TRUE error */ static bool mysql_create_like_table(THD* thd, TABLE_LIST* table, TABLE_LIST* src_table, Table_specification_st *create_info) { Table_specification_st local_create_info; TABLE_LIST *pos_in_locked_tables= 0; Alter_info local_alter_info; Alter_table_ctx local_alter_ctx; // Not used DDL_LOG_STATE ddl_log_state_create, ddl_log_state_rm; int res= 1; bool is_trans= FALSE; bool do_logging= FALSE; bool force_generated_create= false; bool src_table_exists= FALSE; uint not_used; int create_res; DBUG_ENTER("mysql_create_like_table"); bzero(&ddl_log_state_create, sizeof(ddl_log_state_create)); bzero(&ddl_log_state_rm, sizeof(ddl_log_state_rm)); #ifdef WITH_WSREP if (WSREP(thd) && !thd->wsrep_applier && wsrep_create_like_table(thd, table, src_table, create_info)) { DBUG_RETURN(res); } #endif /* We the open source table to get its description in HA_CREATE_INFO and Alter_info objects. This also acquires a shared metadata lock on this table which ensures that no concurrent DDL operation will mess with it. Also in case when we create non-temporary table open_tables() call obtains an exclusive metadata lock on target table ensuring that we can safely perform table creation. Thus by holding both these locks we ensure that our statement is properly isolated from all concurrent operations which matter. */ res= open_tables(thd, *create_info, &thd->lex->query_tables, ¬_used, 0); if (res) { /* is_error() may be 0 if table existed and we generated a warning */ res= thd->is_error(); src_table_exists= !res; goto err; } /* Ensure we don't try to create something from which we select from */ if (create_info->or_replace() && !create_info->tmp_table()) { TABLE_LIST *duplicate; if ((duplicate= unique_table(thd, table, src_table, 0))) { update_non_unique_table_error(src_table, "CREATE", duplicate); res= 1; goto err; } } src_table->table->use_all_columns(); DEBUG_SYNC(thd, "create_table_like_after_open"); /* Fill Table_specification_st and Alter_info with the source table description. Set OR REPLACE and IF NOT EXISTS option as in the CREATE TABLE LIKE statement. */ local_create_info.init(create_info->create_like_options()); local_create_info.db_type= src_table->table->s->db_type(); local_create_info.row_type= src_table->table->s->row_type; local_create_info.alter_info= &local_alter_info; /* This statement: CREATE TABLE t1 LIKE t2 does not support table charset/collation clauses. No needs to copy. Assert they are empty. */ DBUG_ASSERT(create_info->default_charset_collation.is_empty()); DBUG_ASSERT(create_info->convert_charset_collation.is_empty()); if (mysql_prepare_alter_table(thd, src_table->table, &local_create_info, &local_alter_info, &local_alter_ctx)) goto err; #ifdef WITH_PARTITION_STORAGE_ENGINE /* Partition info is not handled by mysql_prepare_alter_table() call. */ if (src_table->table->part_info) { /* The CREATE TABLE LIKE should not inherit the DATA DIRECTORY and INDEX DIRECTORY from the base table. So that TRUE argument for the get_clone. */ thd->work_part_info= src_table->table->part_info->get_clone(thd, TRUE); } #endif /*WITH_PARTITION_STORAGE_ENGINE*/ /* Adjust description of source table before using it for creation of target table. Similarly to SHOW CREATE TABLE we ignore MAX_ROWS attribute of temporary table which represents I_S table. */ if (src_table->schema_table) local_create_info.max_rows= 0; /* Replace type of source table with one specified in the statement. */ local_create_info.options&= ~HA_LEX_CREATE_TMP_TABLE; local_create_info.options|= create_info->options; /* Reset auto-increment counter for the new table. */ local_create_info.auto_increment_value= 0; /* Do not inherit values of DATA and INDEX DIRECTORY options from the original table. This is documented behavior. */ local_create_info.data_file_name= local_create_info.index_file_name= NULL; if (src_table->table->versioned() && local_create_info.vers_info.fix_create_like(local_alter_info, local_create_info, *src_table, *table)) { goto err; } /* The following is needed only in case of lock tables */ if ((local_create_info.table= thd->lex->query_tables->table)) pos_in_locked_tables= local_create_info.table->pos_in_locked_tables; res= ((create_res= mysql_create_table_no_lock(thd, &ddl_log_state_create, &ddl_log_state_rm, &table->db, &table->table_name, &local_create_info, &local_alter_info, &is_trans, C_ORDINARY_CREATE, table)) > 0); /* Remember to log if we deleted something */ do_logging= thd->log_current_statement(); if (res) goto err; /* Check if we are doing CREATE OR REPLACE TABLE under LOCK TABLES on a non temporary table */ if (thd->locked_tables_mode && pos_in_locked_tables && create_info->or_replace()) { /* Add back the deleted table and re-created table as a locked table This should always work as we have a meta lock on the table. */ thd->locked_tables_list.add_back_last_deleted_lock(pos_in_locked_tables); if (thd->locked_tables_list.reopen_tables(thd, false)) { thd->locked_tables_list.unlink_all_closed_tables(thd, NULL, 0); res= 1; // We got an error } else { /* Get pointer to the newly opened table. We need this to ensure we don't reopen the table when doing statment logging below. */ table->table= pos_in_locked_tables->table; table->table->mdl_ticket->downgrade_lock(MDL_SHARED_NO_READ_WRITE); } } else { /* Ensure that we have an exclusive lock on target table if we are creating non-temporary table. We don't have or need the lock if the create failed because of existing table when using "if exists". */ DBUG_ASSERT((create_info->tmp_table()) || create_res < 0 || thd->mdl_context.is_lock_owner(MDL_key::TABLE, table->db.str, table->table_name.str, MDL_EXCLUSIVE) || (thd->locked_tables_mode && pos_in_locked_tables && create_info->if_not_exists())); } DEBUG_SYNC(thd, "create_table_like_before_binlog"); /* We have to write the query before we unlock the tables. */ if (thd->is_current_stmt_binlog_disabled()) goto err; #ifdef ENABLE_WHEN_S3_CAN_CREATE_TABLES /* If we do a create based on a shared table, log the full create of the resulting table. This is needed as a shared table may look different when the slave executes the command. */ force_generated_create= (((src_table->table->file->partition_ht()->flags & HTON_TABLE_MAY_NOT_EXIST_ON_SLAVE) && src_table->table->s->db_type() != local_create_info.db_type)); #endif if (thd->is_current_stmt_binlog_format_row() || force_generated_create) { /* Since temporary tables are not replicated under row-based replication, CREATE TABLE ... LIKE ... needs special treatement. We have some cases to consider, according to the following decision table: ==== ========= ========= ============================== Case Target Source Write to binary log ==== ========= ========= ============================== 1 normal normal Original statement 2 normal temporary Generated statement if the table was created. 3 temporary normal Nothing 4 temporary temporary Nothing 5 any shared Generated statement if the table was created if engine changed ==== ========= ========= ============================== */ if (!(create_info->tmp_table()) || force_generated_create) { // Case 2 & 5 if (src_table->table->s->tmp_table || force_generated_create) { char buf[2048]; String query(buf, sizeof(buf), system_charset_info); query.length(0); // Have to zero it since constructor doesn't Open_table_context ot_ctx(thd, MYSQL_OPEN_REOPEN | MYSQL_OPEN_IGNORE_KILLED); bool new_table= FALSE; // Whether newly created table is open. if (create_res != 0) { /* Table or view with same name already existed and we where using IF EXISTS. Continue without logging anything. */ do_logging= 0; goto err; } if (!table->table) { TABLE_LIST::enum_open_strategy save_open_strategy; int open_res; /* Force the newly created table to be opened */ save_open_strategy= table->open_strategy; table->open_strategy= TABLE_LIST::OPEN_NORMAL; /* In order for show_create_table() to work we need to open destination table if it is not already open (i.e. if it has not existed before). We don't need acquire metadata lock in order to do this as we already hold exclusive lock on this table. The table will be closed by close_thread_table() at the end of this branch. */ open_res= open_table(thd, table, &ot_ctx); /* Restore */ table->open_strategy= save_open_strategy; if (open_res) { res= 1; goto err; } new_table= TRUE; } /* We have to re-test if the table was a view as the view may not have been opened until just above. */ if (!table->view) { /* After opening a MERGE table add the children to the query list of tables, so that children tables info can be used on "CREATE TABLE" statement generation by the binary log. Note that placeholders don't have the handler open. */ if (table->table->file->extra(HA_EXTRA_ADD_CHILDREN_LIST)) goto err; /* As the reference table is temporary and may not exist on slave, we must force the ENGINE to be present into CREATE TABLE. */ create_info->used_fields|= HA_CREATE_USED_ENGINE; int result __attribute__((unused))= show_create_table(thd, table, &query, create_info, WITH_DB_NAME); DBUG_ASSERT(result == 0); // show_create_table() always return 0 do_logging= FALSE; if (write_bin_log(thd, TRUE, query.ptr(), query.length())) { res= 1; goto err; } if (new_table) { DBUG_ASSERT(thd->open_tables == table->table); /* When opening the table, we ignored the locked tables (MYSQL_OPEN_GET_NEW_TABLE). Now we can close the table without risking to close some locked table. */ close_thread_table(thd, &thd->open_tables); } } } else // Case 1 do_logging= TRUE; } /* Case 3 and 4 does nothing under RBR */ } else { DBUG_PRINT("info", ("res: %d tmp_table: %d create_info->table: %p", res, create_info->tmp_table(), local_create_info.table)); if (create_info->tmp_table()) { thd->transaction->stmt.mark_created_temp_table(); if (!res && local_create_info.table) { /* Remember that tmp table creation was logged so that we know if we should log a delete of it. */ local_create_info.table->s->table_creation_was_logged= 1; } } do_logging= TRUE; } err: if (do_logging) { thd->binlog_xid= thd->query_id; ddl_log_update_xid(&ddl_log_state_create, thd->binlog_xid); if (ddl_log_state_rm.is_active()) ddl_log_update_xid(&ddl_log_state_rm, thd->binlog_xid); debug_crash_here("ddl_log_create_before_binlog"); if (res && create_info->table_was_deleted) { /* Table was not deleted. Original table was deleted. We have to log it. */ DBUG_ASSERT(ddl_log_state_rm.is_active()); log_drop_table(thd, &table->db, &table->table_name, &create_info->org_storage_engine_name, create_info->db_type == partition_hton, &create_info->org_tabledef_version, create_info->tmp_table()); } else if (res != 2) // Table was not dropped { if (write_bin_log(thd, res ? FALSE : TRUE, thd->query(), thd->query_length(), is_trans)) res= 1; } debug_crash_here("ddl_log_create_after_binlog"); thd->binlog_xid= 0; } if (!res && !src_table_exists && !create_info->tmp_table()) { backup_log_info ddl_log; bzero(&ddl_log, sizeof(ddl_log)); ddl_log.query= { C_STRING_WITH_LEN("CREATE") }; ddl_log.org_storage_engine_name= local_create_info.new_storage_engine_name; ddl_log.org_database= table->db; ddl_log.org_table= table->table_name; ddl_log.org_table_id= local_create_info.tabledef_version; backup_log_ddl(&ddl_log); } ddl_log_complete(&ddl_log_state_rm); ddl_log_complete(&ddl_log_state_create); DBUG_RETURN(res != 0); } /* table_list should contain just one table */ int mysql_discard_or_import_tablespace(THD *thd, TABLE_LIST *table_list, bool discard) { Alter_table_prelocking_strategy alter_prelocking_strategy; int error; DBUG_ENTER("mysql_discard_or_import_tablespace"); mysql_audit_alter_table(thd, table_list); /* Note that DISCARD/IMPORT TABLESPACE always is the only operation in an ALTER TABLE */ THD_STAGE_INFO(thd, stage_discard_or_import_tablespace); /* We set this flag so that ha_innobase::open and ::external_lock() do not complain when we lock the table */ thd->tablespace_op= TRUE; /* Adjust values of table-level and metadata which was set in parser for the case general ALTER TABLE. */ table_list->mdl_request.set_type(MDL_EXCLUSIVE); table_list->lock_type= TL_WRITE; /* Do not open views. */ table_list->required_type= TABLE_TYPE_NORMAL; if (open_and_lock_tables(thd, table_list, FALSE, 0, &alter_prelocking_strategy)) { thd->tablespace_op=FALSE; DBUG_RETURN(-1); } error= table_list->table->file->ha_discard_or_import_tablespace(discard); THD_STAGE_INFO(thd, stage_end); if (unlikely(error)) goto err; if (discard) table_list->table->s->tdc->flush(thd, true); /* The 0 in the call below means 'not in a transaction', which means immediate invalidation; that is probably what we wish here */ query_cache_invalidate3(thd, table_list, 0); /* The ALTER TABLE is always in its own transaction */ error= trans_commit_stmt(thd); if (unlikely(trans_commit_implicit(thd))) error=1; if (likely(!error)) error= write_bin_log(thd, FALSE, thd->query(), thd->query_length()); err: thd->tablespace_op=FALSE; if (likely(error == 0)) { my_ok(thd); DBUG_RETURN(0); } table_list->table->file->print_error(error, MYF(0)); DBUG_RETURN(-1); } /** Check if key is a candidate key, i.e. a unique index with no index fields partial or nullable. */ static bool is_candidate_key(KEY *key) { KEY_PART_INFO *key_part; KEY_PART_INFO *key_part_end= key->key_part + key->user_defined_key_parts; if (!(key->flags & HA_NOSAME) || (key->flags & HA_NULL_PART_KEY) || (key->flags & HA_KEY_HAS_PART_KEY_SEG)) return false; for (key_part= key->key_part; key_part < key_part_end; key_part++) { if (key_part->key_part_flag & HA_PART_KEY_SEG) return false; } return true; } /* Preparation for table creation SYNOPSIS handle_if_exists_option() thd Thread object. table The altered table. alter_info List of columns and indexes to create period_info Application-time period info DESCRIPTION Looks for the IF [NOT] EXISTS options, checks the states and remove items from the list if existing found. RETURN VALUES TRUE error FALSE OK */ static bool handle_if_exists_options(THD *thd, TABLE *table, Alter_info *alter_info, Table_period_info *period_info) { Field **f_ptr; DBUG_ENTER("handle_if_exists_option"); /* Handle ADD COLUMN IF NOT EXISTS. */ { List_iterator it(alter_info->create_list); Create_field *sql_field; while ((sql_field=it++)) { if (!sql_field->create_if_not_exists || sql_field->change.str) continue; /* If there is a field with the same name in the table already, remove the sql_field from the list. */ for (f_ptr=table->field; *f_ptr; f_ptr++) { if (lex_string_cmp(system_charset_info, &sql_field->field_name, &(*f_ptr)->field_name) == 0) goto drop_create_field; } { /* If in the ADD list there is a field with the same name, remove the sql_field from the list. */ List_iterator chk_it(alter_info->create_list); Create_field *chk_field; while ((chk_field= chk_it++) && chk_field != sql_field) { if (lex_string_cmp(system_charset_info, &sql_field->field_name, &chk_field->field_name) == 0) goto drop_create_field; } } continue; drop_create_field: push_warning_printf(thd, Sql_condition::WARN_LEVEL_NOTE, ER_DUP_FIELDNAME, ER_THD(thd, ER_DUP_FIELDNAME), sql_field->field_name.str); it.remove(); if (alter_info->create_list.is_empty()) { alter_info->flags&= ~ALTER_PARSER_ADD_COLUMN; if (alter_info->key_list.is_empty()) alter_info->flags&= ~(ALTER_ADD_INDEX | ALTER_ADD_FOREIGN_KEY); } } } /* Handle MODIFY COLUMN IF EXISTS. */ { List_iterator it(alter_info->create_list); Create_field *sql_field; while ((sql_field=it++)) { if (!sql_field->create_if_not_exists || !sql_field->change.str) continue; /* If there is NO field with the same name in the table already, remove the sql_field from the list. */ for (f_ptr=table->field; *f_ptr; f_ptr++) { if (lex_string_cmp(system_charset_info, &sql_field->change, &(*f_ptr)->field_name) == 0) { break; } } if (unlikely(*f_ptr == NULL)) { push_warning_printf(thd, Sql_condition::WARN_LEVEL_NOTE, ER_BAD_FIELD_ERROR, ER_THD(thd, ER_BAD_FIELD_ERROR), sql_field->change.str, table->s->table_name.str); it.remove(); if (alter_info->create_list.is_empty()) { alter_info->flags&= ~(ALTER_PARSER_ADD_COLUMN | ALTER_CHANGE_COLUMN); if (alter_info->key_list.is_empty()) alter_info->flags&= ~ALTER_ADD_INDEX; } } } } /* Handle ALTER/RENAME COLUMN IF EXISTS. */ { List_iterator it(alter_info->alter_list); Alter_column *acol; while ((acol=it++)) { if (!acol->alter_if_exists) continue; /* If there is NO field with the same name in the table already, remove the acol from the list. */ for (f_ptr=table->field; *f_ptr; f_ptr++) { if (my_strcasecmp(system_charset_info, acol->name.str, (*f_ptr)->field_name.str) == 0) break; } if (unlikely(*f_ptr == NULL)) { push_warning_printf(thd, Sql_condition::WARN_LEVEL_NOTE, ER_BAD_FIELD_ERROR, ER_THD(thd, ER_BAD_FIELD_ERROR), acol->name.str, table->s->table_name.str); it.remove(); if (alter_info->alter_list.is_empty()) { alter_info->flags&= ~(ALTER_CHANGE_COLUMN_DEFAULT); } } } } /* Handle DROP COLUMN/KEY IF EXISTS. */ { List_iterator drop_it(alter_info->drop_list); Alter_drop *drop; bool remove_drop; ulonglong left_flags= 0; while ((drop= drop_it++)) { ulonglong cur_flag= 0; switch (drop->type) { case Alter_drop::COLUMN: cur_flag= ALTER_PARSER_DROP_COLUMN; break; case Alter_drop::FOREIGN_KEY: cur_flag= ALTER_DROP_FOREIGN_KEY; break; case Alter_drop::KEY: cur_flag= ALTER_DROP_INDEX; break; default: break; } if (!drop->drop_if_exists) { left_flags|= cur_flag; continue; } remove_drop= TRUE; if (drop->type == Alter_drop::COLUMN) { /* If there is NO field with that name in the table, remove the 'drop' from the list. */ for (f_ptr=table->field; *f_ptr; f_ptr++) { if (my_strcasecmp(system_charset_info, drop->name, (*f_ptr)->field_name.str) == 0) { remove_drop= FALSE; break; } } } else if (drop->type == Alter_drop::CHECK_CONSTRAINT) { for (uint i=table->s->field_check_constraints; i < table->s->table_check_constraints; i++) { if (my_strcasecmp(system_charset_info, drop->name, table->check_constraints[i]->name.str) == 0) { remove_drop= FALSE; break; } } } else if (drop->type == Alter_drop::PERIOD) { if (table->s->period.name.streq(drop->name)) remove_drop= FALSE; } else /* Alter_drop::KEY and Alter_drop::FOREIGN_KEY */ { uint n_key; if (drop->type != Alter_drop::FOREIGN_KEY) { for (n_key=0; n_key < table->s->keys; n_key++) { if (my_strcasecmp(system_charset_info, drop->name, table->key_info[n_key].name.str) == 0) { remove_drop= FALSE; break; } } } else { List fk_child_key_list; FOREIGN_KEY_INFO *f_key; table->file->get_foreign_key_list(thd, &fk_child_key_list); List_iterator fk_key_it(fk_child_key_list); while ((f_key= fk_key_it++)) { if (my_strcasecmp(system_charset_info, f_key->foreign_id->str, drop->name) == 0) { remove_drop= FALSE; break; } } } } if (!remove_drop) { /* Check if the name appears twice in the DROP list. */ List_iterator chk_it(alter_info->drop_list); Alter_drop *chk_drop; while ((chk_drop= chk_it++) && chk_drop != drop) { if (drop->type == chk_drop->type && my_strcasecmp(system_charset_info, drop->name, chk_drop->name) == 0) { remove_drop= TRUE; break; } } } if (remove_drop) { push_warning_printf(thd, Sql_condition::WARN_LEVEL_NOTE, ER_CANT_DROP_FIELD_OR_KEY, ER_THD(thd, ER_CANT_DROP_FIELD_OR_KEY), drop->type_name(), drop->name); drop_it.remove(); } else left_flags|= cur_flag; } /* Reset state to what's left in drop list */ alter_info->flags&= ~(ALTER_PARSER_DROP_COLUMN | ALTER_DROP_INDEX | ALTER_DROP_FOREIGN_KEY); alter_info->flags|= left_flags; } /* Handle RENAME KEY IF EXISTS. */ { List_iterator rename_key_it(alter_info->alter_rename_key_list); Alter_rename_key *rename_key; while ((rename_key= rename_key_it++)) { if (!rename_key->alter_if_exists) continue; bool exists= false; for (uint n_key= 0; n_key < table->s->keys; n_key++) { if (my_strcasecmp(system_charset_info, rename_key->old_name.str, table->key_info[n_key].name.str) == 0) { exists= true; break; } } if (exists) continue; push_warning_printf(thd, Sql_condition::WARN_LEVEL_NOTE, ER_KEY_DOES_NOT_EXISTS, ER_THD(thd, ER_KEY_DOES_NOT_EXISTS), rename_key->old_name.str, table->s->table_name.str); rename_key_it.remove(); } } /* Handle ALTER KEY IF EXISTS. */ { List_iterator ignor_it(alter_info->alter_index_ignorability_list); Alter_index_ignorability *aii; while ((aii= ignor_it++)) { if (!aii->if_exists()) continue; bool exists= false; for (uint n_key= 0; n_key < table->s->keys; n_key++) { if (my_strcasecmp(system_charset_info, aii->name(), table->key_info[n_key].name.str) == 0) { exists= true; break; } } if (exists) continue; push_warning_printf(thd, Sql_condition::WARN_LEVEL_NOTE, ER_KEY_DOES_NOT_EXISTS, ER_THD(thd, ER_KEY_DOES_NOT_EXISTS), aii->name(), table->s->table_name.str); ignor_it.remove(); } } /* ALTER TABLE ADD KEY IF NOT EXISTS */ /* ALTER TABLE ADD FOREIGN KEY IF NOT EXISTS */ { Key *key; List_iterator key_it(alter_info->key_list); uint n_key; const char *keyname= NULL; while ((key=key_it++)) { if (!key->if_not_exists() && !key->or_replace()) continue; /* Check if the table already has a PRIMARY KEY */ bool dup_primary_key= key->type == Key::PRIMARY && table->s->primary_key != MAX_KEY && (keyname= table->s->key_info[table->s->primary_key].name.str) && my_strcasecmp(system_charset_info, keyname, primary_key_name.str) == 0; if (dup_primary_key) goto remove_key; /* If the name of the key is not specified, */ /* let us check the name of the first key part. */ if ((keyname= key->name.str) == NULL) { if (key->type == Key::PRIMARY) keyname= primary_key_name.str; else { List_iterator part_it(key->columns); Key_part_spec *kp; if ((kp= part_it++)) keyname= kp->field_name.str; if (keyname == NULL) continue; } } if (key->type != Key::FOREIGN_KEY) { for (n_key=0; n_key < table->s->keys; n_key++) { if (my_strcasecmp(system_charset_info, keyname, table->key_info[n_key].name.str) == 0) { goto remove_key; } } } else { List fk_child_key_list; FOREIGN_KEY_INFO *f_key; table->file->get_foreign_key_list(thd, &fk_child_key_list); List_iterator fk_key_it(fk_child_key_list); while ((f_key= fk_key_it++)) { if (my_strcasecmp(system_charset_info, f_key->foreign_id->str, keyname) == 0) goto remove_key; } } { Key *chk_key; List_iterator chk_it(alter_info->key_list); const char *chkname; while ((chk_key=chk_it++) && chk_key != key) { if ((chkname= chk_key->name.str) == NULL) { List_iterator part_it(chk_key->columns); Key_part_spec *kp; if ((kp= part_it++)) chkname= kp->field_name.str; if (chkname == NULL) continue; } if (key->type == chk_key->type && my_strcasecmp(system_charset_info, keyname, chkname) == 0) goto remove_key; } } continue; remove_key: if (key->if_not_exists()) { push_warning_printf(thd, Sql_condition::WARN_LEVEL_NOTE, ER_DUP_KEYNAME, ER_THD(thd, dup_primary_key ? ER_MULTIPLE_PRI_KEY : ER_DUP_KEYNAME), keyname); key_it.remove(); if (key->type == Key::FOREIGN_KEY) { /* ADD FOREIGN KEY appends two items. */ key_it.remove(); } if (alter_info->key_list.is_empty()) alter_info->flags&= ~(ALTER_ADD_INDEX | ALTER_ADD_FOREIGN_KEY); } else { DBUG_ASSERT(key->or_replace()); Alter_drop::drop_type type= (key->type == Key::FOREIGN_KEY) ? Alter_drop::FOREIGN_KEY : Alter_drop::KEY; Alter_drop *ad= new (thd->mem_root) Alter_drop(type, key->name.str, FALSE); if (ad != NULL) { // Adding the index into the drop list for replacing alter_info->flags |= ALTER_DROP_INDEX; alter_info->drop_list.push_back(ad, thd->mem_root); } } } } #ifdef WITH_PARTITION_STORAGE_ENGINE partition_info *tab_part_info= table->part_info; thd->work_part_info= thd->lex->part_info; if (tab_part_info) { /* ALTER TABLE ADD PARTITION IF NOT EXISTS */ if ((alter_info->partition_flags & ALTER_PARTITION_ADD) && thd->lex->create_info.if_not_exists()) { partition_info *alt_part_info= thd->lex->part_info; if (alt_part_info) { List_iterator new_part_it(alt_part_info->partitions); partition_element *pe; while ((pe= new_part_it++)) { if (!tab_part_info->has_unique_name(pe)) { push_warning_printf(thd, Sql_condition::WARN_LEVEL_NOTE, ER_SAME_NAME_PARTITION, ER_THD(thd, ER_SAME_NAME_PARTITION), pe->partition_name); alter_info->partition_flags&= ~ALTER_PARTITION_ADD; thd->work_part_info= NULL; break; } } } } /* ALTER TABLE DROP PARTITION IF EXISTS */ if ((alter_info->partition_flags & ALTER_PARTITION_DROP) && thd->lex->if_exists()) { List_iterator names_it(alter_info->partition_names); const char *name; while ((name= names_it++)) { List_iterator part_it(tab_part_info->partitions); partition_element *part_elem; while ((part_elem= part_it++)) { if (my_strcasecmp(system_charset_info, part_elem->partition_name, name) == 0) break; } if (!part_elem) { push_warning_printf(thd, Sql_condition::WARN_LEVEL_NOTE, ER_PARTITION_DOES_NOT_EXIST, ER_THD(thd, ER_PARTITION_DOES_NOT_EXIST)); names_it.remove(); } } if (alter_info->partition_names.elements == 0) alter_info->partition_flags&= ~ALTER_PARTITION_DROP; } } #endif /*WITH_PARTITION_STORAGE_ENGINE*/ /* ADD CONSTRAINT IF NOT EXISTS. */ { List_iterator it(alter_info->check_constraint_list); Virtual_column_info *check; TABLE_SHARE *share= table->s; uint c; while ((check=it++)) { if (!check->if_not_exists && check->name.length) continue; for (c= share->field_check_constraints; c < share->table_check_constraints ; c++) { Virtual_column_info *dup= table->check_constraints[c]; if (dup->name.length == check->name.length && lex_string_cmp(system_charset_info, &check->name, &dup->name) == 0) { push_warning_printf(thd, Sql_condition::WARN_LEVEL_NOTE, ER_DUP_CONSTRAINT_NAME, ER_THD(thd, ER_DUP_CONSTRAINT_NAME), "CHECK", check->name.str); it.remove(); if (alter_info->check_constraint_list.elements == 0) alter_info->flags&= ~ALTER_ADD_CHECK_CONSTRAINT; break; } } } } /* ADD PERIOD */ if (period_info->create_if_not_exists && table->s->period.name && table->s->period.name.streq(period_info->name)) { DBUG_ASSERT(period_info->is_set()); push_warning_printf(thd, Sql_condition::WARN_LEVEL_NOTE, ER_DUP_FIELDNAME, ER_THD(thd, ER_DUP_FIELDNAME), period_info->name.str, table->s->table_name.str); List_iterator vit(alter_info->check_constraint_list); while (vit++ != period_info->constr) { // do nothing } vit.remove(); *period_info= {}; } DBUG_RETURN(false); } static bool fix_constraints_names(THD *thd, List *check_constraint_list, const HA_CREATE_INFO *create_info) { List_iterator it((*check_constraint_list)); Virtual_column_info *check; uint nr= 1; DBUG_ENTER("fix_constraints_names"); if (!check_constraint_list) DBUG_RETURN(FALSE); // Prevent accessing freed memory during generating unique names while ((check=it++)) { if (check->automatic_name) { check->name.str= NULL; check->name.length= 0; } } it.rewind(); // Generate unique names if needed while ((check=it++)) { if (!check->name.length) { check->automatic_name= TRUE; const char *own_name_base= create_info->period_info.constr == check ? create_info->period_info.name.str : NULL; if (make_unique_constraint_name(thd, &check->name, own_name_base, check_constraint_list, &nr)) DBUG_RETURN(TRUE); } } DBUG_RETURN(FALSE); } static int compare_uint(const uint *s, const uint *t) { return (*s < *t) ? -1 : ((*s > *t) ? 