/* Copyright (c) 2000, 2011, Oracle and/or its affiliates. Copyright (c) 2009, 2018, MariaDB Corporation 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 02110-1301 USA */ /* Functions to create a unireg form-file from a FIELD and a fieldname-fieldinfo struct. In the following functions FIELD * is an ordinary field-structure with the following exeptions: sc_length,typepos,row,kol,dtype,regnr and field need not to be set. str is a (long) to record position where 0 is the first position. */ #include "mariadb.h" #include "sql_priv.h" #include "unireg.h" #include "sql_partition.h" // struct partition_info #include "sql_class.h" // THD, Internal_error_handler #include "create_options.h" #include "discover.h" #include #define FCOMP 17 /* Bytes for a packed field */ /* threshold for safe_alloca */ #define ALLOCA_THRESHOLD 2048 static uint pack_keys(uchar *,uint, KEY *, ulong); static bool pack_header(THD *, uchar *, List &, HA_CREATE_INFO *, ulong, handler *); static bool pack_vcols(String *, List &, List *); static uint get_interval_id(uint *,List &, Create_field *); static bool pack_fields(uchar **, List &, HA_CREATE_INFO*, ulong); static size_t packed_fields_length(List &); static bool make_empty_rec(THD *, uchar *, uint, List &, uint, ulong); /* write the length as if ( 0 < length <= 255) one byte if (256 < length <= 65535) zero byte, then two bytes, low-endian */ static uchar *extra2_write_len(uchar *pos, size_t len) { if (len <= 255) *pos++= (uchar)len; else { /* At the moment we support options_len up to 64K. We can easily extend it in the future, if the need arises. */ DBUG_ASSERT(len <= 65535); int2store(pos + 1, len); pos+= 3; } return pos; } static uchar *extra2_write(uchar *pos, enum extra2_frm_value_type type, const LEX_CSTRING *str) { *pos++ = type; pos= extra2_write_len(pos, str->length); memcpy(pos, str->str, str->length); return pos + str->length; } static uchar *extra2_write(uchar *pos, enum extra2_frm_value_type type, LEX_CUSTRING *str) { return extra2_write(pos, type, reinterpret_cast(str)); } static uchar *extra2_write_field_properties(uchar *pos, List &create_fields) { List_iterator it(create_fields); *pos++= EXTRA2_FIELD_FLAGS; /* always first 2 for field visibility */ pos= extra2_write_len(pos, create_fields.elements); while (Create_field *cf= it++) { uchar flags= cf->invisible; if (cf->flags & VERS_UPDATE_UNVERSIONED_FLAG) flags|= VERS_OPTIMIZED_UPDATE; *pos++= flags; } return pos; } static const bool ROW_START = true; static const bool ROW_END = false; static inline uint16 vers_get_field(HA_CREATE_INFO *create_info, List &create_fields, bool row_start) { DBUG_ASSERT(create_info->versioned()); List_iterator it(create_fields); Create_field *sql_field = NULL; const Lex_ident row_field= row_start ? create_info->vers_info.as_row.start : create_info->vers_info.as_row.end; DBUG_ASSERT(row_field); for (unsigned field_no = 0; (sql_field = it++); ++field_no) { if (row_field.streq(sql_field->field_name)) { DBUG_ASSERT(field_no <= uint16(~0U)); return uint16(field_no); } } DBUG_ASSERT(0); /* Not Reachable */ return 0; } static inline bool has_extra2_field_flags(List &create_fields) { List_iterator it(create_fields); while (Create_field *f= it++) { if (f->invisible) return true; if (f->flags & VERS_UPDATE_UNVERSIONED_FLAG) return true; } return false; } /** Create a frm (table definition) file @param thd Thread handler @param table Name of table @param create_info create info parameters @param create_fields