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|
/* Copyright (C) 2000-2006 MySQL AB
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; version 2 of the License.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */
/* Some general useful functions */
#include <drizzled/server_includes.h>
#include <drizzled/error.h>
#include <drizzled/gettext.h>
#include <drizzled/sj_tmp_table.h>
#include <drizzled/nested_join.h>
#include <drizzled/data_home.h>
#include <drizzled/sql_parse.h>
#include <drizzled/item/sum.h>
#include <drizzled/virtual_column_info.h>
#include <drizzled/table_list.h>
#include <drizzled/session.h>
#include <drizzled/sql_base.h>
#include <drizzled/field/blob.h>
#include <drizzled/field/varstring.h>
#include <drizzled/field/double.h>
#include <string>
#include <drizzled/unireg.h>
#include <drizzled/serialize/table.pb.h>
#include <drizzled/item/string.h>
#include <drizzled/item/int.h>
#include <drizzled/item/decimal.h>
#include <drizzled/item/float.h>
#include <drizzled/item/null.h>
using namespace std;
/* Keyword for parsing virtual column functions */
LEX_STRING parse_vcol_keyword= { C_STRING_WITH_LEN("PARSE_VCOL_EXPR ") };
/* Functions defined in this file */
void open_table_error(TABLE_SHARE *share, int error, int db_errno,
myf errortype, int errarg);
static void fix_type_pointers(const char ***array, TYPELIB *point_to_type,
uint32_t types, char **names);
/*************************************************************************/
/* Get column name from column hash */
static unsigned char *get_field_name(Field **buff, size_t *length, bool)
{
*length= (uint32_t) strlen((*buff)->field_name);
return (unsigned char*) (*buff)->field_name;
}
/*
Returns pointer to '.frm' extension of the file name.
SYNOPSIS
fn_rext()
name file name
DESCRIPTION
Checks file name part starting with the rightmost '.' character,
and returns it if it is equal to '.frm'.
TODO
It is a good idea to get rid of this function modifying the code
to garantee that the functions presently calling fn_rext() always
get arguments in the same format: either with '.frm' or without '.frm'.
RETURN VALUES
Pointer to the '.frm' extension. If there is no extension,
or extension is not '.frm', pointer at the end of file name.
*/
char *fn_rext(char *name)
{
char *res= strrchr(name, '.');
if (res && !strcmp(res, ".dfe"))
return res;
return name + strlen(name);
}
TABLE_CATEGORY get_table_category(const LEX_STRING *db, const LEX_STRING *name)
{
assert(db != NULL);
assert(name != NULL);
if ((db->length == INFORMATION_SCHEMA_NAME.length()) &&
(my_strcasecmp(system_charset_info,
INFORMATION_SCHEMA_NAME.c_str(),
db->str) == 0))
{
return TABLE_CATEGORY_INFORMATION;
}
return TABLE_CATEGORY_USER;
}
/*
Allocate a setup TABLE_SHARE structure
SYNOPSIS
alloc_table_share()
TableList Take database and table name from there
key Table cache key (db \0 table_name \0...)
key_length Length of key
RETURN
0 Error (out of memory)
# Share
*/
TABLE_SHARE *alloc_table_share(TableList *table_list, char *key,
uint32_t key_length)
{
MEM_ROOT mem_root;
TABLE_SHARE *share;
char *key_buff, *path_buff;
char path[FN_REFLEN];
uint32_t path_length;
path_length= build_table_filename(path, sizeof(path) - 1,
table_list->db,
table_list->table_name, "", 0);
init_sql_alloc(&mem_root, TABLE_ALLOC_BLOCK_SIZE, 0);
if (multi_alloc_root(&mem_root,
&share, sizeof(*share),
&key_buff, key_length,
&path_buff, path_length + 1,
NULL))
{
memset(share, 0, sizeof(*share));
share->set_table_cache_key(key_buff, key, key_length);
share->path.str= path_buff;
share->path.length= path_length;
strcpy(share->path.str, path);
share->normalized_path.str= share->path.str;
share->normalized_path.length= path_length;
share->version= refresh_version;
/*
This constant is used to mark that no table map version has been
assigned. No arithmetic is done on the value: it will be
overwritten with a value taken from DRIZZLE_BIN_LOG.
*/
share->table_map_version= UINT64_MAX;
/*
Since alloc_table_share() can be called without any locking (for
example, ha_create_table... functions), we do not assign a table
map id here. Instead we assign a value that is not used
elsewhere, and then assign a table map id inside open_table()
under the protection of the LOCK_open mutex.
*/
share->table_map_id= UINT32_MAX;
share->cached_row_logging_check= -1;
memcpy(&share->mem_root, &mem_root, sizeof(mem_root));
pthread_mutex_init(&share->mutex, MY_MUTEX_INIT_FAST);
pthread_cond_init(&share->cond, NULL);
}
return(share);
}
/*
Initialize share for temporary tables
SYNOPSIS
init_tmp_table_share()
session thread handle
share Share to fill
key Table_cache_key, as generated from create_table_def_key.
must start with db name.
key_length Length of key
table_name Table name
path Path to file (possible in lower case) without .frm
NOTES
This is different from alloc_table_share() because temporary tables
don't have to be shared between threads or put into the table def
cache, so we can do some things notable simpler and faster
If table is not put in session->temporary_tables (happens only when
one uses OPEN TEMPORARY) then one can specify 'db' as key and
use key_length= 0 as neither table_cache_key or key_length will be used).
*/
void init_tmp_table_share(Session *session, TABLE_SHARE *share, const char *key,
uint32_t key_length, const char *table_name,
const char *path)
{
memset(share, 0, sizeof(*share));
init_sql_alloc(&share->mem_root, TABLE_ALLOC_BLOCK_SIZE, 0);
share->table_category= TABLE_CATEGORY_TEMPORARY;
share->tmp_table= INTERNAL_TMP_TABLE;
share->db.str= (char*) key;
share->db.length= strlen(key);
share->table_cache_key.str= (char*) key;
share->table_cache_key.length= key_length;
share->table_name.str= (char*) table_name;
share->table_name.length= strlen(table_name);
share->path.str= (char*) path;
share->normalized_path.str= (char*) path;
share->path.length= share->normalized_path.length= strlen(path);
/*
Temporary tables are not replicated, but we set up these fields
anyway to be able to catch errors.
*/
share->table_map_version= ~(uint64_t)0;
share->cached_row_logging_check= -1;
/*
table_map_id is also used for MERGE tables to suppress repeated
compatibility checks.
*/
share->table_map_id= (ulong) session->query_id;
return;
}
/*
Free table share and memory used by it
SYNOPSIS
free_table_share()
share Table share
NOTES
share->mutex must be locked when we come here if it's not a temp table
*/
void free_table_share(TABLE_SHARE *share)
{
MEM_ROOT mem_root;
assert(share->ref_count == 0);
/*
If someone is waiting for this to be deleted, inform it about this.
Don't do a delete until we know that no one is refering to this anymore.
*/
if (share->tmp_table == NO_TMP_TABLE)
{
/* share->mutex is locked in release_table_share() */
while (share->waiting_on_cond)
{
pthread_cond_broadcast(&share->cond);
pthread_cond_wait(&share->cond, &share->mutex);
}
/* No thread refers to this anymore */
pthread_mutex_unlock(&share->mutex);
pthread_mutex_destroy(&share->mutex);
pthread_cond_destroy(&share->cond);
}
hash_free(&share->name_hash);
share->db_plugin= NULL;
/* We must copy mem_root from share because share is allocated through it */
memcpy(&mem_root, &share->mem_root, sizeof(mem_root));
free_root(&mem_root, MYF(0)); // Free's share
return;
}
enum_field_types proto_field_type_to_drizzle_type(uint32_t proto_field_type)
{
enum_field_types field_type;
switch(proto_field_type)
{
case drizzle::Table::Field::TINYINT:
field_type= DRIZZLE_TYPE_TINY;
break;
case drizzle::Table::Field::INTEGER:
field_type= DRIZZLE_TYPE_LONG;
break;
case drizzle::Table::Field::DOUBLE:
field_type= DRIZZLE_TYPE_DOUBLE;
break;
case drizzle::Table::Field::TIMESTAMP:
field_type= DRIZZLE_TYPE_TIMESTAMP;
break;
case drizzle::Table::Field::BIGINT:
field_type= DRIZZLE_TYPE_LONGLONG;
break;
case drizzle::Table::Field::DATETIME:
field_type= DRIZZLE_TYPE_DATETIME;
break;
case drizzle::Table::Field::DATE:
field_type= DRIZZLE_TYPE_DATE;
break;
case drizzle::Table::Field::VARCHAR:
field_type= DRIZZLE_TYPE_VARCHAR;
break;
case drizzle::Table::Field::DECIMAL:
field_type= DRIZZLE_TYPE_NEWDECIMAL;
break;
case drizzle::Table::Field::ENUM:
field_type= DRIZZLE_TYPE_ENUM;
break;
case drizzle::Table::Field::BLOB:
field_type= DRIZZLE_TYPE_BLOB;
break;
case drizzle::Table::Field::VIRTUAL:
field_type= DRIZZLE_TYPE_VIRTUAL;
break;
default:
field_type= DRIZZLE_TYPE_TINY; /* Set value to kill GCC warning */
assert(1);
}
return field_type;
}
Item * default_value_item(enum_field_types field_type,
const CHARSET_INFO *charset,
bool default_null, const string *default_value,
const string *default_bin_value)
{
Item *default_item= NULL;
int error= 0;
if(default_null)
{
return new Item_null();
}
switch(field_type)
{
case DRIZZLE_TYPE_TINY:
case DRIZZLE_TYPE_LONG:
case DRIZZLE_TYPE_LONGLONG:
default_item= new Item_int(default_value->c_str(),
(int64_t) my_strtoll10(default_value->c_str(),
NULL,
&error),
default_value->length());
break;
case DRIZZLE_TYPE_DOUBLE:
default_item= new Item_float(default_value->c_str(),
default_value->length());
break;
case DRIZZLE_TYPE_NULL:
assert(false);
case DRIZZLE_TYPE_TIMESTAMP:
case DRIZZLE_TYPE_DATETIME:
case DRIZZLE_TYPE_DATE:
if(default_value->compare("NOW()")==0)
break;
case DRIZZLE_TYPE_ENUM:
default_item= new Item_string(default_value->c_str(),
default_value->length(),
system_charset_info);
break;
case DRIZZLE_TYPE_VARCHAR:
case DRIZZLE_TYPE_BLOB: /* Blob is here due to TINYTEXT. Feel the hate. */
if(charset==&my_charset_bin)
{
default_item= new Item_string(default_bin_value->c_str(),
default_bin_value->length(),
&my_charset_bin);
}
else
{
default_item= new Item_string(default_value->c_str(),
default_value->length(),
system_charset_info);
}
break;
case DRIZZLE_TYPE_VIRTUAL:
break;
case DRIZZLE_TYPE_NEWDECIMAL:
default_item= new Item_decimal(default_value->c_str(),
default_value->length(),
system_charset_info);
break;
}
return default_item;
}
int parse_table_proto(Session *session, drizzle::Table &table, TABLE_SHARE *share)
{
int error= 0;
handler *handler_file= NULL;
{
LEX_STRING engine_name= { (char*)table.engine().name().c_str(),
strlen(table.engine().name().c_str()) };
share->db_plugin= ha_resolve_by_name(session, &engine_name);
}
share->mysql_version= DRIZZLE_VERSION_ID; // TODO: remove
drizzle::Table::TableOptions table_options;
if(table.has_options())
table_options= table.options();
uint32_t db_create_options= HA_OPTION_LONG_BLOB_PTR;
if(table_options.has_pack_keys())
{
if(table_options.pack_keys())
db_create_options|= HA_OPTION_PACK_KEYS;
else
db_create_options|= HA_OPTION_NO_PACK_KEYS;
}
if(table_options.pack_record())
db_create_options|= HA_OPTION_PACK_RECORD;
if(table_options.has_checksum())
{
if(table_options.checksum())
db_create_options|= HA_OPTION_CHECKSUM;
else
db_create_options|= HA_OPTION_NO_CHECKSUM;
}
if(table_options.has_delay_key_write())
{
if(table_options.delay_key_write())
db_create_options|= HA_OPTION_DELAY_KEY_WRITE;
else
db_create_options|= HA_OPTION_NO_DELAY_KEY_WRITE;
}
/* db_create_options was stored as 2 bytes in FRM
Any HA_OPTION_ that doesn't fit into 2 bytes was silently truncated away.
*/
share->db_create_options= (db_create_options & 0x0000FFFF);
share->db_options_in_use= share->db_create_options;
share->avg_row_length= table_options.has_avg_row_length() ?
table_options.avg_row_length() : 0;
share->page_checksum= table_options.has_page_checksum() ?
(table_options.page_checksum()?HA_CHOICE_YES:HA_CHOICE_NO)
: HA_CHOICE_UNDEF;
share->row_type= table_options.has_row_type() ?
(enum row_type) table_options.row_type() : ROW_TYPE_DEFAULT;
share->block_size= table_options.has_block_size() ?
table_options.block_size() : 0;
share->table_charset= get_charset(table_options.has_collation_id()?
table_options.collation_id() : 0);
if (!share->table_charset)
{
/* unknown charset in head[38] or pre-3.23 frm */
if (use_mb(default_charset_info))
{
/* Warn that we may be changing the size of character columns */
errmsg_printf(ERRMSG_LVL_WARN,
_("'%s' had no or invalid character set, "
"and default character set is multi-byte, "
"so character column sizes may have changed"),
share->path.str);
}
share->table_charset= default_charset_info;
}
share->db_record_offset= 1;
share->blob_ptr_size= portable_sizeof_char_ptr; // more bonghits.
share->db_low_byte_first= true;
share->max_rows= table_options.has_max_rows() ?
table_options.max_rows() : 0;
share->min_rows= table_options.has_min_rows() ?
table_options.min_rows() : 0;
share->keys= table.indexes_size();
share->key_parts= 0;
for(int indx= 0; indx < table.indexes_size(); indx++)
share->key_parts+= table.indexes(indx).index_part_size();
share->key_info= (KEY*) alloc_root(&share->mem_root,
table.indexes_size() * sizeof(KEY)
+share->key_parts*sizeof(KEY_PART_INFO));
KEY_PART_INFO *key_part;
key_part= reinterpret_cast<KEY_PART_INFO*>
(share->key_info+table.indexes_size());
ulong *rec_per_key= (ulong*) alloc_root(&share->mem_root,
sizeof(ulong*)*share->key_parts);
share->keynames.count= table.indexes_size();
share->keynames.name= NULL;
share->keynames.type_names= (const char**)
alloc_root(&share->mem_root, sizeof(char*) * (table.indexes_size()+1));
share->keynames.type_lengths= (unsigned int*)
alloc_root(&share->mem_root,
sizeof(unsigned int) * (table.indexes_size()+1));
share->keynames.type_names[share->keynames.count]= NULL;
share->keynames.type_lengths[share->keynames.count]= 0;
KEY* keyinfo= share->key_info;
for (int keynr=0; keynr < table.indexes_size(); keynr++, keyinfo++)
{
drizzle::Table::Index indx= table.indexes(keynr);
keyinfo->table= 0;
keyinfo->flags= 0;
if(indx.is_unique())
keyinfo->flags|= HA_NOSAME;
if(indx.has_options())
{
drizzle::Table::Index::IndexOptions indx_options= indx.options();
if(indx_options.pack_key())
keyinfo->flags|= HA_PACK_KEY;
if(indx_options.var_length_key())
keyinfo->flags|= HA_VAR_LENGTH_PART;
if(indx_options.null_part_key())
keyinfo->flags|= HA_NULL_PART_KEY;
if(indx_options.binary_pack_key())
keyinfo->flags|= HA_BINARY_PACK_KEY;
if(indx_options.has_partial_segments())
keyinfo->flags|= HA_KEY_HAS_PART_KEY_SEG;
if(indx_options.auto_generated_key())
keyinfo->flags|= HA_GENERATED_KEY;
if(indx_options.has_key_block_size())
{
keyinfo->flags|= HA_USES_BLOCK_SIZE;
keyinfo->block_size= indx_options.key_block_size();
}
else
{
keyinfo->block_size= 0;
}
}
switch(indx.type())
{
case drizzle::Table::Index::UNKNOWN_INDEX:
keyinfo->algorithm= HA_KEY_ALG_UNDEF;
break;
case drizzle::Table::Index::BTREE:
keyinfo->algorithm= HA_KEY_ALG_BTREE;
break;
case drizzle::Table::Index::RTREE:
keyinfo->algorithm= HA_KEY_ALG_RTREE;
break;
case drizzle::Table::Index::HASH:
keyinfo->algorithm= HA_KEY_ALG_HASH;
break;
case drizzle::Table::Index::FULLTEXT:
keyinfo->algorithm= HA_KEY_ALG_FULLTEXT;
default:
/* TODO: suitable warning ? */
keyinfo->algorithm= HA_KEY_ALG_UNDEF;
break;
}
keyinfo->key_length= indx.key_length();
keyinfo->key_parts= indx.index_part_size();
keyinfo->key_part= key_part;
keyinfo->rec_per_key= rec_per_key;
for(unsigned int partnr= 0;
partnr < keyinfo->key_parts;
partnr++, key_part++)
{
drizzle::Table::Index::IndexPart part;
part= indx.index_part(partnr);
*rec_per_key++=0;
key_part->field= NULL;
key_part->fieldnr= part.fieldnr() + 1; // start from 1.