1 : 0); } static Compare_keys merge(Compare_keys current, Compare_keys add) { if (current == Compare_keys::Equal) return add; if (add == Compare_keys::Equal) return current; if (current == add) return current; if (current == Compare_keys::EqualButComment) { return Compare_keys::NotEqual; } if (current == Compare_keys::EqualButKeyPartLength) { if (add == Compare_keys::EqualButComment) return Compare_keys::NotEqual; DBUG_ASSERT(add == Compare_keys::NotEqual); return Compare_keys::NotEqual; } DBUG_ASSERT(current == Compare_keys::NotEqual); return current; } Compare_keys compare_keys_but_name(const KEY *table_key, const KEY *new_key, Alter_info *alter_info, const TABLE *table, const KEY *const new_pk, const KEY *const old_pk) { if (table_key->algorithm != new_key->algorithm) return Compare_keys::NotEqual; if ((table_key->flags & HA_KEYFLAG_MASK) != (new_key->flags & HA_KEYFLAG_MASK)) return Compare_keys::NotEqual; if (table_key->user_defined_key_parts != new_key->user_defined_key_parts) return Compare_keys::NotEqual; if (table_key->block_size != new_key->block_size) return Compare_keys::NotEqual; /* Rebuild the index if following condition get satisfied: (i) Old table doesn't have primary key, new table has it and vice-versa (ii) Primary key changed to another existing index */ if ((new_key == new_pk) != (table_key == old_pk)) return Compare_keys::NotEqual; if (engine_options_differ(table_key->option_struct, new_key->option_struct, table->file->ht->index_options)) return Compare_keys::NotEqual; Compare_keys result= Compare_keys::Equal; for (const KEY_PART_INFO * key_part= table_key->key_part, *new_part= new_key->key_part, *end= table_key->key_part + table_key->user_defined_key_parts; key_part < end; key_part++, new_part++) { /* For prefix keys KEY_PART_INFO::field points to cloned Field object with adjusted length. So below we have to check field indexes instead of simply comparing pointers to Field objects. */ const Create_field &new_field= *alter_info->create_list.elem(new_part->fieldnr); if (!new_field.field || new_field.field->field_index != key_part->fieldnr - 1) { return Compare_keys::NotEqual; } /* Check the descending flag for index field. */ if ((new_part->key_part_flag ^ key_part->key_part_flag) & HA_REVERSE_SORT) { return Compare_keys::NotEqual; } auto compare= table->file->compare_key_parts( *table->field[key_part->fieldnr - 1], new_field, *key_part, *new_part); result= merge(result, compare); } /* Check that key comment is not changed. */ if (cmp(table_key->comment, new_key->comment) != 0) result= merge(result, Compare_keys::EqualButComment); return result; } /** Look-up KEY object by index name using case-insensitive comparison. @param key_name Index name. @param key_start Start of array of KEYs for table. @param key_end End of array of KEYs for table. @note Case-insensitive comparison is necessary to correctly handle renaming of keys. @retval non-NULL - pointer to KEY object for index found. @retval NULL - no index with such name found (or it is marked as renamed). */ static KEY *find_key_ci(const char *key_name, KEY *key_start, KEY *key_end) { for (KEY *key = key_start; key < key_end; key++) { if (!my_strcasecmp(system_charset_info, key_name, key->name.str)) return key; } return NULL; } /** Compare original and new versions of a table and fill Alter_inplace_info describing differences between those versions. @param thd Thread @param table The original table. @param varchar Indicates that new definition has new VARCHAR column. @param[in/out] ha_alter_info Data structure which already contains basic information about create options, field and keys for the new version of table and which should be completed with more detailed information needed for in-place ALTER. First argument 'table' contains information of the original table, which includes all corresponding parts that the new table has in arguments create_list, key_list and create_info. Compare the changes between the original and new table definitions. The result of this comparison is then passed to SE which determines whether it can carry out these changes in-place. Mark any changes detected in the ha_alter_flags. We generally try to specify handler flags only if there are real changes. But in cases when it is cumbersome to determine if some attribute has really changed we might choose to set flag pessimistically, for example, relying on parser output only. If there are no data changes, but index changes, 'index_drop_buffer' and/or 'index_add_buffer' are populated with offsets into table->key_info or key_info_buffer respectively for the indexes that need to be dropped and/or (re-)created. Note that this function assumes that it is OK to change Alter_info and HA_CREATE_INFO which it gets. It is caller who is responsible for creating copies for this structures if he needs them unchanged. @retval true error @retval false success */ static bool fill_alter_inplace_info(THD *thd, TABLE *table, bool varchar, Alter_inplace_info *ha_alter_info) { Field **f_ptr, *field; List_iterator_fast new_field_it; Create_field *new_field; Alter_info *alter_info= ha_alter_info->alter_info; DBUG_ENTER("fill_alter_inplace_info"); DBUG_PRINT("info", ("alter_info->flags: %llu", alter_info->flags)); /* Allocate result buffers. */ DBUG_ASSERT(ha_alter_info->rename_keys.mem_root() == thd->mem_root); if (! (ha_alter_info->index_drop_buffer= (KEY**) thd->alloc(sizeof(KEY*) * table->s->keys)) || ! (ha_alter_info->index_add_buffer= (uint*) thd->alloc(sizeof(uint) * alter_info->key_list.elements)) || ha_alter_info->rename_keys.reserve(ha_alter_info->index_add_count) || ! (ha_alter_info->index_altered_ignorability_buffer= (KEY_PAIR*)thd->alloc(sizeof(KEY_PAIR) * alter_info->alter_index_ignorability_list.elements))) DBUG_RETURN(true); /* Copy parser flags, but remove some flags that handlers doesn't need to care about (old engines may not ignore these parser flags). ALTER_RENAME_COLUMN is replaced by ALTER_COLUMN_NAME. ALTER_CHANGE_COLUMN_DEFAULT is replaced by ALTER_CHANGE_COLUMN ALTER_PARSE_ADD_COLUMN, ALTER_PARSE_DROP_COLUMN, ALTER_ADD_INDEX and ALTER_DROP_INDEX are replaced with versions that have higher granuality. */ alter_table_operations flags_to_remove= ALTER_ADD_INDEX | ALTER_DROP_INDEX | ALTER_PARSER_ADD_COLUMN | ALTER_PARSER_DROP_COLUMN | ALTER_COLUMN_ORDER | ALTER_RENAME_COLUMN | ALTER_CHANGE_COLUMN; if (!table->file->native_versioned()) flags_to_remove|= ALTER_COLUMN_UNVERSIONED; ha_alter_info->handler_flags|= (alter_info->flags & ~flags_to_remove); /* Comparing new and old default values of column is cumbersome. So instead of using such a comparison for detecting if default has really changed we rely on flags set by parser to get an approximate value for storage engine flag. */ if (alter_info->flags & ALTER_CHANGE_COLUMN) ha_alter_info->handler_flags|= ALTER_COLUMN_DEFAULT; /* If we altering table with old VARCHAR fields we will be automatically upgrading VARCHAR column types. */ if (table->s->frm_version < FRM_VER_TRUE_VARCHAR && varchar) ha_alter_info->handler_flags|= ALTER_STORED_COLUMN_TYPE; DBUG_PRINT("info", ("handler_flags: %llu", ha_alter_info->handler_flags)); /* Go through fields in old version of table and detect changes to them. We don't want to rely solely on Alter_info flags for this since: a) new definition of column can be fully identical to the old one despite the fact that this column is mentioned in MODIFY clause. b) even if new column type differs from its old column from metadata point of view, it might be identical from storage engine point of view (e.g. when ENUM('a','b') is changed to ENUM('a','b',c')). c) flags passed to storage engine contain more detailed information about nature of changes than those provided from parser. */ bool maybe_alter_vcol= false; uint field_stored_index= 0; for (f_ptr= table->field; (field= *f_ptr); f_ptr++, field_stored_index+= field->stored_in_db()) { /* Clear marker for renamed or dropped field which we are going to set later. */ field->flags&= ~(FIELD_IS_RENAMED | FIELD_IS_DROPPED); /* Use transformed info to evaluate flags for storage engine. */ uint new_field_index= 0, new_field_stored_index= 0; new_field_it.init(alter_info->create_list); while ((new_field= new_field_it++)) { if (new_field->field == field) break; new_field_index++; new_field_stored_index+= new_field->stored_in_db(); } if (new_field) { /* Field is not dropped. Evaluate changes bitmap for it. */ /* Check if type of column has changed. */ bool is_equal= field->is_equal(*new_field); if (!is_equal) { if (field->table->file->can_convert_nocopy(*field, *new_field)) { /* New column type differs from the old one, but storage engine can change it by itself. (for example, VARCHAR(300) is changed to VARCHAR(400)). */ ha_alter_info->handler_flags|= ALTER_COLUMN_TYPE_CHANGE_BY_ENGINE; } else { /* New column type is incompatible with old one. */ ha_alter_info->handler_flags|= field->stored_in_db() ? ALTER_STORED_COLUMN_TYPE : ALTER_VIRTUAL_COLUMN_TYPE; if (table->s->tmp_table == NO_TMP_TABLE) { delete_statistics_for_column(thd, table, field); KEY *key_info= table->key_info; for (uint i= 0; i < table->s->keys; i++, key_info++) { if (!field->part_of_key.is_set(i)) continue; uint key_parts= table->actual_n_key_parts(key_info); for (uint j= 0; j < key_parts; j++) { if (key_info->key_part[j].fieldnr - 1 == field->field_index) { delete_statistics_for_index( thd, table, key_info, j >= key_info->user_defined_key_parts); break; } } } } } } if (field->vcol_info || new_field->vcol_info) { /* base <-> virtual or stored <-> virtual */ if (field->stored_in_db() != new_field->stored_in_db()) ha_alter_info->handler_flags|= ( ALTER_STORED_COLUMN_TYPE | ALTER_VIRTUAL_COLUMN_TYPE); if (field->vcol_info && new_field->vcol_info) { bool value_changes= !is_equal; alter_table_operations alter_expr; if (field->stored_in_db()) alter_expr= ALTER_STORED_GCOL_EXPR; else alter_expr= ALTER_VIRTUAL_GCOL_EXPR; if (!field->vcol_info->is_equal(new_field->vcol_info)) { ha_alter_info->handler_flags|= alter_expr; value_changes= true; } if ((ha_alter_info->handler_flags & ALTER_COLUMN_DEFAULT) && !(ha_alter_info->handler_flags & alter_expr)) { /* a DEFAULT value of a some column was changed. see if this vcol uses DEFAULT() function. The check is kind of expensive, so don't do it if ALTER_COLUMN_VCOL is already set. */ if (field->vcol_info->expr->walk( &Item::check_func_default_processor, 0, 0)) { ha_alter_info->handler_flags|= alter_expr; value_changes= true; } } if (field->vcol_info->is_in_partitioning_expr() || field->flags & PART_KEY_FLAG || field->stored_in_db()) { if (value_changes) ha_alter_info->handler_flags|= ALTER_COLUMN_VCOL; else maybe_alter_vcol= true; } } else /* base <-> stored */ ha_alter_info->handler_flags|= ALTER_STORED_COLUMN_TYPE; } /* Check if field was renamed (case-sensitive for detecting case change) */ if (cmp(&field->field_name, &new_field->field_name)) { field->flags|= FIELD_IS_RENAMED; ha_alter_info->handler_flags|= ALTER_COLUMN_NAME; rename_column_in_stat_tables(thd, table, field, new_field->field_name.str); } /* Check that NULL behavior is same for old and new fields */ if ((new_field->flags & NOT_NULL_FLAG) != (uint) (field->flags & NOT_NULL_FLAG)) { if (new_field->flags & NOT_NULL_FLAG) ha_alter_info->handler_flags|= ALTER_COLUMN_NOT_NULLABLE; else ha_alter_info->handler_flags|= ALTER_COLUMN_NULLABLE; } /* We do not detect changes to default values in this loop. See comment above for more details. */ /* Detect changes in column order. */ if (field->stored_in_db()) { if (field_stored_index != new_field_stored_index) ha_alter_info->handler_flags|= ALTER_STORED_COLUMN_ORDER; } else { if (field->field_index != new_field_index) ha_alter_info->handler_flags|= ALTER_VIRTUAL_COLUMN_ORDER; } /* Detect changes in storage type of column */ if (new_field->field_storage_type() != field->field_storage_type()) ha_alter_info->handler_flags|= ALTER_COLUMN_STORAGE_TYPE; /* Detect changes in column format of column */ if (new_field->column_format() != field->column_format()) ha_alter_info->handler_flags|= ALTER_COLUMN_COLUMN_FORMAT; if (engine_options_differ(field->option_struct, new_field->option_struct, table->file->ht->field_options)) { ha_alter_info->handler_flags|= ALTER_COLUMN_OPTION; ha_alter_info->create_info->fields_option_struct[f_ptr - table->field]= new_field->option_struct; } } else { // Field is not present in new version of table and therefore was dropped. field->flags|= FIELD_IS_DROPPED; if (field->stored_in_db()) ha_alter_info->handler_flags|= ALTER_DROP_STORED_COLUMN; else ha_alter_info->handler_flags|= ALTER_DROP_VIRTUAL_COLUMN; } } if (maybe_alter_vcol) { /* What if one of the normal columns was altered and it was part of the some virtual column expression? Currently we don't detect this correctly (FIXME), so let's just say that a vcol *might* be affected if any other column was altered. */ if (ha_alter_info->handler_flags & (ALTER_STORED_COLUMN_TYPE | ALTER_VIRTUAL_COLUMN_TYPE | ALTER_COLUMN_NOT_NULLABLE | ALTER_COLUMN_OPTION)) ha_alter_info->handler_flags|= ALTER_COLUMN_VCOL; } new_field_it.init(alter_info->create_list); while ((new_field= new_field_it++)) { if (! new_field->field) { // Field is not present in old version of table and therefore was added. if (new_field->vcol_info) { if (new_field->stored_in_db()) ha_alter_info->handler_flags|= ALTER_ADD_STORED_GENERATED_COLUMN; else ha_alter_info->handler_flags|= ALTER_ADD_VIRTUAL_COLUMN; } else ha_alter_info->handler_flags|= ALTER_ADD_STORED_BASE_COLUMN; } } /* Go through keys and check if the original ones are compatible with new table. */ KEY *table_key; KEY *table_key_end= table->key_info + table->s->keys; KEY *new_key; KEY *new_key_end= ha_alter_info->key_info_buffer + ha_alter_info->key_count; /* Primary key index for the new table */ const KEY* const new_pk= (ha_alter_info->key_count > 0 && (!my_strcasecmp(system_charset_info, ha_alter_info->key_info_buffer->name.str, primary_key_name.str) || is_candidate_key(ha_alter_info->key_info_buffer))) ? ha_alter_info->key_info_buffer : NULL; const KEY *const old_pk= table->s->primary_key == MAX_KEY ? NULL : table->key_info + table->s->primary_key; DBUG_PRINT("info", ("index count old: %d new: %d", table->s->keys, ha_alter_info->key_count)); /* Step through all keys of the old table and search matching new keys. */ ha_alter_info->index_drop_count= 0; ha_alter_info->index_add_count= 0; for (table_key= table->key_info; table_key < table_key_end; table_key++) { /* Search a new key with the same name. */ for (new_key= ha_alter_info->key_info_buffer; new_key < new_key_end; new_key++) { if (!lex_string_cmp(system_charset_info, &table_key->name, &new_key->name)) break; } if (new_key >= new_key_end) { /* Key not found. Add the key to the drop buffer. */ ha_alter_info->index_drop_buffer [ha_alter_info->index_drop_count++]= table_key; DBUG_PRINT("info", ("index dropped: '%s'", table_key->name.str)); continue; } switch (compare_keys_but_name(table_key, new_key, alter_info, table, new_pk, old_pk)) { case Compare_keys::Equal: continue; case Compare_keys::EqualButKeyPartLength: ha_alter_info->handler_flags|= ALTER_COLUMN_INDEX_LENGTH; continue; case Compare_keys::EqualButComment: ha_alter_info->handler_flags|= ALTER_CHANGE_INDEX_COMMENT; continue; case Compare_keys::NotEqual: break; } /* Key modified. Add the key / key offset to both buffers. */ ha_alter_info->index_drop_buffer [ha_alter_info->index_drop_count++]= table_key; ha_alter_info->index_add_buffer [ha_alter_info->index_add_count++]= (uint)(new_key - ha_alter_info->key_info_buffer); /* Mark all old fields which are used in newly created index. */ DBUG_PRINT("info", ("index changed: '%s'", table_key->name.str)); } /*end of for (; table_key < table_key_end;) */ /* Step through all keys of the new table and find matching old keys. */ for (new_key= ha_alter_info->key_info_buffer; new_key < new_key_end; new_key++) { /* Search an old key with the same name. */ for (table_key= table->key_info; table_key < table_key_end; table_key++) { if (!lex_string_cmp(system_charset_info, &table_key->name, &new_key->name)) break; } if (table_key >= table_key_end) { /* Key not found. Add the offset of the key to the add buffer. */ ha_alter_info->index_add_buffer [ha_alter_info->index_add_count++]= (uint)(new_key - ha_alter_info->key_info_buffer); DBUG_PRINT("info", ("index added: '%s'", new_key->name.str)); } else ha_alter_info->create_info->indexes_option_struct[table_key - table->key_info]= new_key->option_struct; } for (uint i= 0; i < ha_alter_info->index_add_count; i++) { uint *add_buffer= ha_alter_info->index_add_buffer; const KEY *new_key= ha_alter_info->key_info_buffer + add_buffer[i]; for (uint j= 0; j < ha_alter_info->index_drop_count; j++) { KEY **drop_buffer= ha_alter_info->index_drop_buffer; const KEY *old_key= drop_buffer[j]; if (compare_keys_but_name(old_key, new_key, alter_info, table, new_pk, old_pk) != Compare_keys::Equal) { continue; } DBUG_ASSERT( lex_string_cmp(system_charset_info, &old_key->name, &new_key->name)); ha_alter_info->handler_flags|= ALTER_RENAME_INDEX; ha_alter_info->rename_keys.push_back( Alter_inplace_info::Rename_key_pair(old_key, new_key)); --ha_alter_info->index_add_count; --ha_alter_info->index_drop_count; memmove(add_buffer + i, add_buffer + i + 1, sizeof(add_buffer[0]) * (ha_alter_info->index_add_count - i)); memmove(drop_buffer + j, drop_buffer + j + 1, sizeof(drop_buffer[0]) * (ha_alter_info->index_drop_count - j)); --i; // this index once again break; } } List_iterator ignorability_index_it(alter_info->alter_index_ignorability_list); Alter_index_ignorability *alter_index_ignorability; while((alter_index_ignorability= ignorability_index_it++)) { const char *name= alter_index_ignorability->name(); KEY *old_key, *new_key; old_key= find_key_ci(name, table->key_info, table_key_end); new_key= find_key_ci(name, ha_alter_info->key_info_buffer, new_key_end); DBUG_ASSERT(old_key != NULL); if (new_key == NULL) { my_error(ER_KEY_DOES_NOT_EXISTS, MYF(0), name, table->s->table_name.str); DBUG_RETURN(true); } new_key->is_ignored= alter_index_ignorability->is_ignored(); ha_alter_info->handler_flags|= ALTER_RENAME_INDEX; ha_alter_info->add_altered_index_ignorability(old_key, new_key); } /* Sort index_add_buffer according to how key_info_buffer is sorted. I.e. with primary keys first - see sort_keys(). */ my_qsort(ha_alter_info->index_add_buffer, ha_alter_info->index_add_count, sizeof(uint), (qsort_cmp) compare_uint); /* Now let us calculate flags for storage engine API. */ /* Figure out what kind of indexes we are dropping. */ KEY **dropped_key; KEY **dropped_key_end= ha_alter_info->index_drop_buffer + ha_alter_info->index_drop_count; for (dropped_key= ha_alter_info->index_drop_buffer; dropped_key < dropped_key_end; dropped_key++) { table_key= *dropped_key; if (table_key->flags & HA_NOSAME) { if (table_key == old_pk) ha_alter_info->handler_flags|= ALTER_DROP_PK_INDEX; else ha_alter_info->handler_flags|= ALTER_DROP_UNIQUE_INDEX; } else ha_alter_info->handler_flags|= ALTER_DROP_NON_UNIQUE_NON_PRIM_INDEX; } /* Now figure out what kind of indexes we are adding. */ for (uint add_key_idx= 0; add_key_idx < ha_alter_info->index_add_count; add_key_idx++) { new_key= ha_alter_info->key_info_buffer + ha_alter_info->index_add_buffer[add_key_idx]; if (new_key->flags & HA_NOSAME) { if (new_key == new_pk) ha_alter_info->handler_flags|= ALTER_ADD_PK_INDEX; else ha_alter_info->handler_flags|= ALTER_ADD_UNIQUE_INDEX; } else ha_alter_info->handler_flags|= ALTER_ADD_NON_UNIQUE_NON_PRIM_INDEX; } DBUG_PRINT("exit", ("handler_flags: %llu", ha_alter_info->handler_flags)); DBUG_RETURN(false); } /** Mark fields participating in newly added indexes in TABLE object which corresponds to new version of altered table. @param ha_alter_info Alter_inplace_info describing in-place ALTER. @param altered_table TABLE object for new version of TABLE in which fields should be marked. */ static void update_altered_table(const Alter_inplace_info &ha_alter_info, TABLE *altered_table) { uint field_idx, add_key_idx; KEY *key; KEY_PART_INFO *end, *key_part; /* Clear marker for all fields, as we are going to set it only for fields which participate in new indexes. */ for (field_idx= 0; field_idx < altered_table->s->fields; ++field_idx) altered_table->field[field_idx]->flags&= ~FIELD_IN_ADD_INDEX; /* Go through array of newly added indexes and mark fields participating in them. */ for (add_key_idx= 0; add_key_idx < ha_alter_info.index_add_count; add_key_idx++) { key= ha_alter_info.key_info_buffer + ha_alter_info.index_add_buffer[add_key_idx]; end= key->key_part + key->user_defined_key_parts; for (key_part= key->key_part; key_part < end; key_part++) altered_table->field[key_part->fieldnr]->flags|= FIELD_IN_ADD_INDEX; } } /** Compare two tables to see if their metadata are compatible. One table specified by a TABLE instance, the other using Alter_info and HA_CREATE_INFO. @param[in] table The first table. @param[in] alter_info Alter options, fields and keys for the second table. @param[in] create_info Create options for the second table. @param[out] metadata_equal Result of comparison. @retval true error @retval false success */ bool mysql_compare_tables(TABLE *table, Alter_info *alter_info, HA_CREATE_INFO *create_info, bool *metadata_equal) { DBUG_ENTER("mysql_compare_tables"); uint changes= IS_EQUAL_NO; uint key_count; List_iterator_fast tmp_new_field_it; THD *thd= table->in_use; *metadata_equal= false; /* Create a copy of alter_info. To compare definitions, we need to "prepare" the definition - transform it from parser output to a format that describes the table layout (all column defaults are initialized, duplicate columns are removed). This is done by mysql_prepare_create_table. Unfortunately, mysql_prepare_create_table performs its transformations "in-place", that is, modifies the argument. Since we would like to keep mysql_compare_tables() idempotent (not altering any of the arguments) we create a copy of alter_info here and pass it to mysql_prepare_create_table, then use the result to compare the tables, and then destroy the copy. */ Alter_info tmp_alter_info(*alter_info, thd->mem_root); uint db_options= 0; /* not used */ KEY *key_info_buffer= NULL; /* Create the prepared information. */ int create_table_mode= table->s->tmp_table == NO_TMP_TABLE ? C_ORDINARY_CREATE : C_ALTER_TABLE; if (mysql_prepare_create_table(thd, create_info, &tmp_alter_info, &db_options, table->file, &key_info_buffer, &key_count, create_table_mode, table->s->db, table->s->table_name)) DBUG_RETURN(1); /* Some very basic checks. */ if (table->s->fields != alter_info->create_list.elements || table->s->db_type() != create_info->db_type || table->s->tmp_table || (table->s->row_type != create_info->row_type)) DBUG_RETURN(false); /* Go through fields and check if they are compatible. */ tmp_new_field_it.init(tmp_alter_info.create_list); for (Field **f_ptr= table->field; *f_ptr; f_ptr++) { Field *field= *f_ptr; Create_field *tmp_new_field= tmp_new_field_it++; /* Check that NULL behavior is the same. */ if ((tmp_new_field->flags & NOT_NULL_FLAG) != (uint) (field->flags & NOT_NULL_FLAG)) DBUG_RETURN(false); /* mysql_prepare_alter_table() clears HA_OPTION_PACK_RECORD bit when preparing description of existing table. In ALTER TABLE it is later updated to correct value by create_table_impl() call. So to get correct value of this bit in this function we have to mimic behavior of create_table_impl(). */ if (create_info->row_type == ROW_TYPE_DYNAMIC || create_info->row_type == ROW_TYPE_PAGE || (tmp_new_field->flags & BLOB_FLAG) || (tmp_new_field->real_field_type() == MYSQL_TYPE_VARCHAR && create_info->row_type != ROW_TYPE_FIXED)) create_info->table_options|= HA_OPTION_PACK_RECORD; /* Check if field was renamed */ if (lex_string_cmp(system_charset_info, &field->field_name, &tmp_new_field->field_name)) DBUG_RETURN(false); /* Evaluate