Fields to create @param keys number of keys to create @param key_info Keys to create @param db_file Handler to use. @return the generated frm image as a LEX_CUSTRING, or null LEX_CUSTRING (str==0) in case of an error. */ LEX_CUSTRING build_frm_image(THD *thd, const LEX_CSTRING *table, HA_CREATE_INFO *create_info, List &create_fields, uint keys, KEY *key_info, handler *db_file) { LEX_CSTRING str_db_type; uint reclength, key_info_length, i; ulong key_buff_length; size_t filepos; ulong data_offset; uint options_len; uint gis_extra2_len= 0; uchar fileinfo[FRM_HEADER_SIZE],forminfo[FRM_FORMINFO_SIZE]; const partition_info *part_info= IF_PARTITIONING(thd->work_part_info, 0); bool error; uchar *frm_ptr, *pos; LEX_CUSTRING frm= {0,0}; StringBuffer vcols; DBUG_ENTER("build_frm_image"); /* If fixed row records, we need one bit to check for deleted rows */ if (!(create_info->table_options & HA_OPTION_PACK_RECORD)) create_info->null_bits++; data_offset= (create_info->null_bits + 7) / 8; sql_mode_t save_sql_mode= thd->variables.sql_mode; thd->variables.sql_mode &= ~MODE_ANSI_QUOTES; error= pack_vcols(&vcols, create_fields, create_info->check_constraint_list); thd->variables.sql_mode= save_sql_mode; if (unlikely(error)) DBUG_RETURN(frm); if (vcols.length()) create_info->expression_length= vcols.length() + FRM_VCOL_NEW_BASE_SIZE; error= pack_header(thd, forminfo, create_fields, create_info, (ulong)data_offset, db_file); if (unlikely(error)) DBUG_RETURN(frm); reclength= uint2korr(forminfo+266); /* Calculate extra data segment length */ str_db_type= *hton_name(create_info->db_type); /* str_db_type */ create_info->extra_size= (uint)(2 + str_db_type.length + 2 + create_info->connect_string.length); /* Partition: Length of partition info = 4 byte Potential NULL byte at end of partition info string = 1 byte Indicator if auto-partitioned table = 1 byte => Total 6 byte */ create_info->extra_size+= 6; if (part_info) create_info->extra_size+= (uint)part_info->part_info_len; for (i= 0; i < keys; i++) { if (key_info[i].parser_name) create_info->extra_size+= (uint)key_info[i].parser_name->length + 1; } options_len= engine_table_options_frm_length(create_info->option_list, create_fields, keys, key_info); #ifdef HAVE_SPATIAL gis_extra2_len= gis_field_options_image(NULL, create_fields); #endif /*HAVE_SPATIAL*/ DBUG_PRINT("info", ("Options length: %u", options_len)); if (validate_comment_length(thd, &create_info->comment, TABLE_COMMENT_MAXLEN, ER_TOO_LONG_TABLE_COMMENT, table->str)) DBUG_RETURN(frm); /* If table comment is longer than TABLE_COMMENT_INLINE_MAXLEN bytes, store the comment in an extra segment (up to TABLE_COMMENT_MAXLEN bytes). Pre 5.5, the limit was 60 characters, with no extra segment-handling. */ if (create_info->comment.length > TABLE_COMMENT_INLINE_MAXLEN) { forminfo[46]=255; create_info->extra_size+= 2 + (uint)create_info->comment.length; } else { strmake((char*) forminfo+47, create_info->comment.str ? create_info->comment.str : "", create_info->comment.length); forminfo[46]=(uchar) create_info->comment.length; } if (!create_info->tabledef_version.str) { uchar *to= (uchar*) thd->alloc(MY_UUID_SIZE); if (unlikely(!to)) DBUG_RETURN(frm); my_uuid(to); create_info->tabledef_version.str= to; create_info->tabledef_version.length= MY_UUID_SIZE; } DBUG_ASSERT(create_info->tabledef_version.length > 0); DBUG_ASSERT(create_info->tabledef_version.length <= 255); prepare_frm_header(thd, reclength, fileinfo, create_info, keys, key_info); /* one byte for a type, one or three for a length */ size_t extra2_size= 1 + 1 + create_info->tabledef_version.length; if (options_len) extra2_size+= 1 + (options_len > 255 ? 