key_part->null_bit= 0;
/* key_part->null_offset is only set if null_bit (see later) */
/* key_part->key_type= */ /* I *THINK* this may be okay.... */
/* key_part->type ???? */
key_part->key_part_flag= 0;
if(part.has_in_reverse_order())
key_part->key_part_flag= part.in_reverse_order()? HA_REVERSE_SORT : 0;
key_part->length= part.compare_length();
key_part->store_length= key_part->length;
/* key_part->offset is set later */
key_part->key_type= part.key_type();
}
if(!indx.has_comment())
{
keyinfo->comment.length= 0;
keyinfo->comment.str= NULL;
}
else
{
keyinfo->flags|= HA_USES_COMMENT;
keyinfo->comment.length= indx.comment().length();
keyinfo->comment.str= strmake_root(&share->mem_root,
indx.comment().c_str(),
keyinfo->comment.length);
}
keyinfo->name= strmake_root(&share->mem_root,
indx.name().c_str(),
indx.name().length());
share->keynames.type_names[keynr]= keyinfo->name;
share->keynames.type_lengths[keynr]= indx.name().length();
}
share->keys_for_keyread.init(0);
share->keys_in_use.init(share->keys);
if(table_options.has_connect_string())
{
size_t len= table_options.connect_string().length();
const char* str= table_options.connect_string().c_str();
share->connect_string.length= len;
share->connect_string.str= strmake_root(&share->mem_root, str, len);
}
if(table_options.has_comment())
{
size_t len= table_options.comment().length();
const char* str= table_options.comment().c_str();
share->comment.length= len;
share->comment.str= strmake_root(&share->mem_root, str, len);
}
share->key_block_size= table_options.has_key_block_size() ?
table_options.key_block_size() : 0;
share->fields= table.field_size();
share->vfields= 0;
share->stored_fields= share->fields;
share->field= (Field**) alloc_root(&share->mem_root,
((share->fields+1) * sizeof(Field*)));
share->field[share->fields]= NULL;
uint32_t null_fields= 0;
share->reclength= 0;
uint32_t *field_offsets= (uint32_t*)malloc(share->fields * sizeof(uint32_t));
uint32_t *field_pack_length=(uint32_t*)malloc(share->fields*sizeof(uint32_t));
assert(field_offsets && field_pack_length); // TODO: fixme
uint32_t interval_count= 0;
uint32_t interval_parts= 0;
uint32_t stored_columns_reclength= 0;
for(unsigned int fieldnr=0; fieldnr < share->fields; fieldnr++)
{
drizzle::Table::Field pfield= table.field(fieldnr);
if(pfield.has_constraints() && pfield.constraints().is_nullable())
null_fields++;
bool field_is_stored= true;
enum_field_types drizzle_field_type=
proto_field_type_to_drizzle_type(pfield.type());
if(drizzle_field_type==DRIZZLE_TYPE_VIRTUAL)
{
drizzle::Table::Field::VirtualFieldOptions field_options=
pfield.virtual_options();
drizzle_field_type=proto_field_type_to_drizzle_type(field_options.type());
field_is_stored= field_options.physically_stored();
}
field_offsets[fieldnr]= stored_columns_reclength;
/* the below switch is very similar to
Create_field::create_length_to_internal_length in field.cc
(which should one day be replace by just this code)
*/
switch(drizzle_field_type)
{
case DRIZZLE_TYPE_BLOB:
case DRIZZLE_TYPE_VARCHAR:
{
drizzle::Table::Field::StringFieldOptions field_options=
pfield.string_options();
const CHARSET_INFO *cs= get_charset(field_options.has_collation_id()?
field_options.collation_id() : 0);
if (!cs)
cs= default_charset_info;
field_pack_length[fieldnr]=
calc_pack_length(drizzle_field_type,
field_options.length() * cs->mbmaxlen);
}
break;
case DRIZZLE_TYPE_ENUM:
{
drizzle::Table::Field::SetFieldOptions field_options=
pfield.set_options();
field_pack_length[fieldnr]=
get_enum_pack_length(field_options.field_value_size());
interval_count++;
interval_parts+= field_options.field_value_size();
}
break;
case DRIZZLE_TYPE_NEWDECIMAL:
{
drizzle::Table::Field::NumericFieldOptions fo= pfield.numeric_options();
field_pack_length[fieldnr]=
my_decimal_get_binary_size(fo.precision(), fo.scale());
}
break;
default:
/* Zero is okay here as length is fixed for other types. */
field_pack_length[fieldnr]= calc_pack_length(drizzle_field_type, 0);
}
share->reclength+= field_pack_length[fieldnr];
if(field_is_stored)
stored_columns_reclength+= field_pack_length[fieldnr];
}
/* data_offset added to stored_rec_length later */
share->stored_rec_length= stored_columns_reclength;
/* fix up offsets for non-stored fields (at end of record) */
for(unsigned int fieldnr=0; fieldnr < share->fields; fieldnr++)
{
drizzle::Table::Field pfield= table.field(fieldnr);
bool field_is_stored= true;
enum_field_types drizzle_field_type=
proto_field_type_to_drizzle_type(pfield.type());
if(drizzle_field_type==DRIZZLE_TYPE_VIRTUAL)
{
drizzle::Table::Field::VirtualFieldOptions field_options=
pfield.virtual_options();
field_is_stored= field_options.physically_stored();
}
if(!field_is_stored)
{
field_offsets[fieldnr]= stored_columns_reclength;
stored_columns_reclength+= field_pack_length[fieldnr];
}
}
share->null_fields= null_fields;
ulong null_bits= null_fields;
if(!table_options.pack_record())
null_bits++;
ulong data_offset= (null_bits + 7)/8;
share->reclength+= data_offset;
share->stored_rec_length+= data_offset;
ulong rec_buff_length;
rec_buff_length= ALIGN_SIZE(share->reclength + 1);
share->rec_buff_length= rec_buff_length;
unsigned char* record= NULL;
if (!(record= (unsigned char *) alloc_root(&share->mem_root,
rec_buff_length)))
abort();
memset(record, 0, rec_buff_length);
int null_count= 0;
if(!table_options.pack_record())
{
null_count++; // one bit for delete mark.
*record|= 1;
}
share->default_values= record;
if(interval_count)
{
share->intervals= (TYPELIB*)alloc_root(&share->mem_root,
interval_count*sizeof(TYPELIB));
}
else
share->intervals= NULL;
share->fieldnames.type_names= (const char**)alloc_root(&share->mem_root,
(share->fields+1)*sizeof(char*));
share->fieldnames.type_lengths= (unsigned int*) alloc_root(&share->mem_root,
(share->fields+1)*sizeof(unsigned int));
share->fieldnames.type_names[share->fields]= NULL;
share->fieldnames.type_lengths[share->fields]= 0;
share->fieldnames.count= share->fields;
/* Now fix the TYPELIBs for the intervals (enum values)
and field names.
*/
uint32_t interval_nr= 0;
for(unsigned int fieldnr=0; fieldnr < share->fields; fieldnr++)
{
drizzle::Table::Field pfield= table.field(fieldnr);
/* field names */
share->fieldnames.type_names[fieldnr]= strmake_root(&share->mem_root,
pfield.name().c_str(),
pfield.name().length());
share->fieldnames.type_lengths[fieldnr]= pfield.name().length();
/* enum typelibs */
if(pfield.type() != drizzle::Table::Field::ENUM)
continue;
drizzle::Table::Field::SetFieldOptions field_options=
pfield.set_options();
const CHARSET_INFO *charset= get_charset(field_options.has_collation_id()?
field_options.collation_id() : 0);
if (!charset)
charset= default_charset_info;
TYPELIB *t= &(share->intervals[interval_nr]);
t->type_names= (const char**)alloc_root(&share->mem_root,
(field_options.field_value_size()+1)*sizeof(char*));
t->type_lengths= (unsigned int*) alloc_root(&share->mem_root,
(field_options.field_value_size()+1)*sizeof(unsigned int));
t->type_names[field_options.field_value_size()]= NULL;
t->type_lengths[field_options.field_value_size()]= 0;
t->count= field_options.field_value_size();
t->name= NULL;
for(int n=0; n < field_options.field_value_size(); n++)
{
t->type_names[n]= strmake_root(&share->mem_root,
field_options.field_value(n).c_str(),
field_options.field_value(n).length());
/* Go ask the charset what the length is as for "" length=1
and there's stripping spaces or some other crack going on.
*/
uint32_t lengthsp;
lengthsp= charset->cset->lengthsp(charset, t->type_names[n],
field_options.field_value(n).length());
t->type_lengths[n]= lengthsp;
}
interval_nr++;
}
/* and read the fields */
interval_nr= 0;
bool use_hash= share->fields >= MAX_FIELDS_BEFORE_HASH;
if(use_hash)
use_hash= !hash_init(&share->name_hash,
system_charset_info,
share->fields, 0, 0,
(hash_get_key) get_field_name, 0, 0);
unsigned char* null_pos= record;;
int null_bit_pos= (table_options.pack_record()) ? 0 : 1;
for(unsigned int fieldnr=0; fieldnr < share->fields; fieldnr++)
{
drizzle::Table::Field pfield= table.field(fieldnr);
enum column_format_type column_format= COLUMN_FORMAT_TYPE_DEFAULT;
switch(pfield.format())
{
case drizzle::Table::Field::DefaultFormat:
column_format= COLUMN_FORMAT_TYPE_DEFAULT;
break;
case drizzle::Table::Field::FixedFormat:
column_format= COLUMN_FORMAT_TYPE_FIXED;
break;
case drizzle::Table::Field::DynamicFormat:
column_format= COLUMN_FORMAT_TYPE_DYNAMIC;
break;
default:
assert(1);
}
Field::utype unireg_type= Field::NONE;
if(pfield.has_numeric_options()
&& pfield.numeric_options().is_autoincrement())
{
unireg_type= Field::NEXT_NUMBER;
}
if(pfield.has_options()
&& pfield.options().has_default_value()
&& pfield.options().default_value().compare("NOW()")==0)
{
if(pfield.options().has_update_value()
&& pfield.options().update_value().compare("NOW()")==0)
{
unireg_type= Field::TIMESTAMP_DNUN_FIELD;
}
else if (!pfield.options().has_update_value())
{
unireg_type= Field::TIMESTAMP_DN_FIELD;
}
else
assert(1); // Invalid update value.
}
else if (pfield.has_options()
&& pfield.options().has_update_value()
&& pfield.options().update_value().compare("NOW()")==0)
{
unireg_type= Field::TIMESTAMP_UN_FIELD;
}
LEX_STRING comment;
if(!pfield.has_comment())
{
comment.str= (char*)"";
comment.length= 0;
}
else
{
size_t len= pfield.comment().length();
const char* str= pfield.comment().c_str();
comment.str= strmake_root(&share->mem_root, str, len);
comment.length= len;
}
enum_field_types field_type;
virtual_column_info *vcol_info= NULL;
bool field_is_stored= true;
field_type= proto_field_type_to_drizzle_type(pfield.type());
if(field_type==DRIZZLE_TYPE_VIRTUAL)
{
drizzle::Table::Field::VirtualFieldOptions field_options=
pfield.virtual_options();
vcol_info= new virtual_column_info();
field_type= proto_field_type_to_drizzle_type(field_options.type());
field_is_stored= field_options.physically_stored();
size_t len= field_options.expression().length();
const char* str= field_options.expression().c_str();
vcol_info->expr_str.str= strmake_root(&share->mem_root, str, len);
vcol_info->expr_str.length= len;
share->vfields++;
}
const CHARSET_INFO *charset= &my_charset_bin;
if(field_type==DRIZZLE_TYPE_BLOB
|| field_type==DRIZZLE_TYPE_VARCHAR)
{
drizzle::Table::Field::StringFieldOptions field_options=
pfield.string_options();
charset= get_charset(field_options.has_collation_id()?
field_options.collation_id() : 0);
if (!charset)
charset= default_charset_info;
}
if(field_type==DRIZZLE_TYPE_ENUM)
{
drizzle::Table::Field::SetFieldOptions field_options=
pfield.set_options();
charset= get_charset(field_options.has_collation_id()?
field_options.collation_id() : 0);
if (!charset)
charset= default_charset_info;
}
Item *default_value= NULL;
if(pfield.options().has_default_value()
|| pfield.options().has_default_null()
|| pfield.options().has_default_bin_value())
{
default_value= default_value_item(field_type,
charset,
pfield.options().default_null(),
&pfield.options().default_value(),
&pfield.options().default_bin_value());
}
uint32_t pack_flag= pfield.pack_flag(); /* TODO: MUST DIE */
Table temp_table; /* Use this so that BLOB DEFAULT '' works */
memset(&temp_table, 0, sizeof(temp_table));
temp_table.s= share;
temp_table.in_use= session;
temp_table.s->db_low_byte_first= 1; //handler->low_byte_first();
temp_table.s->blob_ptr_size= portable_sizeof_char_ptr;
Field* f= make_field(share, &share->mem_root,
record+field_offsets[fieldnr]+data_offset,
pfield.options().length(),
null_pos,
null_bit_pos,
pack_flag,
field_type,
charset,
(Field::utype) MTYP_TYPENR(unireg_type),
((field_type==DRIZZLE_TYPE_ENUM)?
share->intervals+(interval_nr++)
: (TYPELIB*) 0),
share->fieldnames.type_names[fieldnr]);
share->field[fieldnr]= f;
f->init(&temp_table); /* blob default values need table obj */
if(!(f->flags & NOT_NULL_FLAG))
{
*f->null_ptr|= f->null_bit;
if (!(null_bit_pos= (null_bit_pos + 1) & 7))
null_pos++;
null_count++;
}
if(default_value)
{
enum_check_fields old_count_cuted_fields= session->count_cuted_fields;
session->count_cuted_fields= CHECK_FIELD_WARN;
int res= default_value->save_in_field(f, 1);
session->count_cuted_fields= old_count_cuted_fields;
if (res != 0 && res != 3)
{
my_error(ER_INVALID_DEFAULT, MYF(0), f->field_name);
error= 1;
goto err;
}
}
else if(f->real_type() == DRIZZLE_TYPE_ENUM &&
(f->flags & NOT_NULL_FLAG))
{
f->set_notnull();
f->store((int64_t) 1, true);
}
else
f->reset();
/* hack to undo f->init() */
f->table= NULL;
f->orig_table= NULL;
f->field_index= fieldnr;
f->comment= comment;
f->vcol_info= vcol_info;
f->is_stored= field_is_stored;
if(!default_value
&& !(f->unireg_check==Field::NEXT_NUMBER)
&& (f->flags & NOT_NULL_FLAG)
&& (f->real_type() != DRIZZLE_TYPE_TIMESTAMP))
f->flags|= NO_DEFAULT_VALUE_FLAG;
if(f->unireg_check == Field::NEXT_NUMBER)
share->found_next_number_field= &(share->field[fieldnr]);
if(share->timestamp_field == f)
share->timestamp_field_offset= fieldnr;
if (use_hash) /* supposedly this never fails... but comments lie */
(void) my_hash_insert(&share->name_hash,
(unsigned char*)&(share->field[fieldnr]));
if(!f->is_stored)
{
share->stored_fields--;
}
}
keyinfo= share->key_info;
for (unsigned int keynr=0; keynr < share->keys; keynr++, keyinfo++)
{
key_part= keyinfo->key_part;
for(unsigned int partnr= 0;
partnr < keyinfo->key_parts;
partnr++, key_part++)
{
/* Fix up key_part->offset by adding data_offset.
We really should compute offset as well.
But at least this way we are a little better. */
key_part->offset= field_offsets[key_part->fieldnr-1] + data_offset;
}
}
/*
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)
*(record + null_count / 8)|= ~(((unsigned char) 1 << (null_count & 7)) - 1);
share->null_bytes= (null_pos - (unsigned char*) record +
(null_bit_pos + 7) / 8);
share->last_null_bit_pos= null_bit_pos;
free(field_offsets);
free(field_pack_length);
if(!(handler_file= get_new_handler(share, session->mem_root,
share->db_type())))
abort(); // FIXME
/* Fix key stuff */
if (share->key_parts)
{
uint32_t primary_key=(uint32_t) (find_type((char*) "PRIMARY",
&share->keynames, 3) - 1);
int64_t ha_option= handler_file->ha_table_flags();
keyinfo= share->key_info;
key_part= keyinfo->key_part;
for (uint32_t key=0 ; key < share->keys ; key++,keyinfo++)
{
uint32_t usable_parts= 0;
if (primary_key >= MAX_KEY && (keyinfo->flags & HA_NOSAME))
{
/*
If the UNIQUE key doesn't have NULL columns and is not a part key
declare this as a primary key.