changes bitmap and send to check_if_incompatible_data() */ uint field_changes= field->is_equal(*tmp_new_field); if (field_changes != IS_EQUAL_YES) DBUG_RETURN(false); changes|= field_changes; } /* Check if changes are compatible with current handler. */ if (table->file->check_if_incompatible_data(create_info, changes)) DBUG_RETURN(false); /* Go through keys and check if they are compatible. */ KEY *table_key; KEY *table_key_end= table->key_info + table->s->keys; KEY *new_key; KEY *new_key_end= key_info_buffer + key_count; /* Step through all keys of the first table and search matching keys. */ for (table_key= table->key_info; table_key < table_key_end; table_key++) { /* Search a key with the same name. */ for (new_key= key_info_buffer; new_key < new_key_end; new_key++) { if (!lex_string_cmp(system_charset_info, &table_key->name, &new_key->name)) break; } if (new_key >= new_key_end) DBUG_RETURN(false); /* Check that the key types are compatible. */ if ((table_key->algorithm != new_key->algorithm) || ((table_key->flags & HA_KEYFLAG_MASK) != (new_key->flags & HA_KEYFLAG_MASK)) || (table_key->user_defined_key_parts != new_key->user_defined_key_parts)) DBUG_RETURN(false); /* Check that the key parts remain compatible. */ KEY_PART_INFO *table_part; KEY_PART_INFO *table_part_end= table_key->key_part + table_key->user_defined_key_parts; KEY_PART_INFO *new_part; for (table_part= table_key->key_part, new_part= new_key->key_part; table_part < table_part_end; table_part++, new_part++) { /* Key definition is different if we are using a different field or if the used key part length is different. We know that the fields are equal. Comparing field numbers is sufficient. */ if ((table_part->length != new_part->length) || (table_part->fieldnr - 1 != new_part->fieldnr) || ((table_part->key_part_flag ^ new_part->key_part_flag) & HA_REVERSE_SORT)) DBUG_RETURN(false); } } /* Step through all keys of the second table and find matching keys. */ for (new_key= key_info_buffer; new_key < new_key_end; new_key++) { /* Search a key with the same name. */ for (table_key= table->key_info; table_key < table_key_end; table_key++) { if (!lex_string_cmp(system_charset_info, &table_key->name, &new_key->name)) break; } if (table_key >= table_key_end) DBUG_RETURN(false); } *metadata_equal= true; // Tables are compatible DBUG_RETURN(false); } /* Manages enabling/disabling of indexes for ALTER TABLE SYNOPSIS alter_table_manage_keys() table Target table indexes_were_disabled Whether the indexes of the from table were disabled keys_onoff ENABLE | DISABLE | LEAVE_AS_IS RETURN VALUES FALSE OK TRUE Error */ static bool alter_table_manage_keys(TABLE *table, int indexes_were_disabled, Alter_info::enum_enable_or_disable keys_onoff) { int error= 0; DBUG_ENTER("alter_table_manage_keys"); DBUG_PRINT("enter", ("table=%p were_disabled=%d on_off=%d", table, indexes_were_disabled, keys_onoff)); switch (keys_onoff) { case Alter_info::ENABLE: DEBUG_SYNC(table->in_use, "alter_table_enable_indexes"); error= table->file->ha_enable_indexes(HA_KEY_SWITCH_NONUNIQ_SAVE); break; case Alter_info::LEAVE_AS_IS: if (!indexes_were_disabled) break; /* fall through */ case Alter_info::DISABLE: error= table->file->ha_disable_indexes(HA_KEY_SWITCH_NONUNIQ_SAVE); } if (unlikely(error)) { if (error == HA_ERR_WRONG_COMMAND) { THD *thd= table->in_use; push_warning_printf(thd, Sql_condition::WARN_LEVEL_NOTE, ER_ILLEGAL_HA, ER_THD(thd, ER_ILLEGAL_HA), table->file->table_type(), table->s->db.str, table->s->table_name.str); error= 0; } else table->file->print_error(error, MYF(0)); } DBUG_RETURN(error); } /** Check if the pending ALTER TABLE operations support the in-place algorithm based on restrictions in the SQL layer or given the nature of the operations themselves. If in-place isn't supported, it won't be necessary to check with the storage engine. @param table The original TABLE. @param create_info Information from the parsing phase about new table properties. @param alter_info Data related to detected changes. @return false In-place is possible, check with storage engine. @return true Incompatible operations, must use table copy. */ static bool is_inplace_alter_impossible(TABLE *table, HA_CREATE_INFO *create_info, const Alter_info *alter_info) { DBUG_ENTER("is_inplace_alter_impossible"); /* At the moment we can't handle altering temporary tables without a copy. */ if (table->s->tmp_table) DBUG_RETURN(true); /* For the ALTER TABLE tbl_name ORDER BY ... we always use copy algorithm. In theory, this operation can be done in-place by some engine, but since a) no current engine does this and b) our current API lacks infrastructure for passing information about table ordering to storage engine we simply always do copy now. ENABLE/DISABLE KEYS is a MyISAM/Heap specific operation that is not supported for in-place in combination with other operations. Alone, it will be done by simple_rename_or_index_change(). */ if (alter_info->flags & (ALTER_ORDER | ALTER_KEYS_ONOFF)) DBUG_RETURN(true); /* If the table engine is changed explicitly (using ENGINE clause) or implicitly (e.g. when non-partitioned table becomes partitioned) a regular alter table (copy) needs to be performed. */ if (create_info->db_type != table->s->db_type()) DBUG_RETURN(true); /* There was a bug prior to mysql-4.0.25. Number of null fields was calculated incorrectly. As a result frm and data files gets out of sync after fast alter table. There is no way to determine by which mysql version (in 4.0 and 4.1 branches) table was created, thus we disable fast alter table for all tables created by mysql versions prior to 5.0 branch. See BUG#6236. */ if (!table->s->mysql_version) DBUG_RETURN(true); /* If we are using a MySQL 5.7 table with virtual fields, ALTER TABLE must recreate the table as we need to rewrite generated fields */ if (table->s->mysql_version > 50700 && table->s->mysql_version < 100000 && table->s->virtual_fields) DBUG_RETURN(TRUE); DBUG_RETURN(false); } /* Notify engine that table definition has changed as part of inplace alter table */ static bool notify_tabledef_changed(TABLE_LIST *table_list) { TABLE *table= table_list->table; DBUG_ENTER("notify_tabledef_changed"); if (table->file->partition_ht()->notify_tabledef_changed) { char db_buff[FN_REFLEN], table_buff[FN_REFLEN]; handlerton *hton= table->file->ht; LEX_CSTRING tmp_db, tmp_table; tmp_db.str= db_buff; tmp_table.str= table_buff; tmp_db.length= tablename_to_filename(table_list->db.str, db_buff, sizeof(db_buff)); tmp_table.length= tablename_to_filename(table_list->table_name.str, table_buff, sizeof(table_buff)); if ((hton->notify_tabledef_changed)(hton, &tmp_db, &tmp_table, table->s->frm_image, &table->s->tabledef_version, table->file)) { my_error(HA_ERR_INCOMPATIBLE_DEFINITION, MYF(0)); DBUG_RETURN(true); } } DBUG_RETURN(0); } /** The function is invoked in error branches of ALTER processing. Write Rollback alter in case of partial_alter is true else call process_master_state. @param thd Thread handle. @param[in/out] start_alter_id Start Alter identifier or zero, it is reset to zero. @param[in/out] partial_alter When is true at the function enter that indicates Start Alter phase completed; it then is reset to false. @param if_exists True indicates the binary logging of the query should be done with "if exists" option. @return false on Success @return true otherwise */ static bool write_bin_log_start_alter_rollback(THD *thd, uint64 &start_alter_id, bool &partial_alter, bool if_exists) { #if defined(HAVE_REPLICATION) if (start_alter_id) { start_alter_info *info= thd->rgi_slave->sa_info; Master_info *mi= thd->rgi_slave->rli->mi; if (info->sa_seq_no == 0) { /* Error occurred before SA got to processing incl its binlogging. So it's a failure to apply and thus no need to wait for master's completion result. */ return true; } mysql_mutex_lock(&mi->start_alter_lock); if (info->direct_commit_alter) { DBUG_ASSERT(info->state == start_alter_state::ROLLBACK_ALTER); /* SA may end up in the rollback state through FTWRL that breaks SA's waiting for a master decision. Then it completes "officially", and `direct_commit_alter` true status will affect the future of CA to re-execute the whole query. */ info->state= start_alter_state::COMPLETED; if (info->direct_commit_alter) mysql_cond_broadcast(&info->start_alter_cond); mysql_mutex_unlock(&mi->start_alter_lock); return true; // not really an error to be handled by caller specifically } mysql_mutex_unlock(&mi->start_alter_lock); /* We have to call wait for master here because in main calculation we can error out before calling wait for master (for example if copy_data_between_tables fails) */ if (info->state == start_alter_state::REGISTERED) wait_for_master(thd); if(process_master_state(thd, 1, start_alter_id, if_exists)) return true; } else #endif if (partial_alter) // Write only if SA written { // Send the rollback message Write_log_with_flags wlwf(thd, Gtid_log_event::FL_ROLLBACK_ALTER_E1); if(write_bin_log_with_if_exists(thd, false, false, if_exists, false)) return true; partial_alter= false; } return false; } /** Perform in-place alter table. @param thd Thread handle. @param table_list TABLE_LIST for the table to change. @param table The original TABLE. @param altered_table TABLE object for new version of the table. @param ha_alter_info Structure describing ALTER TABLE to be carried out and serving as a storage place for data used during different phases. @param target_mdl_request Metadata request/lock on the target table name. @param alter_ctx ALTER TABLE runtime context. @param partial_alter Is set to true to return the fact of the first "START ALTER" binlogging phase is done. @param[in/out] start_alter_id Gtid seq_no of START ALTER or zero otherwise; it may get changed to return to the caller. @param if_exists True indicates the binary logging of the query should be done with "if exists" option. @retval >=1 Error{ 1= ROLLBACK recieved from master , 2= error in alter so no ROLLBACK in binlog } @retval 0 Success @note If mysql_alter_table does not need to copy the table, it is either an alter table where the storage engine does not need to know about the change, only the frm will change, or the storage engine supports performing the alter table operation directly, in-place without mysql having to copy the table. @note This function frees the TABLE object associated with the new version of the table and removes the .FRM file for it in case of both success and failure. */ static bool mysql_inplace_alter_table(THD *thd, TABLE_LIST *table_list, TABLE *table, TABLE *altered_table, Alter_inplace_info *ha_alter_info, MDL_request *target_mdl_request, DDL_LOG_STATE *ddl_log_state, TRIGGER_RENAME_PARAM *trigger_param, Alter_table_ctx *alter_ctx, bool &partial_alter, uint64 &start_alter_id, bool if_exists) { Open_table_context ot_ctx(thd, MYSQL_OPEN_REOPEN | MYSQL_OPEN_IGNORE_KILLED); handlerton *db_type= table->s->db_type(); Alter_info *alter_info= ha_alter_info->alter_info; bool reopen_tables= false; bool res, commit_succeded_with_error= 0; const enum_alter_inplace_result inplace_supported= ha_alter_info->inplace_supported; DBUG_ENTER("mysql_inplace_alter_table"); /* Downgrade DDL lock while we are waiting for exclusive lock below */ backup_set_alter_copy_lock(thd, table); /* Upgrade to EXCLUSIVE lock if: - This is requested by the storage engine - Or the storage engine needs exclusive lock for just the prepare phase - Or requested by the user Note that we handle situation when storage engine needs exclusive lock for prepare phase under LOCK TABLES in the same way as when exclusive lock is required for duration of the whole statement. */ if (inplace_supported == HA_ALTER_INPLACE_EXCLUSIVE_LOCK || ((inplace_supported == HA_ALTER_INPLACE_COPY_NO_LOCK || inplace_supported == HA_ALTER_INPLACE_COPY_LOCK || inplace_supported == HA_ALTER_INPLACE_NOCOPY_NO_LOCK || inplace_supported == HA_ALTER_INPLACE_NOCOPY_LOCK || inplace_supported == HA_ALTER_INPLACE_INSTANT) && (thd->locked_tables_mode == LTM_LOCK_TABLES || thd->locked_tables_mode == LTM_PRELOCKED_UNDER_LOCK_TABLES)) || alter_info->requested_lock == Alter_info::ALTER_TABLE_LOCK_EXCLUSIVE) { if (wait_while_table_is_used(thd, table, HA_EXTRA_FORCE_REOPEN)) goto cleanup; /* Get rid of all TABLE instances belonging to this thread except one to be used for in-place ALTER TABLE. This is mostly needed to satisfy InnoDB assumptions/asserts. */ close_all_tables_for_name(thd, table->s, alter_ctx->is_table_renamed() ? HA_EXTRA_PREPARE_FOR_RENAME : HA_EXTRA_NOT_USED, table); /* If we are under LOCK TABLES we will need to reopen tables which we just have closed in case of error. */ reopen_tables= true; } else if (inplace_supported == HA_ALTER_INPLACE_COPY_LOCK || inplace_supported == HA_ALTER_INPLACE_COPY_NO_LOCK || inplace_supported == HA_ALTER_INPLACE_NOCOPY_LOCK || inplace_supported == HA_ALTER_INPLACE_NOCOPY_NO_LOCK || inplace_supported == HA_ALTER_INPLACE_INSTANT) { /* Storage engine has requested exclusive lock only for prepare phase and we are not under LOCK TABLES. Don't mark TABLE_SHARE as old in this case, as this won't allow opening of table by other threads during main phase of in-place ALTER TABLE. */ if (thd->mdl_context.upgrade_shared_lock(table->mdl_ticket, MDL_EXCLUSIVE, thd->variables.lock_wait_timeout)) goto cleanup; table->s->tdc->flush(thd, false); } /* Upgrade to SHARED_NO_WRITE lock if: - The storage engine needs writes blocked for the whole duration - Or this is requested by the user Note that under LOCK TABLES, we will already have SHARED_NO_READ_WRITE. */ if ((inplace_supported == HA_ALTER_INPLACE_SHARED_LOCK || alter_info->requested_lock == Alter_info::ALTER_TABLE_LOCK_SHARED) && thd->mdl_context.upgrade_shared_lock(table->mdl_ticket, MDL_SHARED_NO_WRITE, thd->variables.lock_wait_timeout)) goto cleanup; DBUG_ASSERT(table->s->tmp_table == NO_TMP_TABLE || start_alter_id == 0); if (table->s->tmp_table == NO_TMP_TABLE) { if (write_bin_log_start_alter(thd, partial_alter, start_alter_id, if_exists)) goto cleanup; } else if (start_alter_id) { DBUG_ASSERT(thd->rgi_slave); my_error(ER_INCONSISTENT_SLAVE_TEMP_TABLE, MYF(0), thd->query(), table_list->db.str, table_list->table_name.str); goto cleanup; } DBUG_EXECUTE_IF("start_alter_kill_after_binlog", { DBUG_SUICIDE(); }); // It's now safe to take the table level lock. if (lock_tables(thd, table_list, alter_ctx->tables_opened, 0)) goto cleanup; DEBUG_SYNC(thd, "alter_table_inplace_after_lock_upgrade"); THD_STAGE_INFO(thd, stage_alter_inplace_prepare); switch (inplace_supported) { case HA_ALTER_ERROR: case HA_ALTER_INPLACE_NOT_SUPPORTED: DBUG_ASSERT(0); // fall through case HA_ALTER_INPLACE_NO_LOCK: case HA_ALTER_INPLACE_INSTANT: case HA_ALTER_INPLACE_COPY_NO_LOCK: case HA_ALTER_INPLACE_NOCOPY_NO_LOCK: switch (alter_info->requested_lock) { case Alter_info::ALTER_TABLE_LOCK_DEFAULT: case Alter_info::ALTER_TABLE_LOCK_NONE: ha_alter_info->online= true; break; case Alter_info::ALTER_TABLE_LOCK_SHARED: case Alter_info::ALTER_TABLE_LOCK_EXCLUSIVE: break; } break; case HA_ALTER_INPLACE_EXCLUSIVE_LOCK: case HA_ALTER_INPLACE_SHARED_LOCK: case HA_ALTER_INPLACE_COPY_LOCK: case HA_ALTER_INPLACE_NOCOPY_LOCK: break; } ddl_log_update_phase(ddl_log_state, DDL_ALTER_TABLE_PHASE_PREPARE_INPLACE); if (table->file->ha_prepare_inplace_alter_table(altered_table, ha_alter_info)) goto rollback; debug_crash_here("ddl_log_alter_after_prepare_inplace"); /* Store the new table_version() as it may have not been available before in some engines, like InnoDB. */ ddl_log_update_unique_id(ddl_log_state, table->file->table_version()); /* Mark that we have started inplace alter table. DDL recover will have to decide if it should use the old or new version of the table, based on if the new version did commit or not. */ ddl_log_update_phase(ddl_log_state, DDL_ALTER_TABLE_PHASE_INPLACE); /* Downgrade the lock if storage engine has told us that exclusive lock was necessary only for prepare phase (unless we are not under LOCK TABLES) and user has not explicitly requested exclusive lock. */ if (!ha_alter_info->mdl_exclusive_after_prepare && (inplace_supported == HA_ALTER_INPLACE_COPY_NO_LOCK || inplace_supported == HA_ALTER_INPLACE_COPY_LOCK || inplace_supported == HA_ALTER_INPLACE_NOCOPY_LOCK || inplace_supported == HA_ALTER_INPLACE_NOCOPY_NO_LOCK) && !(thd->locked_tables_mode == LTM_LOCK_TABLES || thd->locked_tables_mode == LTM_PRELOCKED_UNDER_LOCK_TABLES) && (alter_info->requested_lock != Alter_info::ALTER_TABLE_LOCK_EXCLUSIVE)) { /* If storage engine or user requested shared lock downgrade to SNW. */ if (inplace_supported == HA_ALTER_INPLACE_COPY_LOCK || inplace_supported == HA_ALTER_INPLACE_NOCOPY_LOCK || alter_info->requested_lock == Alter_info::ALTER_TABLE_LOCK_SHARED) table->mdl_ticket->downgrade_lock(MDL_SHARED_NO_WRITE); else { DBUG_ASSERT(inplace_supported == HA_ALTER_INPLACE_COPY_NO_LOCK || inplace_supported == HA_ALTER_INPLACE_NOCOPY_NO_LOCK); table->mdl_ticket->downgrade_lock(MDL_SHARED_UPGRADABLE); } } DEBUG_SYNC(thd, "alter_table_inplace_after_lock_downgrade"); THD_STAGE_INFO(thd, stage_alter_inplace); DBUG_EXECUTE_IF("start_alter_delay_master", { debug_sync_set_action(thd, STRING_WITH_LEN("now wait_for alter_cont NO_CLEAR_EVENT")); }); /* We can abort alter table for any table type */ thd->abort_on_warning= !ha_alter_info->ignore && thd->is_strict_mode(); res= table->file->ha_inplace_alter_table(altered_table, ha_alter_info); thd->abort_on_warning= false; if (start_alter_id && wait_for_master(thd)) goto rollback; if (res) goto rollback; DEBUG_SYNC(thd, "alter_table_inplace_before_lock_upgrade"); // Upgrade to EXCLUSIVE before commit. if (wait_while_table_is_used(thd, table, HA_EXTRA_PREPARE_FOR_RENAME)) goto rollback; /* Set MDL_BACKUP_DDL */ if (backup_reset_alter_copy_lock(thd)) goto rollback; /* Crashing here should cause the original table to be used */ debug_crash_here("ddl_log_alter_after_copy"); /* If we are killed after this point, we should ignore and continue. We have mostly completed the operation at this point, there should be no long waits left. */ DEBUG_SYNC(thd, "alter_table_inplace_before_commit"); THD_STAGE_INFO(thd, stage_alter_inplace_commit); DBUG_EXECUTE_IF("alter_table_rollback_new_index", { table->file->ha_commit_inplace_alter_table(altered_table, ha_alter_info, false); my_error(ER_UNKNOWN_ERROR, MYF(0)); goto cleanup; }); /* Notify the engine that the table definition has changed so that it can store the new ID as part of the commit */ if (!(table->file->partition_ht()->flags & HTON_REQUIRES_NOTIFY_TABLEDEF_CHANGED_AFTER_COMMIT) && notify_tabledef_changed(table_list)) goto rollback; { TR_table trt(thd, true); if (trt != *table_list && table->file->ht->prepare_commit_versioned) { ulonglong trx_start_id= 0; ulonglong trx_end_id= table->file->ht->prepare_commit_versioned(thd, &trx_start_id); if (trx_end_id) { if (!TR_table::use_transaction_registry) { my_error(ER_VERS_TRT_IS_DISABLED, MYF(0)); goto rollback; } if (trt.update(trx_start_id, trx_end_id)) goto rollback; } } if (table->file->ha_commit_inplace_alter_table(altered_table, ha_alter_info, true)) goto rollback; DEBUG_SYNC(thd, "alter_table_inplace_after_commit"); } /* We are new ready to use the new table. Update the state in the ddl log so that we recovery know that the new table is ready and in case of crash it should use the new one and log the query to the binary log. */ ddl_log_update_phase(ddl_log_state, DDL_ALTER_TABLE_PHASE_INPLACE_COPIED); debug_crash_here("ddl_log_alter_after_log"); if ((table->file->partition_ht()->flags & HTON_REQUIRES_NOTIFY_TABLEDEF_CHANGED_AFTER_COMMIT) && notify_tabledef_changed(table_list)) { /* The above should never fail. If it failed, the new structure is commited and we have no way to roll back. The best we can do is to continue, but send an error to the user that something when wrong */ commit_succeded_with_error= 1; } close_all_tables_for_name(thd, table->s, alter_ctx->is_table_renamed() ? HA_EXTRA_PREPARE_FOR_RENAME : HA_EXTRA_NOT_USED, NULL); table_list->table= table= NULL; /* Replace the old .FRM with the new .FRM, but keep the old name for now. Rename to the new name (if needed) will be handled separately below. */ /* TODO: remove this check of thd->is_error() (now it intercept errors in some val_*() methods and bring some single place to such error interception). */ if (mysql_rename_table(db_type, &alter_ctx->new_db, &alter_ctx->tmp_name, &alter_ctx->db, &alter_ctx->alias, &alter_ctx->tmp_id, FN_FROM_IS_TMP | NO_HA_TABLE) || thd->is_error()) { // Since changes were done in-place, we can't revert them. goto err; } debug_crash_here("ddl_log_alter_after_rename_frm"); // Rename altered table in case of ALTER TABLE ... RENAME if (alter_ctx->is_table_renamed()) { DBUG_ASSERT(!tdc_share_is_cached(thd, alter_ctx->db.str, alter_ctx->table_name.str)); if (mysql_rename_table(db_type, &alter_ctx->db, &alter_ctx->table_name, &alter_ctx->new_db, &alter_ctx->new_alias, &alter_ctx->tmp_id, 0)) { /* If the rename fails we will still have a working table with the old name, but with other changes applied. */ goto err; } debug_crash_here("ddl_log_alter_before_rename_triggers"); if (Table_triggers_list::change_table_name(thd, trigger_param, &alter_ctx->db, &alter_ctx->alias, &alter_ctx->table_name, &alter_ctx->new_db, &alter_ctx->new_alias)) { /* If the rename of trigger files fails, try to rename the table back so we at least have matching table and trigger files. */ (void) mysql_rename_table(db_type, &alter_ctx->new_db, &alter_ctx->new_alias, &alter_ctx->db, &alter_ctx->alias, &alter_ctx->id, NO_FK_CHECKS); ddl_log_disable_entry(ddl_log_state); DBUG_RETURN(true); } rename_table_in_stat_tables(thd, &alter_ctx->db, &alter_ctx->alias, &alter_ctx->new_db, &alter_ctx->new_alias); debug_crash_here("ddl_log_alter_after_rename_triggers"); } DBUG_RETURN(commit_succeded_with_error); rollback: table->file->ha_commit_inplace_alter_table(altered_table, ha_alter_info, false); cleanup: if (reopen_tables) { /* Close the only table instance which is still around. */ close_all_tables_for_name(thd, table->s, alter_ctx->is_table_renamed() ? HA_EXTRA_PREPARE_FOR_RENAME : HA_EXTRA_NOT_USED, NULL); if (thd->locked_tables_list.reopen_tables(thd, false)) thd->locked_tables_list.unlink_all_closed_tables(thd, NULL, 0); } err: DBUG_RETURN(true); } /** maximum possible length for certain blob types. @param[in] type Blob type (e.g. MYSQL_TYPE_TINY_BLOB) @return length */ static uint blob_length_by_type(enum_field_types type) { switch (type) { case MYSQL_TYPE_TINY_BLOB: return 255; case MYSQL_TYPE_BLOB: return 65535; case MYSQL_TYPE_MEDIUM_BLOB: return 16777215; case MYSQL_TYPE_LONG_BLOB: return (uint) UINT_MAX32; default: DBUG_ASSERT(0); // we should never go here return 0; } } static inline void append_drop_column(THD *thd, String *str, Field *field) { if (str->length()) str->append(STRING_WITH_LEN(", ")); str->append(STRING_WITH_LEN("DROP COLUMN ")); append_identifier(thd, str, &field->field_name); } #ifdef WITH_PARTITION_STORAGE_ENGINE static inline void rename_field_in_list(Create_field *field, List *field_list) { DBUG_ASSERT(field->change.str); List_iterator it(*field_list); while (const char *name= it++) { if (my_strcasecmp(system_charset_info, name, field->change.str)) continue; it.replace(field->field_name.str); } } #endif /** Prepare column and key definitions for CREATE TABLE in ALTER TABLE. This function transforms parse output of ALTER TABLE - lists of columns and keys to add, drop or modify into, essentially, CREATE TABLE definition - a list of columns and keys of the new table. While doing so, it also performs some (bug not all) semantic checks. This function is invoked when we know that we're going to perform ALTER TABLE via a temporary table -- i.e. in-place ALTER TABLE is not possible, perhaps because the ALTER statement contains instructions that require change in table data, not only in table definition or indexes. @param[in,out] thd thread handle. Used as a memory pool and source of environment information. @param[in] table the source table, open and locked Used as an interface to the storage engine to acquire additional information about the original table. @param[in,out] create_info A blob with CREATE/ALTER TABLE parameters @param[in,out] alter_info Another blob with ALTER/CREATE parameters. Originally create_info was used only in CREATE TABLE and alter_info only in ALTER TABLE. But since ALTER might end-up doing CREATE, this distinction is gone and we just carry around two structures. @param[in,out] alter_ctx Runtime context for ALTER TABLE. @return Fills various create_info members based on information retrieved from the storage engine. Sets create_info->varchar if the table has a VARCHAR column. Prepares alter_info->create_list and alter_info->key_list with columns and keys of the new table. @retval TRUE error, out of memory or a semantical error in ALTER TABLE instructions @retval FALSE success */ bool mysql_prepare_alter_table(THD *thd, TABLE *table, Table_specification_st *create_info, Alter_info *alter_info, Alter_table_ctx *alter_ctx) { /* New column definitions are added here */ List new_create_list; /* System-invisible fields must be added last */ List new_create_tail; /* New key definitions are added here */ List new_key_list; List rename_key_list(alter_info->alter_rename_key_list); /* Create a deep copy of the list of visibility for indexes, as it will be altered here. */ List alter_index_ignorability_list(alter_info->alter_index_ignorability_list, thd->mem_root); list_copy_and_replace_each_value(alter_index_ignorability_list, thd->mem_root); List_iterator drop_it(alter_info->drop_list); List_iterator def_it(alter_info->create_list); List_iterator alter_it(alter_info->alter_list); List_iterator key_it(alter_info->key_list); List_iterator find_it(new_create_list); List_iterator field_it(new_create_list); List key_parts; List new_constraint_list; uint db_create_options= (table->s->db_create_options & ~(HA_OPTION_PACK_RECORD)); Item::func_processor_rename column_rename_param; uint used_fields, dropped_sys_vers_fields= 0; KEY *key_info=table->key_info; bool rc= TRUE; bool vers_system_invisible= false; Create_field *def; Field **f_ptr,*field; MY_BITMAP *dropped_fields= NULL; // if it's NULL - no dropped fields bool drop_period= false; LEX_CSTRING period_start_name= {nullptr, 0}; LEX_CSTRING period_end_name= {nullptr, 0}; if (table->s->period.name) { period_start_name= table->s->period_start_field()->field_name; period_end_name= table->s->period_end_field()->field_name; } DBUG_ENTER("mysql_prepare_alter_table"); /* Merge incompatible changes flag in case of upgrade of a table from an old MariaDB or MySQL version. This ensures that we don't try to do an online alter table if field packing or character set changes are required. */ create_info->used_fields|= table->s->incompatible_version; used_fields= create_info->used_fields; create_info->varchar= FALSE; /* Let new create options override the old ones */ if (!