3 : 1) + options_len; if (part_info) extra2_size+= 1 + 1 + hton_name(part_info->default_engine_type)->length; if (gis_extra2_len) extra2_size+= 1 + (gis_extra2_len > 255 ? 3 : 1) + gis_extra2_len; if (create_info->versioned()) { extra2_size+= 1 + 1 + 2 * sizeof(uint16); } bool has_extra2_field_flags_= has_extra2_field_flags(create_fields); if (has_extra2_field_flags_) { extra2_size+= 1 + (create_fields.elements > 255 ? 3 : 1) + create_fields.elements; } key_buff_length= uint4korr(fileinfo+47); frm.length= FRM_HEADER_SIZE; // fileinfo; frm.length+= extra2_size + 4; // mariadb extra2 frm segment int2store(fileinfo+4, extra2_size); int2store(fileinfo+6, frm.length); // Position to key information frm.length+= key_buff_length; frm.length+= reclength; // row with default values frm.length+= create_info->extra_size; filepos= frm.length; frm.length+= FRM_FORMINFO_SIZE; // forminfo frm.length+= packed_fields_length(create_fields); frm.length+= create_info->expression_length; if (frm.length > FRM_MAX_SIZE || create_info->expression_length > UINT_MAX32) { my_error(ER_TABLE_DEFINITION_TOO_BIG, MYF(0), table->str); DBUG_RETURN(frm); } frm_ptr= (uchar*) my_malloc(frm.length, MYF(MY_WME | MY_ZEROFILL | MY_THREAD_SPECIFIC)); if (!frm_ptr) DBUG_RETURN(frm); /* write the extra2 segment */ pos = frm_ptr + 64; compile_time_assert(EXTRA2_TABLEDEF_VERSION != '/'); pos= extra2_write(pos, EXTRA2_TABLEDEF_VERSION, &create_info->tabledef_version); if (part_info) pos= extra2_write(pos, EXTRA2_DEFAULT_PART_ENGINE, hton_name(part_info->default_engine_type)); if (options_len) { *pos++= EXTRA2_ENGINE_TABLEOPTS; pos= extra2_write_len(pos, options_len); pos= engine_table_options_frm_image(pos, create_info->option_list, create_fields, keys, key_info); } #ifdef HAVE_SPATIAL if (gis_extra2_len) { *pos= EXTRA2_GIS; pos= extra2_write_len(pos+1, gis_extra2_len); pos+= gis_field_options_image(pos, create_fields); } #endif /*HAVE_SPATIAL*/ if (create_info->versioned()) { *pos++= EXTRA2_PERIOD_FOR_SYSTEM_TIME; *pos++= 2 * sizeof(uint16); int2store(pos, vers_get_field(create_info, create_fields, ROW_START)); pos+= sizeof(uint16); int2store(pos, vers_get_field(create_info, create_fields, ROW_END)); pos+= sizeof(uint16); } if (has_extra2_field_flags_) pos= extra2_write_field_properties(pos, create_fields); int4store(pos, filepos); // end of the extra2 segment pos+= 4; DBUG_ASSERT(pos == frm_ptr + uint2korr(fileinfo+6)); key_info_length= pack_keys(pos, keys, key_info, data_offset); if (key_info_length > UINT_MAX16) { my_printf_error(ER_CANT_CREATE_TABLE, "Cannot create table %`s: index information is too long. " "Decrease number of indexes or use shorter index names or shorter comments.", MYF(0), table->str); goto err; } int2store(forminfo+2, frm.length - filepos); int4store(fileinfo+10, frm.length); fileinfo[26]= (uchar) MY_TEST((create_info->max_rows == 1) && (create_info->min_rows == 1) && (keys == 0)); int2store(fileinfo+28,key_info_length); if (part_info) { fileinfo[61]= (uchar) ha_legacy_type(part_info->default_engine_type); DBUG_PRINT("info", ("part_db_type = %d", fileinfo[61])); } memcpy(frm_ptr, fileinfo, FRM_HEADER_SIZE); pos+= key_buff_length; if (make_empty_rec(thd, pos, create_info->table_options, create_fields, reclength, data_offset)) goto err; pos+= reclength; int2store(pos, create_info->connect_string.length); pos+= 2; memcpy(pos, create_info->connect_string.str, create_info->connect_string.length); pos+= create_info->connect_string.length; int2store(pos, str_db_type.length); pos+= 2; memcpy(pos, str_db_type.str, str_db_type.length); pos+= str_db_type.length; if (part_info) { char auto_partitioned= part_info->is_auto_partitioned ? 