*/
primary_key=key;
for (uint32_t i=0 ; i < keyinfo->key_parts ;i++)
{
uint32_t fieldnr= key_part[i].fieldnr;
if (!fieldnr ||
share->field[fieldnr-1]->null_ptr ||
share->field[fieldnr-1]->key_length() !=
key_part[i].length)
{
primary_key=MAX_KEY; // Can't be used
break;
}
}
}
for (uint32_t i=0 ; i < keyinfo->key_parts ; key_part++,i++)
{
Field *field;
if (!key_part->fieldnr)
{
// error= 4; // Wrong file
abort(); // goto err;
}
field= key_part->field= share->field[key_part->fieldnr-1];
key_part->type= field->key_type();
if (field->null_ptr)
{
key_part->null_offset=(uint32_t) ((unsigned char*) field->null_ptr -
share->default_values);
key_part->null_bit= field->null_bit;
key_part->store_length+=HA_KEY_NULL_LENGTH;
keyinfo->flags|=HA_NULL_PART_KEY;
keyinfo->extra_length+= HA_KEY_NULL_LENGTH;
keyinfo->key_length+= HA_KEY_NULL_LENGTH;
}
if (field->type() == DRIZZLE_TYPE_BLOB ||
field->real_type() == DRIZZLE_TYPE_VARCHAR)
{
if (field->type() == DRIZZLE_TYPE_BLOB)
key_part->key_part_flag|= HA_BLOB_PART;
else
key_part->key_part_flag|= HA_VAR_LENGTH_PART;
keyinfo->extra_length+=HA_KEY_BLOB_LENGTH;
key_part->store_length+=HA_KEY_BLOB_LENGTH;
keyinfo->key_length+= HA_KEY_BLOB_LENGTH;
}
if (i == 0 && key != primary_key)
field->flags |= (((keyinfo->flags & HA_NOSAME) &&
(keyinfo->key_parts == 1)) ?
UNIQUE_KEY_FLAG : MULTIPLE_KEY_FLAG);
if (i == 0)
field->key_start.set_bit(key);
if (field->key_length() == key_part->length &&
!(field->flags & BLOB_FLAG))
{
if (handler_file->index_flags(key, i, 0) & HA_KEYREAD_ONLY)
{
share->keys_for_keyread.set_bit(key);
field->part_of_key.set_bit(key);
field->part_of_key_not_clustered.set_bit(key);
}
if (handler_file->index_flags(key, i, 1) & HA_READ_ORDER)
field->part_of_sortkey.set_bit(key);
}
if (!(key_part->key_part_flag & HA_REVERSE_SORT) &&
usable_parts == i)
usable_parts++; // For FILESORT
field->flags|= PART_KEY_FLAG;
if (key == primary_key)
{
field->flags|= PRI_KEY_FLAG;
/*
If this field is part of the primary key and all keys contains
the primary key, then we can use any key to find this column
*/
if (ha_option & HA_PRIMARY_KEY_IN_READ_INDEX)
{
field->part_of_key= share->keys_in_use;
if (field->part_of_sortkey.is_set(key))
field->part_of_sortkey= share->keys_in_use;
}
}
if (field->key_length() != key_part->length)
{
key_part->key_part_flag|= HA_PART_KEY_SEG;
}
}
keyinfo->usable_key_parts= usable_parts; // Filesort
set_if_bigger(share->max_key_length,keyinfo->key_length+
keyinfo->key_parts);
share->total_key_length+= keyinfo->key_length;
/*
MERGE tables do not have unique indexes. But every key could be
an unique index on the underlying MyISAM table. (Bug #10400)
*/
if ((keyinfo->flags & HA_NOSAME) ||
(ha_option & HA_ANY_INDEX_MAY_BE_UNIQUE))
set_if_bigger(share->max_unique_length,keyinfo->key_length);
}
if (primary_key < MAX_KEY &&
(share->keys_in_use.is_set(primary_key)))
{
share->primary_key= primary_key;
/*
If we are using an integer as the primary key then allow the user to
refer to it as '_rowid'
*/
if (share->key_info[primary_key].key_parts == 1)
{
Field *field= share->key_info[primary_key].key_part[0].field;
if (field && field->result_type() == INT_RESULT)
{
/* note that fieldnr here (and rowid_field_offset) starts from 1 */
share->rowid_field_offset= (share->key_info[primary_key].key_part[0].
fieldnr);
}
}
}
else
share->primary_key = MAX_KEY; // we do not have a primary key
}
else
share->primary_key= MAX_KEY;
if (share->found_next_number_field)
{
Field *reg_field= *share->found_next_number_field;
if ((int) (share->next_number_index= (uint32_t)
find_ref_key(share->key_info, share->keys,
share->default_values, reg_field,
&share->next_number_key_offset,
&share->next_number_keypart)) < 0)
{
/* Wrong field definition */
error= 4;
goto err;
}
else
reg_field->flags |= AUTO_INCREMENT_FLAG;
}
if (share->blob_fields)
{
Field **ptr;
uint32_t k, *save;
/* Store offsets to blob fields to find them fast */
if (!(share->blob_field= save=
(uint*) alloc_root(&share->mem_root,
(uint32_t) (share->blob_fields* sizeof(uint32_t)))))
goto err;
for (k=0, ptr= share->field ; *ptr ; ptr++, k++)
{
if ((*ptr)->flags & BLOB_FLAG)
(*save++)= k;
}
}
share->db_low_byte_first= handler_file->low_byte_first();
share->column_bitmap_size= bitmap_buffer_size(share->fields);
my_bitmap_map *bitmaps;
if (!(bitmaps= (my_bitmap_map*) alloc_root(&share->mem_root,
share->column_bitmap_size)))
goto err;
bitmap_init(&share->all_set, bitmaps, share->fields, false);
bitmap_set_all(&share->all_set);
if(handler_file)
delete handler_file;
return (0);
err:
share->error= error;
share->open_errno= my_errno;
share->errarg= 0;
hash_free(&share->name_hash);
if(handler_file)
delete handler_file;
open_table_error(share, error, share->open_errno, 0);
return error;
}
/*
Read table definition from a binary / text based .frm file
SYNOPSIS
open_table_def()
session Thread handler
share Fill this with table definition
db_flags Bit mask of the following flags: OPEN_VIEW
NOTES
This function is called when the table definition is not cached in
table_def_cache
The data is returned in 'share', which is alloced by
alloc_table_share().. The code assumes that share is initialized.
RETURN VALUES
0 ok
1 Error (see open_table_error)
2 Error (see open_table_error)
3 Wrong data in .frm file
4 Error (see open_table_error)
5 Error (see open_table_error: charset unavailable)
6 Unknown .frm version
*/
int open_table_def(Session *session, TABLE_SHARE *share, uint32_t)
{
int error;
bool error_given;
string proto_path("");
error= 1;
error_given= 0;
proto_path.reserve(FN_REFLEN);
proto_path.append(share->normalized_path.str);
proto_path.append(".dfe");
drizzle::Table table;
if((error= drizzle_read_table_proto(proto_path.c_str(), &table)))
{
if(error>0)
{
my_errno= error;
error= 1;
}
else
{
if(!table.IsInitialized())
{
error= 4;
}
}
goto err_not_open;
}
error= parse_table_proto(session, table, share);
share->table_category= get_table_category(& share->db, & share->table_name);
if (!error)
session->status_var.opened_shares++;
err_not_open:
if (error && !error_given)
{
share->error= error;
open_table_error(share, error, (share->open_errno= my_errno), 0);
}
return(error);
}
/*
Clear flag GET_FIXED_FIELDS_FLAG in all fields of the table.
This routine is used for error handling purposes.
SYNOPSIS
clear_field_flag()
table Table object for which virtual columns are set-up
RETURN VALUE
NONE
*/
static void clear_field_flag(Table *table)
{
Field **ptr;
for (ptr= table->field; *ptr; ptr++)
(*ptr)->flags&= (~GET_FIXED_FIELDS_FLAG);
}
/*
The function uses the feature in fix_fields where the flag
GET_FIXED_FIELDS_FLAG is set for all fields in the item tree.
This field must always be reset before returning from the function
since it is used for other purposes as well.
SYNOPSIS
fix_fields_vcol_func()
session The thread object
func_item The item tree reference of the virtual columnfunction
table The table object
field_name The name of the processed field
RETURN VALUE
true An error occurred, something was wrong with the
function.
false Ok, a partition field array was created
*/
bool fix_fields_vcol_func(Session *session,
Item* func_expr,
Table *table,
const char *field_name)
{
uint32_t dir_length, home_dir_length;
bool result= true;
TableList tables;
TableList *save_table_list, *save_first_table, *save_last_table;
int error;
Name_resolution_context *context;
const char *save_where;
char* db_name;
char db_name_string[FN_REFLEN];
bool save_use_only_table_context;
Field **ptr, *field;
enum_mark_columns save_mark_used_columns= session->mark_used_columns;
assert(func_expr);
/*
Set-up the TABLE_LIST object to be a list with a single table
Set the object to zero to create NULL pointers and set alias
and real name to table name and get database name from file name.
*/
bzero((void*)&tables, sizeof(TableList));
tables.alias= tables.table_name= (char*) table->s->table_name.str;
tables.table= table;
tables.next_local= NULL;
tables.next_name_resolution_table= NULL;
memcpy(db_name_string,
table->s->normalized_path.str,
table->s->normalized_path.length);
db_name_string[table->s->normalized_path.length]= '\0';
dir_length= dirname_length(db_name_string);
db_name_string[dir_length - 1]= 0;
home_dir_length= dirname_length(db_name_string);
db_name= &db_name_string[home_dir_length];
tables.db= db_name;
session->mark_used_columns= MARK_COLUMNS_NONE;
context= session->lex->current_context();
table->map= 1; //To ensure correct calculation of const item
table->get_fields_in_item_tree= true;
save_table_list= context->table_list;
save_first_table= context->first_name_resolution_table;
save_last_table= context->last_name_resolution_table;
context->table_list= &tables;
context->first_name_resolution_table= &tables;
context->last_name_resolution_table= NULL;
func_expr->walk(&Item::change_context_processor, 0, (unsigned char*) context);
save_where= session->where;
session->where= "virtual column function";
/* Save the context before fixing the fields*/
save_use_only_table_context= session->lex->use_only_table_context;
session->lex->use_only_table_context= true;
/* Fix fields referenced to by the virtual column function */
error= func_expr->fix_fields(session, (Item**)0);
/* Restore the original context*/
session->lex->use_only_table_context= save_use_only_table_context;
context->table_list= save_table_list;
context->first_name_resolution_table= save_first_table;
context->last_name_resolution_table= save_last_table;
if (unlikely(error))
{
clear_field_flag(table);
goto end;
}
session->where= save_where;
/*
Walk through the Item tree checking if all items are valid
to be part of the virtual column
*/
error= func_expr->walk(&Item::check_vcol_func_processor, 0, NULL);
if (error)
{
my_error(ER_VIRTUAL_COLUMN_FUNCTION_IS_NOT_ALLOWED, MYF(0), field_name);
clear_field_flag(table);
goto end;
}
if (unlikely(func_expr->const_item()))
{
my_error(ER_CONST_EXPR_IN_VCOL, MYF(0));
clear_field_flag(table);
goto end;
}
/* Ensure that this virtual column is not based on another virtual field. */
ptr= table->field;
while ((field= *(ptr++)))
{
if ((field->flags & GET_FIXED_FIELDS_FLAG) &&
(field->vcol_info))
{
my_error(ER_VCOL_BASED_ON_VCOL, MYF(0));
clear_field_flag(table);
goto end;
}
}
/*
Cleanup the fields marked with flag GET_FIXED_FIELDS_FLAG
when calling fix_fields.
*/
clear_field_flag(table);
result= false;
end:
table->get_fields_in_item_tree= false;
session->mark_used_columns= save_mark_used_columns;
table->map= 0; //Restore old value
return(result);
}
/*
Unpack the definition of a virtual column
SYNOPSIS
unpack_vcol_info_from_frm()
session Thread handler
table Table with the checked field
field Pointer to Field object
open_mode Open table mode needed to determine
which errors need to be generated in a failure
error_reported updated flag for the caller that no other error
messages are to be generated.
RETURN VALUES
true Failure
false Success
*/
bool unpack_vcol_info_from_frm(Session *session,
Table *table,
Field *field,
LEX_STRING *vcol_expr,
open_table_mode open_mode,
bool *error_reported)
{
assert(vcol_expr);
/*
Step 1: Construct a statement for the parser.
The parsed string needs to take the following format:
"PARSE_VCOL_EXPR (<expr_string_from_frm>)"
*/
char *vcol_expr_str;
int str_len= 0;
if (!(vcol_expr_str= (char*) alloc_root(&table->mem_root,
vcol_expr->length +
parse_vcol_keyword.length + 3)))
{
return(true);
}
memcpy(vcol_expr_str,
(char*) parse_vcol_keyword.str,
parse_vcol_keyword.length);
str_len= parse_vcol_keyword.length;
memcpy(vcol_expr_str + str_len, "(", 1);
str_len++;
memcpy(vcol_expr_str + str_len,
(char*) vcol_expr->str,
vcol_expr->length);
str_len+= vcol_expr->length;
memcpy(vcol_expr_str + str_len, ")", 1);
str_len++;
memcpy(vcol_expr_str + str_len, "\0", 1);
str_len++;
Lex_input_stream lip(session, vcol_expr_str, str_len);
/*
Step 2: Setup session for parsing.
1) make Item objects be created in the memory allocated for the Table
object (not TABLE_SHARE)
2) ensure that created Item's are not put on to session->free_list
(which is associated with the parsed statement and hence cleared after
the parsing)
3) setup a flag in the LEX structure to allow "PARSE_VCOL_EXPR"
to be parsed as a SQL command.
*/
MEM_ROOT **root_ptr, *old_root;
Item *backup_free_list= session->free_list;
root_ptr= current_mem_root_ptr();
old_root= *root_ptr;
*root_ptr= &table->mem_root;
session->free_list= NULL;
session->lex->parse_vcol_expr= true;
/*
Step 3: Use the parser to build an Item object from.
*/
if (parse_sql(session, &lip))
{
goto parse_err;
}
/* From now on use vcol_info generated by the parser. */
field->vcol_info= session->lex->vcol_info;
/* Validate the Item tree. */
if (fix_fields_vcol_func(session,
field->vcol_info->expr_item,
table,
field->field_name))
{
if (open_mode == OTM_CREATE)
{
/*
During CREATE/ALTER TABLE it is ok to receive errors here.
It is not ok if it happens during the opening of an frm
file as part of a normal query.
*/
*error_reported= true;
}
field->vcol_info= NULL;
goto parse_err;
}
field->vcol_info->item_free_list= session->free_list;
session->free_list= backup_free_list;
*root_ptr= old_root;
return(false);
parse_err:
session->lex->parse_vcol_expr= false;
session->free_items();
*root_ptr= old_root;
session->free_list= backup_free_list;
return(true);
}
/*
Open a table based on a TABLE_SHARE
SYNOPSIS
open_table_from_share()
session Thread handler
share Table definition
alias Alias for table
db_stat open flags (for example HA_OPEN_KEYFILE|
HA_OPEN_RNDFILE..) can be 0 (example in
ha_example_table)
prgflag READ_ALL etc..
ha_open_flags HA_OPEN_ABORT_IF_LOCKED etc..