(used_fields & HA_CREATE_USED_MIN_ROWS)) create_info->min_rows= table->s->min_rows; if (!(used_fields & HA_CREATE_USED_MAX_ROWS)) create_info->max_rows= table->s->max_rows; if (!(used_fields & HA_CREATE_USED_AVG_ROW_LENGTH)) create_info->avg_row_length= table->s->avg_row_length; if (create_info->resolve_to_charset_collation_context(thd, thd->charset_collation_context_alter_table(table->s))) DBUG_RETURN(true); if (!(used_fields & HA_CREATE_USED_AUTO) && table->found_next_number_field) { /* Table has an autoincrement, copy value to new table */ table->file->info(HA_STATUS_AUTO); create_info->auto_increment_value= table->file->stats.auto_increment_value; } if (!(used_fields & HA_CREATE_USED_KEY_BLOCK_SIZE)) create_info->key_block_size= table->s->key_block_size; if (!(used_fields & HA_CREATE_USED_STATS_SAMPLE_PAGES)) create_info->stats_sample_pages= table->s->stats_sample_pages; if (!(used_fields & HA_CREATE_USED_STATS_AUTO_RECALC)) create_info->stats_auto_recalc= table->s->stats_auto_recalc; if (!(used_fields & HA_CREATE_USED_TRANSACTIONAL)) create_info->transactional= table->s->transactional; if (!(used_fields & HA_CREATE_USED_CONNECTION)) create_info->connect_string= table->s->connect_string; if (!(used_fields & HA_CREATE_USED_SEQUENCE)) create_info->sequence= table->s->table_type == TABLE_TYPE_SEQUENCE; column_rename_param.db_name= table->s->db; column_rename_param.table_name= table->s->table_name; if (column_rename_param.fields.copy(&alter_info->create_list, thd->mem_root)) DBUG_RETURN(1); // OOM restore_record(table, s->default_values); // Empty record for DEFAULT if ((create_info->fields_option_struct= (ha_field_option_struct**) thd->calloc(sizeof(void*) * table->s->fields)) == NULL || (create_info->indexes_option_struct= (ha_index_option_struct**) thd->calloc(sizeof(void*) * table->s->keys)) == NULL) DBUG_RETURN(1); if (merge_engine_options(table->s->option_list, create_info->option_list, &create_info->option_list, thd->mem_root)) DBUG_RETURN(1); /* First collect all fields from table which isn't in drop_list */ bitmap_clear_all(&table->tmp_set); for (f_ptr=table->field ; (field= *f_ptr) ; f_ptr++) { if (field->invisible == INVISIBLE_FULL) continue; Alter_drop *drop; if (field->type() == MYSQL_TYPE_VARCHAR) create_info->varchar= TRUE; /* Check if field should be dropped */ drop_it.rewind(); while ((drop=drop_it++)) { if (drop->type == Alter_drop::COLUMN && !my_strcasecmp(system_charset_info,field->field_name.str, drop->name)) break; } /* DROP COLULMN xxx 1. it does not see INVISIBLE_SYSTEM columns 2. otherwise, normally a column is dropped 3. unless it's a system versioning column (but see below). */ if (drop && field->invisible < INVISIBLE_SYSTEM && !(field->flags & VERS_SYSTEM_FIELD && !(alter_info->flags & ALTER_DROP_SYSTEM_VERSIONING))) { /* Reset auto_increment value if it was dropped */ if (MTYP_TYPENR(field->unireg_check) == Field::NEXT_NUMBER && !(used_fields & HA_CREATE_USED_AUTO)) { create_info->auto_increment_value=0; create_info->used_fields|=HA_CREATE_USED_AUTO; } if (table->s->tmp_table == NO_TMP_TABLE) (void) delete_statistics_for_column(thd, table, field); dropped_sys_vers_fields|= field->flags; drop_it.remove(); dropped_fields= &table->tmp_set; bitmap_set_bit(dropped_fields, field->field_index); continue; } if (field->invisible == INVISIBLE_SYSTEM && field->flags & VERS_SYSTEM_FIELD) { vers_system_invisible= true; } /* invisible versioning column is dropped automatically on DROP SYSTEM VERSIONING */ if (!drop && field->invisible >= INVISIBLE_SYSTEM && field->flags & VERS_SYSTEM_FIELD && alter_info->flags & ALTER_DROP_SYSTEM_VERSIONING) { if (table->s->tmp_table == NO_TMP_TABLE) (void) delete_statistics_for_column(thd, table, field); continue; } /* Check if field is changed */ def_it.rewind(); while ((def=def_it++)) { if (def->change.str && !lex_string_cmp(system_charset_info, &field->field_name, &def->change)) break; } if (def && field->invisible < INVISIBLE_SYSTEM) { // Field is changed def->field=field; /* Add column being updated to the list of new columns. Note that columns with AFTER clauses are added to the end of the list for now. Their positions will be corrected later. */ new_create_list.push_back(def, thd->mem_root); if (field->stored_in_db() != def->stored_in_db()) { my_error(ER_UNSUPPORTED_ACTION_ON_GENERATED_COLUMN, MYF(0)); goto err; } if (!def->after.str) { /* If this ALTER TABLE doesn't have an AFTER clause for the modified column then remove this column from the list of columns to be processed. So later we can iterate over the columns remaining in this list and process modified columns with AFTER clause or add new columns. */ def_it.remove(); } } else if (alter_info->flags & ALTER_DROP_SYSTEM_VERSIONING && field->flags & VERS_SYSTEM_FIELD && field->invisible < INVISIBLE_SYSTEM) { StringBuffer tmp; append_drop_column(thd, &tmp, field); my_error(ER_MISSING, MYF(0), table->s->table_name.str, tmp.c_ptr()); goto err; } else if (drop && field->invisible < INVISIBLE_SYSTEM && field->flags & VERS_SYSTEM_FIELD && !(alter_info->flags & ALTER_DROP_SYSTEM_VERSIONING)) { /* "dropping" a versioning field only hides it from the user */ def= new (thd->mem_root) Create_field(thd, field, field); def->invisible= INVISIBLE_SYSTEM; alter_info->flags|= ALTER_CHANGE_COLUMN; if (field->flags & VERS_ROW_START) create_info->vers_info.period.start= create_info->vers_info.as_row.start= def->field_name= Vers_parse_info::default_start; else create_info->vers_info.period.end= create_info->vers_info.as_row.end= def->field_name= Vers_parse_info::default_end; new_create_list.push_back(def, thd->mem_root); dropped_sys_vers_fields|= field->flags; drop_it.remove(); } else if (field->invisible < INVISIBLE_SYSTEM) { /* This field was not dropped and not changed, add it to the list for the new table. */ def= new (thd->mem_root) Create_field(thd, field, field); new_create_list.push_back(def, thd->mem_root); alter_it.rewind(); // Change default if ALTER Alter_column *alter; while ((alter=alter_it++)) { if (!my_strcasecmp(system_charset_info,field->field_name.str, alter->name.str)) break; } if (alter && field->invisible < INVISIBLE_SYSTEM) { if (alter->is_rename()) { def->change= alter->name; def->field_name= alter->new_name; column_rename_param.fields.push_back(def); if (field->flags & VERS_ROW_START) { create_info->vers_info.as_row.start= alter->new_name; create_info->vers_info.period.start= alter->new_name; } else if (field->flags & VERS_ROW_END) { create_info->vers_info.as_row.end= alter->new_name; create_info->vers_info.period.end= alter->new_name; } if (table->s->period.name) { if (field == table->period_start_field()) period_start_name= alter->new_name; else if (field == table->period_end_field()) period_end_name= alter->new_name; } } else { if ((def->default_value= alter->default_value)) def->flags&= ~NO_DEFAULT_VALUE_FLAG; else def->flags|= NO_DEFAULT_VALUE_FLAG; } alter_it.remove(); } } else { DBUG_ASSERT(field->invisible == INVISIBLE_SYSTEM); def= new (thd->mem_root) Create_field(thd, field, field); new_create_tail.push_back(def, thd->mem_root); } } /* If we are doing a rename of a column, update all references in virtual column expressions, constraints and defaults to use the new column name */ if (alter_info->flags & ALTER_RENAME_COLUMN) { alter_it.rewind(); Alter_column *alter; while ((alter=alter_it++)) { if (alter->is_rename()) { my_error(ER_BAD_FIELD_ERROR, MYF(0), alter->name.str, table->s->table_name.str); goto err; } } for (f_ptr=table->field ; (field= *f_ptr) ; f_ptr++) { if (field->vcol_info) field->vcol_info->expr->walk(&Item::rename_fields_processor, 1, &column_rename_param); if (field->check_constraint) field->check_constraint->expr->walk(&Item::rename_fields_processor, 1, &column_rename_param); if (field->default_value) field->default_value->expr->walk(&Item::rename_fields_processor, 1, &column_rename_param); } #ifdef WITH_PARTITION_STORAGE_ENGINE if (thd->work_part_info) { partition_info *part_info= thd->work_part_info; List_iterator def_it(column_rename_param.fields); const bool part_field_list= !part_info->part_field_list.is_empty(); const bool subpart_field_list= !part_info->subpart_field_list.is_empty(); if (part_info->part_expr) part_info->part_expr->walk(&Item::rename_fields_processor, 1, &column_rename_param); if (part_info->subpart_expr) part_info->subpart_expr->walk(&Item::rename_fields_processor, 1, &column_rename_param); if (part_field_list || subpart_field_list) { while (Create_field *def= def_it++) { if (def->change.str) { if (part_field_list) rename_field_in_list(def, &part_info->part_field_list); if (subpart_field_list) rename_field_in_list(def, &part_info->subpart_field_list); } /* if (def->change.str) */ } /* while (def) */ } /* if (part_field_list || subpart_field_list) */ // Force reopen because new column name is on thd->mem_root table->mark_table_for_reopen(); } /* if (part_info) */ #endif // Force reopen because new column name is on thd->mem_root table->mark_table_for_reopen(); } dropped_sys_vers_fields &= VERS_SYSTEM_FIELD; if ((dropped_sys_vers_fields || alter_info->flags & ALTER_DROP_PERIOD) && dropped_sys_vers_fields != VERS_SYSTEM_FIELD && !vers_system_invisible) { StringBuffer tmp; if (!(dropped_sys_vers_fields & VERS_ROW_START)) append_drop_column(thd, &tmp, table->vers_start_field()); if (!(dropped_sys_vers_fields & VERS_ROW_END)) append_drop_column(thd, &tmp, table->vers_end_field()); my_error(ER_MISSING, MYF(0), table->s->table_name.str, tmp.c_ptr()); goto err; } else if (alter_info->flags & ALTER_DROP_PERIOD && vers_system_invisible) { my_error(ER_CANT_DROP_FIELD_OR_KEY, MYF(0), "PERIOD FOR SYSTEM_TIME on", table->s->table_name.str); goto err; } alter_info->flags &= ~(ALTER_DROP_PERIOD | ALTER_ADD_PERIOD); def_it.rewind(); while ((def=def_it++)) // Add new columns { Create_field *find; if (def->change.str && ! def->field) { /* Check if there is modify for newly added field. */ find_it.rewind(); while((find=find_it++)) { if (!my_strcasecmp(system_charset_info,find->field_name.str, def->field_name.str)) break; } if (likely(find && !find->field)) find_it.remove(); else { my_error(ER_BAD_FIELD_ERROR, MYF(0), def->change.str, table->s->table_name.str); goto err; } } /* Check that the DATE/DATETIME not null field we are going to add is either has a default value or the '0000-00-00' is allowed by the set sql mode. If the '0000-00-00' value isn't allowed then raise the error_if_not_empty flag to allow ALTER TABLE only if the table to be altered is empty. */ if (!alter_ctx->implicit_default_value_error_field && !def->field && !(~def->flags & (NO_DEFAULT_VALUE_FLAG | NOT_NULL_FLAG)) && def->type_handler()->validate_implicit_default_value(thd, *def)) { alter_ctx->implicit_default_value_error_field= def; alter_ctx->error_if_not_empty= TRUE; } if (!def->after.str) new_create_list.push_back(def, thd->mem_root); else { if (def->change.str) { find_it.rewind(); /* For columns being modified with AFTER clause we should first remove these columns from the list and then add them back at their correct positions. */ while ((find=find_it++)) { /* Create_fields representing changed columns are added directly from Alter_info::create_list to new_create_list. We can therefore safely use pointer equality rather than name matching here. This prevents removing the wrong column in case of column rename. */ if (find == def) { find_it.remove(); break; } } } if (def->after.str == first_keyword) new_create_list.push_front(def, thd->mem_root); else { find_it.rewind(); while ((find=find_it++)) { if (!lex_string_cmp(system_charset_info, &def->after, &find->field_name)) break; } if (unlikely(!find)) { my_error(ER_BAD_FIELD_ERROR, MYF(0), def->after.str, table->s->table_name.str); goto err; } find_it.after(def); // Put column after this } } /* Check if there is alter for newly added field. */ alter_it.rewind(); Alter_column *alter; while ((alter=alter_it++)) { if (!my_strcasecmp(system_charset_info,def->field_name.str, alter->name.str)) break; } if (alter) { if ((def->default_value= alter->default_value)) // Use new default def->flags&= ~NO_DEFAULT_VALUE_FLAG; else def->flags|= NO_DEFAULT_VALUE_FLAG; alter_it.remove(); } } new_create_list.append(&new_create_tail); if (unlikely(alter_info->alter_list.elements)) { my_error(ER_BAD_FIELD_ERROR, MYF(0), alter_info->alter_list.head()->name.str, table->s->table_name.str); goto err; } if (unlikely(!new_create_list.elements)) { my_message(ER_CANT_REMOVE_ALL_FIELDS, ER_THD(thd, ER_CANT_REMOVE_ALL_FIELDS), MYF(0)); goto err; } /* Collect all keys which isn't in drop list. Add only those for which some fields exists. */ for (uint i=0 ; i < table->s->keys ; i++,key_info++) { bool long_hash_key= false; if (key_info->flags & HA_INVISIBLE_KEY) continue; const char *key_name= key_info->name.str; const bool primary_key= table->s->primary_key == i; const bool explicit_pk= primary_key && !my_strcasecmp(system_charset_info, key_name, primary_key_name.str); const bool implicit_pk= primary_key && !explicit_pk; Alter_drop *drop; drop_it.rewind(); while ((drop=drop_it++)) { if (drop->type == Alter_drop::KEY && !my_strcasecmp(system_charset_info,key_name, drop->name)) break; } if (drop) { if (table->s->tmp_table == NO_TMP_TABLE) { (void) delete_statistics_for_index(thd, table, key_info, FALSE); if (primary_key) { KEY *tab_key_info= table->key_info; for (uint j=0; j < table->s->keys; j++, tab_key_info++) { if (tab_key_info->user_defined_key_parts != tab_key_info->ext_key_parts) (void) delete_statistics_for_index(thd, table, tab_key_info, TRUE); } } } drop_it.remove(); continue; } List_iterator ignorability_index_it(alter_index_ignorability_list); Alter_index_ignorability *index_ignorability; while((index_ignorability= ignorability_index_it++)) { const char* name= index_ignorability->name(); if (!my_strcasecmp(system_charset_info, key_name, name)) ignorability_index_it.remove(); } /* If this index is to stay in the table check if it has to be renamed. */ List_iterator rename_key_it(rename_key_list); Alter_rename_key *rename_key; while ((rename_key= rename_key_it++)) { if (!my_strcasecmp(system_charset_info, key_name, rename_key->old_name.str)) { if (!my_strcasecmp(system_charset_info, key_name, primary_key_name.str)) { my_error(ER_WRONG_NAME_FOR_INDEX, MYF(0), rename_key->old_name.str); goto err; } else if (!my_strcasecmp(system_charset_info, rename_key->new_name.str, primary_key_name.str)) { my_error(ER_WRONG_NAME_FOR_INDEX, MYF(0), rename_key->new_name.str); goto err; } key_name= rename_key->new_name.str; rename_key_it.remove(); /* If the user has explicitly renamed the key, we should no longer treat it as generated. Otherwise this key might be automatically dropped by mysql_prepare_create_table() and this will confuse code in fill_alter_inplace_info(). */ key_info->flags&= ~HA_GENERATED_KEY; break; } } if (key_info->algorithm == HA_KEY_ALG_LONG_HASH) { setup_keyinfo_hash(key_info); long_hash_key= true; } const char *dropped_key_part= NULL; bool user_keyparts= false; // some user-defined keyparts left KEY_PART_INFO *key_part= key_info->key_part; key_parts.empty(); uint key_parts_nr= key_info->user_defined_key_parts; if (key_info->without_overlaps) key_parts_nr-= 2; bool delete_index_stat= FALSE; for (uint j=0 ; j < key_parts_nr ; j++,key_part++) { Field *kfield= key_part->field; if (!kfield) continue; // Wrong field (from UNIREG) const char *key_part_name=kfield->field_name.str; Create_field *cfield; uint key_part_length; field_it.rewind(); while ((cfield=field_it++)) { if (cfield->change.str) { if (!my_strcasecmp(system_charset_info, key_part_name, cfield->change.str)) break; } else if (!my_strcasecmp(system_charset_info, key_part_name, cfield->field_name.str)) break; } if (!cfield) { if (primary_key) alter_ctx->modified_primary_key= true; delete_index_stat= TRUE; if (!(kfield->flags & VERS_SYSTEM_FIELD)) dropped_key_part= key_part_name; continue; // Field is removed } DBUG_ASSERT(!primary_key || kfield->flags & NOT_NULL_FLAG); if (implicit_pk && !alter_ctx->modified_primary_key && !(cfield->flags & NOT_NULL_FLAG)) alter_ctx->modified_primary_key= true; key_part_length= key_part->length; if (cfield->field) // Not new field { /* If the field can't have only a part used in a key according to its new type, or should not be used partially according to its previous type, or the field length is less than the key part length, unset the key part length. We also unset the key part length if it is the same as the old field's length, so the whole new field will be used. BLOBs may have cfield->length == 0, which is why we test it before checking whether cfield->length < key_part_length (in chars). In case of TEXTs we check the data type maximum length *in bytes* to key part length measured *in characters* (i.e. key_part_length devided to mbmaxlen). This is because it's OK to have: CREATE TABLE t1 (a tinytext, key(a(254)) character set utf8); In case of this example: - data type maximum length is 255. - key_part_length is 1016 (=254*4, where 4 is mbmaxlen) */ if (!cfield->field->type_handler()->type_can_have_key_part() || !cfield->type_handler()->type_can_have_key_part() || /* spatial keys can't have sub-key length */ (key_info->flags & HA_SPATIAL) || (cfield->field->field_length == key_part_length && !f_is_blob(key_part->key_type)) || (cfield->length && (((cfield->real_field_type() >= MYSQL_TYPE_TINY_BLOB && cfield->real_field_type() <= MYSQL_TYPE_BLOB) ? blob_length_by_type(cfield->real_field_type()) : cfield->length) < key_part_length / kfield->charset()->mbmaxlen))) key_part_length= 0; // Use whole field } key_part_length /= kfield->charset()->mbmaxlen; Key_part_spec *kps= new (thd->mem_root) Key_part_spec(&cfield->field_name, key_part_length, true); kps->asc= !(key_part->key_part_flag & HA_REVERSE_SORT); key_parts.push_back(kps, thd->mem_root); if (!(cfield->invisible == INVISIBLE_SYSTEM && cfield->vers_sys_field())) user_keyparts= true; } if (table->s->tmp_table == NO_TMP_TABLE) { if (delete_index_stat) (void) delete_statistics_for_index(thd, table, key_info, FALSE); else if (alter_ctx->modified_primary_key && key_info->user_defined_key_parts != key_info->ext_key_parts) (void) delete_statistics_for_index(thd, table, key_info, TRUE); } if (!user_keyparts && key_parts.elements) { /* If we dropped all user key-parts we also drop implicit system fields. */ key_parts.empty(); } if (key_parts.elements) { KEY_CREATE_INFO key_create_info; Key *key; enum Key::Keytype key_type; LEX_CSTRING tmp_name; bzero((char*) &key_create_info, sizeof(key_create_info)); if (key_info->algorithm == HA_KEY_ALG_LONG_HASH) key_info->algorithm= HA_KEY_ALG_UNDEF; key_create_info.algorithm= key_info->algorithm; /* We copy block size directly as some engines, like Area, sets this automatically */ key_create_info.block_size= key_info->block_size; key_create_info.flags= key_info->flags; // HA_USE_BLOCK_SIZE if (key_info->flags & HA_USES_PARSER) key_create_info.parser_name= *plugin_name(key_info->parser); if (key_info->flags & HA_USES_COMMENT) key_create_info.comment= key_info->comment; key_create_info.is_ignored= key_info->is_ignored; /* We're refreshing an already existing index. Since the index is not modified, there is no need to check for duplicate indexes again. */ key_create_info.check_for_duplicate_indexes= false; if (key_info->flags & HA_SPATIAL) key_type= Key::SPATIAL; else if (key_info->flags & HA_NOSAME) { if (explicit_pk) key_type= Key::PRIMARY; else key_type= Key::UNIQUE; if (dropped_key_part) { my_error(ER_KEY_COLUMN_DOES_NOT_EXIST, MYF(0), dropped_key_part); if (long_hash_key) { key_info->algorithm= HA_KEY_ALG_LONG_HASH; re_setup_keyinfo_hash(key_info); } goto err; } } else if (key_info->flags & HA_FULLTEXT) key_type= Key::FULLTEXT; else key_type= Key::MULTIPLE; List_iterator ignorability_index_it(alter_info->alter_index_ignorability_list); Alter_index_ignorability *index_ignorability; while((index_ignorability= ignorability_index_it++)) { const char *name= index_ignorability->name(); if (!my_strcasecmp(system_charset_info, key_name, name)) { if (table->s->primary_key <= MAX_KEY && table->key_info + table->s->primary_key == key_info) { my_error(ER_PK_INDEX_CANT_BE_IGNORED, MYF(0)); goto err; } key_create_info.is_ignored= index_ignorability->is_ignored(); } } tmp_name.str= key_name; tmp_name.length= strlen(key_name); /* We dont need LONG_UNIQUE_HASH_FIELD flag because it will be autogenerated */ key= new (thd->mem_root) Key(key_type, &tmp_name, &key_create_info, MY_TEST(key_info->flags & HA_GENERATED_KEY), &key_parts, key_info->option_list, DDL_options()); key->without_overlaps= key_info->without_overlaps; key->period= table->s->period.name; new_key_list.push_back(key, thd->mem_root); } if (long_hash_key) { key_info->algorithm= HA_KEY_ALG_LONG_HASH; re_setup_keyinfo_hash(key_info); } } { Key *key; while ((key=key_it++)) // Add new keys { if (key->type == Key::FOREIGN_KEY && ((Foreign_key *)key)->validate(new_create_list)) goto err; new_key_list.push_back(key, thd->mem_root); if (key->name.str && !my_strcasecmp(system_charset_info, key->name.str, primary_key_name.str)) { my_error(ER_WRONG_NAME_FOR_INDEX, MYF(0), key->name.str); goto err; } } } if (table->s->period.name) { drop_it.rewind(); Alter_drop *drop; for (bool found= false; !found && (drop= drop_it++); ) { found= drop->type == Alter_drop::PERIOD && table->s->period.name.streq(drop->name); } if (drop) { drop_period= true; drop_it.remove(); } else if (create_info->period_info.is_set() && table->s->period.name) { my_error(ER_MORE_THAN_ONE_PERIOD, MYF(0)); goto err; } else { create_info->period_info.set_period(period_start_name, period_end_name); create_info->period_info.name= table->s->period.name; } } /* Add all table level constraints which are not in the drop list */ if (table->s->table_check_constraints) { TABLE_SHARE *share= table->s; for (uint i= share->field_check_constraints; i < share->table_check_constraints ; i++) { Virtual_column_info *check= table->check_constraints[i]; Alter_drop *drop; bool keep= true; drop_it.rewind(); while ((drop=drop_it++)) { if (drop->type == Alter_drop::CHECK_CONSTRAINT && !my_strcasecmp(system_charset_info, check->name.str, drop->name)) { drop_it.remove(); keep= false; break; } } if (share->period.constr_name.streq(check->name.str)) { if (!drop_period && !keep) { my_error(ER_PERIOD_CONSTRAINT_DROP, MYF(0), check->name.str, share->period.name.str); goto err; } keep= keep && !drop_period; DBUG_ASSERT(create_info->period_info.constr == NULL || drop_period); if (keep) { Item *expr_copy= check->expr->get_copy(thd); check= new Virtual_column_info(); check->name= share->period.constr_name; check->automatic_name= true; check->expr= expr_copy; create_info->period_info.constr= check; } } /* see if the constraint depends on *only* on dropped fields */ if (keep && dropped_fields) { table->default_column_bitmaps(); bitmap_clear_all(table->read_set); check->expr->walk(&Item::register_field_in_read_map, 1, 0); if (bitmap_is_subset(table->read_set, dropped_fields)) keep= false; else if (bitmap_is_overlapping(dropped_fields, table->read_set)) { bitmap_intersect(table->read_set, dropped_fields); uint field_nr= bitmap_get_first_set(table->read_set); my_error(ER_BAD_FIELD_ERROR, MYF(0), table->field[field_nr]->field_name.str, "CHECK"); goto err; } } if (keep) { if (alter_info->flags & ALTER_RENAME_COLUMN) { check->expr->walk(&Item::rename_fields_processor, 1, &column_rename_param); // Force reopen because new column name is on thd->mem_root table->mark_table_for_reopen(); } new_constraint_list.push_back(check, thd->mem_root); } } } if (!alter_info->check_constraint_list.is_empty()) { /* Check the table FOREIGN KEYs for name duplications. */ List fk_child_key_list; FOREIGN_KEY_INFO *f_key; table->file->get_foreign_key_list(thd, &fk_child_key_list); List_iterator fk_key_it(fk_child_key_list); while ((f_key= fk_key_it++)) { List_iterator_fast c_it(alter_info->check_constraint_list); Virtual_column_info *check; while ((check= c_it++)) { if (!check->name.length || check->automatic_name) continue; if (check->name.length == f_key->foreign_id->length && my_strcasecmp(system_charset_info, f_key->foreign_id->str, check->name.str) == 0) { my_error(ER_DUP_CONSTRAINT_NAME, MYF(0), "CHECK", check->name.str); goto err; } } } } /* Add new constraints */ new_constraint_list.append(&alter_info->check_constraint_list); if (alter_info->drop_list.elements) { Alter_drop *drop; drop_it.rewind(); while ((drop=drop_it++)) { switch (drop->type) { case Alter_drop::KEY: case Alter_drop::COLUMN: case Alter_drop::CHECK_CONSTRAINT: case Alter_drop::PERIOD: my_error(ER_CANT_DROP_FIELD_OR_KEY, MYF(0), drop->type_name(), alter_info->drop_list.head()->name); goto err; case Alter_drop::FOREIGN_KEY: // Leave the DROP FOREIGN KEY names in the alter_info->drop_list. break; } } } if (rename_key_list.elements) { my_error(ER_KEY_DOES_NOT_EXISTS, MYF(0), rename_key_list.head()->old_name.str, table->s->table_name.str); goto err; } if (alter_index_ignorability_list.elements) { my_error(ER_KEY_DOES_NOT_EXISTS, MYF(0), alter_index_ignorability_list.head()->name(), table->s->table_name.str); goto err; } if (!create_info->comment.str) { create_info->comment.str= table->s->comment.str; create_info->comment.length= table->s->comment.length; } table->file->update_create_info(create_info); if ((create_info->table_options & (HA_OPTION_PACK_KEYS | HA_OPTION_NO_PACK_KEYS)) || (used_fields & HA_CREATE_USED_PACK_KEYS)) db_create_options&= ~(HA_OPTION_PACK_KEYS | HA_OPTION_NO_PACK_KEYS); if ((create_info->table_options & (HA_OPTION_STATS_PERSISTENT | HA_OPTION_NO_STATS_PERSISTENT)) || (used_fields & HA_CREATE_USED_STATS_PERSISTENT)) db_create_options&= ~(HA_OPTION_STATS_PERSISTENT | HA_OPTION_NO_STATS_PERSISTENT); if (create_info->table_options & (HA_OPTION_CHECKSUM | HA_OPTION_NO_CHECKSUM)) db_create_options&= ~(HA_OPTION_CHECKSUM | HA_OPTION_NO_CHECKSUM); if (create_info->table_options & (HA_OPTION_DELAY_KEY_WRITE | HA_OPTION_NO_DELAY_KEY_WRITE)) db_create_options&= ~(HA_OPTION_DELAY_KEY_WRITE | HA_OPTION_NO_DELAY_KEY_WRITE); create_info->table_options|= db_create_options; if (table->s->tmp_table) create_info->options|=HA_LEX_CREATE_TMP_TABLE; rc= FALSE; alter_info->create_list.swap(new_create_list); alter_info->key_list.swap(new_key_list); alter_info->check_constraint_list.swap(new_constraint_list); err: DBUG_RETURN(rc); } /** Get Create_field object for newly created table by its name in the old version of table. @param alter_info Alter_info describing newly created table. @param old_name Name of field in old table. @returns Pointer to Create_field object, NULL - if field is not present in new version of table. */ static Create_field *get_field_by_old_name(Alter_info *alter_info, const char *old_name) { List_iterator_fast new_field_it(alter_info->create_list); Create_field *new_field; while ((new_field= new_field_it++)) { if (new_field->field && (my_strcasecmp(system_charset_info, new_field->field->field_name.str, old_name) == 0)) break; } return new_field; } /** Type of change to foreign key column, */ enum fk_column_change_type { FK_COLUMN_NO_CHANGE, FK_COLUMN_DATA_CHANGE, FK_COLUMN_RENAMED, FK_COLUMN_DROPPED }; /** Check that ALTER TABLE's changes on columns of a foreign key are allowed. @param[in] thd Thread context. @param[in] alter_info Alter_info describing changes to be done by ALTER TABLE. @param[in] fk_columns List of columns of the foreign key to check. @param[out] bad_column_name Name of field on which ALTER TABLE tries to do prohibited operation. @note This function takes into account value of @@foreign_key_checks setting. @retval FK_COLUMN_NO_CHANGE No significant changes are to be done on foreign key columns. @retval FK_COLUMN_DATA_CHANGE ALTER TABLE might result in value change in foreign key column (and foreign_key_checks is on). @retval FK_COLUMN_RENAMED Foreign key column is renamed. @retval FK_COLUMN_DROPPED Foreign key column is dropped. */ static enum fk_column_change_type fk_check_column_changes(THD *thd, Alter_info *alter_info, List &fk_columns, const char **bad_column_name) { List_iterator_fast column_it(fk_columns); LEX_CSTRING *column; *bad_column_name= NULL; while ((column= column_it++)) { Create_field *new_field= get_field_by_old_name(alter_info, column->str); if (new_field) { Field *old_field= new_field->field; if (lex_string_cmp(system_charset_info, &old_field->field_name, &new_field->field_name)) { /* Copy algorithm doesn't support proper renaming of columns in the foreign key yet. At the moment we lack API which will tell SE that foreign keys should be updated to use new name of column like it happens in case of in-place algorithm. */ *bad_column_name= column->str; return FK_COLUMN_RENAMED; } if ((old_field->is_equal(*new_field) == IS_EQUAL_NO) || ((new_field->flags & NOT_NULL_FLAG) && !(old_field->flags & NOT_NULL_FLAG))) { if (!(thd->variables.option_bits & OPTION_NO_FOREIGN_KEY_CHECKS)) { /* Column in a FK has changed significantly. Unless foreign_key_checks are off we prohibit this since this means values in this column might be changed by ALTER and thus referential integrity might be broken, */ *bad_column_name= column->str; return FK_COLUMN_DATA_CHANGE; } } } else { /* Column in FK was dropped. Most likely this will break integrity constraints of InnoDB data-dictionary (and thus InnoDB will emit an error), so we prohibit this right away even if foreign_key_checks are off. This also includes a rare case when another field replaces field being dropped since it is easy to break referential integrity in this case. */ *bad_column_name= column->str; return FK_COLUMN_DROPPED; } } return FK_COLUMN_NO_CHANGE; } /** Check if ALTER TABLE we are about to execute using COPY algorithm is not supported as it might break referential integrity. @note If foreign_key_checks is disabled (=0), we allow to break referential integrity. But we still disallow some operations like dropping or renaming columns in foreign key since they are likely to break consistency of InnoDB data-dictionary and thus will end-up in error anyway. @param[in] thd Thread context. @param[in] table Table to be altered. @param[in] alter_info Lists of fields, keys to be changed, added or dropped. @param[out] alter_ctx ALTER TABLE runtime context. Alter_table_ctx::fk_error_if_delete flag is set if deletion during alter can break foreign key integrity. @retval false Success. @retval true Error, ALTER - tries to do change which is not compatible with foreign key definitions on the table. */ static bool fk_prepare_copy_alter_table(THD *thd, TABLE *table, Alter_info *alter_info, Alter_table_ctx *alter_ctx) { List fk_parent_key_list; List fk_child_key_list; FOREIGN_KEY_INFO *f_key; DBUG_ENTER("fk_prepare_copy_alter_table"); table->file->get_parent_foreign_key_list(thd, &fk_parent_key_list); /* OOM when building list. */ if (unlikely(thd->is_error())) DBUG_RETURN(true); /* Remove from the list all foreign keys in which table participates as parent which are to be dropped by this ALTER TABLE. This is possible when a foreign key has the same table as child and parent. */ List_iterator fk_parent_key_it(fk_parent_key_list); while ((f_key= fk_parent_key_it++)) { Alter_drop *drop; List_iterator_fast drop_it(alter_info->drop_list); while ((drop= drop_it++)) { /* InnoDB treats foreign key names in case-insensitive fashion. So we do it here too. For database and table name type of comparison used depends on lower-case-table-names setting. For l_c_t_n = 0 we use case-sensitive comparison, for l_c_t_n > 0 modes case-insensitive comparison is used. */ if ((drop->type == Alter_drop::FOREIGN_KEY) && (my_strcasecmp(system_charset_info, f_key->foreign_id->str, drop->name) == 0) && (lex_string_cmp(table_alias_charset, f_key->foreign_db, &table->s->db) == 0) && (lex_string_cmp(table_alias_charset, f_key->foreign_table, &table->s->table_name) == 0)) fk_parent_key_it.remove(); } } /* If there are FKs in which this table is parent which were not dropped we need to prevent ALTER deleting rows from the table, as it might break referential integrity. OTOH it is OK to do so if foreign_key_checks are disabled. */ if (!fk_parent_key_list.is_empty() && !(thd->variables.option_bits & OPTION_NO_FOREIGN_KEY_CHECKS)) alter_ctx->set_fk_error_if_delete_row(fk_parent_key_list.head()); fk_parent_key_it.rewind(); while ((f_key= fk_parent_key_it++)) { enum fk_column_change_type changes; const char *bad_column_name; changes= fk_check_column_changes(thd, alter_info, f_key->referenced_fields, &bad_column_name); switch(changes) { case FK_COLUMN_NO_CHANGE: /* No significant changes. We can proceed with ALTER! */ break; case FK_COLUMN_DATA_CHANGE: { char buff[NAME_LEN*2+2]; strxnmov(buff, sizeof(buff)-1, f_key->foreign_db->str, ".", f_key->foreign_table->str, NullS); my_error(ER_FK_COLUMN_CANNOT_CHANGE_CHILD, MYF(0), bad_column_name, f_key->foreign_id->str, buff); DBUG_RETURN(true); } case FK_COLUMN_RENAMED: my_error(ER_ALTER_OPERATION_NOT_SUPPORTED_REASON, MYF(0), "ALGORITHM=COPY", ER_THD(thd, ER_ALTER_OPERATION_NOT_SUPPORTED_REASON_FK_RENAME), "ALGORITHM=INPLACE"); DBUG_RETURN(true); case FK_COLUMN_DROPPED: { StringBuffer buff(system_charset_info); LEX_CSTRING *db= f_key->foreign_db, *tbl= f_key->foreign_table; append_identifier(thd, &buff, db); buff.append('.'); append_identifier(thd, &buff, tbl); my_error(ER_FK_COLUMN_CANNOT_DROP_CHILD, MYF(0), bad_column_name, f_key->foreign_id->str, buff.c_ptr()); DBUG_RETURN(true); } default: DBUG_ASSERT(0); } } table->file->get_foreign_key_list(thd, &fk_child_key_list); /* OOM when building list. */ if (unlikely(thd->is_error())) DBUG_RETURN(true); /* Remove from the list all foreign keys which are to be dropped by this ALTER TABLE. */ List_iterator fk_key_it(fk_child_key_list); while ((f_key= fk_key_it++)) { Alter_drop *drop; List_iterator_fast drop_it(alter_info->drop_list); while ((drop= drop_it++)) { /* Names of foreign keys in InnoDB are case-insensitive. */ if ((drop->type == Alter_drop::FOREIGN_KEY) && (my_strcasecmp(system_charset_info, f_key->foreign_id->str, drop->name) == 0)) fk_key_it.remove(); } } fk_key_it.rewind(); while ((f_key= fk_key_it++)) { enum fk_column_change_type changes; const char *bad_column_name; changes= fk_check_column_changes(thd, alter_info, f_key->foreign_fields, &bad_column_name); switch(changes) { case FK_COLUMN_NO_CHANGE: /* No significant changes. We can proceed with ALTER! */ break; case FK_COLUMN_DATA_CHANGE: my_error(ER_FK_COLUMN_CANNOT_CHANGE, MYF(0), bad_column_name, f_key->foreign_id->str); DBUG_RETURN(true); case FK_COLUMN_RENAMED: my_error(ER_ALTER_OPERATION_NOT_SUPPORTED_REASON, MYF(0), "ALGORITHM=COPY", ER_THD(thd, ER_ALTER_OPERATION_NOT_SUPPORTED_REASON_FK_RENAME), "ALGORITHM=INPLACE"); DBUG_RETURN(true); case FK_COLUMN_DROPPED: my_error(ER_FK_COLUMN_CANNOT_DROP, MYF(0), bad_column_name, f_key->foreign_id->str); DBUG_RETURN(true); default: DBUG_ASSERT(0); } } /* Normally, an attempt to modify an FK parent table will cause FK children to be prelocked, so the table-being-altered cannot be modified by a cascade FK action, because ALTER holds a lock and prelocking will wait. But if a new FK is being added by this very ALTER, then the target table is not locked yet (it's a temporary table). So, we have to lock FK parents explicitly. */ if (alter_info->flags & ALTER_ADD_FOREIGN_KEY) { List_iterator fk_list_it(alter_info->key_list); while (Key *key= fk_list_it++) { if (key->type != Key::FOREIGN_KEY) continue; Foreign_key *fk= static_cast(key); char dbuf[NAME_LEN]; char tbuf[NAME_LEN]; const char *ref_db= (fk->ref_db.str ? fk->ref_db.str : alter_ctx->new_db.str); const char *ref_table= fk->ref_table.str; MDL_request mdl_request; if (lower_case_table_names) { strmake_buf(dbuf, ref_db); my_casedn_str(system_charset_info, dbuf); strmake_buf(tbuf, ref_table); my_casedn_str(system_charset_info, tbuf); ref_db= dbuf; ref_table= tbuf; } MDL_REQUEST_INIT(&mdl_request, MDL_key::TABLE, ref_db, ref_table, MDL_SHARED_NO_WRITE, MDL_TRANSACTION); if (thd->mdl_context.acquire_lock(&mdl_request, thd->variables.lock_wait_timeout)) DBUG_RETURN(true); } } DBUG_RETURN(false); } /** Rename temporary table and/or turn indexes on/off without touching .FRM. Its a variant of simple_rename_or_index_change() to be used exclusively for temporary tables. @param thd Thread handler @param table_list TABLE_LIST for the table to change @param keys_onoff ENABLE or DISABLE KEYS? @param alter_ctx ALTER TABLE runtime context. @return Operation status @retval false Success @retval true Failure */ static bool simple_tmp_rename_or_index_change(THD *thd, TABLE_LIST *table_list, Alter_info::enum_enable_or_disable keys_onoff, Alter_table_ctx *alter_ctx) { DBUG_ENTER("simple_tmp_rename_or_index_change"); TABLE *table= table_list->table; bool error= false; DBUG_ASSERT(table->s->tmp_table); if (keys_onoff != Alter_info::LEAVE_AS_IS) { THD_STAGE_INFO(thd, stage_manage_keys); error= alter_table_manage_keys(table, table->file->indexes_are_disabled(), keys_onoff); } if (likely(!error) && alter_ctx->is_table_renamed()) { THD_STAGE_INFO(thd, stage_rename); /* If THD::rename_temporary_table() fails, there is no need to rename it back to the original name (unlike the case for non-temporary tables), as it was an allocation error and the table was not renamed. */ error= thd->rename_temporary_table(table, &alter_ctx->new_db, &alter_ctx->new_alias); } if (likely(!error)) { /* We do not replicate alter table statement on temporary tables under ROW-based replication. */ if (!thd->is_current_stmt_binlog_format_row()) { error= write_bin_log(thd, true, thd->query(), thd->query_length()) != 0; } if (likely(!error)) my_ok(thd); } DBUG_RETURN(error); } /** Rename table and/or turn indexes on/off without touching .FRM @param thd Thread handler @param table_list TABLE_LIST for the table to change @param keys_onoff ENABLE or DISABLE KEYS? @param alter_ctx ALTER TABLE runtime context. @return Operation status @retval false Success @retval true Failure @notes Normally with ALTER TABLE we roll forward as soon as data is copied or new table is committed. For an ALTER TABLE that only does a RENAME, we will roll back unless the RENAME fully completes. If we crash while using enable/disable keys, this may have completed and will not be rolled back. */ static bool simple_rename_or_index_change(THD *thd, TABLE_LIST *table_list, Alter_info::enum_enable_or_disable keys_onoff, TRIGGER_RENAME_PARAM *trigger_param, Alter_table_ctx *alter_ctx) { TABLE *table= table_list->table; MDL_ticket *mdl_ticket= table->mdl_ticket; DDL_LOG_STATE ddl_log_state; LEX_CSTRING storage_engine; LEX_CUSTRING table_version; uchar table_version_buff[MY_UUID_SIZE]; char storage_engine_buff[NAME_LEN]; int error= 0; bool partitioned; enum ha_extra_function extra_func= thd->locked_tables_mode ? HA_EXTRA_NOT_USED : HA_EXTRA_FORCE_REOPEN; DBUG_ENTER("simple_rename_or_index_change"); bzero(&ddl_log_state, sizeof(ddl_log_state)); table_version.str= table_version_buff; storage_engine.str= storage_engine_buff; if ((table_version.length= table->s->tabledef_version.length)) memcpy((char*) table_version.str, table->s->tabledef_version.str, table_version.length); partitioned= table->file->partition_engine(); storage_engine.length= (strmake((char*) storage_engine.str, table->file->real_table_type(), sizeof(storage_engine_buff)-1) - storage_engine.str); if (keys_onoff != Alter_info::LEAVE_AS_IS) { if (wait_while_table_is_used(thd, table, extra_func)) DBUG_RETURN(true); // It's now safe to take the table level lock. if (lock_tables(thd, table_list, alter_ctx->tables_opened, 0)) DBUG_RETURN(true); THD_STAGE_INFO(thd, stage_manage_keys); error= alter_table_manage_keys(table, table->file->indexes_are_disabled(), keys_onoff); if (table->s->tmp_table == NO_TMP_TABLE) { backup_log_info ddl_log; bzero(&ddl_log, sizeof(ddl_log)); ddl_log.query= { C_STRING_WITH_LEN("CHANGE_INDEX") }; ddl_log.org_storage_engine_name= storage_engine; ddl_log.org_partitioned= partitioned; ddl_log.org_database= table_list->table->s->db; ddl_log.org_table= table_list->table->s->table_name; ddl_log.org_table_id= table_version; backup_log_ddl(&ddl_log); } } if (likely(!error) && alter_ctx->is_table_renamed()) { THD_STAGE_INFO(thd, stage_rename); handlerton *old_db_type= table->s->db_type(); /* Then do a 'simple' rename of the table. First we need to close all instances of 'source' table. Note that if wait_while_table_is_used() returns error here (i.e. if this thread was killed) then it must be that previous step of simple rename did nothing and therefore we can safely return without additional clean-up. */ if (wait_while_table_is_used(thd, table, extra_func)) DBUG_RETURN(true); close_all_tables_for_name(thd, table->s, HA_EXTRA_PREPARE_FOR_RENAME, NULL); (void) ddl_log_rename_table(&ddl_log_state, old_db_type, &alter_ctx->db, &alter_ctx->table_name, &alter_ctx->new_db, &alter_ctx->new_alias); if (mysql_rename_table(old_db_type, &alter_ctx->db, &alter_ctx->table_name, &alter_ctx->new_db, &alter_ctx->new_alias, &table_version, 0)) error= -1; if (!error) ddl_log_update_phase(&ddl_log_state, DDL_RENAME_PHASE_TRIGGER); debug_crash_here("ddl_log_alter_before_rename_triggers"); if (!error && Table_triggers_list::change_table_name(thd, trigger_param, &alter_ctx->db, &alter_ctx->alias, &alter_ctx->table_name, &alter_ctx->new_db, &alter_ctx->new_alias)) { (void) mysql_rename_table(old_db_type, &alter_ctx->new_db, &alter_ctx->new_alias, &alter_ctx->db, &alter_ctx->table_name, &table_version, NO_FK_CHECKS); ddl_log_disable_entry(&ddl_log_state); error= -1; } /* Update stat tables last. This is to be able to handle rename of a stat table. */ if (error == 0) (void) rename_table_in_stat_tables(thd, &alter_ctx->db, &alter_ctx->table_name, &alter_ctx->new_db, &alter_ctx->new_alias); debug_crash_here("ddl_log_alter_after_rename_triggers"); } if (likely(!error)) { thd->binlog_xid= thd->query_id; ddl_log_update_xid(&ddl_log_state, thd->binlog_xid); error= write_bin_log(thd, TRUE, thd->query(), thd->query_length()); thd->binlog_xid= 0; if (likely(!error)) my_ok(thd); } ddl_log_complete(&ddl_log_state); table_list->table= NULL; // For query cache query_cache_invalidate3(thd, table_list, 0); if ((thd->locked_tables_mode == LTM_LOCK_TABLES || thd->locked_tables_mode == LTM_PRELOCKED_UNDER_LOCK_TABLES)) { /* Under LOCK TABLES we should adjust meta-data locks before finishing statement. Otherwise we can rely on them being released along with the implicit commit. */ if (alter_ctx->is_table_renamed()) thd->mdl_context.release_all_locks_for_name(mdl_ticket); else mdl_ticket->downgrade_lock(MDL_SHARED_NO_READ_WRITE); } DBUG_RETURN(error != 0); } static void cleanup_table_after_inplace_alter_keep_files(TABLE *table) { TABLE_SHARE *share= table->s; closefrm(table); free_table_share(share); } static void cleanup_table_after_inplace_alter(TABLE *table) { table->file->ha_create_partitioning_metadata(table->s->normalized_path.str, 0, CHF_DELETE_FLAG); deletefrm(table->s->normalized_path.str); cleanup_table_after_inplace_alter_keep_files(table); } static int create_table_for_inplace_alter(THD *thd, const Alter_table_ctx &alter_ctx, LEX_CUSTRING *frm, TABLE_SHARE *share, TABLE *table) { init_tmp_table_share(thd, share, alter_ctx.new_db.str, 0, alter_ctx.new_name.str, alter_ctx.get_tmp_path()); if (share->init_from_binary_frm_image(thd, true, frm->str, frm->length) || open_table_from_share(thd, share, &alter_ctx.new_name, 0, EXTRA_RECORD, thd->open_options, table, false)) { free_table_share(share); deletefrm(alter_ctx.get_tmp_path()); return 1; } if (table->internal_tables && open_and_lock_internal_tables(table, false)) { cleanup_table_after_inplace_alter(table); return 1; } return 0; } /* log query if slave thread and send my_ok() Help function for mysql_alter_table() */ static bool log_and_ok(THD *thd) { if (thd->slave_thread && write_bin_log(thd, true, thd->query(), thd->query_length())) return(true); my_ok(thd); return(0); } /* Wait for master to send result of Alter table. Returns true when Rollback is decided false otherwise */ static bool wait_for_master(THD *thd) { #ifdef HAVE_REPLICATION start_alter_info* info= thd->rgi_slave->sa_info; Master_info *mi= thd->rgi_slave->rli->mi; DBUG_ASSERT(info); DBUG_ASSERT(info->state != start_alter_state::INVALID); DBUG_ASSERT(mi); mysql_mutex_lock(&mi->start_alter_lock); DBUG_ASSERT(!info->direct_commit_alter || info->state == start_alter_state::ROLLBACK_ALTER); while (info->state == start_alter_state::REGISTERED) { mysql_cond_wait(&info->start_alter_cond, &mi->start_alter_lock); } if (info->state == start_alter_state::ROLLBACK_ALTER) { /* SA thread will not give error , We will set the error in info->error and then RA worker will output the error We can modify the info->error without taking mutex, because CA worker will be waiting on ::COMPLETED wait condition */ if(thd->is_error()) { info->error= thd->get_stmt_da()->sql_errno(); thd->clear_error(); thd->reset_killed(); } } mysql_mutex_unlock(&mi->start_alter_lock); return info->state == start_alter_state::ROLLBACK_ALTER; #else return 0; #endif } #ifdef HAVE_REPLICATION /** In this function, we are going to change info->state to ::COMPLETED. This means we are messaging CA/RA worker that we have binlogged, so our here is finished. @param thd Thread handle @param start_alter_state ALTER replicaton execution context @param mi Master_info of the replication source */ static void alter_committed(THD *thd, start_alter_info* info, Master_info *mi) { start_alter_state tmp= info->state; mysql_mutex_lock(&mi->start_alter_lock); info->state= start_alter_state::COMPLETED; mysql_cond_broadcast(&info->start_alter_cond); mysql_mutex_unlock(&mi->start_alter_lock); if (tmp == start_alter_state::ROLLBACK_ALTER) { thd->clear_error(); thd->reset_killed(); } } #endif /** process_master_state:- process the info->state recieved from master We will comapre master state with alter_result In the case of ROLLBACK_ALTER alter_result > 0 In the case of COMMIT_ALTER alter_result == 0 if the condition is not satisfied we will report error and Return 1. Make sure wait_for_master is called before calling this function This function should be called only at the write binlog time of commit/ rollback alter. We will alter_committed if everything is fine. @param thd Thread handle. @param alter_result Result of execution. @param[in/out] start_alter_id Start Alter identifier or zero, it is reset to zero. @param if_exists True indicates the binary logging of the query should be done with "if exists" option. @retval 1 error @retval 0 Ok */ static int process_master_state(THD *thd, int alter_result, uint64 &start_alter_id, bool if_exists) { #ifdef HAVE_REPLICATION start_alter_info *info= thd->rgi_slave->sa_info; bool partial_alter= false; if (info->state == start_alter_state::INVALID) { /* the caller has not yet called SA logging nor wait for master decision */ if (!write_bin_log_start_alter(thd, partial_alter, start_alter_id, if_exists)) wait_for_master(thd); DBUG_ASSERT(!partial_alter); } /* this function shouldn't be called twice */ DBUG_ASSERT(start_alter_id); start_alter_id= 0; if ((info->state == start_alter_state::ROLLBACK_ALTER && alter_result >= 0) || (info->state == start_alter_state::COMMIT_ALTER && !alter_result)) { alter_committed(thd, info, thd->rgi_slave->rli->mi); return 0; } else { thd->is_slave_error= 1; return 1; } #else return 0; #endif } /* Returns a (global unique) identifier of START Alter when slave applier executes mysql_alter_table(). In non-slave context it is zero. */ static uint64 get_start_alter_id(THD *thd) { DBUG_ASSERT(!