1 : 0; int4store(pos, part_info->part_info_len); pos+= 4; memcpy(pos, part_info->part_info_string, part_info->part_info_len + 1); pos+= part_info->part_info_len + 1; *pos++= auto_partitioned; } else { pos+= 6; } for (i= 0; i < keys; i++) { if (key_info[i].parser_name) { memcpy(pos, key_info[i].parser_name->str, key_info[i].parser_name->length + 1); pos+= key_info[i].parser_name->length + 1; } } if (forminfo[46] == (uchar)255) // New style MySQL 5.5 table comment { int2store(pos, create_info->comment.length); pos+=2; memcpy(pos, create_info->comment.str, create_info->comment.length); pos+= create_info->comment.length; } memcpy(frm_ptr + filepos, forminfo, 288); pos= frm_ptr + filepos + 288; if (pack_fields(&pos, create_fields, create_info, data_offset)) goto err; if (vcols.length()) { /* Store header for packed fields (extra space for future) */ bzero(pos, FRM_VCOL_NEW_BASE_SIZE); pos+= FRM_VCOL_NEW_BASE_SIZE; memcpy(pos, vcols.ptr(), vcols.length()); pos+= vcols.length(); } { /* Restore all UCS2 intervals. HEX representation of them is not needed anymore. */ List_iterator it(create_fields); Create_field *field; while ((field=it++)) { if (field->save_interval) { field->interval= field->save_interval; field->save_interval= 0; } } } frm.str= frm_ptr; DBUG_RETURN(frm); err: my_free(frm_ptr); DBUG_RETURN(frm); } /** Create a frm (table definition) file and the tables @param thd Thread handler @param frm Binary frm image of the table to create @param path Name of file (including database, without .frm) @param db Data base name @param table_name Table name @param create_info create info parameters @param file Handler to use or NULL if only frm needs to be created @retval 0 ok @retval 1 error */ int rea_create_table(THD *thd, LEX_CUSTRING *frm, const char *path, const char *db, const char *table_name, HA_CREATE_INFO *create_info, handler *file, bool no_ha_create_table) { DBUG_ENTER("rea_create_table"); if (no_ha_create_table) { if (writefrm(path, db, table_name, true, frm->str, frm->length)) goto err_frm; } if (thd->variables.keep_files_on_create) create_info->options|= HA_CREATE_KEEP_FILES; if (file->ha_create_partitioning_metadata(path, NULL, CHF_CREATE_FLAG)) goto err_part; if (!no_ha_create_table) { if (ha_create_table(thd, path, db, table_name, create_info, frm)) goto err_part; } DBUG_RETURN(0); err_part: file->ha_create_partitioning_metadata(path, NULL, CHF_DELETE_FLAG); err_frm: deletefrm(path); DBUG_RETURN(1); } /* rea_create_table */ /* Pack keyinfo and keynames to keybuff for save in form-file. */ static uint pack_keys(uchar *keybuff, uint key_count, KEY *keyinfo, ulong data_offset) { uint key_parts,length; uchar *pos, *keyname_pos; KEY *key,*end; KEY_PART_INFO *key_part,*key_part_end; DBUG_ENTER("pack_keys"); pos=keybuff+6; key_parts=0; for (key=keyinfo,end=keyinfo+key_count ; key != end ; key++) { int2store(pos, (key->flags ^ HA_NOSAME)); int2store(pos+2,key->key_length); pos[4]= (uchar) key->user_defined_key_parts; pos[5]= (uchar) key->algorithm; int2store(pos+6, key->block_size); pos+=8; key_parts+=key->user_defined_key_parts; DBUG_PRINT("loop", ("flags: %lu