outparam result table
open_mode One of OTM_OPEN|OTM_CREATE|OTM_ALTER
if OTM_CREATE some errors are ignore
if OTM_ALTER HA_OPEN is not called
RETURN VALUES
0 ok
1 Error (see open_table_error)
2 Error (see open_table_error)
3 Wrong data in .frm file
4 Error (see open_table_error)
5 Error (see open_table_error: charset unavailable)
7 Table definition has changed in engine
*/
int open_table_from_share(Session *session, TABLE_SHARE *share, const char *alias,
uint32_t db_stat, uint32_t prgflag, uint32_t ha_open_flags,
Table *outparam, open_table_mode open_mode)
{
int error;
uint32_t records, i, bitmap_size;
bool error_reported= false;
unsigned char *record, *bitmaps;
Field **field_ptr, **vfield_ptr;
/* Parsing of partitioning information from .frm needs session->lex set up. */
assert(session->lex->is_lex_started);
error= 1;
memset(outparam, 0, sizeof(*outparam));
outparam->in_use= session;
outparam->s= share;
outparam->db_stat= db_stat;
outparam->write_row_record= NULL;
init_sql_alloc(&outparam->mem_root, TABLE_ALLOC_BLOCK_SIZE, 0);
if (!(outparam->alias= strdup(alias)))
goto err;
outparam->quick_keys.init();
outparam->covering_keys.init();
outparam->keys_in_use_for_query.init();
/* Allocate handler */
outparam->file= 0;
if (!(prgflag & OPEN_FRM_FILE_ONLY))
{
if (!(outparam->file= get_new_handler(share, &outparam->mem_root,
share->db_type())))
goto err;
}
else
{
assert(!db_stat);
}
error= 4;
outparam->reginfo.lock_type= TL_UNLOCK;
outparam->current_lock= F_UNLCK;
records=0;
if ((db_stat & HA_OPEN_KEYFILE) || (prgflag & DELAYED_OPEN))
records=1;
if (prgflag & (READ_ALL+EXTRA_RECORD))
records++;
if (!(record= (unsigned char*) alloc_root(&outparam->mem_root,
share->rec_buff_length * records)))
goto err; /* purecov: inspected */
if (records == 0)
{
/* We are probably in hard repair, and the buffers should not be used */
outparam->record[0]= outparam->record[1]= share->default_values;
}
else
{
outparam->record[0]= record;
if (records > 1)
outparam->record[1]= record+ share->rec_buff_length;
else
outparam->record[1]= outparam->record[0]; // Safety
}
#ifdef HAVE_purify
/*
We need this because when we read var-length rows, we are not updating
bytes after end of varchar
*/
if (records > 1)
{
memcpy(outparam->record[0], share->default_values, share->rec_buff_length);
memcpy(outparam->record[1], share->default_values, share->null_bytes);
if (records > 2)
memcpy(outparam->record[1], share->default_values,
share->rec_buff_length);
}
#endif
if (!(field_ptr = (Field **) alloc_root(&outparam->mem_root,
(uint32_t) ((share->fields+1)*
sizeof(Field*)))))
goto err; /* purecov: inspected */
outparam->field= field_ptr;
record= (unsigned char*) outparam->record[0]-1; /* Fieldstart = 1 */
outparam->null_flags= (unsigned char*) record+1;
/* Setup copy of fields from share, but use the right alias and record */
for (i=0 ; i < share->fields; i++, field_ptr++)
{
if (!((*field_ptr)= share->field[i]->clone(&outparam->mem_root, outparam)))
goto err;
}
(*field_ptr)= 0; // End marker
if (share->found_next_number_field)
outparam->found_next_number_field=
outparam->field[(uint32_t) (share->found_next_number_field - share->field)];
if (share->timestamp_field)
outparam->timestamp_field= (Field_timestamp*) outparam->field[share->timestamp_field_offset];
/* Fix key->name and key_part->field */
if (share->key_parts)
{
KEY *key_info, *key_info_end;
KEY_PART_INFO *key_part;
uint32_t n_length;
n_length= share->keys*sizeof(KEY) + share->key_parts*sizeof(KEY_PART_INFO);
if (!(key_info= (KEY*) alloc_root(&outparam->mem_root, n_length)))
goto err;
outparam->key_info= key_info;
key_part= (reinterpret_cast<KEY_PART_INFO*> (key_info+share->keys));
memcpy(key_info, share->key_info, sizeof(*key_info)*share->keys);
memcpy(key_part, share->key_info[0].key_part, (sizeof(*key_part) *
share->key_parts));
for (key_info_end= key_info + share->keys ;
key_info < key_info_end ;
key_info++)
{
KEY_PART_INFO *key_part_end;
key_info->table= outparam;
key_info->key_part= key_part;
for (key_part_end= key_part+ key_info->key_parts ;
key_part < key_part_end ;
key_part++)
{
Field *field= key_part->field= outparam->field[key_part->fieldnr-1];
if (field->key_length() != key_part->length &&
!(field->flags & BLOB_FLAG))
{
/*
We are using only a prefix of the column as a key:
Create a new field for the key part that matches the index
*/
field= key_part->field=field->new_field(&outparam->mem_root,
outparam, 0);
field->field_length= key_part->length;
}
}
}
}
/*
Process virtual columns, if any.
*/
if (not (vfield_ptr = (Field **) alloc_root(&outparam->mem_root,
(uint32_t) ((share->vfields+1)*
sizeof(Field*)))))
goto err;
outparam->vfield= vfield_ptr;
for (field_ptr= outparam->field; *field_ptr; field_ptr++)
{
if ((*field_ptr)->vcol_info)
{
if (unpack_vcol_info_from_frm(session,
outparam,
*field_ptr,
&(*field_ptr)->vcol_info->expr_str,
open_mode,
&error_reported))
{
error= 4; // in case no error is reported
goto err;
}
*(vfield_ptr++)= *field_ptr;
}
}
*vfield_ptr= NULL; // End marker
/* Check virtual columns against table's storage engine. */
if ((share->vfields && outparam->file) &&
(not outparam->file->check_if_supported_virtual_columns()))
{
my_error(ER_UNSUPPORTED_ACTION_ON_VIRTUAL_COLUMN,
MYF(0),
"Specified storage engine");
error_reported= true;
goto err;
}
/* Allocate bitmaps */
bitmap_size= share->column_bitmap_size;
if (!(bitmaps= (unsigned char*) alloc_root(&outparam->mem_root, bitmap_size*3)))
goto err;
bitmap_init(&outparam->def_read_set,
(my_bitmap_map*) bitmaps, share->fields, false);
bitmap_init(&outparam->def_write_set,
(my_bitmap_map*) (bitmaps+bitmap_size), share->fields, false);
bitmap_init(&outparam->tmp_set,
(my_bitmap_map*) (bitmaps+bitmap_size*2), share->fields, false);
outparam->default_column_bitmaps();
/* The table struct is now initialized; Open the table */
error= 2;
if (db_stat && open_mode != OTM_ALTER)
{
int ha_err;
if ((ha_err= (outparam->file->
ha_open(outparam, share->normalized_path.str,
(db_stat & HA_READ_ONLY ? O_RDONLY : O_RDWR),
(db_stat & HA_OPEN_TEMPORARY ? HA_OPEN_TMP_TABLE :
(db_stat & HA_WAIT_IF_LOCKED) ? HA_OPEN_WAIT_IF_LOCKED :
(db_stat & (HA_ABORT_IF_LOCKED | HA_GET_INFO)) ?
HA_OPEN_ABORT_IF_LOCKED :
HA_OPEN_IGNORE_IF_LOCKED) | ha_open_flags))))
{
/* Set a flag if the table is crashed and it can be auto. repaired */
share->crashed= ((ha_err == HA_ERR_CRASHED_ON_USAGE) &&
outparam->file->auto_repair() &&
!(ha_open_flags & HA_OPEN_FOR_REPAIR));
switch (ha_err)
{
case HA_ERR_NO_SUCH_TABLE:
/*
The table did not exists in storage engine, use same error message
as if the .frm file didn't exist
*/
error= 1;
my_errno= ENOENT;
break;
case EMFILE:
/*
Too many files opened, use same error message as if the .frm
file can't open
*/
error= 1;
my_errno= EMFILE;
break;
default:
outparam->file->print_error(ha_err, MYF(0));
error_reported= true;
if (ha_err == HA_ERR_TABLE_DEF_CHANGED)
error= 7;
break;
}
goto err; /* purecov: inspected */
}
}
#if defined(HAVE_purify)
memset(bitmaps, 0, bitmap_size*3);
#endif
outparam->no_replicate= outparam->file;
session->status_var.opened_tables++;
return (0);
err:
if (!error_reported && !(prgflag & DONT_GIVE_ERROR))
open_table_error(share, error, my_errno, 0);
delete outparam->file;
outparam->file= 0; // For easier error checking
outparam->db_stat=0;
free_root(&outparam->mem_root, MYF(0)); // Safe to call on zeroed root
free((char*) outparam->alias);
return (error);
}
/* close_temporary_tables' internal, 4 is due to uint4korr definition */
uint32_t Table::tmpkeyval()
{
return uint4korr(s->table_cache_key.str + s->table_cache_key.length - 4);
}
/*
Free information allocated by openfrm
SYNOPSIS
closefrm()
table Table object to free
free_share Is 1 if we also want to free table_share
*/
int Table::closefrm(bool free_share)
{
int error=0;
if (db_stat)
error= file->close();
free((char*) alias);
alias= NULL;
if (field)
{
for (Field **ptr=field ; *ptr ; ptr++)
delete *ptr;
field= 0;
}
delete file;
file= 0; /* For easier errorchecking */
if (free_share)
{
if (s->tmp_table == NO_TMP_TABLE)
release_table_share(s, RELEASE_NORMAL);
else
free_table_share(s);
}
free_root(&mem_root, MYF(0));
return error;
}
/* Deallocate temporary blob storage */
void free_blobs(register Table *table)
{
uint32_t *ptr, *end;
for (ptr= table->getBlobField(), end=ptr + table->sizeBlobFields();
ptr != end ;
ptr++)
((Field_blob*) table->field[*ptr])->free();
}
/* Find where a form starts */
/* if formname is NULL then only formnames is read */
ulong get_form_pos(File file, unsigned char *head, TYPELIB *save_names)
{
uint32_t a_length,names,length;
unsigned char *pos,*buf;
ulong ret_value=0;
names=uint2korr(head+8);
a_length=(names+2)*sizeof(char *); /* Room for two extra */
if (!save_names)
a_length=0;
else
save_names->type_names=0; /* Clear if error */
if (names)
{
length=uint2korr(head+4);
lseek(file,64,SEEK_SET);
if (!(buf= (unsigned char*) malloc(length+a_length+names*4)) ||
my_read(file, buf+a_length, (size_t) (length+names*4),
MYF(MY_NABP)))
{ /* purecov: inspected */
if (buf)
free(buf);
return(0L); /* purecov: inspected */
}
pos= buf+a_length+length;
ret_value=uint4korr(pos);
}
if (! save_names)
{
if (names)
free((unsigned char*) buf);
}
else if (!names)
memset(save_names, 0, sizeof(save_names));
else
{
char *str;
str=(char *) (buf+a_length);
fix_type_pointers((const char ***) &buf,save_names,1,&str);
}
return(ret_value);
}
/*
Read string from a file with malloc
NOTES:
We add an \0 at end of the read string to make reading of C strings easier
*/
int read_string(File file, unsigned char**to, size_t length)
{
if (*to)
free(*to);
if (!(*to= (unsigned char*) malloc(length+1)) ||
my_read(file, *to, length,MYF(MY_NABP)))
{
if (*to)
free(*to);
*to= NULL;
return(1); /* purecov: inspected */
}
*((char*) *to+length)= '\0';
return (0);
} /* read_string */
/* Add a new form to a form file */
off_t make_new_entry(File file, unsigned char *fileinfo, TYPELIB *formnames,
const char *newname)
{
uint32_t i,bufflength,maxlength,n_length,length,names;
off_t endpos,newpos;
unsigned char buff[IO_SIZE];
unsigned char *pos;
length=(uint32_t) strlen(newname)+1;
n_length=uint2korr(fileinfo+4);
maxlength=uint2korr(fileinfo+6);
names=uint2korr(fileinfo+8);
newpos=uint4korr(fileinfo+10);
if (64+length+n_length+(names+1)*4 > maxlength)
{ /* Expand file */
newpos+=IO_SIZE;
int4store(fileinfo+10,newpos);
endpos= lseek(file,0,SEEK_END);/* Copy from file-end */
bufflength= (uint32_t) (endpos & (IO_SIZE-1)); /* IO_SIZE is a power of 2 */
while (endpos > maxlength)
{
lseek(file,(off_t) (endpos-bufflength),SEEK_SET);
if (my_read(file, buff, bufflength, MYF(MY_NABP+MY_WME)))
return(0L);
lseek(file,(off_t) (endpos-bufflength+IO_SIZE),SEEK_SET);
if ((my_write(file, buff,bufflength,MYF(MY_NABP+MY_WME))))
return(0);
endpos-=bufflength; bufflength=IO_SIZE;
}
memset(buff, 0, IO_SIZE); /* Null new block */
lseek(file,(ulong) maxlength,SEEK_SET);
if (my_write(file,buff,bufflength,MYF(MY_NABP+MY_WME)))
return(0L);
maxlength+=IO_SIZE; /* Fix old ref */
int2store(fileinfo+6,maxlength);
for (i=names, pos= (unsigned char*) *formnames->type_names+n_length-1; i--;
pos+=4)
{
endpos=uint4korr(pos)+IO_SIZE;
int4store(pos,endpos);
}
}
if (n_length == 1 )
{ /* First name */
length++;
sprintf((char*)buff,"/%s/",newname);
}
else
sprintf((char*)buff,"%s/",newname); /* purecov: inspected */
lseek(file, 63 + n_length,SEEK_SET);
if (my_write(file, buff, (size_t) length+1,MYF(MY_NABP+MY_WME)) ||
(names && my_write(file,(unsigned char*) (*formnames->type_names+n_length-1),
names*4, MYF(MY_NABP+MY_WME))) ||
my_write(file, fileinfo+10, 4,MYF(MY_NABP+MY_WME)))
return(0L); /* purecov: inspected */
int2store(fileinfo+8,names+1);
int2store(fileinfo+4,n_length+length);
assert(ftruncate(file, newpos)==0);/* Append file with '\0' */
return(newpos);
} /* make_new_entry */
/* error message when opening a form file */
void open_table_error(TABLE_SHARE *share, int error, int db_errno, int errarg)
{
int err_no;
char buff[FN_REFLEN];
myf errortype= ME_ERROR+ME_WAITTANG;
switch (error) {
case 7:
case 1:
if (db_errno == ENOENT)
my_error(ER_NO_SUCH_TABLE, MYF(0), share->db.str, share->table_name.str);
else
{
sprintf(buff,"%s",share->normalized_path.str);
my_error((db_errno == EMFILE) ? ER_CANT_OPEN_FILE : ER_FILE_NOT_FOUND,
errortype, buff, db_errno);
}
break;
case 2:
{
handler *file= 0;
const char *datext= "";
if (share->db_type() != NULL)
{
if ((file= get_new_handler(share, current_session->mem_root,
share->db_type())))
{
if (!(datext= *file->bas_ext()))
datext= "";
}
}
err_no= (db_errno == ENOENT) ? ER_FILE_NOT_FOUND : (db_errno == EAGAIN) ?
ER_FILE_USED : ER_CANT_OPEN_FILE;
sprintf(buff,"%s%s", share->normalized_path.str,datext);
my_error(err_no,errortype, buff, db_errno);
delete file;
break;
}
case 5:
{
const char *csname= get_charset_name((uint32_t) errarg);
char tmp[10];
if (!csname || csname[0] =='?')
{
snprintf(tmp, sizeof(tmp), "#%d", errarg);
csname= tmp;
}
my_printf_error(ER_UNKNOWN_COLLATION,
_("Unknown collation '%s' in table '%-.64s' definition"),
MYF(0), csname, share->table_name.str);
break;
}
case 6:
sprintf(buff,"%s",share->normalized_path.str);
my_printf_error(ER_NOT_FORM_FILE,
_("Table '%-.64s' was created with a different version "
"of Drizzle and cannot be read"),
MYF(0), buff);
break;
case 8:
break;
default: /* Better wrong error than none */
case 4:
sprintf(buff,"%s",share->normalized_path.str);
my_error(ER_NOT_FORM_FILE, errortype, buff, 0);
break;
}
return;
} /* open_table_error */
/*
** fix a str_type to a array type
** typeparts separated with some char. differents types are separated
** with a '\0'
*/
static void
fix_type_pointers(const char ***array, TYPELIB *point_to_type, uint32_t types,
char **names)
{
char *type_name, *ptr;
char chr;
ptr= *names;
while (types--)
{
point_to_type->name=0;
point_to_type->type_names= *array;
if ((chr= *ptr)) /* Test if empty type */
{
while ((type_name=strchr(ptr+1,chr)) != NULL)
{
*((*array)++) = ptr+1;
*type_name= '\0'; /* End string */
ptr=type_name;
}
ptr+=2; /* Skip end mark and last 0 */
}
else
ptr++;
point_to_type->count= (uint32_t) (*array - point_to_type->type_names);
point_to_type++;
*((*array)++)= NULL; /* End of type */
}
*names=ptr; /* Update end */
return;
} /* fix_type_pointers */
TYPELIB *typelib(MEM_ROOT *mem_root, List<String> &strings)
{
TYPELIB *result= (TYPELIB*) alloc_root(mem_root, sizeof(TYPELIB));
if (!result)
return 0;
result->count=strings.elements;
result->name="";
uint32_t nbytes= (sizeof(char*) + sizeof(uint32_t)) * (result->count + 1);
if (!(result->type_names= (const char**) alloc_root(mem_root, nbytes)))
return 0;
result->type_lengths= (uint*) (result->type_names + result->count + 1);
List_iterator<String> it(strings);
String *tmp;
for (uint32_t i=0; (tmp=it++) ; i++)
{
result->type_names[i]= tmp->ptr();
result->type_lengths[i]= tmp->length();
}
result->type_names[result->count]= 0; // End marker
result->type_lengths[result->count]= 0;
return result;
}
/* Check that the integer is in the internal */
int set_zone(register int nr, int min_zone, int max_zone)
{
if (nr<=min_zone)
return (min_zone);
if (nr>=max_zone)
return (max_zone);
return (nr);
} /* set_zone */
/* Adjust number to next larger disk buffer */
ulong next_io_size(register ulong pos)
{
register ulong offset;
if ((offset= pos & (IO_SIZE-1)))
return pos-offset+IO_SIZE;
return pos;
} /* next_io_size */
/*
Store an SQL quoted string.
SYNOPSIS
append_unescaped()
res result String
pos string to be quoted
length it's length
NOTE
This function works correctly with utf8 or single-byte charset strings.
May fail with some multibyte charsets though.