(thd->rgi_slave && (thd->rgi_slave->gtid_ev_flags_extra & Gtid_log_event::FL_START_ALTER_E1)) || !thd->rgi_slave->direct_commit_alter); return thd->rgi_slave && (thd->rgi_slave->gtid_ev_flags_extra & Gtid_log_event::FL_START_ALTER_E1) ? thd->variables.gtid_seq_no : 0; } /** Alter table @param thd Thread handle @param new_db If there is a RENAME clause @param new_name If there is a RENAME clause @param create_info Information from the parsing phase about new table properties. @param table_list The table to change. @param alter_info Lists of fields, keys to be changed, added or dropped. @param order_num How many ORDER BY fields has been specified. @param order List of fields to ORDER BY. @param ignore Whether we have ALTER IGNORE TABLE @retval true Error @retval false Success This is a veery long function and is everything but the kitchen sink :) It is used to alter a table and not only by ALTER TABLE but also CREATE|DROP INDEX are mapped on this function. When the ALTER TABLE statement just does a RENAME or ENABLE|DISABLE KEYS, or both, then this function short cuts its operation by renaming the table and/or enabling/disabling the keys. In this case, the FRM is not changed, directly by mysql_alter_table. However, if there is a RENAME + change of a field, or an index, the short cut is not used. See how `create_list` is used to generate the new FRM regarding the structure of the fields. The same is done for the indices of the table. Altering a table can be done in two ways. The table can be modified directly using an in-place algorithm, or the changes can be done using an intermediate temporary table (copy). In-place is the preferred algorithm as it avoids copying table data. The storage engine selects which algorithm to use in check_if_supported_inplace_alter() based on information about the table changes from fill_alter_inplace_info(). */ bool mysql_alter_table(THD *thd, const LEX_CSTRING *new_db, const LEX_CSTRING *new_name, Table_specification_st *create_info, TABLE_LIST *table_list, Recreate_info *recreate_info, Alter_info *alter_info, uint order_num, ORDER *order, bool ignore, bool if_exists) { bool engine_changed, error, frm_is_created= false, error_handler_pushed= false; bool no_ha_table= true; /* We have not created table in storage engine yet */ TABLE *table, *new_table= nullptr; DDL_LOG_STATE ddl_log_state; Turn_errors_to_warnings_handler errors_to_warnings; #ifdef WITH_PARTITION_STORAGE_ENGINE bool partition_changed= false; bool fast_alter_partition= false; #endif bool partial_alter= false; /* start_alter_id is the gtid seq no of the START Alter - the 1st part of two-phase loggable ALTER. The variable is meaningful only on slave execution. */ uint64 start_alter_id= get_start_alter_id(thd); /* Create .FRM for new version of table with a temporary name. We don't log the statement, it will be logged later. Keep information about keys in newly created table as it will be used later to construct Alter_inplace_info object and by fill_alter_inplace_info() call. */ KEY *key_info; uint key_count; /* Remember if the new definition has new VARCHAR column; create_info->varchar will be reset in create_table_impl()/ mysql_prepare_create_table(). */ bool varchar= create_info->varchar, table_creation_was_logged= 0; bool binlog_as_create_select= 0, log_if_exists= 0; uint tables_opened; handlerton *new_db_type= create_info->db_type, *old_db_type; ha_rows copied=0, deleted=0; LEX_CUSTRING frm= {0,0}; LEX_CSTRING backup_name; char index_file[FN_REFLEN], data_file[FN_REFLEN], backup_name_buff[60]; uchar uuid_buffer[MY_UUID_SIZE]; MDL_request target_mdl_request; MDL_ticket *mdl_ticket= 0; Alter_table_prelocking_strategy alter_prelocking_strategy; TRIGGER_RENAME_PARAM trigger_param; /* Callback function that an engine can request to be called after executing inplace alter table. */ Alter_inplace_info::inplace_alter_table_commit_callback *inplace_alter_table_committed= 0; void *inplace_alter_table_committed_argument= 0; DBUG_ENTER("mysql_alter_table"); /* Check if we attempt to alter mysql.slow_log or mysql.general_log table and return an error if it is the case. TODO: this design is obsolete and will be removed. */ int table_kind= check_if_log_table(table_list, FALSE, NullS); if (table_kind) { /* Disable alter of enabled log tables */ if (logger.is_log_table_enabled(table_kind)) { my_error(ER_BAD_LOG_STATEMENT, MYF(0), "ALTER"); DBUG_RETURN(true); } /* Disable alter of log tables to unsupported engine */ if ((create_info->used_fields & HA_CREATE_USED_ENGINE) && (!create_info->db_type || /* unknown engine */ !(create_info->db_type->flags & HTON_SUPPORT_LOG_TABLES))) { unsupported: my_error(ER_UNSUPORTED_LOG_ENGINE, MYF(0), hton_name(create_info->db_type)->str); DBUG_RETURN(true); } if (create_info->db_type == maria_hton && create_info->transactional != HA_CHOICE_NO) goto unsupported; #ifdef WITH_PARTITION_STORAGE_ENGINE if (alter_info->partition_flags & ALTER_PARTITION_INFO) { my_error(ER_WRONG_USAGE, MYF(0), "PARTITION", "log table"); DBUG_RETURN(true); } #endif } THD_STAGE_INFO(thd, stage_init_update); bzero(&ddl_log_state, sizeof(ddl_log_state)); /* Temporary name for backup of original table */ backup_name.str= backup_name_buff; backup_name.length= my_snprintf(backup_name_buff, sizeof(backup_name_buff)-1, "%s-backup-%lx-%llx", tmp_file_prefix, current_pid, thd->thread_id); /* Check if the new table type is a shared table */ if (ha_check_if_updates_are_ignored(thd, create_info->db_type, "ALTER")) { /* Remove old local .frm file if it exists. We should use the new shared one in the future. The drop is not logged, the ALTER table is logged. */ table_list->mdl_request.type= MDL_EXCLUSIVE; /* This will only drop the .frm file and local tables, not shared ones */ error= mysql_rm_table(thd, table_list, 1, 0, 0, 1); DBUG_RETURN(log_and_ok(thd)); } /* Code below can handle only base tables so ensure that we won't open a view. Note that RENAME TABLE the only ALTER clause which is supported for views has been already processed. */ table_list->required_type= TABLE_TYPE_NORMAL; DEBUG_SYNC(thd, "alter_table_before_open_tables"); thd->open_options|= HA_OPEN_FOR_ALTER; thd->mdl_backup_ticket= 0; error= open_tables(thd, &table_list, &tables_opened, 0, &alter_prelocking_strategy); thd->open_options&= ~HA_OPEN_FOR_ALTER; if (unlikely(error)) { if (if_exists) { int tmp_errno= thd->get_stmt_da()->sql_errno(); if (tmp_errno == ER_NO_SUCH_TABLE) { /* ALTER TABLE IF EXISTS was used on not existing table We have to log the query on a slave as the table may be a shared one from the master and we need to ensure that the next slave can see the statement as this slave may not have the table shared */ thd->clear_error(); DBUG_RETURN(log_and_ok(thd)); } } DBUG_RETURN(true); } table= table_list->table; bool is_reg_table= table->s->tmp_table == NO_TMP_TABLE; #ifdef WITH_WSREP if (WSREP(thd) && (thd->lex->sql_command == SQLCOM_ALTER_TABLE || thd->lex->sql_command == SQLCOM_CREATE_INDEX || thd->lex->sql_command == SQLCOM_DROP_INDEX) && !wsrep_should_replicate_ddl(thd, table_list->table->s->db_type())) DBUG_RETURN(true); #endif DEBUG_SYNC(thd, "alter_table_after_open_tables"); if (table->versioned()) { if (handlerton *hton1= create_info->db_type) { handlerton *hton2= table->file->partition_ht(); if (hton1 != hton2 && (ha_check_storage_engine_flag(hton1, HTON_NATIVE_SYS_VERSIONING) || ha_check_storage_engine_flag(hton2, HTON_NATIVE_SYS_VERSIONING))) { my_error(ER_VERS_ALTER_ENGINE_PROHIBITED, MYF(0), table_list->db.str, table_list->table_name.str); DBUG_RETURN(true); } } if (alter_info->vers_prohibited(thd)) { my_error(ER_VERS_ALTER_NOT_ALLOWED, MYF(0), table_list->db.str, table_list->table_name.str); DBUG_RETURN(true); } } DEBUG_SYNC(thd, "alter_opened_table"); #if defined WITH_WSREP && defined ENABLED_DEBUG_SYNC DBUG_EXECUTE_IF("sync.alter_opened_table", { const char act[]= "now " "wait_for signal.alter_opened_table"; DBUG_ASSERT(!debug_sync_set_action(thd, STRING_WITH_LEN(act))); };); #endif // WITH_WSREP Alter_table_ctx alter_ctx(thd, table_list, tables_opened, new_db, new_name); mdl_ticket= table->mdl_ticket; /* We have to do a check also after table is opened as there could be no ENGINE= on the command line or the table could a partitioned S3 table. */ if (table->file->check_if_updates_are_ignored("ALTER")) { /* Table is a shared table. Remove the .frm file. Discovery will create a new one if needed. */ table->s->tdc->flushed= 1; // Force close of all instances if (thd->mdl_context.upgrade_shared_lock(mdl_ticket, MDL_EXCLUSIVE, thd->variables.lock_wait_timeout)) DBUG_RETURN(1); quick_rm_table(thd, table->file->ht, &table_list->db, &table_list->table_name, NO_HA_TABLE, 0); goto end_inplace; } if (!if_exists && (table->file->partition_ht()->flags & HTON_TABLE_MAY_NOT_EXIST_ON_SLAVE)) { /* Table is a shared table that may not exist on the slave. We add 'if_exists' to the query if it was not used */ log_if_exists= 1; } table_creation_was_logged= table->s->table_creation_was_logged; table->use_all_columns(); /* Prohibit changing of the UNION list of a non-temporary MERGE table under LOCK tables. It would be quite difficult to reuse a shrinked set of tables from the old table or to open a new TABLE object for an extended list and verify that they belong to locked tables. */ if ((thd->locked_tables_mode == LTM_LOCK_TABLES || thd->locked_tables_mode == LTM_PRELOCKED_UNDER_LOCK_TABLES) && (create_info->used_fields & HA_CREATE_USED_UNION) && (table->s->tmp_table == NO_TMP_TABLE)) { my_error(ER_LOCK_OR_ACTIVE_TRANSACTION, MYF(0)); DBUG_RETURN(true); } /* Check that we are not trying to rename to an existing table */ if (alter_ctx.is_table_renamed()) { if (table->s->tmp_table != NO_TMP_TABLE) { /* Check whether a temporary table exists with same requested new name. If such table exists, there must be a corresponding TABLE_SHARE in THD::all_temp_tables list. */ if (thd->find_tmp_table_share(alter_ctx.new_db.str, alter_ctx.new_name.str)) { my_error(ER_TABLE_EXISTS_ERROR, MYF(0), alter_ctx.new_alias.str); DBUG_RETURN(true); } } else { MDL_request_list mdl_requests; MDL_request target_db_mdl_request; MDL_REQUEST_INIT(&target_mdl_request, MDL_key::TABLE, alter_ctx.new_db.str, alter_ctx.new_name.str, MDL_EXCLUSIVE, MDL_TRANSACTION); mdl_requests.push_front(&target_mdl_request); /* If we are moving the table to a different database, we also need IX lock on the database name so that the target database is protected by MDL while the table is moved. */ if (alter_ctx.is_database_changed()) { MDL_REQUEST_INIT(&target_db_mdl_request, MDL_key::SCHEMA, alter_ctx.new_db.str, "", MDL_INTENTION_EXCLUSIVE, MDL_TRANSACTION); mdl_requests.push_front(&target_db_mdl_request); } /* Protection against global read lock must have been acquired when table to be altered was being opened. */ DBUG_ASSERT(thd->mdl_context.is_lock_owner(MDL_key::BACKUP, "", "", MDL_BACKUP_DDL)); if (thd->mdl_context.acquire_locks(&mdl_requests, thd->variables.lock_wait_timeout)) DBUG_RETURN(true); DEBUG_SYNC(thd, "locked_table_name"); /* Table maybe does not exist, but we got an exclusive lock on the name, now we can safely try to find out for sure. */ if (!(alter_info->partition_flags & ALTER_PARTITION_CONVERT_IN) && ha_table_exists(thd, &alter_ctx.new_db, &alter_ctx.new_name)) { /* Table will be closed in do_command() */ my_error(ER_TABLE_EXISTS_ERROR, MYF(0), alter_ctx.new_alias.str); DBUG_RETURN(true); } } } if (!create_info->db_type) { #ifdef WITH_PARTITION_STORAGE_ENGINE if (table->part_info && create_info->used_fields & HA_CREATE_USED_ENGINE) { /* This case happens when the user specified ENGINE = x where x is a non-existing storage engine We set create_info->db_type to default_engine_type to ensure we don't change underlying engine type due to a erroneously given engine name. */ create_info->db_type= table->part_info->default_engine_type; } else #endif create_info->db_type= table->s->db_type(); } if (check_engine(thd, alter_ctx.new_db.str, alter_ctx.new_name.str, create_info)) DBUG_RETURN(true); create_info->vers_check_native(); if (create_info->vers_info.fix_alter_info(thd, alter_info, create_info, table)) { DBUG_RETURN(true); } if ((create_info->db_type != table->s->db_type() || (alter_info->partition_flags & ALTER_PARTITION_INFO)) && !table->file->can_switch_engines()) { my_error(ER_ROW_IS_REFERENCED, MYF(0)); DBUG_RETURN(true); } /* If foreign key is added then check permission to access parent table. In function "check_fk_parent_table_access", create_info->db_type is used to identify whether engine supports FK constraint or not. Since create_info->db_type is set here, check to parent table access is delayed till this point for the alter operation. */ if ((alter_info->flags & ALTER_ADD_FOREIGN_KEY) && check_fk_parent_table_access(thd, create_info, alter_info, new_db->str)) DBUG_RETURN(true); /* If this is an ALTER TABLE and no explicit row type specified reuse the table's row type. Note: this is the same as if the row type was specified explicitly. */ if (create_info->row_type == ROW_TYPE_NOT_USED) { /* ALTER TABLE without explicit row type */ create_info->row_type= table->s->row_type; } else { /* ALTER TABLE with specific row type */ create_info->used_fields |= HA_CREATE_USED_ROW_FORMAT; } old_db_type= table->s->db_type(); new_db_type= create_info->db_type; DBUG_PRINT("info", ("old type: %s new type: %s", ha_resolve_storage_engine_name(old_db_type), ha_resolve_storage_engine_name(new_db_type))); if (ha_check_storage_engine_flag(old_db_type, HTON_ALTER_NOT_SUPPORTED)) { DBUG_PRINT("info", ("doesn't support alter")); my_error(ER_ILLEGAL_HA, MYF(0), hton_name(old_db_type)->str, alter_ctx.db.str, alter_ctx.table_name.str); DBUG_RETURN(true); } if (ha_check_storage_engine_flag(new_db_type, HTON_ALTER_NOT_SUPPORTED)) { DBUG_PRINT("info", ("doesn't support alter")); my_error(ER_ILLEGAL_HA, MYF(0), hton_name(new_db_type)->str, alter_ctx.new_db.str, alter_ctx.new_name.str); DBUG_RETURN(true); } if (table->s->tmp_table == NO_TMP_TABLE) mysql_audit_alter_table(thd, table_list); else if (table_creation_was_logged && mysql_bin_log.is_open()) { /* Protect against MDL error in binary logging */ MDL_request mdl_request; DBUG_ASSERT(!mdl_ticket); MDL_REQUEST_INIT(&mdl_request, MDL_key::BACKUP, "", "", MDL_BACKUP_COMMIT, MDL_TRANSACTION); if (thd->mdl_context.acquire_lock(&mdl_request, thd->variables.lock_wait_timeout)) DBUG_RETURN(true); } THD_STAGE_INFO(thd, stage_setup); if (alter_info->flags & ALTER_DROP_CHECK_CONSTRAINT) { /* ALTER TABLE DROP CONSTRAINT should be replaced with ... DROP [FOREIGN] KEY if the constraint is the FOREIGN KEY or UNIQUE one. */ List_iterator drop_it(alter_info->drop_list); Alter_drop *drop; List fk_child_key_list; table->file->get_foreign_key_list(thd, &fk_child_key_list); alter_info->flags&= ~ALTER_DROP_CHECK_CONSTRAINT; while ((drop= drop_it++)) { if (drop->type == Alter_drop::CHECK_CONSTRAINT) { { /* Test if there is a FOREIGN KEY with this name. */ FOREIGN_KEY_INFO *f_key; List_iterator fk_key_it(fk_child_key_list); while ((f_key= fk_key_it++)) { if (my_strcasecmp(system_charset_info, f_key->foreign_id->str, drop->name) == 0) { drop->type= Alter_drop::FOREIGN_KEY; alter_info->flags|= ALTER_DROP_FOREIGN_KEY; goto do_continue; } } } { /* Test if there is an UNIQUE with this name. */ uint n_key; for (n_key=0; n_key < table->s->keys; n_key++) { if ((table->key_info[n_key].flags & HA_NOSAME) && my_strcasecmp(system_charset_info, drop->name, table->key_info[n_key].name.str) == 0) { drop->type= Alter_drop::KEY; alter_info->flags|= ALTER_DROP_INDEX; goto do_continue; } } } } alter_info->flags|= ALTER_DROP_CHECK_CONSTRAINT; do_continue:; } } if (handle_if_exists_options(thd, table, alter_info, &create_info->period_info) || fix_constraints_names(thd, &alter_info->check_constraint_list, create_info)) DBUG_RETURN(true); /* Check if rename of triggers are supported */ if (alter_ctx.is_table_renamed() && Table_triggers_list::prepare_for_rename(thd, &trigger_param, &alter_ctx.db, &alter_ctx.alias, &alter_ctx.table_name, &alter_ctx.new_db, &alter_ctx.new_alias)) DBUG_RETURN(true); /* Look if we have to do anything at all. ALTER can become NOOP after handling the IF (NOT) EXISTS options. */ if (alter_info->flags == 0 && alter_info->partition_flags == 0) { my_snprintf(alter_ctx.tmp_buff, sizeof(alter_ctx.tmp_buff), ER_THD(thd, ER_INSERT_INFO), 0L, 0L, thd->get_stmt_da()->current_statement_warn_count()); my_ok(thd, 0L, 0L, alter_ctx.tmp_buff); /* We don't replicate alter table statement on temporary tables */ if (table_creation_was_logged) { if (write_bin_log_with_if_exists(thd, true, false, log_if_exists)) DBUG_RETURN(true); } DBUG_RETURN(false); } /* Test if we are only doing RENAME or KEYS ON/OFF. This works as we are testing if flags == 0 above. */ if (!(alter_info->flags & ~(ALTER_RENAME | ALTER_KEYS_ONOFF)) && alter_info->partition_flags == 0 && alter_info->algorithm(thd) != Alter_info::ALTER_TABLE_ALGORITHM_COPY) // No need to touch frm. { bool res; if (!table->s->tmp_table) { // This requires X-lock, no other lock levels supported. if (alter_info->requested_lock != Alter_info::ALTER_TABLE_LOCK_DEFAULT && alter_info->requested_lock != Alter_info::ALTER_TABLE_LOCK_EXCLUSIVE) { my_error(ER_ALTER_OPERATION_NOT_SUPPORTED, MYF(0), "LOCK=NONE/SHARED", "LOCK=EXCLUSIVE"); DBUG_RETURN(true); } res= simple_rename_or_index_change(thd, table_list, alter_info->keys_onoff, &trigger_param, &alter_ctx); } else { res= simple_tmp_rename_or_index_change(thd, table_list, alter_info->keys_onoff, &alter_ctx); } DBUG_RETURN(res); } /* We have to do full alter table. */ #ifdef WITH_PARTITION_STORAGE_ENGINE { /* Partitioning: part_info is prepared and returned via thd->work_part_info */ if (prep_alter_part_table(thd, table, alter_info, create_info, &partition_changed, &fast_alter_partition)) { DBUG_RETURN(true); } if (parse_engine_part_options(thd, table)) DBUG_RETURN(true); } /* If the old table had partitions and we are doing ALTER TABLE ... engine= , the new table must preserve the original partitioning. This means that the new engine is still the partitioning engine, not the engine specified in the parser. This is discovered in prep_alter_part_table, which in such case updates create_info->db_type. It's therefore important that the assignment below is done after prep_alter_part_table. */ new_db_type= create_info->db_type; #endif if (mysql_prepare_alter_table(thd, table, create_info, alter_info, &alter_ctx)) { DBUG_RETURN(true); } DBUG_ASSERT(create_info->default_table_charset); /* The ALTER related code cannot alter partitions and change column data types at the same time. So in case of partition change statements like: ALTER TABLE t1 DROP PARTITION p1; we skip implicit data type upgrade (such as "MariaDB 5.3 TIME" to "MySQL 5.6 TIME" or vice versa according to mysql56_temporal_format). Note, one can run a separate "ALTER TABLE t1 FORCE;" statement before or after the partition change ALTER statement to upgrade data types. */ if (IF_PARTITIONING(!fast_alter_partition, 1)) Create_field::upgrade_data_types(alter_info->create_list); if (create_info->check_fields(thd, alter_info, table_list->table_name, table_list->db) || create_info->fix_period_fields(thd, alter_info)) DBUG_RETURN(true); if (!(thd->variables.option_bits & OPTION_EXPLICIT_DEF_TIMESTAMP)) promote_first_timestamp_column(&alter_info->create_list); #ifdef WITH_PARTITION_STORAGE_ENGINE if (fast_alter_partition) { /* ALGORITHM and LOCK clauses are generally not allowed by the parser for operations related to partitioning. The exceptions are ALTER_PARTITION_INFO and ALTER_PARTITION_REMOVE. For consistency, we report ER_ALTER_OPERATION_NOT_SUPPORTED here. */ if (alter_info->requested_lock != Alter_info::ALTER_TABLE_LOCK_DEFAULT) { my_error(ER_ALTER_OPERATION_NOT_SUPPORTED_REASON, MYF(0), "LOCK=NONE/SHARED/EXCLUSIVE", ER_THD(thd, ER_ALTER_OPERATION_NOT_SUPPORTED_REASON_PARTITION), "LOCK=DEFAULT"); DBUG_RETURN(true); } else if (alter_info->algorithm(thd) != Alter_info::ALTER_TABLE_ALGORITHM_DEFAULT) { my_error(ER_ALTER_OPERATION_NOT_SUPPORTED_REASON, MYF(0), "ALGORITHM=COPY/INPLACE", ER_THD(thd, ER_ALTER_OPERATION_NOT_SUPPORTED_REASON_PARTITION), "ALGORITHM=DEFAULT"); DBUG_RETURN(true); } /* Upgrade from MDL_SHARED_UPGRADABLE to MDL_SHARED_NO_WRITE. Afterwards it's safe to take the table level lock. */ if ((thd->mdl_context.upgrade_shared_lock(mdl_ticket, MDL_SHARED_NO_WRITE, thd->variables.lock_wait_timeout)) || lock_tables(thd, table_list, alter_ctx.tables_opened, 0)) { DBUG_RETURN(true); } // In-place execution of ALTER TABLE for partitioning. DBUG_RETURN(fast_alter_partition_table(thd, table, alter_info, &alter_ctx, create_info, table_list)); } #endif /* Use copy algorithm if: - old_alter_table system variable is set without in-place requested using the ALGORITHM clause. - Or if in-place is impossible for given operation. - Changes to partitioning which were not handled by fast_alter_part_table() needs to be handled using table copying algorithm unless the engine supports auto-partitioning as such engines can do some changes using in-place API. */ if ((thd->variables.alter_algorithm == Alter_info::ALTER_TABLE_ALGORITHM_COPY && alter_info->algorithm(thd) != Alter_info::ALTER_TABLE_ALGORITHM_INPLACE) || is_inplace_alter_impossible(table, create_info, alter_info) || IF_PARTITIONING((partition_changed && !(old_db_type->partition_flags() & HA_USE_AUTO_PARTITION)), 0)) { if (alter_info->algorithm(thd) == Alter_info::ALTER_TABLE_ALGORITHM_INPLACE) { my_error(ER_ALTER_OPERATION_NOT_SUPPORTED, MYF(0), "ALGORITHM=INPLACE", "ALGORITHM=COPY"); DBUG_RETURN(true); } alter_info->set_requested_algorithm( Alter_info::ALTER_TABLE_ALGORITHM_COPY); } /* ALTER TABLE ... ENGINE to the same engine is a common way to request table rebuild. Set ALTER_RECREATE flag to force table rebuild. */ if (new_db_type == old_db_type && create_info->used_fields & HA_CREATE_USED_ENGINE) alter_info->flags|= ALTER_RECREATE; /* Handling of symlinked tables: If no rename: Create new data file and index file on the same disk as the old data and index files. Copy data. Rename new data file over old data file and new index file over old index file. Symlinks are not changed. If rename: Create new data file and index file on the same disk as the old data and index files. Create also symlinks to point at the new tables. Copy data. At end, rename intermediate tables, and symlinks to intermediate table, to final table name. Remove old table and old symlinks If rename is made to another database: Create new tables in new database. Copy data. Remove old table and symlinks. */ if (!alter_ctx.is_database_changed()) { if (create_info->index_file_name) { /* Fix index_file_name to have 'tmp_name' as basename */ strmov(index_file, alter_ctx.tmp_name.str); create_info->index_file_name=fn_same(index_file, create_info->index_file_name, 1); } if (create_info->data_file_name) { /* Fix data_file_name to have 'tmp_name' as basename */ strmov(data_file, alter_ctx.tmp_name.str); create_info->data_file_name=fn_same(data_file, create_info->data_file_name, 1); } } else { /* Ignore symlink if db is changed. */ create_info->data_file_name=create_info->index_file_name=0; } DEBUG_SYNC(thd, "alter_table_before_create_table_no_lock"); /* Create a new table version id for the new table */ my_uuid(uuid_buffer); create_info->tabledef_version.str= uuid_buffer; create_info->tabledef_version.length= MY_UUID_SIZE; if (!table->s->tmp_table) { LEX_CSTRING path_to_frm= alter_ctx.get_tmp_cstring_path(); LEX_CSTRING tmp_table= backup_name; if (alter_ctx.is_table_renamed()) tmp_table= alter_ctx.new_alias; if (ddl_log_alter_table(&ddl_log_state, old_db_type, &alter_ctx.db, &alter_ctx.table_name, new_db_type, table->file->partition_ht(), &alter_ctx.new_db, &alter_ctx.tmp_name, &path_to_frm, &tmp_table, &create_info->tabledef_version, table->file->table_version(), alter_ctx.is_table_renamed()) || ddl_log_store_query(thd, &ddl_log_state, thd->query(), thd->query_length())) { error= 1; goto err_cleanup; } } tmp_disable_binlog(thd); create_info->options|=HA_CREATE_TMP_ALTER; if (!(alter_info->flags & ALTER_ADD_INDEX) && !alter_ctx.modified_primary_key) create_info->options|= HA_SKIP_KEY_SORT; else alter_info->flags|= ALTER_INDEX_ORDER; create_info->alias= alter_ctx.table_name; /* Create the .frm file for the new table. Storage engine table will not be created at this stage. No ddl logging needed as ddl_log_alter_query will take care of failed table creations. Partitioning: part_info is passed via thd->work_part_info */ error= create_table_impl(thd, (DDL_LOG_STATE*) 0, (DDL_LOG_STATE*) 0, alter_ctx.db, alter_ctx.table_name, alter_ctx.new_db, alter_ctx.tmp_name, alter_ctx.get_tmp_cstring_path(), thd->lex->create_info, create_info, alter_info, C_ALTER_TABLE_FRM_ONLY, NULL, &key_info, &key_count, &frm); reenable_binlog(thd); debug_crash_here("ddl_log_alter_after_create_frm"); if (unlikely(error)) goto err_cleanup; /* Remember version id for temporary table */ alter_ctx.tmp_id= create_info->tabledef_version; /* Remember that we have not created table in storage engine yet. */ no_ha_table= true; if (alter_info->algorithm(thd) != Alter_info::ALTER_TABLE_ALGORITHM_COPY) { Alter_inplace_info ha_alter_info(create_info, alter_info, key_info, key_count, IF_PARTITIONING(thd->work_part_info, NULL), ignore, alter_ctx.error_if_not_empty); TABLE_SHARE altered_share; TABLE altered_table; bool use_inplace= true; /* Fill the Alter_inplace_info structure. */ if (fill_alter_inplace_info(thd, table, varchar, &ha_alter_info)) goto err_new_table_cleanup; alter_ctx.tmp_storage_engine_name_partitioned= table->file->partition_engine(); alter_ctx.tmp_storage_engine_name.length= (strmake((char*) alter_ctx.tmp_storage_engine_name.str, table->file->real_table_type(), sizeof(alter_ctx.tmp_storage_engine_buff)-1) - alter_ctx.tmp_storage_engine_name.str); /* We can ignore ALTER_COLUMN_ORDER and instead check ALTER_STORED_COLUMN_ORDER & ALTER_VIRTUAL_COLUMN_ORDER. This is ok as ALTER_COLUMN_ORDER may be wrong if we use AFTER last_field ALTER_COLUMN_NAME is set if field really was renamed. */ if (!