key_parts: %d key_part: %p", key->flags, key->user_defined_key_parts, key->key_part)); for (key_part=key->key_part,key_part_end=key_part+key->user_defined_key_parts ; key_part != key_part_end ; key_part++) { uint offset; DBUG_PRINT("loop",("field: %d startpos: %lu length: %d", key_part->fieldnr, key_part->offset + data_offset, key_part->length)); int2store(pos,key_part->fieldnr+1+FIELD_NAME_USED); offset= (uint) (key_part->offset+data_offset+1); int2store(pos+2, offset); pos[4]=0; // Sort order int2store(pos+5,key_part->key_type); int2store(pos+7,key_part->length); pos+=9; } } /* Save keynames */ keyname_pos=pos; *pos++=(uchar) NAMES_SEP_CHAR; for (key=keyinfo ; key != end ; key++) { uchar *tmp=(uchar*) strmov((char*) pos,key->name.str); *tmp++= (uchar) NAMES_SEP_CHAR; *tmp=0; pos=tmp; } *(pos++)=0; for (key=keyinfo,end=keyinfo+key_count ; key != end ; key++) { if (key->flags & HA_USES_COMMENT) { int2store(pos, key->comment.length); uchar *tmp= (uchar*)strnmov((char*) pos+2,key->comment.str, key->comment.length); pos= tmp; } } if (key_count > 127 || key_parts > 127) { keybuff[0]= (key_count & 0x7f) | 0x80; keybuff[1]= key_count >> 7; int2store(keybuff+2,key_parts); } else { keybuff[0]=(uchar) key_count; keybuff[1]=(uchar) key_parts; keybuff[2]= keybuff[3]= 0; } length=(uint) (pos-keyname_pos); int2store(keybuff+4,length); DBUG_RETURN((uint) (pos-keybuff)); } /* pack_keys */ /** Pack the expression (for GENERATED ALWAYS AS, DEFAULT, CHECK) The data is stored as: 1 byte type (enum_vcol_info_type) 2 bytes field_number 2 bytes length of expression 1 byte length of name name next bytes column expression (text data) @return 0 ok @return 1 error (out of memory or wrong characters in expression) */ static bool pack_expression(String *buf, Virtual_column_info *vcol, uint field_nr, enum_vcol_info_type type) { if (buf->reserve(FRM_VCOL_NEW_HEADER_SIZE + vcol->name.length)) return 1; buf->q_append((char) type); buf->q_append2b(field_nr); size_t len_off= buf->length(); buf->q_append2b(0); // to be added later buf->q_append((char)vcol->name.length); buf->q_append(&vcol->name); size_t expr_start= buf->length(); vcol->print(buf); size_t expr_len= buf->length() - expr_start; if (expr_len >= 65536) { my_error(ER_EXPRESSION_IS_TOO_BIG, MYF(0), vcol_type_name(type)); return 1; } int2store(buf->ptr() + len_off, expr_len); return 0; } static bool pack_vcols(String *buf, List &create_fields, List *check_constraint_list) { List_iterator it(create_fields); Create_field *field; for (uint field_nr=0; (field= it++); field_nr++) { if (field->vcol_info) if (pack_expression(buf, field->vcol_info, field_nr, field->vcol_info->stored_in_db ? VCOL_GENERATED_STORED : VCOL_GENERATED_VIRTUAL)) return 1; if (field->has_default_expression() && !field->has_default_now_unireg_check()) if (pack_expression(buf, field->default_value, field_nr, VCOL_DEFAULT)) return 1; if (field->check_constraint) if (pack_expression(buf, field->check_constraint, field_nr, VCOL_CHECK_FIELD)) return 1; } List_iterator cit(*check_constraint_list); Virtual_column_info *check; while ((check= cit++)) if (pack_expression(buf, check, UINT_MAX32, VCOL_CHECK_TABLE)) return 1; return 0; } /* Make formheader */ static bool pack_header(THD *thd, uchar *forminfo, List &create_fields, HA_CREATE_INFO *create_info, ulong data_offset, handler *file) { uint int_count,int_length, int_parts; uint time_stamp_pos,null_fields; uint table_options= create_info->table_options; size_t