*/
void append_unescaped(String *res, const char *pos, uint32_t length)
{
const char *end= pos+length;
res->append('\'');
for (; pos != end ; pos++)
{
#if defined(USE_MB)
uint32_t mblen;
if (use_mb(default_charset_info) &&
(mblen= my_ismbchar(default_charset_info, pos, end)))
{
res->append(pos, mblen);
pos+= mblen;
if (pos >= end)
break;
continue;
}
#endif
switch (*pos) {
case 0: /* Must be escaped for 'mysql' */
res->append('\\');
res->append('0');
break;
case '\n': /* Must be escaped for logs */
res->append('\\');
res->append('n');
break;
case '\r':
res->append('\\'); /* This gives better readability */
res->append('r');
break;
case '\\':
res->append('\\'); /* Because of the sql syntax */
res->append('\\');
break;
case '\'':
res->append('\''); /* Because of the sql syntax */
res->append('\'');
break;
default:
res->append(*pos);
break;
}
}
res->append('\'');
}
/*
Set up column usage bitmaps for a temporary table
IMPLEMENTATION
For temporary tables, we need one bitmap with all columns set and
a tmp_set bitmap to be used by things like filesort.
*/
void Table::setup_tmp_table_column_bitmaps(unsigned char *bitmaps)
{
uint32_t field_count= s->fields;
bitmap_init(&this->def_read_set, (my_bitmap_map*) bitmaps, field_count, false);
bitmap_init(&this->tmp_set, (my_bitmap_map*) (bitmaps+ bitmap_buffer_size(field_count)), field_count, false);
/* write_set and all_set are copies of read_set */
def_write_set= def_read_set;
s->all_set= def_read_set;
bitmap_set_all(&this->s->all_set);
default_column_bitmaps();
}
void Table::updateCreateInfo(HA_CREATE_INFO *create_info)
{
create_info->max_rows= s->max_rows;
create_info->min_rows= s->min_rows;
create_info->table_options= s->db_create_options;
create_info->avg_row_length= s->avg_row_length;
create_info->block_size= s->block_size;
create_info->row_type= s->row_type;
create_info->default_table_charset= s->table_charset;
create_info->table_charset= 0;
create_info->comment= s->comment;
return;
}
int rename_file_ext(const char * from,const char * to,const char * ext)
{
string from_s, to_s;
from_s.append(from);
from_s.append(ext);
to_s.append(to);
to_s.append(ext);
return (my_rename(from_s.c_str(),to_s.c_str(),MYF(MY_WME)));
}
/*
Allocate string field in MEM_ROOT and return it as String
SYNOPSIS
get_field()
mem MEM_ROOT for allocating
field Field for retrieving of string
res result String
RETURN VALUES
1 string is empty
0 all ok
*/
bool get_field(MEM_ROOT *mem, Field *field, String *res)
{
char buff[MAX_FIELD_WIDTH], *to;
String str(buff,sizeof(buff),&my_charset_bin);
uint32_t length;
field->val_str(&str);
if (!(length= str.length()))
{
res->length(0);
return 1;
}
if (!(to= strmake_root(mem, str.ptr(), length)))
length= 0; // Safety fix
res->set(to, length, ((Field_str*)field)->charset());
return 0;
}
/*
Allocate string field in MEM_ROOT and return it as NULL-terminated string
SYNOPSIS
get_field()
mem MEM_ROOT for allocating
field Field for retrieving of string
RETURN VALUES
NULL string is empty
# pointer to NULL-terminated string value of field
*/
char *get_field(MEM_ROOT *mem, Field *field)
{
char buff[MAX_FIELD_WIDTH], *to;
String str(buff,sizeof(buff),&my_charset_bin);
uint32_t length;
field->val_str(&str);
length= str.length();
if (!length || !(to= (char*) alloc_root(mem,length+1)))
return NULL;
memcpy(to,str.ptr(),(uint32_t) length);
to[length]=0;
return to;
}
/*
DESCRIPTION
given a buffer with a key value, and a map of keyparts
that are present in this value, returns the length of the value
*/
uint32_t calculate_key_len(Table *table, uint32_t key,
const unsigned char *,
key_part_map keypart_map)
{
/* works only with key prefixes */
assert(((keypart_map + 1) & keypart_map) == 0);
KEY *key_info= table->s->key_info+key;
KEY_PART_INFO *key_part= key_info->key_part;
KEY_PART_INFO *end_key_part= key_part + key_info->key_parts;
uint32_t length= 0;
while (key_part < end_key_part && keypart_map)
{
length+= key_part->store_length;
keypart_map >>= 1;
key_part++;
}
return length;
}
/*
Check if database name is valid
SYNPOSIS
check_db_name()
org_name Name of database and length
NOTES
If lower_case_table_names is set then database is converted to lower case
RETURN
0 ok
1 error
*/
bool check_db_name(LEX_STRING *org_name)
{
char *name= org_name->str;
uint32_t name_length= org_name->length;
if (!name_length || name_length > NAME_LEN || name[name_length - 1] == ' ')
return 1;
if (lower_case_table_names && name != any_db)
my_casedn_str(files_charset_info, name);
return check_identifier_name(org_name);
}
/*
Allow anything as a table name, as long as it doesn't contain an
' ' at the end
returns 1 on error
*/
bool check_table_name(const char *name, uint32_t length)
{
if (!length || length > NAME_LEN || name[length - 1] == ' ')
return 1;
LEX_STRING ident;
ident.str= (char*) name;
ident.length= length;
return check_identifier_name(&ident);
}
/*
Eventually, a "length" argument should be added
to this function, and the inner loop changed to
check_identifier_name() call.
*/
bool check_column_name(const char *name)
{
uint32_t name_length= 0; // name length in symbols
bool last_char_is_space= true;
while (*name)
{
#if defined(USE_MB) && defined(USE_MB_IDENT)
last_char_is_space= my_isspace(system_charset_info, *name);
if (use_mb(system_charset_info))
{
int len=my_ismbchar(system_charset_info, name,
name+system_charset_info->mbmaxlen);
if (len)
{
if (len > 3) /* Disallow non-BMP characters */
return 1;
name += len;
name_length++;
continue;
}
}
#else
last_char_is_space= *name==' ';
#endif
/*
NAMES_SEP_CHAR is used in FRM format to separate SET and ENUM values.
It is defined as 0xFF, which is a not valid byte in utf8.
This assert is to catch use of this byte if we decide to
use non-utf8 as system_character_set.
*/
assert(*name != NAMES_SEP_CHAR);
name++;
name_length++;
}
/* Error if empty or too long column name */
return last_char_is_space || (uint32_t) name_length > NAME_CHAR_LEN;
}
/**
Checks whether a table is intact. Should be done *just* after the table has
been opened.
@param[in] table The table to check
@param[in] table_f_count Expected number of columns in the table
@param[in] table_def Expected structure of the table (column name
and type)
@retval false OK
@retval TRUE There was an error. An error message is output
to the error log. We do not push an error
message into the error stack because this
function is currently only called at start up,
and such errors never reach the user.
*/
bool
Table::table_check_intact(const uint32_t table_f_count,
const TABLE_FIELD_W_TYPE *table_def)
{
uint32_t i;
bool error= false;
bool fields_diff_count;
fields_diff_count= (s->fields != table_f_count);
if (fields_diff_count)
{
/* previous MySQL version */
if (DRIZZLE_VERSION_ID > s->mysql_version)
{
errmsg_printf(ERRMSG_LVL_ERROR, ER(ER_COL_COUNT_DOESNT_MATCH_PLEASE_UPDATE),
alias, table_f_count, s->fields,
s->mysql_version, DRIZZLE_VERSION_ID);
return(true);
}
else if (DRIZZLE_VERSION_ID == s->mysql_version)
{
errmsg_printf(ERRMSG_LVL_ERROR, ER(ER_COL_COUNT_DOESNT_MATCH_CORRUPTED), alias,
table_f_count, s->fields);
return(true);
}
/*
Something has definitely changed, but we're running an older
version of MySQL with new system tables.
Let's check column definitions. If a column was added at
the end of the table, then we don't care much since such change
is backward compatible.
*/
}
char buffer[STRING_BUFFER_USUAL_SIZE];
for (i=0 ; i < table_f_count; i++, table_def++)
{
String sql_type(buffer, sizeof(buffer), system_charset_info);
sql_type.length(0);
if (i < s->fields)
{
Field *cur_field= this->field[i];
if (strncmp(cur_field->field_name, table_def->name.str,
table_def->name.length))
{
/*
Name changes are not fatal, we use ordinal numbers to access columns.
Still this can be a sign of a tampered table, output an error
to the error log.
*/
errmsg_printf(ERRMSG_LVL_ERROR, _("Incorrect definition of table %s.%s: "
"expected column '%s' at position %d, found '%s'."),
s->db.str, alias, table_def->name.str, i,
cur_field->field_name);
}
cur_field->sql_type(sql_type);
/*
Generally, if column types don't match, then something is
wrong.
However, we only compare column definitions up to the
length of the original definition, since we consider the
following definitions compatible:
1. DATETIME and DATETIM
2. INT(11) and INT(11
3. SET('one', 'two') and SET('one', 'two', 'more')
For SETs or ENUMs, if the same prefix is there it's OK to
add more elements - they will get higher ordinal numbers and
the new table definition is backward compatible with the
original one.
*/
if (strncmp(sql_type.c_ptr_safe(), table_def->type.str,
table_def->type.length - 1))
{
errmsg_printf(ERRMSG_LVL_ERROR,
_("Incorrect definition of table %s.%s: "
"expected column '%s' at position %d to have type "
"%s, found type %s."),
s->db.str, alias,
table_def->name.str, i, table_def->type.str,
sql_type.c_ptr_safe());
error= true;
}
else if (table_def->cset.str && !cur_field->has_charset())
{
errmsg_printf(ERRMSG_LVL_ERROR,
_("Incorrect definition of table %s.%s: "
"expected the type of column '%s' at position %d "
"to have character set '%s' but the type has no "
"character set."),
s->db.str, alias,
table_def->name.str, i, table_def->cset.str);
error= true;
}
else if (table_def->cset.str &&
strcmp(cur_field->charset()->csname, table_def->cset.str))
{
errmsg_printf(ERRMSG_LVL_ERROR,
_("Incorrect definition of table %s.%s: "
"expected the type of column '%s' at position %d "
"to have character set '%s' but found "
"character set '%s'."),
s->db.str, alias,
table_def->name.str, i, table_def->cset.str,
cur_field->charset()->csname);
error= true;
}
}
else
{
errmsg_printf(ERRMSG_LVL_ERROR,
_("Incorrect definition of table %s.%s: "
"expected column '%s' at position %d to have type %s "
" but the column is not found."),
s->db.str, alias,
table_def->name.str, i, table_def->type.str);
error= true;
}
}
return(error);
}
/*
Create Item_field for each column in the table.
SYNPOSIS
Table::fill_item_list()
item_list a pointer to an empty list used to store items
DESCRIPTION
Create Item_field object for each column in the table and
initialize it with the corresponding Field. New items are
created in the current Session memory root.
RETURN VALUE
0 success
1 out of memory
*/
bool Table::fill_item_list(List<Item> *item_list) const
{
/*
All Item_field's created using a direct pointer to a field
are fixed in Item_field constructor.
*/
for (Field **ptr= field; *ptr; ptr++)
{
Item_field *item= new Item_field(*ptr);
if (!item || item_list->push_back(item))
return true;
}
return false;
}
/*
Reset an existing list of Item_field items to point to the
Fields of this table.
SYNPOSIS
Table::fill_item_list()
item_list a non-empty list with Item_fields
DESCRIPTION
This is a counterpart of fill_item_list used to redirect
Item_fields to the fields of a newly created table.
The caller must ensure that number of items in the item_list
is the same as the number of columns in the table.
*/
void Table::reset_item_list(List<Item> *item_list) const
{
List_iterator_fast<Item> it(*item_list);
for (Field **ptr= field; *ptr; ptr++)
{
Item_field *item_field= (Item_field*) it++;
assert(item_field != 0);
item_field->reset_field(*ptr);
}
}
/*
Find underlying base tables (TableList) which represent given
table_to_find (Table)
SYNOPSIS
TableList::find_underlying_table()
table_to_find table to find
RETURN
0 table is not found
found table reference
*/
TableList *TableList::find_underlying_table(Table *table_to_find)
{
/* is this real table and table which we are looking for? */
if (table == table_to_find && merge_underlying_list == 0)
return this;
for (TableList *tbl= merge_underlying_list; tbl; tbl= tbl->next_local)
{
TableList *result;
if ((result= tbl->find_underlying_table(table_to_find)))
return result;
}
return 0;
}
/*
cleunup items belonged to view fields translation table
SYNOPSIS
TableList::cleanup_items()
*/
void TableList::cleanup_items()
{
}
bool TableList::placeholder()
{
return derived || schema_table || (create && !table->getDBStat()) || !table;
}
/*
Set insert_values buffer
SYNOPSIS
set_insert_values()
mem_root memory pool for allocating
RETURN
false - OK
TRUE - out of memory
*/
bool TableList::set_insert_values(MEM_ROOT *mem_root)
{
if (table)
{
if (!table->insert_values &&
!(table->insert_values= (unsigned char *)alloc_root(mem_root,
table->s->rec_buff_length)))
return true;
}
return false;
}
/*
Test if this is a leaf with respect to name resolution.
SYNOPSIS
TableList::is_leaf_for_name_resolution()
DESCRIPTION
A table reference is a leaf with respect to name resolution if
it is either a leaf node in a nested join tree (table, view,
schema table, subquery), or an inner node that represents a
NATURAL/USING join, or a nested join with materialized join
columns.
RETURN
TRUE if a leaf, false otherwise.
*/
bool TableList::is_leaf_for_name_resolution()
{
return (is_natural_join || is_join_columns_complete || !nested_join);
}
/*
Retrieve the first (left-most) leaf in a nested join tree with
respect to name resolution.
SYNOPSIS
TableList::first_leaf_for_name_resolution()
DESCRIPTION
Given that 'this' is a nested table reference, recursively walk
down the left-most children of 'this' until we reach a leaf
table reference with respect to name resolution.
IMPLEMENTATION
The left-most child of a nested table reference is the last element
in the list of children because the children are inserted in
reverse order.
RETURN
If 'this' is a nested table reference - the left-most child of
the tree rooted in 'this',
else return 'this'
*/
TableList *TableList::first_leaf_for_name_resolution()
{
TableList *cur_table_ref= NULL;
nested_join_st *cur_nested_join;
if (is_leaf_for_name_resolution())
return this;
assert(nested_join);
for (cur_nested_join= nested_join;
cur_nested_join;
cur_nested_join= cur_table_ref->nested_join)
{
List_iterator_fast<TableList> it(cur_nested_join->join_list);
cur_table_ref= it++;
/*
If the current nested join is a RIGHT JOIN, the operands in
'join_list' are in reverse order, thus the first operand is
already at the front of the list. Otherwise the first operand
is in the end of the list of join operands.
*/
if (!(cur_table_ref->outer_join & JOIN_TYPE_RIGHT))
{
TableList *next;
while ((next= it++))
cur_table_ref= next;
}
if (cur_table_ref->is_leaf_for_name_resolution())
break;
}
return cur_table_ref;
}
/*
Retrieve the last (right-most) leaf in a nested join tree with
respect to name resolution.
SYNOPSIS
TableList::last_leaf_for_name_resolution()
DESCRIPTION
Given that 'this' is a nested table reference, recursively walk
down the right-most children of 'this' until we reach a leaf
table reference with respect to name resolution.
IMPLEMENTATION
The right-most child of a nested table reference is the first
element in the list of children because the children are inserted
in reverse order.
RETURN
- If 'this' is a nested table reference - the right-most child of
the tree rooted in 'this',
- else - 'this'
*/
TableList *TableList::last_leaf_for_name_resolution()
{
TableList *cur_table_ref= this;
nested_join_st *cur_nested_join;
if (is_leaf_for_name_resolution())
return this;
assert(nested_join);
for (cur_nested_join= nested_join;
cur_nested_join;
cur_nested_join= cur_table_ref->nested_join)
{
cur_table_ref= cur_nested_join->join_list.head();
/*
If the current nested is a RIGHT JOIN, the operands in
'join_list' are in reverse order, thus the last operand is in the
end of the list.
*/
if ((cur_table_ref->outer_join & JOIN_TYPE_RIGHT))
{
List_iterator_fast<TableList> it(cur_nested_join->join_list);
TableList *next;
cur_table_ref= it++;
while ((next= it++))
cur_table_ref= next;
}
if (cur_table_ref->is_leaf_for_name_resolution())
break;
}
return cur_table_ref;
}
/*****************************************************************************
Functions to handle column usage bitmaps (read_set, write_set etc...)
*****************************************************************************/
/* Reset all columns bitmaps */
void Table::clear_column_bitmaps()
{
/*
Reset column read/write usage. It's identical to:
bitmap_clear_all(&table->def_read_set);
bitmap_clear_all(&table->def_write_set);
*/
memset(def_read_set.bitmap, 0, s->column_bitmap_size*2);
column_bitmaps_set(&def_read_set, &def_write_set);
}
/*
Tell handler we are going to call position() and rnd_pos() later.
NOTES:
This is needed for handlers that uses the primary key to find the
row. In this case we have to extend the read bitmap with the primary
key fields.