(ha_alter_info.handler_flags & ~(ALTER_COLUMN_ORDER | ALTER_RENAME_COLUMN | ALTER_INDEX_ORDER))) { /* No-op ALTER, no need to call handler API functions. If this code path is entered for an ALTER statement that should not be a real no-op, new handler flags should be added and fill_alter_inplace_info() adjusted. Note that we can end up here if an ALTER statement has clauses that cancel each other out (e.g. ADD/DROP identically index). Also note that we ignore the LOCK clause here. TODO don't create partitioning metadata in the first place TODO: Now case-change index name is treated as noop which is not quite correct. */ table->file->ha_create_partitioning_metadata(alter_ctx.get_tmp_path(), NULL, CHF_DELETE_FLAG); goto end_inplace; } // We assume that the table is non-temporary. DBUG_ASSERT(!table->s->tmp_table); if (create_table_for_inplace_alter(thd, alter_ctx, &frm, &altered_share, &altered_table)) goto err_new_table_cleanup; /* Avoid creating frm again in ha_create_table() if inplace alter will not be used. */ frm_is_created= 1; /* Set markers for fields in TABLE object for altered table. */ update_altered_table(ha_alter_info, &altered_table); /* Mark all columns in 'altered_table' as used to allow usage of its record[0] buffer and Field objects during in-place ALTER TABLE. */ altered_table.column_bitmaps_set_no_signal(&altered_table.s->all_set, &altered_table.s->all_set); restore_record(&altered_table, s->default_values); // Create empty record /* Check that we can call default functions with default field values */ thd->count_cuted_fields= CHECK_FIELD_EXPRESSION; altered_table.reset_default_fields(); if (altered_table.default_field && altered_table.update_default_fields(true)) { cleanup_table_after_inplace_alter(&altered_table); goto err_new_table_cleanup; } thd->count_cuted_fields= CHECK_FIELD_IGNORE; if (alter_info->requested_lock == Alter_info::ALTER_TABLE_LOCK_NONE) ha_alter_info.online= true; // Ask storage engine whether to use copy or in-place { Check_level_instant_set check_level_save(thd, CHECK_FIELD_WARN); ha_alter_info.inplace_supported= table->file->check_if_supported_inplace_alter(&altered_table, &ha_alter_info); } if (ha_alter_info.inplace_supported != HA_ALTER_INPLACE_NOT_SUPPORTED) { List_iterator it(alter_info->key_list); while (Key *k= it++) { if (k->without_overlaps) { ha_alter_info.inplace_supported= HA_ALTER_INPLACE_NOT_SUPPORTED; break; } } } if (alter_info->supports_algorithm(thd, &ha_alter_info) || alter_info->supports_lock(thd, &ha_alter_info)) { cleanup_table_after_inplace_alter(&altered_table); goto err_new_table_cleanup; } // If SHARED lock and no particular algorithm was requested, use COPY. if (ha_alter_info.inplace_supported == HA_ALTER_INPLACE_EXCLUSIVE_LOCK && alter_info->requested_lock == Alter_info::ALTER_TABLE_LOCK_SHARED && alter_info->algorithm(thd) == Alter_info::ALTER_TABLE_ALGORITHM_DEFAULT && thd->variables.alter_algorithm == Alter_info::ALTER_TABLE_ALGORITHM_DEFAULT) use_inplace= false; if (ha_alter_info.inplace_supported == HA_ALTER_INPLACE_NOT_SUPPORTED) use_inplace= false; if (use_inplace) { table->s->frm_image= &frm; /* Set the truncated column values of thd as warning for alter table. */ enum_check_fields org_count_cuted_fields= thd->count_cuted_fields; thd->count_cuted_fields= CHECK_FIELD_WARN; int res= mysql_inplace_alter_table(thd, table_list, table, &altered_table, &ha_alter_info, &target_mdl_request, &ddl_log_state, &trigger_param, &alter_ctx, partial_alter, start_alter_id, if_exists); thd->count_cuted_fields= org_count_cuted_fields; inplace_alter_table_committed= ha_alter_info.inplace_alter_table_committed; inplace_alter_table_committed_argument= ha_alter_info.inplace_alter_table_committed_argument; if (res) { cleanup_table_after_inplace_alter(&altered_table); goto err_cleanup; } cleanup_table_after_inplace_alter_keep_files(&altered_table); goto end_inplace; } else cleanup_table_after_inplace_alter_keep_files(&altered_table); } /* ALTER TABLE using copy algorithm. */ /* Check if ALTER TABLE is compatible with foreign key definitions. */ if (fk_prepare_copy_alter_table(thd, table, alter_info, &alter_ctx)) goto err_new_table_cleanup; if (!table->s->tmp_table) { // COPY algorithm doesn't work with concurrent writes. if (alter_info->requested_lock == Alter_info::ALTER_TABLE_LOCK_NONE) { my_error(ER_ALTER_OPERATION_NOT_SUPPORTED_REASON, MYF(0), "LOCK=NONE", ER_THD(thd, ER_ALTER_OPERATION_NOT_SUPPORTED_REASON_COPY), "LOCK=SHARED"); goto err_new_table_cleanup; } // If EXCLUSIVE lock is requested, upgrade already. if (alter_info->requested_lock == Alter_info::ALTER_TABLE_LOCK_EXCLUSIVE && wait_while_table_is_used(thd, table, HA_EXTRA_FORCE_REOPEN)) goto err_new_table_cleanup; /* Otherwise upgrade to SHARED_NO_WRITE. Note that under LOCK TABLES, we will already have SHARED_NO_READ_WRITE. */ if (alter_info->requested_lock != Alter_info::ALTER_TABLE_LOCK_EXCLUSIVE && thd->mdl_context.upgrade_shared_lock(mdl_ticket, MDL_SHARED_NO_WRITE, thd->variables.lock_wait_timeout)) goto err_new_table_cleanup; DEBUG_SYNC(thd, "alter_table_copy_after_lock_upgrade"); } else thd->close_unused_temporary_table_instances(table_list); if (table->s->tmp_table == NO_TMP_TABLE) { if (write_bin_log_start_alter(thd, partial_alter, start_alter_id, if_exists)) goto err_new_table_cleanup; } else if (start_alter_id) { DBUG_ASSERT(thd->rgi_slave); my_error(ER_INCONSISTENT_SLAVE_TEMP_TABLE, MYF(0), thd->query(), table_list->db.str, table_list->table_name.str); goto err_new_table_cleanup; } DBUG_EXECUTE_IF("start_alter_delay_master", { debug_sync_set_action(thd, STRING_WITH_LEN("now wait_for alter_cont NO_CLEAR_EVENT")); }); // It's now safe to take the table level lock. if (lock_tables(thd, table_list, alter_ctx.tables_opened, MYSQL_LOCK_USE_MALLOC)) goto err_new_table_cleanup; ddl_log_update_phase(&ddl_log_state, DDL_ALTER_TABLE_PHASE_CREATED); if (ha_create_table(thd, alter_ctx.get_tmp_path(), alter_ctx.new_db.str, alter_ctx.new_name.str, create_info, &frm, frm_is_created)) goto err_new_table_cleanup; debug_crash_here("ddl_log_alter_after_create_table"); /* Mark that we have created table in storage engine. */ no_ha_table= false; DEBUG_SYNC(thd, "alter_table_intermediate_table_created"); /* Open the table since we need to copy the data. */ new_table= thd->create_and_open_tmp_table(&frm, alter_ctx.get_tmp_path(), alter_ctx.new_db.str, alter_ctx.new_name.str, true); if (!new_table) goto err_new_table_cleanup; if (table->s->tmp_table != NO_TMP_TABLE) { /* in case of alter temp table send the tracker in OK packet */ thd->session_tracker.state_change.mark_as_changed(thd); } /* Note: In case of MERGE table, we do not attach children. We do not copy data for MERGE tables. Only the children have data. */ /* Copy the data if necessary. */ thd->count_cuted_fields= CHECK_FIELD_WARN; // calc cuted fields thd->cuted_fields=0L; /* We do not copy data for MERGE tables. Only the children have data. MERGE tables have HA_NO_COPY_ON_ALTER set. */ if (!(new_table->file->ha_table_flags() & HA_NO_COPY_ON_ALTER)) { new_table->next_number_field=new_table->found_next_number_field; THD_STAGE_INFO(thd, stage_copy_to_tmp_table); DBUG_EXECUTE_IF("abort_copy_table", { my_error(ER_LOCK_WAIT_TIMEOUT, MYF(0)); goto err_new_table_cleanup; }); /* If old table was a shared table and new table is not same type, the slaves will not be able to recreate the data. In this case we write the CREATE TABLE statement for the new table to the log and log all inserted rows to the table. */ if ((table->file->partition_ht()->flags & HTON_TABLE_MAY_NOT_EXIST_ON_SLAVE) && (table->file->partition_ht() != new_table->file->partition_ht()) && thd->binlog_table_should_be_logged(&new_table->s->db)) { /* 'new_table' is marked as internal temp table, but we want to have the logging based on the original table type */ bool res; tmp_table_type org_tmp_table= new_table->s->tmp_table; new_table->s->tmp_table= table->s->tmp_table; /* Force row logging, even if the table was created as 'temporary' */ new_table->s->can_do_row_logging= 1; thd->binlog_start_trans_and_stmt(); thd->variables.option_bits|= OPTION_BIN_COMMIT_OFF; res= (binlog_drop_table(thd, table) || binlog_create_table(thd, new_table, 1)); new_table->s->tmp_table= org_tmp_table; if (res) goto err_new_table_cleanup; /* ha_write_row() will log inserted rows in copy_data_between_tables(). No additional logging of query is needed */ binlog_as_create_select= 1; DBUG_ASSERT(new_table->file->row_logging); new_table->mark_columns_needed_for_insert(); thd->binlog_write_table_map(new_table, 1); } if (copy_data_between_tables(thd, table, new_table, alter_info->create_list, ignore, order_num, order, &copied, &deleted, alter_info->keys_onoff, &alter_ctx)) goto err_new_table_cleanup; } else { if (!table->s->tmp_table && wait_while_table_is_used(thd, table, HA_EXTRA_FORCE_REOPEN)) goto err_new_table_cleanup; THD_STAGE_INFO(thd, stage_manage_keys); alter_table_manage_keys(table, table->file->indexes_are_disabled(), alter_info->keys_onoff); if (trans_commit_stmt(thd) || trans_commit_implicit(thd)) goto err_new_table_cleanup; } thd->count_cuted_fields= CHECK_FIELD_IGNORE; if (start_alter_id) { DBUG_ASSERT(thd->slave_thread); if (wait_for_master(thd)) goto err_new_table_cleanup; } if (table->s->tmp_table != NO_TMP_TABLE) { /* Release lock if this is a transactional temporary table */ if (thd->lock) { if (thd->locked_tables_mode != LTM_LOCK_TABLES && thd->locked_tables_mode != LTM_PRELOCKED_UNDER_LOCK_TABLES) { int tmp_error= mysql_unlock_tables(thd, thd->lock); thd->lock= NULL; if (tmp_error) goto err_new_table_cleanup; } else { /* If LOCK TABLES list is not empty and contains this table, unlock the table and remove the table from this list. */ if (mysql_lock_remove(thd, thd->lock, table)) goto err_new_table_cleanup; } } new_table->s->table_creation_was_logged= table->s->table_creation_was_logged; /* Remove link to old table and rename the new one */ thd->drop_temporary_table(table, NULL, true); /* Should pass the 'new_name' as we store table name in the cache */ if (thd->rename_temporary_table(new_table, &alter_ctx.new_db, &alter_ctx.new_name)) goto err_new_table_cleanup; if (binlog_as_create_select) { /* The original table is now deleted. Copy the DROP + CREATE + data statement to the binary log */ thd->variables.option_bits&= ~OPTION_BIN_COMMIT_OFF; binlog_commit(thd, true); } DBUG_ASSERT(!start_alter_id); // no 2 phase logging for DBUG_ASSERT(!partial_alter); // temporary table alter /* We don't replicate alter table statement on temporary tables */ if (!thd->is_current_stmt_binlog_format_row() && table_creation_was_logged && !binlog_as_create_select) { int tmp_error; thd->binlog_xid= thd->query_id; ddl_log_update_xid(&ddl_log_state, thd->binlog_xid); tmp_error= write_bin_log_with_if_exists(thd, true, false, log_if_exists); thd->binlog_xid= 0; if (tmp_error) goto err_cleanup; } goto end_temporary; } /* Remember storage engine name for the new table */ alter_ctx.tmp_storage_engine_name_partitioned= new_table->file->partition_engine(); alter_ctx.tmp_storage_engine_name.length= (strmake((char*) alter_ctx.tmp_storage_engine_name.str, new_table->file->real_table_type(), sizeof(alter_ctx.tmp_storage_engine_buff)-1) - alter_ctx.tmp_storage_engine_name.str); /* Check if file names for the engine are unique. If we change engine and file names are unique then we don't need to rename the original table to a temporary name during the rename phase File names are unique if engine changed and - Either new or old engine does not store the table in files - Neither old or new engine uses files from another engine The above is mainly true for the sequence and the partition engine. */ engine_changed= ((new_table->file->ht != table->file->ht) && ((!(new_table->file->ha_table_flags() & HA_FILE_BASED) || !(table->file->ha_table_flags() & HA_FILE_BASED))) && !(table->file->ha_table_flags() & HA_REUSES_FILE_NAMES) && !(new_table->file->ha_table_flags() & HA_REUSES_FILE_NAMES)); /* Close the intermediate table that will be the new table, but do not delete it! Even though MERGE tables do not have their children attached here it is safe to call THD::drop_temporary_table(). */ thd->drop_temporary_table(new_table, NULL, false); new_table= NULL; DEBUG_SYNC(thd, "alter_table_before_rename_result_table"); /* Data is copied. Now we: 1) Wait until all other threads will stop using old version of table by upgrading shared metadata lock to exclusive one. 2) Close instances of table open by this thread and replace them with placeholders to simplify reopen process. 3) Rename the old table to a temp name, rename the new one to the old name. 4) If we are under LOCK TABLES and don't do ALTER TABLE ... RENAME we reopen new version of table. 5) Write statement to the binary log. 6) If we are under LOCK TABLES and do ALTER TABLE ... RENAME we remove placeholders and release metadata locks. 7) If we are not not under LOCK TABLES we rely on the caller (mysql_execute_command()) to release metadata locks. */ debug_crash_here("ddl_log_alter_after_copy"); // Use old table /* We are new ready to use the new table. Update the state in the ddl log so that we recovery know that the new table is ready and in case of crash it should use the new one and log the query to the binary log. */ if (engine_changed) ddl_log_add_flag(&ddl_log_state, DDL_LOG_FLAG_ALTER_ENGINE_CHANGED); ddl_log_update_phase(&ddl_log_state, DDL_ALTER_TABLE_PHASE_COPIED); debug_crash_here("ddl_log_alter_after_log"); // Use new table THD_STAGE_INFO(thd, stage_rename_result_table); if (wait_while_table_is_used(thd, table, HA_EXTRA_PREPARE_FOR_RENAME)) goto err_new_table_cleanup; close_all_tables_for_name(thd, table->s, alter_ctx.is_table_renamed() ? HA_EXTRA_PREPARE_FOR_RENAME: HA_EXTRA_NOT_USED, NULL); table_list->table= table= NULL; /* Safety */ DBUG_PRINT("info", ("is_table_renamed: %d engine_changed: %d", alter_ctx.is_table_renamed(), engine_changed)); /* InnoDB cannot use the rename optimization when foreign key constraint is involved because InnoDB fails to drop the parent table due to foreign key constraint */ if (!alter_ctx.is_table_renamed() || alter_ctx.fk_error_if_delete_row) { /* Rename the old table to temporary name to have a backup in case anything goes wrong while renaming the new table. We only have to do this if name of the table is not changed. If we are changing to use another table handler, we don't have to do the rename as the table names will not interfer. */ if (mysql_rename_table(old_db_type, &alter_ctx.db, &alter_ctx.table_name, &alter_ctx.db, &backup_name, &alter_ctx.id, FN_TO_IS_TMP | (engine_changed ? NO_HA_TABLE | NO_PAR_TABLE : 0))) { // Rename to temporary name failed, delete the new table, abort ALTER. (void) quick_rm_table(thd, new_db_type, &alter_ctx.new_db, &alter_ctx.tmp_name, FN_IS_TMP); goto err_with_mdl; } } else { /* The original table is the backup */ backup_name= alter_ctx.table_name; PSI_CALL_drop_table_share(0, alter_ctx.db.str, (int) alter_ctx.db.length, alter_ctx.table_name.str, (int) alter_ctx.table_name.length); } debug_crash_here("ddl_log_alter_after_rename_to_backup"); if (!alter_ctx.is_table_renamed()) { /* We should not set this stage in case of rename as we in this case must execute DDL_ALTER_TABLE_PHASE_COPIED to remove the orignal table */ ddl_log_update_phase(&ddl_log_state, DDL_ALTER_TABLE_PHASE_OLD_RENAMED); } debug_crash_here("ddl_log_alter_after_rename_to_backup_log"); // Rename the new table to the correct name. if (mysql_rename_table(new_db_type, &alter_ctx.new_db, &alter_ctx.tmp_name, &alter_ctx.new_db, &alter_ctx.new_alias, &alter_ctx.tmp_id, FN_FROM_IS_TMP)) { // Rename failed, delete the temporary table. ddl_log_update_phase(&ddl_log_state, DDL_ALTER_TABLE_PHASE_RENAME_FAILED); (void) quick_rm_table(thd, new_db_type, &alter_ctx.new_db, &alter_ctx.tmp_name, FN_IS_TMP); if (!alter_ctx.is_table_renamed() || alter_ctx.fk_error_if_delete_row) { // Restore the backup of the original table to the old name. (void) mysql_rename_table(old_db_type, &alter_ctx.db, &backup_name, &alter_ctx.db, &alter_ctx.alias, &alter_ctx.id, FN_FROM_IS_TMP | NO_FK_CHECKS | (engine_changed ? NO_HA_TABLE | NO_PAR_TABLE : 0)); } goto err_with_mdl; } debug_crash_here("ddl_log_alter_after_rename_to_original"); // Check if we renamed the table and if so update trigger files. if (alter_ctx.is_table_renamed()) { debug_crash_here("ddl_log_alter_before_rename_triggers"); if (Table_triggers_list::change_table_name(thd, &trigger_param, &alter_ctx.db, &alter_ctx.alias, &alter_ctx.table_name, &alter_ctx.new_db, &alter_ctx.new_alias)) { // Rename succeeded, delete the new table. (void) quick_rm_table(thd, new_db_type, &alter_ctx.new_db, &alter_ctx.new_alias, 0); // Restore the backup of the original table to the old name. (void) mysql_rename_table(old_db_type, &alter_ctx.db, &backup_name, &alter_ctx.db, &alter_ctx.alias, &alter_ctx.id, FN_FROM_IS_TMP | NO_FK_CHECKS | (engine_changed ? NO_HA_TABLE | NO_PAR_TABLE : 0)); goto err_with_mdl; } rename_table_in_stat_tables(thd, &alter_ctx.db, &alter_ctx.alias, &alter_ctx.new_db, &alter_ctx.new_alias); debug_crash_here("ddl_log_alter_after_rename_triggers"); } // ALTER TABLE succeeded, delete the backup of the old table. // a failure to delete isn't an error, as we cannot rollback ALTER anymore thd->push_internal_handler(&errors_to_warnings); error_handler_pushed=1; quick_rm_table(thd, old_db_type, &alter_ctx.db, &backup_name, FN_IS_TMP | (engine_changed ? NO_HA_TABLE | NO_PAR_TABLE: 0)); debug_crash_here("ddl_log_alter_after_delete_backup"); if (engine_changed) { /* the .frm file was removed but not the original table */ quick_rm_table(thd, old_db_type, &alter_ctx.db, &alter_ctx.table_name, NO_FRM_RENAME | (engine_changed ? 0 : FN_IS_TMP)); } debug_crash_here("ddl_log_alter_after_drop_original_table"); if (binlog_as_create_select) { /* The original table is now deleted. Copy the DROP + CREATE + data statement to the binary log */ thd->variables.option_bits&= ~OPTION_BIN_COMMIT_OFF; thd->binlog_xid= thd->query_id; ddl_log_update_xid(&ddl_log_state, thd->binlog_xid); binlog_commit(thd, true); thd->binlog_xid= 0; } end_inplace: thd->variables.option_bits&= ~OPTION_BIN_COMMIT_OFF; if (!error_handler_pushed) thd->push_internal_handler(&errors_to_warnings); thd->locked_tables_list.reopen_tables(thd, false); thd->pop_internal_handler(); THD_STAGE_INFO(thd, stage_end); DEBUG_SYNC(thd, "alter_table_before_main_binlog"); DBUG_ASSERT(!(mysql_bin_log.is_open() && thd->is_current_stmt_binlog_format_row() && (create_info->tmp_table()))); if(start_alter_id) { if (!is_reg_table) { my_error(ER_INCONSISTENT_SLAVE_TEMP_TABLE, MYF(0), thd->query(), table_list->db.str, table_list->table_name.str); DBUG_RETURN(true); } if (process_master_state(thd, 0, start_alter_id, if_exists)) DBUG_RETURN(true); } else if (!binlog_as_create_select) { int tmp_error; thd->binlog_xid= thd->query_id; ddl_log_update_xid(&ddl_log_state, thd->binlog_xid); tmp_error= write_bin_log_with_if_exists(thd, true, false, log_if_exists, partial_alter); thd->binlog_xid= 0; if (tmp_error) goto err_cleanup; } /* We have to close the ddl log as soon as possible, after binlogging the query, for inplace alter table. */ ddl_log_complete(&ddl_log_state); if (inplace_alter_table_committed) { /* Signal to storage engine that ddl log is committed */ (*inplace_alter_table_committed)(inplace_alter_table_committed_argument); inplace_alter_table_committed= 0; } if (!alter_ctx.tmp_table) { backup_log_info ddl_log; bzero(&ddl_log, sizeof(ddl_log)); ddl_log.query= { C_STRING_WITH_LEN("ALTER") }; ddl_log.org_storage_engine_name= alter_ctx.storage_engine_name; ddl_log.org_partitioned= alter_ctx.storage_engine_partitioned; ddl_log.org_database= alter_ctx.db; ddl_log.org_table= alter_ctx.table_name; ddl_log.org_table_id= alter_ctx.id; ddl_log.new_storage_engine_name= alter_ctx.tmp_storage_engine_name; ddl_log.new_partitioned= alter_ctx.tmp_storage_engine_name_partitioned; ddl_log.new_database= alter_ctx.new_db; ddl_log.new_table= alter_ctx.new_alias; ddl_log.new_table_id= alter_ctx.tmp_id; backup_log_ddl(&ddl_log); } table_list->table= NULL; // For query cache query_cache_invalidate3(thd, table_list, false); if (thd->locked_tables_mode == LTM_LOCK_TABLES || thd->locked_tables_mode == LTM_PRELOCKED_UNDER_LOCK_TABLES) { if (alter_ctx.is_table_renamed()) thd->mdl_context.release_all_locks_for_name(mdl_ticket); else mdl_ticket->downgrade_lock(MDL_SHARED_NO_READ_WRITE); } end_temporary: my_free(const_cast(frm.str)); thd->variables.option_bits&= ~OPTION_BIN_COMMIT_OFF; *recreate_info= Recreate_info(copied, deleted); thd->my_ok_with_recreate_info(*recreate_info, (ulong) thd->get_stmt_da()-> current_statement_warn_count()); DEBUG_SYNC(thd, "alter_table_inplace_trans_commit"); DBUG_RETURN(false); err_new_table_cleanup: DBUG_PRINT("error", ("err_new_table_cleanup")); thd->variables.option_bits&= ~OPTION_BIN_COMMIT_OFF; /* No default value was provided for a DATE/DATETIME field, the current sql_mode doesn't allow the '0000-00-00' value and the table to be altered isn't empty. Report error here. */ if (unlikely(alter_ctx.error_if_not_empty && thd->get_stmt_da()->current_row_for_warning())) { Abort_on_warning_instant_set aws(thd, true); alter_ctx.report_implicit_default_value_error(thd, new_table ? new_table->s : table->s); } if (new_table) { thd->drop_temporary_table(new_table, NULL, true); } else (void) quick_rm_table(thd, new_db_type, &alter_ctx.new_db, &alter_ctx.tmp_name, (FN_IS_TMP | (no_ha_table ? NO_HA_TABLE : 0)), alter_ctx.get_tmp_path()); DEBUG_SYNC(thd, "alter_table_after_temp_table_drop"); err_cleanup: my_free(const_cast(frm.str)); ddl_log_complete(&ddl_log_state); if (inplace_alter_table_committed) { /* Signal to storage engine that ddl log is committed */ (*inplace_alter_table_committed)(inplace_alter_table_committed_argument); } DEBUG_SYNC(thd, "alter_table_after_temp_table_drop"); if (partial_alter || start_alter_id) write_bin_log_start_alter_rollback(thd, start_alter_id, partial_alter, if_exists); DBUG_RETURN(true); err_with_mdl: ddl_log_complete(&ddl_log_state); /* An error happened while we were holding exclusive name metadata lock on table being altered. To be safe under LOCK TABLES we should remove all references to the altered table from the list of locked tables and release the exclusive metadata lock. */ thd->locked_tables_list.unlink_all_closed_tables(thd, NULL, 0); if (!table_list->table) thd->mdl_context.release_all_locks_for_name(mdl_ticket); goto err_cleanup; } /** Prepare the transaction for the alter table's copy phase. */ bool mysql_trans_prepare_alter_copy_data(THD *thd) { DBUG_ENTER("mysql_trans_prepare_alter_copy_data"); /* Turn off recovery logging since rollback of an alter table is to delete the new table so there is no need to log the changes to it. This needs to be done before external_lock. */ DBUG_RETURN(ha_enable_transaction(thd, FALSE) != 0); } /** Commit the copy phase of the alter table. */ bool mysql_trans_commit_alter_copy_data(THD *thd) { bool error= FALSE; uint save_unsafe_rollback_flags; DBUG_ENTER("mysql_trans_commit_alter_copy_data"); /* Save flags as trans_commit_implicit are deleting them */ save_unsafe_rollback_flags= thd->transaction->stmt.m_unsafe_rollback_flags; DEBUG_SYNC(thd, "alter_table_copy_trans_commit"); if (ha_enable_transaction(thd, TRUE)) DBUG_RETURN(TRUE); /* Ensure that the new table is saved properly to disk before installing the new .frm. And that InnoDB's internal latches are released, to avoid deadlock when waiting on other instances of the table before rename (Bug#54747). */ if (trans_commit_stmt(thd)) error= TRUE; if (trans_commit_implicit(thd)) error= TRUE; thd->transaction->stmt.m_unsafe_rollback_flags= save_unsafe_rollback_flags; DBUG_RETURN(error); } static int copy_data_between_tables(THD *thd, TABLE *from, TABLE *to, List &create, bool ignore, uint order_num, ORDER *order, ha_rows *copied, ha_rows *deleted, Alter_info::enum_enable_or_disable keys_onoff, Alter_table_ctx *alter_ctx) { int error= 1; Copy_field *copy= NULL, *copy_end; ha_rows found_count= 0, delete_count= 0; SORT_INFO *file_sort= 0; READ_RECORD info; TABLE_LIST tables; List fields; List all_fields; bool auto_increment_field_copied= 0; bool cleanup_done= 0; bool init_read_record_done= 0; sql_mode_t save_sql_mode= thd->variables.sql_mode; ulonglong prev_insert_id, time_to_report_progress; Field **dfield_ptr= to->default_field; uint save_to_s_default_fields= to->s->default_fields; bool make_versioned= !from->versioned() && to->versioned(); bool make_unversioned= from->versioned() && !to->versioned(); bool keep_versioned= from->versioned() && to->versioned(); bool bulk_insert_started= 0; Field *to_row_start= NULL, *to_row_end= NULL, *from_row_end= NULL; MYSQL_TIME query_start; DBUG_ENTER("copy_data_between_tables"); /* Two or 3 stages; Sorting, copying data and update indexes */ thd_progress_init(thd, 2 + MY_TEST(order)); if (!(copy= new (thd->mem_root) Copy_field[to->s->fields])) DBUG_RETURN(-1); if (mysql_trans_prepare_alter_copy_data(thd)) { delete [] copy; DBUG_RETURN(-1); } /* We need external lock before we can disable/enable keys */ if (to->file->ha_external_lock(thd, F_WRLCK)) { /* Undo call to mysql_trans_prepare_alter_copy_data() */ ha_enable_transaction(thd, TRUE); delete [] copy; DBUG_RETURN(-1); } backup_set_alter_copy_lock(thd, from); alter_table_manage_keys(to, from->file->indexes_are_disabled(), keys_onoff); from->default_column_bitmaps(); /* We can abort alter table for any table type */ thd->abort_on_warning= !ignore && thd->is_strict_mode(); from->file->info(HA_STATUS_VARIABLE); to->file->extra(HA_EXTRA_PREPARE_FOR_ALTER_TABLE); to->file->ha_start_bulk_insert(from->file->stats.records, ignore ? 0 : HA_CREATE_UNIQUE_INDEX_BY_SORT); bulk_insert_started= 1; mysql_stage_set_work_estimated(thd->m_stage_progress_psi, from->file->stats.records); List_iterator it(create); Create_field *def; copy_end=copy; to->s->default_fields= 0; for (Field **ptr=to->field ; *ptr ; ptr++) { def=it++; if (def->field) { if (*ptr == to->next_number_field) { auto_increment_field_copied= TRUE; /* If we are going to copy contents of one auto_increment column to another auto_increment column it is sensible to preserve zeroes. This condition also covers case when we are don't actually alter auto_increment column. */ if (def->field == from->found_next_number_field) thd->variables.sql_mode|= MODE_NO_AUTO_VALUE_ON_ZERO; } if (!