length, reclength, totlength, n_length, com_length; DBUG_ENTER("pack_header"); if (create_fields.elements > MAX_FIELDS) { my_message(ER_TOO_MANY_FIELDS, ER_THD(thd, ER_TOO_MANY_FIELDS), MYF(0)); DBUG_RETURN(1); } totlength= 0L; reclength= data_offset; int_count=int_parts=int_length=time_stamp_pos=null_fields=0; com_length= 0; n_length=2L; create_info->field_check_constraints= 0; /* Check fields */ List_iterator it(create_fields); Create_field *field; while ((field=it++)) { if (validate_comment_length(thd, &field->comment, COLUMN_COMMENT_MAXLEN, ER_TOO_LONG_FIELD_COMMENT, field->field_name.str)) DBUG_RETURN(1); totlength+= (size_t)field->length; com_length+= field->comment.length; /* We mark first TIMESTAMP field with NOW() in DEFAULT or ON UPDATE as auto-update field. */ if (field->real_field_type() == MYSQL_TYPE_TIMESTAMP && MTYP_TYPENR(field->unireg_check) != Field::NONE && !time_stamp_pos) time_stamp_pos= (uint) field->offset+ (uint) data_offset + 1; length=field->pack_length; if ((uint) field->offset+ (uint) data_offset+ length > reclength) reclength=(uint) (field->offset+ data_offset + length); n_length+= field->field_name.length + 1; field->interval_id=0; field->save_interval= 0; if (field->interval) { uint old_int_count=int_count; if (field->charset->mbminlen > 1) { /* Escape UCS2 intervals using HEX notation to avoid problems with delimiters between enum elements. As the original representation is still needed in the function make_empty_rec to create a record of filled with default values it is saved in save_interval The HEX representation is created from this copy. */ field->save_interval= field->interval; field->interval= (TYPELIB*) thd->alloc(sizeof(TYPELIB)); *field->interval= *field->save_interval; field->interval->type_names= (const char **) thd->alloc(sizeof(char*) * (field->interval->count+1)); field->interval->type_names[field->interval->count]= 0; field->interval->type_lengths= (uint *) thd->alloc(sizeof(uint) * field->interval->count); for (uint pos= 0; pos < field->interval->count; pos++) { char *dst; const char *src= field->save_interval->type_names[pos]; size_t hex_length; length= field->save_interval->type_lengths[pos]; hex_length= length * 2; field->interval->type_lengths[pos]= (uint)hex_length; field->interval->type_names[pos]= dst= (char*) thd->alloc(hex_length + 1); octet2hex(dst, src, length); } } field->interval_id=get_interval_id(&int_count,create_fields,field); if (old_int_count != int_count) { for (const char **pos=field->interval->type_names ; *pos ; pos++) int_length+=(uint) strlen(*pos)+1; // field + suffix prefix int_parts+=field->interval->count+1; } } if (f_maybe_null(field->pack_flag)) null_fields++; if (field->check_constraint) create_info->field_check_constraints++; } int_length+=int_count*2; // 255 prefix + 0 suffix /* Save values in forminfo */ if (reclength > (ulong) file->max_record_length()) { my_error(ER_TOO_BIG_ROWSIZE, MYF(0), static_cast(file->max_record_length())); DBUG_RETURN(1); } /* Hack to avoid bugs with small static rows in MySQL */ reclength= MY_MAX(file->min_record_length(table_options), reclength); length= n_length + create_fields.elements*FCOMP + FRM_FORMINFO_SIZE + int_length + com_length + create_info->expression_length; if (length > 65535L || int_count > 255) { my_message(ER_TOO_MANY_FIELDS, "Table definition is too large", MYF(0)); DBUG_RETURN(1); } bzero((char*)forminfo,FRM_FORMINFO_SIZE); int2store(forminfo,length); int2store(forminfo+258,create_fields.elements); // bytes 260-261 