*/
void Table::prepare_for_position()
{
if ((file->ha_table_flags() & HA_PRIMARY_KEY_IN_READ_INDEX) &&
s->primary_key < MAX_KEY)
{
mark_columns_used_by_index_no_reset(s->primary_key, read_set);
/* signal change */
file->column_bitmaps_signal();
}
return;
}
/*
Mark that only fields from one key is used
NOTE:
This changes the bitmap to use the tmp bitmap
After this, you can't access any other columns in the table until
bitmaps are reset, for example with Table::clear_column_bitmaps()
or Table::restore_column_maps_after_mark_index()
*/
void Table::mark_columns_used_by_index(uint32_t index)
{
MY_BITMAP *bitmap= &tmp_set;
(void) file->extra(HA_EXTRA_KEYREAD);
bitmap_clear_all(bitmap);
mark_columns_used_by_index_no_reset(index, bitmap);
column_bitmaps_set(bitmap, bitmap);
return;
}
/*
Restore to use normal column maps after key read
NOTES
This reverse the change done by mark_columns_used_by_index
WARNING
For this to work, one must have the normal table maps in place
when calling mark_columns_used_by_index
*/
void Table::restore_column_maps_after_mark_index()
{
key_read= 0;
(void) file->extra(HA_EXTRA_NO_KEYREAD);
default_column_bitmaps();
file->column_bitmaps_signal();
return;
}
/*
mark columns used by key, but don't reset other fields
*/
void Table::mark_columns_used_by_index_no_reset(uint32_t index,
MY_BITMAP *bitmap)
{
KEY_PART_INFO *key_part= key_info[index].key_part;
KEY_PART_INFO *key_part_end= (key_part +
key_info[index].key_parts);
for (;key_part != key_part_end; key_part++)
{
bitmap_set_bit(bitmap, key_part->fieldnr-1);
if (key_part->field->vcol_info &&
key_part->field->vcol_info->expr_item)
key_part->field->vcol_info->
expr_item->walk(&Item::register_field_in_bitmap,
1, (unsigned char *) bitmap);
}
}
/*
Mark auto-increment fields as used fields in both read and write maps
NOTES
This is needed in insert & update as the auto-increment field is
always set and sometimes read.
*/
void Table::mark_auto_increment_column()
{
assert(found_next_number_field);
/*
We must set bit in read set as update_auto_increment() is using the
store() to check overflow of auto_increment values
*/
bitmap_set_bit(read_set, found_next_number_field->field_index);
bitmap_set_bit(write_set, found_next_number_field->field_index);
if (s->next_number_keypart)
mark_columns_used_by_index_no_reset(s->next_number_index, read_set);
file->column_bitmaps_signal();
}
/*
Mark columns needed for doing an delete of a row
DESCRIPTON
Some table engines don't have a cursor on the retrieve rows
so they need either to use the primary key or all columns to
be able to delete a row.
If the engine needs this, the function works as follows:
- If primary key exits, mark the primary key columns to be read.
- If not, mark all columns to be read
If the engine has HA_REQUIRES_KEY_COLUMNS_FOR_DELETE, we will
mark all key columns as 'to-be-read'. This allows the engine to
loop over the given record to find all keys and doesn't have to
retrieve the row again.
*/
void Table::mark_columns_needed_for_delete()
{
if (file->ha_table_flags() & HA_REQUIRES_KEY_COLUMNS_FOR_DELETE)
{
Field **reg_field;
for (reg_field= field ; *reg_field ; reg_field++)
{
if ((*reg_field)->flags & PART_KEY_FLAG)
bitmap_set_bit(read_set, (*reg_field)->field_index);
}
file->column_bitmaps_signal();
}
{
/*
If the handler has no cursor capabilites, or we have row-based
replication active for the current statement, we have to read
either the primary key, the hidden primary key or all columns to
be able to do an delete
*/
if (s->primary_key == MAX_KEY)
file->use_hidden_primary_key();
else
{
mark_columns_used_by_index_no_reset(s->primary_key, read_set);
file->column_bitmaps_signal();
}
}
}
/*
Mark columns needed for doing an update of a row
DESCRIPTON
Some engines needs to have all columns in an update (to be able to
build a complete row). If this is the case, we mark all not
updated columns to be read.
If this is no the case, we do like in the delete case and mark
if neeed, either the primary key column or all columns to be read.
(see mark_columns_needed_for_delete() for details)
If the engine has HA_REQUIRES_KEY_COLUMNS_FOR_DELETE, we will
mark all USED key columns as 'to-be-read'. This allows the engine to
loop over the given record to find all changed keys and doesn't have to
retrieve the row again.
*/
void Table::mark_columns_needed_for_update()
{
if (file->ha_table_flags() & HA_REQUIRES_KEY_COLUMNS_FOR_DELETE)
{
/* Mark all used key columns for read */
Field **reg_field;
for (reg_field= field ; *reg_field ; reg_field++)
{
/* Merge keys is all keys that had a column refered to in the query */
if (merge_keys.is_overlapping((*reg_field)->part_of_key))
bitmap_set_bit(read_set, (*reg_field)->field_index);
}
file->column_bitmaps_signal();
}
{
/*
If the handler has no cursor capabilites, or we have row-based
logging active for the current statement, we have to read either
the primary key, the hidden primary key or all columns to be
able to do an update
*/
if (s->primary_key == MAX_KEY)
file->use_hidden_primary_key();
else
{
mark_columns_used_by_index_no_reset(s->primary_key, read_set);
file->column_bitmaps_signal();
}
}
/* Mark all virtual columns as writable */
mark_virtual_columns();
return;
}
/*
Mark columns the handler needs for doing an insert
For now, this is used to mark fields used by the trigger
as changed.
*/
void Table::mark_columns_needed_for_insert()
{
if (found_next_number_field)
mark_auto_increment_column();
/* Mark all virtual columns as writable */
mark_virtual_columns();
}
/*
@brief Update the write and read table bitmap to allow
using procedure save_in_field for all virtual columns
in the table.
@return void
@detail
Each virtual field is set in the write column map.
All fields that the virtual columns are based on are set in the
read bitmap.
*/
void Table::mark_virtual_columns(void)
{
Field **vfield_ptr, *tmp_vfield;
bool bitmap_updated= false;
for (vfield_ptr= vfield; *vfield_ptr; vfield_ptr++)
{
tmp_vfield= *vfield_ptr;
assert(tmp_vfield->vcol_info && tmp_vfield->vcol_info->expr_item);
tmp_vfield->vcol_info->expr_item->walk(&Item::register_field_in_read_map,
1, (unsigned char *) 0);
bitmap_set_bit(read_set, tmp_vfield->field_index);
bitmap_set_bit(write_set, tmp_vfield->field_index);
bitmap_updated= true;
}
if (bitmap_updated)
file->column_bitmaps_signal();
}
/*
Cleanup this table for re-execution.
SYNOPSIS
TableList::reinit_before_use()
*/
void TableList::reinit_before_use(Session *session)
{
/*
Reset old pointers to TABLEs: they are not valid since the tables
were closed in the end of previous prepare or execute call.
*/
table= 0;
/* Reset is_schema_table_processed value(needed for I_S tables */
schema_table_state= NOT_PROCESSED;
TableList *embedded; /* The table at the current level of nesting. */
TableList *parent_embedding= this; /* The parent nested table reference. */
do
{
embedded= parent_embedding;
if (embedded->prep_on_expr)
embedded->on_expr= embedded->prep_on_expr->copy_andor_structure(session);
parent_embedding= embedded->embedding;
}
while (parent_embedding &&
parent_embedding->nested_join->join_list.head() == embedded);
}
/*
Return subselect that contains the FROM list this table is taken from
SYNOPSIS
TableList::containing_subselect()
RETURN
Subselect item for the subquery that contains the FROM list
this table is taken from if there is any
0 - otherwise
*/
Item_subselect *TableList::containing_subselect()
{
return (select_lex ? select_lex->master_unit()->item : 0);
}
/*
Compiles the tagged hints list and fills up the bitmasks.
SYNOPSIS
process_index_hints()
table the Table to operate on.
DESCRIPTION
The parser collects the index hints for each table in a "tagged list"
(TableList::index_hints). Using the information in this tagged list
this function sets the members Table::keys_in_use_for_query,
Table::keys_in_use_for_group_by, Table::keys_in_use_for_order_by,
Table::force_index and Table::covering_keys.
Current implementation of the runtime does not allow mixing FORCE INDEX
and USE INDEX, so this is checked here. Then the FORCE INDEX list
(if non-empty) is appended to the USE INDEX list and a flag is set.
Multiple hints of the same kind are processed so that each clause
is applied to what is computed in the previous clause.
For example:
USE INDEX (i1) USE INDEX (i2)
is equivalent to
USE INDEX (i1,i2)
and means "consider only i1 and i2".
Similarly
USE INDEX () USE INDEX (i1)
is equivalent to
USE INDEX (i1)
and means "consider only the index i1"
It is OK to have the same index several times, e.g. "USE INDEX (i1,i1)" is
not an error.
Different kind of hints (USE/FORCE/IGNORE) are processed in the following
order:
1. All indexes in USE (or FORCE) INDEX are added to the mask.
2. All IGNORE INDEX
e.g. "USE INDEX i1, IGNORE INDEX i1, USE INDEX i1" will not use i1 at all
as if we had "USE INDEX i1, USE INDEX i1, IGNORE INDEX i1".
As an optimization if there is a covering index, and we have
IGNORE INDEX FOR GROUP/order_st, and this index is used for the JOIN part,
then we have to ignore the IGNORE INDEX FROM GROUP/order_st.
RETURN VALUE
false no errors found
TRUE found and reported an error.
*/
bool TableList::process_index_hints(Table *tbl)
{
/* initialize the result variables */
tbl->keys_in_use_for_query= tbl->keys_in_use_for_group_by=
tbl->keys_in_use_for_order_by= tbl->s->keys_in_use;
/* index hint list processing */
if (index_hints)
{
key_map index_join[INDEX_HINT_FORCE + 1];
key_map index_order[INDEX_HINT_FORCE + 1];
key_map index_group[INDEX_HINT_FORCE + 1];
Index_hint *hint;
int type;
bool have_empty_use_join= false, have_empty_use_order= false,
have_empty_use_group= false;
List_iterator <Index_hint> iter(*index_hints);
/* initialize temporary variables used to collect hints of each kind */
for (type= INDEX_HINT_IGNORE; type <= INDEX_HINT_FORCE; type++)
{
index_join[type].clear_all();
index_order[type].clear_all();
index_group[type].clear_all();
}
/* iterate over the hints list */
while ((hint= iter++))
{
uint32_t pos;
/* process empty USE INDEX () */
if (hint->type == INDEX_HINT_USE && !hint->key_name.str)
{
if (hint->clause & INDEX_HINT_MASK_JOIN)
{
index_join[hint->type].clear_all();
have_empty_use_join= true;
}
if (hint->clause & INDEX_HINT_MASK_ORDER)
{
index_order[hint->type].clear_all();
have_empty_use_order= true;
}
if (hint->clause & INDEX_HINT_MASK_GROUP)
{
index_group[hint->type].clear_all();
have_empty_use_group= true;
}
continue;
}
/*
Check if an index with the given name exists and get his offset in
the keys bitmask for the table
*/
if (tbl->s->keynames.type_names == 0 ||
(pos= find_type(&tbl->s->keynames, hint->key_name.str,
hint->key_name.length, 1)) <= 0)
{
my_error(ER_KEY_DOES_NOT_EXITS, MYF(0), hint->key_name.str, alias);
return 1;
}
pos--;
/* add to the appropriate clause mask */
if (hint->clause & INDEX_HINT_MASK_JOIN)
index_join[hint->type].set_bit (pos);
if (hint->clause & INDEX_HINT_MASK_ORDER)
index_order[hint->type].set_bit (pos);
if (hint->clause & INDEX_HINT_MASK_GROUP)
index_group[hint->type].set_bit (pos);
}
/* cannot mix USE INDEX and FORCE INDEX */
if ((!index_join[INDEX_HINT_FORCE].is_clear_all() ||
!index_order[INDEX_HINT_FORCE].is_clear_all() ||
!index_group[INDEX_HINT_FORCE].is_clear_all()) &&
(!index_join[INDEX_HINT_USE].is_clear_all() || have_empty_use_join ||
!index_order[INDEX_HINT_USE].is_clear_all() || have_empty_use_order ||
!index_group[INDEX_HINT_USE].is_clear_all() || have_empty_use_group))
{
my_error(ER_WRONG_USAGE, MYF(0), index_hint_type_name[INDEX_HINT_USE],
index_hint_type_name[INDEX_HINT_FORCE]);
return 1;
}
/* process FORCE INDEX as USE INDEX with a flag */
if (!index_join[INDEX_HINT_FORCE].is_clear_all() ||
!index_order[INDEX_HINT_FORCE].is_clear_all() ||
!index_group[INDEX_HINT_FORCE].is_clear_all())
{
tbl->force_index= true;
index_join[INDEX_HINT_USE].merge(index_join[INDEX_HINT_FORCE]);
index_order[INDEX_HINT_USE].merge(index_order[INDEX_HINT_FORCE]);
index_group[INDEX_HINT_USE].merge(index_group[INDEX_HINT_FORCE]);
}
/* apply USE INDEX */
if (!index_join[INDEX_HINT_USE].is_clear_all() || have_empty_use_join)
tbl->keys_in_use_for_query.intersect(index_join[INDEX_HINT_USE]);
if (!index_order[INDEX_HINT_USE].is_clear_all() || have_empty_use_order)
tbl->keys_in_use_for_order_by.intersect (index_order[INDEX_HINT_USE]);
if (!index_group[INDEX_HINT_USE].is_clear_all() || have_empty_use_group)
tbl->keys_in_use_for_group_by.intersect (index_group[INDEX_HINT_USE]);
/* apply IGNORE INDEX */
tbl->keys_in_use_for_query.subtract (index_join[INDEX_HINT_IGNORE]);
tbl->keys_in_use_for_order_by.subtract (index_order[INDEX_HINT_IGNORE]);
tbl->keys_in_use_for_group_by.subtract (index_group[INDEX_HINT_IGNORE]);
}
/* make sure covering_keys don't include indexes disabled with a hint */
tbl->covering_keys.intersect(tbl->keys_in_use_for_query);
return 0;
}
size_t Table::max_row_length(const unsigned char *data)
{
size_t length= getRecordLength() + 2 * sizeFields();
uint32_t *const beg= getBlobField();
uint32_t *const end= beg + sizeBlobFields();
for (uint32_t *ptr= beg ; ptr != end ; ++ptr)
{
Field_blob* const blob= (Field_blob*) field[*ptr];
length+= blob->get_length((const unsigned char*)
(data + blob->offset(record[0]))) +
HA_KEY_BLOB_LENGTH;
}
return length;
}
/****************************************************************************
Functions for creating temporary tables.
****************************************************************************/
/* Prototypes */
void free_tmp_table(Session *session, Table *entry);
/**
Create field for temporary table from given field.
@param session Thread handler
@param org_field field from which new field will be created
@param name New field name
@param table Temporary table
@param item !=NULL if item->result_field should point to new field.
This is relevant for how fill_record() is going to work:
If item != NULL then fill_record() will update
the record in the original table.
If item == NULL then fill_record() will update
the temporary table
@param convert_blob_length If >0 create a varstring(convert_blob_length)
field instead of blob.
@retval
NULL on error
@retval
new_created field
*/
Field *create_tmp_field_from_field(Session *session, Field *org_field,
const char *name, Table *table,
Item_field *item, uint32_t convert_blob_length)
{
Field *new_field;
/*
Make sure that the blob fits into a Field_varstring which has
2-byte lenght.
*/
if (convert_blob_length && convert_blob_length <= Field_varstring::MAX_SIZE &&
(org_field->flags & BLOB_FLAG))
new_field= new Field_varstring(convert_blob_length,
org_field->maybe_null(),
org_field->field_name, table->s,
org_field->charset());
else
new_field= org_field->new_field(session->mem_root, table,
table == org_field->table);
if (new_field)
{
new_field->init(table);
new_field->orig_table= org_field->orig_table;
if (item)
item->result_field= new_field;
else
new_field->field_name= name;
new_field->flags|= (org_field->flags & NO_DEFAULT_VALUE_FLAG);
if (org_field->maybe_null() || (item && item->maybe_null))
new_field->flags&= ~NOT_NULL_FLAG; // Because of outer join
if (org_field->type() == DRIZZLE_TYPE_VARCHAR)
table->s->db_create_options|= HA_OPTION_PACK_RECORD;
else if (org_field->type() == DRIZZLE_TYPE_DOUBLE)
((Field_double *) new_field)->not_fixed= true;
}
return new_field;
}
/**
Create field for information schema table.
@param session Thread handler
@param table Temporary table
@param item Item to create a field for
@retval
0 on error
@retval
new_created field
*/
Field *create_tmp_field_for_schema(Session *, Item *item, Table *table)
{
if (item->field_type() == DRIZZLE_TYPE_VARCHAR)
{
Field *field;
if (item->max_length > MAX_FIELD_VARCHARLENGTH)
field= new Field_blob(item->max_length, item->maybe_null,
item->name, item->collation.collation);
else
field= new Field_varstring(item->max_length, item->maybe_null,
item->name,
table->s, item->collation.collation);
if (field)
field->init(table);
return field;
}
return item->tmp_table_field_from_field_type(table, 0);
}
/**
Create a temp table according to a field list.