(*ptr)->vcol_info) { bitmap_set_bit(from->read_set, def->field->field_index); if ((*ptr)->check_assignability_from(def->field, ignore)) goto err; (copy_end++)->set(*ptr,def->field,0); } } else { /* Update the set of auto-update fields to contain only the new fields added to the table. Only these fields should be updated automatically. Old fields keep their current values, and therefore should not be present in the set of autoupdate fields. */ if ((*ptr)->default_value) { *(dfield_ptr++)= *ptr; ++to->s->default_fields; } } } if (dfield_ptr) *dfield_ptr= NULL; if (order) { if (to->s->primary_key != MAX_KEY && to->file->ha_table_flags() & HA_TABLE_SCAN_ON_INDEX) { char warn_buff[MYSQL_ERRMSG_SIZE]; Abort_on_warning_instant_set aws(thd, false); my_snprintf(warn_buff, sizeof(warn_buff), "ORDER BY ignored as there is a user-defined clustered index" " in the table '%-.192s'", from->s->table_name.str); push_warning(thd, Sql_condition::WARN_LEVEL_WARN, ER_UNKNOWN_ERROR, warn_buff); } else { bzero((char *) &tables, sizeof(tables)); tables.table= from; tables.alias= tables.table_name= from->s->table_name; tables.db= from->s->db; THD_STAGE_INFO(thd, stage_sorting); Filesort_tracker dummy_tracker(false); Filesort fsort(order, HA_POS_ERROR, true, NULL); if (thd->lex->first_select_lex()->setup_ref_array(thd, order_num) || setup_order(thd, thd->lex->first_select_lex()->ref_pointer_array, &tables, fields, all_fields, order)) goto err; if (!(file_sort= filesort(thd, from, &fsort, &dummy_tracker))) goto err; } thd_progress_next_stage(thd); } if (make_versioned) { query_start= thd->query_start_TIME(); to_row_start= to->vers_start_field(); to_row_end= to->vers_end_field(); } else if (make_unversioned) { from_row_end= from->vers_end_field(); } if (from_row_end) bitmap_set_bit(from->read_set, from_row_end->field_index); from->file->column_bitmaps_signal(); to->file->prepare_for_insert(0); DBUG_ASSERT(to->file->inited == handler::NONE); /* Tell handler that we have values for all columns in the to table */ to->use_all_columns(); /* Add virtual columns to vcol_set to ensure they are updated */ if (to->vfield) to->mark_virtual_columns_for_write(TRUE); if (init_read_record(&info, thd, from, (SQL_SELECT *) 0, file_sort, 1, 1, FALSE)) goto err; init_read_record_done= 1; if (ignore && !alter_ctx->fk_error_if_delete_row) to->file->extra(HA_EXTRA_IGNORE_DUP_KEY); thd->get_stmt_da()->reset_current_row_for_warning(1); restore_record(to, s->default_values); // Create empty record to->reset_default_fields(); thd->progress.max_counter= from->file->records(); time_to_report_progress= MY_HOW_OFTEN_TO_WRITE/10; if (!ignore) /* for now, InnoDB needs the undo log for ALTER IGNORE */ to->file->extra(HA_EXTRA_BEGIN_ALTER_COPY); while (likely(!(error= info.read_record()))) { if (unlikely(thd->killed)) { thd->send_kill_message(); error= 1; break; } if (make_unversioned) { if (!from_row_end->is_max()) continue; // Drop history rows. } if (unlikely(++thd->progress.counter >= time_to_report_progress)) { time_to_report_progress+= MY_HOW_OFTEN_TO_WRITE/10; thd_progress_report(thd, thd->progress.counter, thd->progress.max_counter); } /* Return error if source table isn't empty. */ if (unlikely(alter_ctx->error_if_not_empty)) { error= 1; break; } for (Copy_field *copy_ptr=copy ; copy_ptr != copy_end ; copy_ptr++) { copy_ptr->do_copy(copy_ptr); } if (make_versioned) { to_row_start->set_notnull(); to_row_start->store_time(&query_start); to_row_end->set_max(); } prev_insert_id= to->file->next_insert_id; if (to->default_field) to->update_default_fields(ignore); if (to->vfield) to->update_virtual_fields(to->file, VCOL_UPDATE_FOR_WRITE); /* This will set thd->is_error() if fatal failure */ if (to->verify_constraints(ignore) == VIEW_CHECK_SKIP) continue; if (unlikely(thd->is_error())) { error= 1; break; } if (keep_versioned && to->versioned(VERS_TRX_ID)) to->vers_write= false; if (to->next_number_field) { if (auto_increment_field_copied) to->auto_increment_field_not_null= TRUE; else to->next_number_field->reset(); } error= to->file->ha_write_row(to->record[0]); to->auto_increment_field_not_null= FALSE; if (unlikely(error)) { if (to->file->is_fatal_error(error, HA_CHECK_DUP)) { /* Not a duplicate key error. */ to->file->print_error(error, MYF(0)); error= 1; break; } else { /* Duplicate key error. */ if (unlikely(alter_ctx->fk_error_if_delete_row)) { /* We are trying to omit a row from the table which serves as parent in a foreign key. This might have broken referential integrity so emit an error. Note that we can't ignore this error even if we are executing ALTER IGNORE TABLE. IGNORE allows to skip rows, but doesn't allow to break unique or foreign key constraints, */ my_error(ER_FK_CANNOT_DELETE_PARENT, MYF(0), alter_ctx->fk_error_id, alter_ctx->fk_error_table); break; } if (ignore) { /* This ALTER IGNORE TABLE. Simply skip row and continue. */ to->file->restore_auto_increment(prev_insert_id); delete_count++; } else { /* Ordinary ALTER TABLE. Report duplicate key error. */ uint key_nr= to->file->get_dup_key(error); if ((int) key_nr >= 0) { const char *err_msg= ER_THD(thd, ER_DUP_ENTRY_WITH_KEY_NAME); if (key_nr == 0 && to->s->keys > 0 && (to->key_info[0].key_part[0].field->flags & AUTO_INCREMENT_FLAG)) err_msg= ER_THD(thd, ER_DUP_ENTRY_AUTOINCREMENT_CASE); print_keydup_error(to, key_nr >= to->s->keys ? NULL : &to->key_info[key_nr], err_msg, MYF(0)); } else to->file->print_error(error, MYF(0)); break; } } } else { /* In case of alter ignore, notify the engine about it. */ if (ignore) to->file->extra(HA_EXTRA_IGNORE_INSERT); DEBUG_SYNC(thd, "copy_data_between_tables_before"); found_count++; mysql_stage_set_work_completed(thd->m_stage_progress_psi, found_count); } thd->get_stmt_da()->inc_current_row_for_warning(); } THD_STAGE_INFO(thd, stage_enabling_keys); thd_progress_next_stage(thd); if (error > 0 && !from->s->tmp_table) { /* We are going to drop the temporary table */ to->file->extra(HA_EXTRA_PREPARE_FOR_DROP); } if (unlikely(to->file->ha_end_bulk_insert()) && error <= 0) { /* Give error, if not already given */ if (!thd->is_error()) to->file->print_error(my_errno,MYF(0)); error= 1; } bulk_insert_started= 0; if (!ignore) to->file->extra(HA_EXTRA_END_ALTER_COPY); cleanup_done= 1; to->file->extra(HA_EXTRA_NO_IGNORE_DUP_KEY); DEBUG_SYNC(thd, "copy_data_between_tables_before_reset_backup_lock"); if (backup_reset_alter_copy_lock(thd)) error= 1; if (unlikely(mysql_trans_commit_alter_copy_data(thd))) error= 1; err: if (bulk_insert_started) (void) to->file->ha_end_bulk_insert(); /* Free resources */ if (init_read_record_done) end_read_record(&info); delete [] copy; delete file_sort; thd->variables.sql_mode= save_sql_mode; thd->abort_on_warning= 0; *copied= found_count; *deleted=delete_count; to->file->ha_release_auto_increment(); to->s->default_fields= save_to_s_default_fields; if (!cleanup_done) { /* This happens if we get an error during initialization of data */ DBUG_ASSERT(error); to->file->ha_end_bulk_insert(); ha_enable_transaction(thd, TRUE); } if (to->file->ha_external_unlock(thd)) error=1; if (error < 0 && !from->s->tmp_table && to->file->extra(HA_EXTRA_PREPARE_FOR_RENAME)) error= 1; thd_progress_end(thd); DBUG_RETURN(error > 0 ? -1 : 0); } /* Recreates one table by calling mysql_alter_table(). SYNOPSIS mysql_recreate_table() thd Thread handler table_list Table to recreate table_copy Recreate the table by using ALTER TABLE COPY algorithm RETURN Like mysql_alter_table(). */ bool mysql_recreate_table(THD *thd, TABLE_LIST *table_list, Recreate_info *recreate_info, bool table_copy) { Table_specification_st create_info; Alter_info alter_info; TABLE_LIST *next_table= table_list->next_global; DBUG_ENTER("mysql_recreate_table"); /* Set lock type which is appropriate for ALTER TABLE. */ table_list->lock_type= TL_READ_NO_INSERT; /* Same applies to MDL request. */ table_list->mdl_request.set_type(MDL_SHARED_NO_WRITE); /* hide following tables from open_tables() */ table_list->next_global= NULL; create_info.init(); create_info.row_type=ROW_TYPE_NOT_USED; create_info.alter_info= &alter_info; /* Force alter table to recreate table */ alter_info.flags= (ALTER_CHANGE_COLUMN | ALTER_RECREATE); if (table_copy) alter_info.set_requested_algorithm( Alter_info::ALTER_TABLE_ALGORITHM_COPY); bool res= mysql_alter_table(thd, &null_clex_str, &null_clex_str, &create_info, table_list, recreate_info, &alter_info, 0, (ORDER *) 0, // Ignore duplicate records on REPAIR thd->lex->sql_command == SQLCOM_REPAIR, 0); table_list->next_global= next_table; DBUG_RETURN(res); } /** Collect field names of result set that will be sent to a client in result of handling the CHECKSUM TABLE statement. @param thd Thread data object @param[out] fields List of fields whose metadata should be collected for sending to client */ void fill_checksum_table_metadata_fields(THD *thd, List *fields) { Item *item; item= new (thd->mem_root) Item_empty_string(thd, "Table", NAME_LEN*2); item->set_maybe_null(); fields->push_back(item, thd->mem_root); item= new (thd->mem_root) Item_int(thd, "Checksum", (longlong) 1, MY_INT64_NUM_DECIMAL_DIGITS); item->set_maybe_null(); fields->push_back(item, thd->mem_root); } bool mysql_checksum_table(THD *thd, TABLE_LIST *tables, HA_CHECK_OPT *check_opt) { TABLE_LIST *table; List field_list; Protocol *protocol= thd->protocol; DBUG_ENTER("mysql_checksum_table"); /* CHECKSUM TABLE returns results and rollbacks statement transaction, so it should not be used in stored function or trigger. */ DBUG_ASSERT(! thd->in_sub_stmt); fill_checksum_table_metadata_fields(thd, &field_list); if (protocol->send_result_set_metadata(&field_list, Protocol::SEND_NUM_ROWS | Protocol::SEND_EOF)) DBUG_RETURN(TRUE); /* Close all temporary tables which were pre-open to simplify privilege checking. Clear all references to closed tables. */ close_thread_tables(thd); for (table= tables; table; table= table->next_local) table->table= NULL; /* Open one table after the other to keep lock time as short as possible. */ for (table= tables; table; table= table->next_local) { char table_name_buff[SAFE_NAME_LEN*2+2]; LEX_CSTRING table_name= { table_name_buff, 0}; TABLE *t; TABLE_LIST *save_next_global; table_name.length= strxmov(table_name_buff, table->db.str ,".", table->table_name.str, NullS) - table_name_buff; /* Remember old 'next' pointer and break the list. */ save_next_global= table->next_global; table->next_global= NULL; table->lock_type= TL_READ; /* Allow to open real tables only. */ table->required_type= TABLE_TYPE_NORMAL; if (thd->open_temporary_tables(table) || open_and_lock_tables(thd, table, FALSE, 0)) { t= NULL; } else t= table->table; table->next_global= save_next_global; protocol->prepare_for_resend(); protocol->store(&table_name, system_charset_info); if (!t) { /* Table didn't exist */ protocol->store_null(); } else { /* Call ->checksum() if the table checksum matches 'old_mode' settings */ if (!(check_opt->flags & T_EXTEND) && (((t->file->ha_table_flags() & HA_HAS_OLD_CHECKSUM) && (thd->variables.old_behavior & OLD_MODE_COMPAT_5_1_CHECKSUM)) || ((t->file->ha_table_flags() & HA_HAS_NEW_CHECKSUM) && !(thd->variables.old_behavior & OLD_MODE_COMPAT_5_1_CHECKSUM)))) { if (t->file->info(HA_STATUS_VARIABLE) || t->file->stats.checksum_null) protocol->store_null(); else protocol->store((longlong)t->file->stats.checksum); } else if (check_opt->flags & T_QUICK) protocol->store_null(); else { int error= t->file->calculate_checksum(); if (thd->killed) { /* we've been killed; let handler clean up, and remove the partial current row from the recordset (embedded lib) */ t->file->ha_rnd_end(); thd->protocol->remove_last_row(); goto err; } if (error || t->file->stats.checksum_null) protocol->store_null(); else protocol->store((longlong)t->file->stats.checksum); } trans_rollback_stmt(thd); close_thread_tables(thd); } if (thd->transaction_rollback_request) { /* If transaction rollback was requested we honor it. To do this we abort statement and return error as not only CHECKSUM TABLE is rolled back but the whole transaction in which it was used. */ thd->protocol->remove_last_row(); goto err; } /* Hide errors from client. Return NULL for problematic tables instead. */ thd->clear_error(); if (protocol->write()) goto err; } my_eof(thd); DBUG_RETURN(FALSE); err: DBUG_RETURN(TRUE); } /** @brief Check if the table can be created in the specified storage engine. Checks if the storage engine is enabled and supports the given table type (e.g. normal, temporary, system). May do engine substitution if the requested engine is disabled. @param thd Thread descriptor. @param db_name Database name. @param table_name Name of table to be created. @param create_info Create info from parser, including engine. @retval true Engine not available/supported, error has been reported. @retval false Engine available/supported. create_info->db_type & create_info->new_storage_engine_name are updated. */ bool check_engine(THD *thd, const char *db_name, const char *table_name, HA_CREATE_INFO *create_info) { DBUG_ENTER("check_engine"); handlerton **new_engine= &create_info->db_type; handlerton *req_engine= *new_engine; handlerton *enf_engine= NULL; bool no_substitution= thd->variables.sql_mode & MODE_NO_ENGINE_SUBSTITUTION; *new_engine= ha_checktype(thd, req_engine, no_substitution); DBUG_ASSERT(*new_engine); if (!*new_engine) DBUG_RETURN(true); /* Enforced storage engine should not be used in ALTER TABLE that does not use explicit ENGINE = x to avoid unwanted unrelated changes.*/ if (!(thd->lex->sql_command == SQLCOM_ALTER_TABLE && !(create_info->used_fields & HA_CREATE_USED_ENGINE))) enf_engine= thd->variables.enforced_table_plugin ? plugin_hton(thd->variables.enforced_table_plugin) : NULL; if (enf_engine && enf_engine != *new_engine) { if (no_substitution) { const char *engine_name= ha_resolve_storage_engine_name(req_engine); my_error(ER_UNKNOWN_STORAGE_ENGINE, MYF(0), engine_name); DBUG_RETURN(TRUE); } *new_engine= enf_engine; } if (req_engine && req_engine != *new_engine) { push_warning_printf(thd, Sql_condition::WARN_LEVEL_NOTE, ER_WARN_USING_OTHER_HANDLER, ER_THD(thd, ER_WARN_USING_OTHER_HANDLER), ha_resolve_storage_engine_name(*new_engine), table_name); } if (create_info->tmp_table() && ha_check_storage_engine_flag(*new_engine, HTON_TEMPORARY_NOT_SUPPORTED)) { my_error(ER_ILLEGAL_HA_CREATE_OPTION, MYF(0), hton_name(*new_engine)->str, "TEMPORARY"); *new_engine= 0; DBUG_RETURN(true); } lex_string_set(&create_info->new_storage_engine_name, ha_resolve_storage_engine_name(*new_engine)); DBUG_RETURN(false); } bool Sql_cmd_create_table_like::execute(THD *thd) { DBUG_ENTER("Sql_cmd_create_table::execute"); LEX *lex= thd->lex; SELECT_LEX *select_lex= lex->first_select_lex(); TABLE_LIST *first_table= select_lex->table_list.first; DBUG_ASSERT(first_table == lex->query_tables); DBUG_ASSERT(first_table != 0); bool link_to_local; TABLE_LIST *create_table= first_table; TABLE_LIST *select_tables= lex->create_last_non_select_table->next_global; /* most outer SELECT_LEX_UNIT of query */ SELECT_LEX_UNIT *unit= &lex->unit; int res= 0; const bool used_engine= lex->create_info.used_fields & HA_CREATE_USED_ENGINE; DBUG_ASSERT((m_storage_engine_name.str != NULL) == used_engine); if (lex->create_info.resolve_to_charset_collation_context(thd, thd->charset_collation_context_create_table_in_db(first_table->db.str))) DBUG_RETURN(true); if (used_engine) { if (resolve_storage_engine_with_error(thd, &lex->create_info.db_type, lex->create_info.tmp_table())) DBUG_RETURN(true); // Engine not found, substitution is not allowed if (!lex->create_info.db_type) // Not found, but substitution is allowed { lex->create_info.use_default_db_type(thd); push_warning_printf(thd, Sql_condition::WARN_LEVEL_WARN, ER_WARN_USING_OTHER_HANDLER, ER_THD(thd, ER_WARN_USING_OTHER_HANDLER), hton_name(lex->create_info.db_type)->str, create_table->table_name.str); } } if (lex->tmp_table()) { status_var_decrement(thd->status_var.com_stat[SQLCOM_CREATE_TABLE]); status_var_increment(thd->status_var.com_create_tmp_table); } /* Code below (especially in mysql_create_table() and select_create methods) may modify HA_CREATE_INFO structure in LEX, so we have to use a copy of this structure to make execution prepared statement- safe. A shallow copy is enough as this code won't modify any memory referenced from this structure. */ Table_specification_st create_info(lex->create_info); /* We need to copy alter_info for the same reasons of re-execution safety, only in case of Alter_info we have to do (almost) a deep copy. */ Alter_info alter_info(lex->alter_info, thd->mem_root); if (unlikely(thd->is_fatal_error)) { /* If out of memory when creating a copy of alter_info. */ res= 1; goto end_with_restore_list; } /* Since CREATE_INFO is not full without Alter_info, it is better to pass them as a signle parameter. TODO: remove alter_info argument where create_info is passed. */ create_info.alter_info= &alter_info; /* Check privileges */ if ((res= create_table_precheck(thd, select_tables, create_table))) goto end_with_restore_list; /* Might have been updated in create_table_precheck */ create_info.alias= create_table->alias; /* Fix names if symlinked or relocated tables */ if (append_file_to_dir(thd, &create_info.data_file_name, &create_table->table_name) || append_file_to_dir(thd, &create_info.index_file_name, &create_table->table_name)) goto end_with_restore_list; /* If no engine type was given, work out the default now rather than at parse-time. */ if (!(create_info.used_fields & HA_CREATE_USED_ENGINE)) create_info.use_default_db_type(thd); DBUG_ASSERT(!(create_info.used_fields & HA_CREATE_USED_CHARSET)); DBUG_ASSERT(create_info.convert_charset_collation.is_empty()); /* If we are a slave, we should add OR REPLACE if we don't have IF EXISTS. This will help a slave to recover from CREATE TABLE OR EXISTS failures by dropping the table and retrying the create. */ if (thd->slave_thread && slave_ddl_exec_mode_options == SLAVE_EXEC_MODE_IDEMPOTENT && !lex->create_info.if_not_exists()) { create_info.add(DDL_options_st::OPT_OR_REPLACE); create_info.add(DDL_options_st::OPT_OR_REPLACE_SLAVE_GENERATED); } #ifdef WITH_PARTITION_STORAGE_ENGINE thd->work_part_info= 0; { partition_info *part_info= thd->lex->part_info; if (part_info && !(part_info= part_info->get_clone(thd))) { res= -1; goto end_with_restore_list; } thd->work_part_info= part_info; } #endif if (select_lex->item_list.elements || select_lex->tvc) // With select or TVC { select_result *result; /* CREATE TABLE...IGNORE/REPLACE SELECT... can be unsafe, unless ORDER BY PRIMARY KEY clause is used in SELECT statement. We therefore use row based logging if mixed or row based logging is available. TODO: Check if the order of the output of the select statement is deterministic. Waiting for BUG#42415 */ if(lex->ignore) lex->set_stmt_unsafe(LEX::BINLOG_STMT_UNSAFE_CREATE_IGNORE_SELECT); if(lex->duplicates == DUP_REPLACE) lex->set_stmt_unsafe(LEX::BINLOG_STMT_UNSAFE_CREATE_REPLACE_SELECT); /* If: a) we inside an SP and there was NAME_CONST substitution, b) binlogging is on (STMT mode), c) we log the SP as separate statements raise a warning, as it may cause problems (see 'NAME_CONST issues' in 'Binary Logging of Stored Programs') */ if (thd->query_name_consts && mysql_bin_log.is_open() && thd->wsrep_binlog_format() == BINLOG_FORMAT_STMT && !mysql_bin_log.is_query_in_union(thd, thd->query_id)) { List_iterator_fast it(select_lex->item_list); Item *item; uint splocal_refs= 0; /* Count SP local vars in the top-level SELECT list */ while ((item= it++)) { if (item->get_item_splocal()) splocal_refs++; } /* If it differs from number of NAME_CONST substitution applied, we may have a SOME_FUNC(NAME_CONST()) in the SELECT list, that may cause a problem with binary log (see BUG#35383), raise a warning. */ if (splocal_refs != thd->query_name_consts) push_warning(thd, Sql_condition::WARN_LEVEL_WARN, ER_UNKNOWN_ERROR, "Invoked routine ran a statement that may cause problems with " "binary log, see 'NAME_CONST issues' in 'Binary Logging of Stored Programs' " "section of the manual."); } select_lex->options|= SELECT_NO_UNLOCK; unit->set_limit(select_lex); /* Disable non-empty MERGE tables with CREATE...SELECT. Too complicated. See Bug #26379. Empty MERGE tables are read-only and don't allow CREATE...SELECT anyway. */ if (create_info.used_fields & HA_CREATE_USED_UNION) { my_error(ER_WRONG_OBJECT, MYF(0), create_table->db.str, create_table->table_name.str, "BASE TABLE"); res= 1; goto end_with_restore_list; } res= open_and_lock_tables(thd, create_info, lex->query_tables, TRUE, 0); if (unlikely(res)) { /* Got error or warning. Set res to 1 if error */ if (!(res= thd->is_error())) my_ok(thd); // CREATE ... IF NOT EXISTS goto end_with_restore_list; } /* Ensure we don't try to create something from which we select from */ if (create_info.or_replace() && !create_info.tmp_table()) { if (TABLE_LIST *duplicate= unique_table(thd, lex->query_tables, lex->query_tables->next_global, CHECK_DUP_FOR_CREATE | CHECK_DUP_SKIP_TEMP_TABLE)) { update_non_unique_table_error(lex->query_tables, "CREATE", duplicate); res= TRUE; goto end_with_restore_list; } } { /* Remove target table from main select and name resolution context. This can't be done earlier as it will break view merging in statements like "CREATE TABLE IF NOT EXISTS existing_view SELECT". */ lex->unlink_first_table(&link_to_local); /* Store reference to table in case of LOCK TABLES */ create_info.table= create_table->table; /* select_create is currently not re-execution friendly and needs to be created for every execution of a PS/SP. Note: In wsrep-patch, CTAS is handled like a regular transaction. */ if ((result= new (thd->mem_root) select_create(thd, create_table, &create_info, &alter_info, select_lex->item_list, lex->duplicates, lex->ignore, select_tables))) { /* CREATE from SELECT give its SELECT_LEX for SELECT, and item_list belong to SELECT */ if (!(res= handle_select(thd, lex, result, 0))) { if (create_info.tmp_table()) thd->variables.option_bits|= OPTION_BINLOG_THIS_TRX; } delete result; } lex->link_first_table_back(create_table, link_to_local); } } else { /* regular create */ if (create_info.like()) { /* CREATE TABLE ... LIKE ... */ res= mysql_create_like_table(thd, create_table, select_tables, &create_info); } else { if (create_info.fix_create_fields(thd, &alter_info, *create_table) || create_info.check_fields(thd, &alter_info, create_table->table_name, create_table->db)) goto end_with_restore_list; /* In STATEMENT format, we probably have to replicate also temporary tables, like mysql replication does. Also check if the requested engine is allowed/supported. */ if (WSREP(thd)) { handlerton *orig_ht= create_info.db_type; if (!check_engine(thd, create_table->db.str, create_table->table_name.str, &create_info) && (!thd->is_current_stmt_binlog_format_row() || !create_info.tmp_table())) { #ifdef WITH_WSREP WSREP_TO_ISOLATION_BEGIN_ALTER(create_table->db.str, create_table->table_name.str, first_table, &alter_info, NULL, &create_info) { WSREP_WARN("CREATE TABLE isolation failure"); DBUG_RETURN(true); } #endif /* WITH_WSREP */ } // check_engine will set db_type to NULL if e.g. TEMPORARY is // not supported by the storage engine, this case is checked // again in mysql_create_table create_info.db_type= orig_ht; } /* Regular CREATE TABLE */ res= mysql_create_table(thd, create_table, &create_info, &alter_info); } if (!res) { /* So that CREATE TEMPORARY TABLE gets to binlog at commit/rollback */ if (create_info.tmp_table()) thd->variables.option_bits|= OPTION_BINLOG_THIS_TRX; /* in case of create temp tables if @@session_track_state_change is ON then send session state notification in OK packet */ if (create_info.options & HA_LEX_CREATE_TMP_TABLE) { thd->session_tracker.state_change.mark_as_changed(thd); } my_ok(thd); } } end_with_restore_list: DBUG_RETURN(res); } bool HA_CREATE_INFO:: resolve_to_charset_collation_context(THD *thd, const Lex_table_charset_collation_attrs_st &default_cscl_arg, const Lex_table_charset_collation_attrs_st &convert_cscl, const Charset_collation_context &ctx) { /* If CONVERT TO clauses are specified only (without table default clauses), then we copy CONVERT TO clauses to default clauses, so e.g: CONVERT TO CHARACTER SET utf8mb4 means CONVERT TO CHARACTER SET utf8mb4, DEFAULT CHARACTER SET utf8mb4 */ Lex_table_charset_collation_attrs_st default_cscl= !convert_cscl.is_empty() && default_cscl_arg.is_empty() ? convert_cscl : default_cscl_arg; if (default_cscl.is_empty()) default_table_charset= ctx.collate_default().charset_info(); else { // Make sure we don't do double resolution in direct SQL execution DBUG_ASSERT(!default_table_charset || thd->stmt_arena->is_stmt_execute()); if (!(default_table_charset= default_cscl.resolved_to_context(ctx))) return true; } if (convert_cscl.is_empty()) alter_table_convert_to_charset= NULL; else { // Make sure we don't do double resolution in direct SQL execution DBUG_ASSERT(!alter_table_convert_to_charset || thd->stmt_arena->is_stmt_execute()); if (!(alter_table_convert_to_charset= convert_cscl.resolved_to_context(ctx))) return true; } return false; }