are unused int2store(forminfo+262,totlength); // bytes 264-265 are unused int2store(forminfo+266,reclength); int2store(forminfo+268,n_length); int2store(forminfo+270,int_count); int2store(forminfo+272,int_parts); int2store(forminfo+274,int_length); int2store(forminfo+276,time_stamp_pos); int2store(forminfo+278,80); /* Columns needed */ int2store(forminfo+280,22); /* Rows needed */ int2store(forminfo+282,null_fields); int2store(forminfo+284,com_length); int2store(forminfo+286,create_info->expression_length); DBUG_RETURN(0); } /* pack_header */ /* get each unique interval each own id */ static uint get_interval_id(uint *int_count,List &create_fields, Create_field *last_field) { List_iterator it(create_fields); Create_field *field; TYPELIB *interval=last_field->interval; while ((field=it++) != last_field) { if (field->interval_id && field->interval->count == interval->count) { const char **a,**b; for (a=field->interval->type_names, b=interval->type_names ; *a && !strcmp(*a,*b); a++,b++) ; if (! *a) { return field->interval_id; // Re-use last interval } } } return ++*int_count; // New unique interval } static size_t packed_fields_length(List &create_fields) { Create_field *field; size_t length= 0; DBUG_ENTER("packed_fields_length"); List_iterator it(create_fields); uint int_count=0; while ((field=it++)) { if (field->interval_id > int_count) { int_count= field->interval_id; length++; for (int i=0; field->interval->type_names[i]; i++) { length+= field->interval->type_lengths[i]; length++; } length++; } length+= FCOMP; length+= field->field_name.length + 1; length+= field->comment.length; } length+= 2; DBUG_RETURN(length); } /* Save fields, fieldnames and intervals */ static bool pack_fields(uchar **buff_arg, List &create_fields, HA_CREATE_INFO *create_info, ulong data_offset) { uchar *buff= *buff_arg; uint int_count; size_t comment_length= 0; Create_field *field; DBUG_ENTER("pack_fields"); /* Write field info */ List_iterator it(create_fields); int_count=0; while ((field=it++)) { uint recpos; int2store(buff+3, field->length); /* The +1 is here becasue the col offset in .frm file have offset 1 */ recpos= field->offset+1 + (uint) data_offset; int3store(buff+5,recpos); int2store(buff+8,field->pack_flag); buff[10]= (uchar) field->unireg_check; buff[12]= (uchar) field->interval_id; buff[13]= (uchar) field->real_field_type(); if (field->real_field_type() == MYSQL_TYPE_GEOMETRY) { buff[11]= 0; buff[14]= (uchar) field->geom_type; #ifndef HAVE_SPATIAL DBUG_ASSERT(0); // Should newer happen #endif } else if (field->charset) { buff[11]= (uchar) (field->charset->number >> 8); buff[14]= (uchar) field->charset->number; } else { buff[11]= buff[14]= 0; // Numerical } int2store(buff+15, field->comment.length); comment_length+= field->comment.length; set_if_bigger(int_count,field->interval_id); buff+= FCOMP; } /* Write fieldnames */ *buff++= NAMES_SEP_CHAR; it.rewind(); while ((field=it++)) { buff= (uchar*)strmov((char*) buff, field->field_name.str); *buff++=NAMES_SEP_CHAR; } *buff++= 0; /* Write intervals */ if (int_count) { it.rewind(); int_count=0; while ((field=it++)) { if (field->interval_id > int_count) { unsigned char sep= 0; unsigned char occ[256]; uint i; unsigned char *val= NULL; bzero(occ, sizeof(occ)); for (i=0; (val= (unsigned char*) field->interval->type_names[i]); i++) for (uint j = 0; j < field->interval->type_lengths[i]; j++) occ[(unsigned int) (val[j])]= 1; if (!occ[(unsigned char)NAMES_SEP_CHAR]) sep= (unsigned