Given field pointers are changed to point at tmp_table for
send_fields. The table object is self contained: it's
allocated in its own memory root, as well as Field objects
created for table columns.
This function will replace Item_sum items in 'fields' list with
corresponding Item_field items, pointing at the fields in the
temporary table, unless this was prohibited by true
value of argument save_sum_fields. The Item_field objects
are created in Session memory root.
@param session thread handle
@param param a description used as input to create the table
@param fields list of items that will be used to define
column types of the table (also see NOTES)
@param group TODO document
@param distinct should table rows be distinct
@param save_sum_fields see NOTES
@param select_options
@param rows_limit
@param table_alias possible name of the temporary table that can
be used for name resolving; can be "".
*/
#define STRING_TOTAL_LENGTH_TO_PACK_ROWS 128
#define AVG_STRING_LENGTH_TO_PACK_ROWS 64
#define RATIO_TO_PACK_ROWS 2
Table *
create_tmp_table(Session *session,Tmp_Table_Param *param,List<Item> &fields,
order_st *group, bool distinct, bool save_sum_fields,
uint64_t select_options, ha_rows rows_limit,
char *table_alias)
{
MEM_ROOT *mem_root_save, own_root;
Table *table;
TABLE_SHARE *share;
uint i,field_count,null_count,null_pack_length;
uint32_t copy_func_count= param->func_count;
uint32_t hidden_null_count, hidden_null_pack_length, hidden_field_count;
uint32_t blob_count,group_null_items, string_count;
uint32_t temp_pool_slot=MY_BIT_NONE;
uint32_t fieldnr= 0;
ulong reclength, string_total_length;
bool using_unique_constraint= 0;
bool use_packed_rows= 0;
bool not_all_columns= !(select_options & TMP_TABLE_ALL_COLUMNS);
char *tmpname,path[FN_REFLEN];
unsigned char *pos, *group_buff, *bitmaps;
unsigned char *null_flags;
Field **reg_field, **from_field, **default_field;
uint32_t *blob_field;
Copy_field *copy=0;
KEY *keyinfo;
KEY_PART_INFO *key_part_info;
Item **copy_func;
MI_COLUMNDEF *recinfo;
uint32_t total_uneven_bit_length= 0;
bool force_copy_fields= param->force_copy_fields;
status_var_increment(session->status_var.created_tmp_tables);
if (use_temp_pool && !(test_flags & TEST_KEEP_TMP_TABLES))
temp_pool_slot = bitmap_lock_set_next(&temp_pool);
if (temp_pool_slot != MY_BIT_NONE) // we got a slot
sprintf(path, "%s_%lx_%i", TMP_FILE_PREFIX,
(unsigned long)current_pid, temp_pool_slot);
else
{
/* if we run out of slots or we are not using tempool */
sprintf(path,"%s%lx_%"PRIx64"_%x", TMP_FILE_PREFIX, (unsigned long)current_pid,
session->thread_id, session->tmp_table++);
}
/*
No need to change table name to lower case as we are only creating
MyISAM or HEAP tables here
*/
fn_format(path, path, drizzle_tmpdir, "", MY_REPLACE_EXT|MY_UNPACK_FILENAME);
if (group)
{
if (!param->quick_group)
group=0; // Can't use group key
else for (order_st *tmp=group ; tmp ; tmp=tmp->next)
{
/*
marker == 4 means two things:
- store NULLs in the key, and
- convert BIT fields to 64-bit long, needed because MEMORY tables
can't index BIT fields.
*/
(*tmp->item)->marker= 4;
if ((*tmp->item)->max_length >= CONVERT_IF_BIGGER_TO_BLOB)
using_unique_constraint=1;
}
if (param->group_length >= MAX_BLOB_WIDTH)
using_unique_constraint=1;
if (group)
distinct=0; // Can't use distinct
}
field_count=param->field_count+param->func_count+param->sum_func_count;
hidden_field_count=param->hidden_field_count;
/*
When loose index scan is employed as access method, it already
computes all groups and the result of all aggregate functions. We
make space for the items of the aggregate function in the list of
functions Tmp_Table_Param::items_to_copy, so that the values of
these items are stored in the temporary table.
*/
if (param->precomputed_group_by)
copy_func_count+= param->sum_func_count;
init_sql_alloc(&own_root, TABLE_ALLOC_BLOCK_SIZE, 0);
if (!multi_alloc_root(&own_root,
&table, sizeof(*table),
&share, sizeof(*share),
®_field, sizeof(Field*) * (field_count+1),
&default_field, sizeof(Field*) * (field_count),
&blob_field, sizeof(uint32_t)*(field_count+1),
&from_field, sizeof(Field*)*field_count,
©_func, sizeof(*copy_func)*(copy_func_count+1),
¶m->keyinfo, sizeof(*param->keyinfo),
&key_part_info,
sizeof(*key_part_info)*(param->group_parts+1),
¶m->start_recinfo,
sizeof(*param->recinfo)*(field_count*2+4),
&tmpname, (uint32_t) strlen(path)+1,
&group_buff, (group && ! using_unique_constraint ?
param->group_length : 0),
&bitmaps, bitmap_buffer_size(field_count)*2,
NULL))
{
if (temp_pool_slot != MY_BIT_NONE)
bitmap_lock_clear_bit(&temp_pool, temp_pool_slot);
return(NULL); /* purecov: inspected */
}
/* Copy_field belongs to Tmp_Table_Param, allocate it in Session mem_root */
if (!(param->copy_field= copy= new (session->mem_root) Copy_field[field_count]))
{
if (temp_pool_slot != MY_BIT_NONE)
bitmap_lock_clear_bit(&temp_pool, temp_pool_slot);
free_root(&own_root, MYF(0)); /* purecov: inspected */
return(NULL); /* purecov: inspected */
}
param->items_to_copy= copy_func;
strcpy(tmpname,path);
/* make table according to fields */
memset(table, 0, sizeof(*table));
memset(reg_field, 0, sizeof(Field*)*(field_count+1));
memset(default_field, 0, sizeof(Field*) * (field_count));
memset(from_field, 0, sizeof(Field*)*field_count);
table->mem_root= own_root;
mem_root_save= session->mem_root;
session->mem_root= &table->mem_root;
table->field=reg_field;
table->alias= table_alias;
table->reginfo.lock_type=TL_WRITE; /* Will be updated */
table->db_stat=HA_OPEN_KEYFILE+HA_OPEN_RNDFILE;
table->map=1;
table->temp_pool_slot = temp_pool_slot;
table->copy_blobs= 1;
table->in_use= session;
table->quick_keys.init();
table->covering_keys.init();
table->keys_in_use_for_query.init();
table->setShare(share);
init_tmp_table_share(session, share, "", 0, tmpname, tmpname);
share->blob_field= blob_field;
share->blob_ptr_size= portable_sizeof_char_ptr;
share->db_low_byte_first=1; // True for HEAP and MyISAM
share->table_charset= param->table_charset;
share->primary_key= MAX_KEY; // Indicate no primary key
share->keys_for_keyread.init();
share->keys_in_use.init();
/* Calculate which type of fields we will store in the temporary table */
reclength= string_total_length= 0;
blob_count= string_count= null_count= hidden_null_count= group_null_items= 0;
param->using_indirect_summary_function=0;
List_iterator_fast<Item> li(fields);
Item *item;
Field **tmp_from_field=from_field;
while ((item=li++))
{
Item::Type type=item->type();
if (not_all_columns)
{
if (item->with_sum_func && type != Item::SUM_FUNC_ITEM)
{
if (item->used_tables() & OUTER_REF_TABLE_BIT)
item->update_used_tables();
if (type == Item::SUBSELECT_ITEM ||
(item->used_tables() & ~OUTER_REF_TABLE_BIT))
{
/*
Mark that the we have ignored an item that refers to a summary
function. We need to know this if someone is going to use
DISTINCT on the result.
*/
param->using_indirect_summary_function=1;
continue;
}
}
if (item->const_item() && (int) hidden_field_count <= 0)
continue; // We don't have to store this
}
if (type == Item::SUM_FUNC_ITEM && !group && !save_sum_fields)
{ /* Can't calc group yet */
((Item_sum*) item)->result_field=0;
for (i=0 ; i < ((Item_sum*) item)->arg_count ; i++)
{
Item **argp= ((Item_sum*) item)->args + i;
Item *arg= *argp;
if (!arg->const_item())
{
Field *new_field=
create_tmp_field(session, table, arg, arg->type(), ©_func,
tmp_from_field, &default_field[fieldnr],
group != 0,not_all_columns,
distinct, 0,
param->convert_blob_length);
if (!new_field)
goto err; // Should be OOM
tmp_from_field++;
reclength+=new_field->pack_length();
if (new_field->flags & BLOB_FLAG)
{
*blob_field++= fieldnr;
blob_count++;
}
*(reg_field++)= new_field;
if (new_field->real_type() == DRIZZLE_TYPE_VARCHAR)
{
string_count++;
string_total_length+= new_field->pack_length();
}
session->mem_root= mem_root_save;
session->change_item_tree(argp, new Item_field(new_field));
session->mem_root= &table->mem_root;
if (!(new_field->flags & NOT_NULL_FLAG))
{
null_count++;
/*
new_field->maybe_null() is still false, it will be
changed below. But we have to setup Item_field correctly
*/
(*argp)->maybe_null=1;
}
new_field->field_index= fieldnr++;
}
}
}
else
{
/*
The last parameter to create_tmp_field() is a bit tricky:
We need to set it to 0 in union, to get fill_record() to modify the
temporary table.
We need to set it to 1 on multi-table-update and in select to
write rows to the temporary table.
We here distinguish between UNION and multi-table-updates by the fact
that in the later case group is set to the row pointer.
*/
Field *new_field= (param->schema_table) ?
create_tmp_field_for_schema(session, item, table) :
create_tmp_field(session, table, item, type, ©_func,
tmp_from_field, &default_field[fieldnr],
group != 0,
!force_copy_fields &&
(not_all_columns || group !=0),
/*
If item->marker == 4 then we force create_tmp_field
to create a 64-bit longs for BIT fields because HEAP
tables can't index BIT fields directly. We do the same
for distinct, as we want the distinct index to be
usable in this case too.
*/
item->marker == 4 || param->bit_fields_as_long,
force_copy_fields,
param->convert_blob_length);
if (!new_field)
{
if (session->is_fatal_error)
goto err; // Got OOM
continue; // Some kindf of const item
}
if (type == Item::SUM_FUNC_ITEM)
((Item_sum *) item)->result_field= new_field;
tmp_from_field++;
reclength+=new_field->pack_length();
if (!(new_field->flags & NOT_NULL_FLAG))
null_count++;
if (new_field->flags & BLOB_FLAG)
{
*blob_field++= fieldnr;
blob_count++;
}
if (item->marker == 4 && item->maybe_null)
{
group_null_items++;
new_field->flags|= GROUP_FLAG;
}
new_field->field_index= fieldnr++;
*(reg_field++)= new_field;
}
if (!--hidden_field_count)
{
/*
This was the last hidden field; Remember how many hidden fields could
have null
*/
hidden_null_count=null_count;
/*
We need to update hidden_field_count as we may have stored group
functions with constant arguments
*/
param->hidden_field_count= fieldnr;
null_count= 0;
}
}
assert(fieldnr == (uint32_t) (reg_field - table->field));
assert(field_count >= (uint32_t) (reg_field - table->field));
field_count= fieldnr;
*reg_field= 0;
*blob_field= 0; // End marker
share->fields= field_count;
/* If result table is small; use a heap */
/* future: storage engine selection can be made dynamic? */
if (blob_count || using_unique_constraint ||
(select_options & (OPTION_BIG_TABLES | SELECT_SMALL_RESULT)) ==
OPTION_BIG_TABLES || (select_options & TMP_TABLE_FORCE_MYISAM))
{
share->db_plugin= ha_lock_engine(0, myisam_engine);
table->file= get_new_handler(share, &table->mem_root,
share->db_type());
if (group &&
(param->group_parts > table->file->max_key_parts() ||
param->group_length > table->file->max_key_length()))
using_unique_constraint=1;
}
else
{
share->db_plugin= ha_lock_engine(0, heap_engine);
table->file= get_new_handler(share, &table->mem_root,
share->db_type());
}
if (!table->file)
goto err;
if (!using_unique_constraint)
reclength+= group_null_items; // null flag is stored separately
share->blob_fields= blob_count;
if (blob_count == 0)
{
/* We need to ensure that first byte is not 0 for the delete link */
if (param->hidden_field_count)
hidden_null_count++;
else
null_count++;
}
hidden_null_pack_length=(hidden_null_count+7)/8;
null_pack_length= (hidden_null_pack_length +
(null_count + total_uneven_bit_length + 7) / 8);
reclength+=null_pack_length;
if (!reclength)
reclength=1; // Dummy select
/* Use packed rows if there is blobs or a lot of space to gain */
if (blob_count || ((string_total_length >= STRING_TOTAL_LENGTH_TO_PACK_ROWS) && (reclength / string_total_length <= RATIO_TO_PACK_ROWS || (string_total_length / string_count) >= AVG_STRING_LENGTH_TO_PACK_ROWS)))
use_packed_rows= 1;
share->reclength= reclength;
{
uint32_t alloc_length=ALIGN_SIZE(reclength+MI_UNIQUE_HASH_LENGTH+1);
share->rec_buff_length= alloc_length;
if (!(table->record[0]= (unsigned char*)
alloc_root(&table->mem_root, alloc_length*3)))
goto err;
table->record[1]= table->record[0]+alloc_length;
share->default_values= table->record[1]+alloc_length;
}
copy_func[0]=0; // End marker
param->func_count= copy_func - param->items_to_copy;
table->setup_tmp_table_column_bitmaps(bitmaps);
recinfo=param->start_recinfo;
null_flags=(unsigned char*) table->record[0];
pos=table->record[0]+ null_pack_length;
if (null_pack_length)
{
memset(recinfo, 0, sizeof(*recinfo));
recinfo->type=FIELD_NORMAL;
recinfo->length=null_pack_length;
recinfo++;
memset(null_flags, 255, null_pack_length); // Set null fields
table->null_flags= (unsigned char*) table->record[0];
share->null_fields= null_count+ hidden_null_count;
share->null_bytes= null_pack_length;
}
null_count= (blob_count == 0) ? 1 : 0;
hidden_field_count=param->hidden_field_count;
for (i=0,reg_field=table->field; i < field_count; i++,reg_field++,recinfo++)
{
Field *field= *reg_field;
uint32_t length;
memset(recinfo, 0, sizeof(*recinfo));
if (!(field->flags & NOT_NULL_FLAG))
{
if (field->flags & GROUP_FLAG && !using_unique_constraint)
{
/*
We have to reserve one byte here for NULL bits,
as this is updated by 'end_update()'
*/
*pos++=0; // Null is stored here
recinfo->length=1;
recinfo->type=FIELD_NORMAL;
recinfo++;
memset(recinfo, 0, sizeof(*recinfo));
}
else
{
recinfo->null_bit= 1 << (null_count & 7);
recinfo->null_pos= null_count/8;
}
field->move_field(pos,null_flags+null_count/8,
1 << (null_count & 7));
null_count++;
}
else
field->move_field(pos,(unsigned char*) 0,0);
field->reset();
/*
Test if there is a default field value. The test for ->ptr is to skip
'offset' fields generated by initalize_tables
*/
if (default_field[i] && default_field[i]->ptr)
{
/*
default_field[i] is set only in the cases when 'field' can
inherit the default value that is defined for the field referred
by the Item_field object from which 'field' has been created.
*/
my_ptrdiff_t diff;
Field *orig_field= default_field[i];
/* Get the value from default_values */
diff= (my_ptrdiff_t) (orig_field->table->s->default_values-
orig_field->table->record[0]);
orig_field->move_field_offset(diff); // Points now at default_values
if (orig_field->is_real_null())
field->set_null();
else
{
field->set_notnull();
memcpy(field->ptr, orig_field->ptr, field->pack_length());
}
orig_field->move_field_offset(-diff); // Back to record[0]
}
if (from_field[i])
{ /* Not a table Item */
copy->set(field,from_field[i],save_sum_fields);
copy++;
}
length=field->pack_length();
pos+= length;
/* Make entry for create table */
recinfo->length=length;
if (field->flags & BLOB_FLAG)
recinfo->type= (int) FIELD_BLOB;
else
recinfo->type=FIELD_NORMAL;
if (!--hidden_field_count)
null_count=(null_count+7) & ~7; // move to next byte
// fix table name in field entry
field->table_name= &table->alias;
}
param->copy_field_end=copy;
param->recinfo=recinfo;
store_record(table,s->default_values); // Make empty default record
if (session->variables.tmp_table_size == ~ (uint64_t) 0) // No limit
share->max_rows= ~(ha_rows) 0;
else
share->max_rows= (ha_rows) (((share->db_type() == heap_engine) ?
cmin(session->variables.tmp_table_size,
session->variables.max_heap_table_size) :
session->variables.tmp_table_size) /
share->reclength);
set_if_bigger(share->max_rows,(ha_rows)1); // For dummy start options
/*
Push the LIMIT clause to the temporary table creation, so that we
materialize only up to 'rows_limit' records instead of all result records.