char) NAMES_SEP_CHAR; else if (!occ[(unsigned int)',']) sep= ','; else { for (uint i=1; i<256; i++) { if(!occ[i]) { sep= i; break; } } if (!sep) { /* disaster, enum uses all characters, none left as separator */ my_message(ER_WRONG_FIELD_TERMINATORS, ER(ER_WRONG_FIELD_TERMINATORS), MYF(0)); DBUG_RETURN(1); } } int_count= field->interval_id; *buff++= sep; for (int i=0; field->interval->type_names[i]; i++) { memcpy(buff, field->interval->type_names[i], field->interval->type_lengths[i]); buff+= field->interval->type_lengths[i]; *buff++= sep; } *buff++= 0; } } } if (comment_length) { it.rewind(); while ((field=it++)) { memcpy(buff, field->comment.str, field->comment.length); buff+= field->comment.length; } } *buff_arg= buff; DBUG_RETURN(0); } /* save an empty record on start of formfile */ static bool make_empty_rec(THD *thd, uchar *buff, uint table_options, List &create_fields, uint reclength, ulong data_offset) { int error= 0; uint null_count; uchar *null_pos; TABLE table; TABLE_SHARE share; Create_field *field; enum_check_fields old_count_cuted_fields= thd->count_cuted_fields; DBUG_ENTER("make_empty_rec"); /* We need a table to generate columns for default values */ bzero((char*) &table, sizeof(table)); bzero((char*) &share, sizeof(share)); table.s= &share; table.in_use= thd; null_count=0; if (!(table_options & HA_OPTION_PACK_RECORD)) { null_count++; // Need one bit for delete mark *buff|= 1; } null_pos= buff; List_iterator it(create_fields); thd->count_cuted_fields= CHECK_FIELD_WARN; // To find wrong default values while ((field=it++)) { /* regfield don't have to be deleted as it's allocated on THD::mem_root */ Field *regfield= make_field(&share, thd->mem_root, buff+field->offset + data_offset, (uint32)field->length, null_pos + null_count / 8, null_count & 7, field->pack_flag, field->type_handler(), field->charset, field->geom_type, field->srid, field->unireg_check, field->save_interval ? field->save_interval : field->interval, &field->field_name, field->flags); if (!regfield) { error= 1; goto err; // End of memory } /* save_in_field() will access regfield->table->in_use */ regfield->init(&table); if (!(field->flags & NOT_NULL_FLAG)) { *regfield->null_ptr|= regfield->null_bit; null_count++; } if (field->real_field_type() == MYSQL_TYPE_BIT && !f_bit_as_char(field->pack_flag)) null_count+= field->length & 7; if (field->default_value && !field->default_value->flags && (!(field->flags & BLOB_FLAG) || field->real_field_type() == MYSQL_TYPE_GEOMETRY)) { Item *expr= field->default_value->expr; // may be already fixed if ALTER TABLE int res= expr->fix_fields_if_needed(thd, &expr); if (!res) res= expr->save_in_field(regfield, 1); if (!res && (field->flags & BLOB_FLAG)) regfield->reset(); /* If not ok or warning of level 'note' */ if (res != 0 && res != 3) { my_error(ER_INVALID_DEFAULT, MYF(0), regfield->field_name.str); error= 1; delete regfield; //To avoid memory leak goto err; } delete regfield; //To avoid memory leak } else if (regfield->real_type() == MYSQL_TYPE_ENUM && (field->flags & NOT_NULL_FLAG)) { regfield->set_notnull(); regfield->store((longlong) 1, TRUE); } else regfield->reset(); } DBUG_ASSERT(data_offset == ((null_count + 7) / 8)); /* We need to set the unused bits to 1. If the number of bits is a multiple of 8 there are no unused bits. */ if (null_count & 7) *(null_pos + null_count / 8)|= ~(((uchar) 1 << (null_count & 7)) - 1); err: thd->count_cuted_fields= old_count_cuted_fields; DBUG_RETURN(error); } /* make_empty_rec */