*/
set_if_smaller(share->max_rows, rows_limit);
param->end_write_records= rows_limit;
keyinfo= param->keyinfo;
if (group)
{
table->group=group; /* Table is grouped by key */
param->group_buff=group_buff;
share->keys=1;
share->uniques= test(using_unique_constraint);
table->key_info=keyinfo;
keyinfo->key_part=key_part_info;
keyinfo->flags=HA_NOSAME;
keyinfo->usable_key_parts=keyinfo->key_parts= param->group_parts;
keyinfo->key_length=0;
keyinfo->rec_per_key=0;
keyinfo->algorithm= HA_KEY_ALG_UNDEF;
keyinfo->name= (char*) "group_key";
order_st *cur_group= group;
for (; cur_group ; cur_group= cur_group->next, key_part_info++)
{
Field *field=(*cur_group->item)->get_tmp_table_field();
bool maybe_null=(*cur_group->item)->maybe_null;
key_part_info->null_bit=0;
key_part_info->field= field;
key_part_info->offset= field->offset(table->record[0]);
key_part_info->length= (uint16_t) field->key_length();
key_part_info->type= (uint8_t) field->key_type();
key_part_info->key_type =
((ha_base_keytype) key_part_info->type == HA_KEYTYPE_TEXT ||
(ha_base_keytype) key_part_info->type == HA_KEYTYPE_VARTEXT1 ||
(ha_base_keytype) key_part_info->type == HA_KEYTYPE_VARTEXT2) ?
0 : FIELDFLAG_BINARY;
if (!using_unique_constraint)
{
cur_group->buff=(char*) group_buff;
if (!(cur_group->field= field->new_key_field(session->mem_root,table,
group_buff +
test(maybe_null),
field->null_ptr,
field->null_bit)))
goto err; /* purecov: inspected */
if (maybe_null)
{
/*
To be able to group on NULL, we reserved place in group_buff
for the NULL flag just before the column. (see above).
The field data is after this flag.
The NULL flag is updated in 'end_update()' and 'end_write()'
*/
keyinfo->flags|= HA_NULL_ARE_EQUAL; // def. that NULL == NULL
key_part_info->null_bit=field->null_bit;
key_part_info->null_offset= (uint32_t) (field->null_ptr -
(unsigned char*) table->record[0]);
cur_group->buff++; // Pointer to field data
group_buff++; // Skipp null flag
}
/* In GROUP BY 'a' and 'a ' are equal for VARCHAR fields */
key_part_info->key_part_flag|= HA_END_SPACE_ARE_EQUAL;
group_buff+= cur_group->field->pack_length();
}
keyinfo->key_length+= key_part_info->length;
}
}
if (distinct && field_count != param->hidden_field_count)
{
/*
Create an unique key or an unique constraint over all columns
that should be in the result. In the temporary table, there are
'param->hidden_field_count' extra columns, whose null bits are stored
in the first 'hidden_null_pack_length' bytes of the row.
*/
if (blob_count)
{
/*
Special mode for index creation in MyISAM used to support unique
indexes on blobs with arbitrary length. Such indexes cannot be
used for lookups.
*/
share->uniques= 1;
}
null_pack_length-=hidden_null_pack_length;
keyinfo->key_parts= ((field_count-param->hidden_field_count)+
(share->uniques ? test(null_pack_length) : 0));
table->distinct= 1;
share->keys= 1;
if (!(key_part_info= (KEY_PART_INFO*)
alloc_root(&table->mem_root,
keyinfo->key_parts * sizeof(KEY_PART_INFO))))
goto err;
memset(key_part_info, 0, keyinfo->key_parts * sizeof(KEY_PART_INFO));
table->key_info=keyinfo;
keyinfo->key_part=key_part_info;
keyinfo->flags=HA_NOSAME | HA_NULL_ARE_EQUAL;
keyinfo->key_length=(uint16_t) reclength;
keyinfo->name= (char*) "distinct_key";
keyinfo->algorithm= HA_KEY_ALG_UNDEF;
keyinfo->rec_per_key=0;
/*
Create an extra field to hold NULL bits so that unique indexes on
blobs can distinguish NULL from 0. This extra field is not needed
when we do not use UNIQUE indexes for blobs.
*/
if (null_pack_length && share->uniques)
{
key_part_info->null_bit=0;
key_part_info->offset=hidden_null_pack_length;
key_part_info->length=null_pack_length;
key_part_info->field= new Field_varstring(table->record[0],
(uint32_t) key_part_info->length,
0,
(unsigned char*) 0,
(uint32_t) 0,
Field::NONE,
NULL,
table->s,
&my_charset_bin);
if (!key_part_info->field)
goto err;
key_part_info->field->init(table);
key_part_info->key_type=FIELDFLAG_BINARY;
key_part_info->type= HA_KEYTYPE_BINARY;
key_part_info++;
}
/* Create a distinct key over the columns we are going to return */
for (i=param->hidden_field_count, reg_field=table->field + i ;
i < field_count;
i++, reg_field++, key_part_info++)
{
key_part_info->null_bit=0;
key_part_info->field= *reg_field;
key_part_info->offset= (*reg_field)->offset(table->record[0]);
key_part_info->length= (uint16_t) (*reg_field)->pack_length();
/* TODO:
The below method of computing the key format length of the
key part is a copy/paste from opt_range.cc, and table.cc.
This should be factored out, e.g. as a method of Field.
In addition it is not clear if any of the Field::*_length
methods is supposed to compute the same length. If so, it
might be reused.
*/
key_part_info->store_length= key_part_info->length;
if ((*reg_field)->real_maybe_null())
key_part_info->store_length+= HA_KEY_NULL_LENGTH;
if ((*reg_field)->type() == DRIZZLE_TYPE_BLOB ||
(*reg_field)->real_type() == DRIZZLE_TYPE_VARCHAR)
key_part_info->store_length+= HA_KEY_BLOB_LENGTH;
key_part_info->type= (uint8_t) (*reg_field)->key_type();
key_part_info->key_type =
((ha_base_keytype) key_part_info->type == HA_KEYTYPE_TEXT ||
(ha_base_keytype) key_part_info->type == HA_KEYTYPE_VARTEXT1 ||
(ha_base_keytype) key_part_info->type == HA_KEYTYPE_VARTEXT2) ?
0 : FIELDFLAG_BINARY;
}
}
if (session->is_fatal_error) // If end of memory
goto err; /* purecov: inspected */
share->db_record_offset= 1;
if (share->db_type() == myisam_engine)
{
if (table->create_myisam_tmp_table(param->keyinfo, param->start_recinfo,
¶m->recinfo, select_options))
goto err;
}
if (table->open_tmp_table())
goto err;
session->mem_root= mem_root_save;
return(table);
err:
session->mem_root= mem_root_save;
table->free_tmp_table(session); /* purecov: inspected */
if (temp_pool_slot != MY_BIT_NONE)
bitmap_lock_clear_bit(&temp_pool, temp_pool_slot);
return(NULL); /* purecov: inspected */
}
/****************************************************************************/
/**
Create a reduced Table object with properly set up Field list from a
list of field definitions.
The created table doesn't have a table handler associated with
it, has no keys, no group/distinct, no copy_funcs array.
The sole purpose of this Table object is to use the power of Field
class to read/write data to/from table->record[0]. Then one can store
the record in any container (RB tree, hash, etc).
The table is created in Session mem_root, so are the table's fields.
Consequently, if you don't BLOB fields, you don't need to free it.
@param session connection handle
@param field_list list of column definitions
@return
0 if out of memory, Table object in case of success
*/
Table *create_virtual_tmp_table(Session *session, List<Create_field> &field_list)
{
uint32_t field_count= field_list.elements;
uint32_t blob_count= 0;
Field **field;
Create_field *cdef; /* column definition */
uint32_t record_length= 0;
uint32_t null_count= 0; /* number of columns which may be null */
uint32_t null_pack_length; /* NULL representation array length */
uint32_t *blob_field;
unsigned char *bitmaps;
Table *table;
TABLE_SHARE *share;
if (!multi_alloc_root(session->mem_root,
&table, sizeof(*table),
&share, sizeof(*share),
&field, (field_count + 1) * sizeof(Field*),
&blob_field, (field_count+1) *sizeof(uint32_t),
&bitmaps, bitmap_buffer_size(field_count)*2,
NULL))
return 0;
memset(table, 0, sizeof(*table));
memset(share, 0, sizeof(*share));
table->field= field;
table->s= share;
share->blob_field= blob_field;
share->fields= field_count;
share->blob_ptr_size= portable_sizeof_char_ptr;
table->setup_tmp_table_column_bitmaps(bitmaps);
/* Create all fields and calculate the total length of record */
List_iterator_fast<Create_field> it(field_list);
while ((cdef= it++))
{
*field= make_field(share, NULL, 0, cdef->length,
(unsigned char*) (f_maybe_null(cdef->pack_flag) ? "" : 0),
f_maybe_null(cdef->pack_flag) ? 1 : 0,
cdef->pack_flag, cdef->sql_type, cdef->charset,
cdef->unireg_check,
cdef->interval, cdef->field_name);
if (!*field)
goto error;
(*field)->init(table);
record_length+= (*field)->pack_length();
if (! ((*field)->flags & NOT_NULL_FLAG))
null_count++;
if ((*field)->flags & BLOB_FLAG)
share->blob_field[blob_count++]= (uint32_t) (field - table->field);
field++;
}
*field= NULL; /* mark the end of the list */
share->blob_field[blob_count]= 0; /* mark the end of the list */
share->blob_fields= blob_count;
null_pack_length= (null_count + 7)/8;
share->reclength= record_length + null_pack_length;
share->rec_buff_length= ALIGN_SIZE(share->reclength + 1);
table->record[0]= (unsigned char*) session->alloc(share->rec_buff_length);
if (!table->record[0])
goto error;
if (null_pack_length)
{
table->null_flags= (unsigned char*) table->record[0];
share->null_fields= null_count;
share->null_bytes= null_pack_length;
}
table->in_use= session; /* field->reset() may access table->in_use */
{
/* Set up field pointers */
unsigned char *null_pos= table->record[0];
unsigned char *field_pos= null_pos + share->null_bytes;
uint32_t null_bit= 1;
for (field= table->field; *field; ++field)
{
Field *cur_field= *field;
if ((cur_field->flags & NOT_NULL_FLAG))
cur_field->move_field(field_pos);
else
{
cur_field->move_field(field_pos, (unsigned char*) null_pos, null_bit);
null_bit<<= 1;
if (null_bit == (1 << 8))
{
++null_pos;
null_bit= 1;
}
}
cur_field->reset();
field_pos+= cur_field->pack_length();
}
}
return table;
error:
for (field= table->field; *field; ++field)
delete *field; /* just invokes field destructor */
return 0;
}
bool Table::open_tmp_table()
{
int error;
if ((error=file->ha_open(this, s->table_name.str,O_RDWR,
HA_OPEN_TMP_TABLE | HA_OPEN_INTERNAL_TABLE)))
{
file->print_error(error,MYF(0)); /* purecov: inspected */
db_stat=0;
return(1);
}
(void) file->extra(HA_EXTRA_QUICK); /* Faster */
return(0);
}
/*
Create MyISAM temporary table
SYNOPSIS
create_myisam_tmp_table()
keyinfo Description of the index (there is always one index)
start_recinfo MyISAM's column descriptions
recinfo INOUT End of MyISAM's column descriptions
options Option bits
DESCRIPTION
Create a MyISAM temporary table according to passed description. The is
assumed to have one unique index or constraint.
The passed array or MI_COLUMNDEF structures must have this form:
1. 1-byte column (afaiu for 'deleted' flag) (note maybe not 1-byte
when there are many nullable columns)
2. Table columns
3. One free MI_COLUMNDEF element (*recinfo points here)
This function may use the free element to create hash column for unique
constraint.
RETURN
false - OK
true - Error
*/
bool Table::create_myisam_tmp_table(KEY *keyinfo,
MI_COLUMNDEF *start_recinfo,
MI_COLUMNDEF **recinfo,
uint64_t options)
{
int error;
MI_KEYDEF keydef;
MI_UNIQUEDEF uniquedef;
TABLE_SHARE *share= s;
if (share->keys)
{ // Get keys for ni_create
bool using_unique_constraint=0;
HA_KEYSEG *seg= (HA_KEYSEG*) alloc_root(&this->mem_root,
sizeof(*seg) * keyinfo->key_parts);
if (!seg)
goto err;
memset(seg, 0, sizeof(*seg) * keyinfo->key_parts);
if (keyinfo->key_length >= file->max_key_length() ||
keyinfo->key_parts > file->max_key_parts() ||
share->uniques)
{
/* Can't create a key; Make a unique constraint instead of a key */
share->keys= 0;
share->uniques= 1;
using_unique_constraint=1;
memset(&uniquedef, 0, sizeof(uniquedef));
uniquedef.keysegs=keyinfo->key_parts;
uniquedef.seg=seg;
uniquedef.null_are_equal=1;
/* Create extra column for hash value */
memset(*recinfo, 0, sizeof(**recinfo));
(*recinfo)->type= FIELD_CHECK;
(*recinfo)->length=MI_UNIQUE_HASH_LENGTH;
(*recinfo)++;
share->reclength+=MI_UNIQUE_HASH_LENGTH;
}
else
{
/* Create an unique key */
memset(&keydef, 0, sizeof(keydef));
keydef.flag=HA_NOSAME | HA_BINARY_PACK_KEY | HA_PACK_KEY;
keydef.keysegs= keyinfo->key_parts;
keydef.seg= seg;
}
for (uint32_t i=0; i < keyinfo->key_parts ; i++,seg++)
{
Field *key_field=keyinfo->key_part[i].field;
seg->flag= 0;
seg->language= key_field->charset()->number;
seg->length= keyinfo->key_part[i].length;
seg->start= keyinfo->key_part[i].offset;
if (key_field->flags & BLOB_FLAG)
{
seg->type=
((keyinfo->key_part[i].key_type & FIELDFLAG_BINARY) ?
HA_KEYTYPE_VARBINARY2 : HA_KEYTYPE_VARTEXT2);
seg->bit_start= (uint8_t)(key_field->pack_length()
- share->blob_ptr_size);
seg->flag= HA_BLOB_PART;
seg->length=0; // Whole blob in unique constraint
}
else
{
seg->type= keyinfo->key_part[i].type;
}
if (!(key_field->flags & NOT_NULL_FLAG))
{
seg->null_bit= key_field->null_bit;
seg->null_pos= (uint32_t) (key_field->null_ptr - (unsigned char*) record[0]);
/*
We are using a GROUP BY on something that contains NULL
In this case we have to tell MyISAM that two NULL should
on INSERT be regarded at the same value
*/
if (!using_unique_constraint)
keydef.flag|= HA_NULL_ARE_EQUAL;
}
}
}
MI_CREATE_INFO create_info;
memset(&create_info, 0, sizeof(create_info));
if ((options & (OPTION_BIG_TABLES | SELECT_SMALL_RESULT)) ==
OPTION_BIG_TABLES)
create_info.data_file_length= ~(uint64_t) 0;
if ((error=mi_create(share->table_name.str, share->keys, &keydef,
(uint32_t) (*recinfo-start_recinfo),
start_recinfo,
share->uniques, &uniquedef,
&create_info,
HA_CREATE_TMP_TABLE)))
{
file->print_error(error,MYF(0)); /* purecov: inspected */
db_stat=0;
goto err;
}
status_var_increment(in_use->status_var.created_tmp_disk_tables);
share->db_record_offset= 1;
return false;
err:
return true;
}
void Table::free_tmp_table(Session *session)
{
MEM_ROOT own_root= mem_root;
const char *save_proc_info;
save_proc_info=session->get_proc_info();
session->set_proc_info("removing tmp table");
// Release latches since this can take a long time
ha_release_temporary_latches(session);
if (file)
{
if (db_stat)
file->ha_drop_table(s->table_name.str);
else
file->ha_delete_table(s->table_name.str);
delete file;
}
/* free blobs */
for (Field **ptr= field ; *ptr ; ptr++)
(*ptr)->free();
free_io_cache(this);
if (temp_pool_slot != MY_BIT_NONE)
bitmap_lock_clear_bit(&temp_pool, temp_pool_slot);
free_root(&own_root, MYF(0)); /* the table is allocated in its own root */
session->set_proc_info(save_proc_info);
return;
}
/**
If a HEAP table gets full, create a MyISAM table and copy all rows
to this.
*/
bool create_myisam_from_heap(Session *session, Table *table,
MI_COLUMNDEF *start_recinfo,
MI_COLUMNDEF **recinfo,
int error, bool ignore_last_dupp_key_error)
{
Table new_table;
TABLE_SHARE share;
const char *save_proc_info;
int write_err;
if (table->s->db_type() != heap_engine ||
error != HA_ERR_RECORD_FILE_FULL)
{
table->file->print_error(error,MYF(0));
return(1);
}
// Release latches since this can take a long time
ha_release_temporary_latches(session);
new_table= *table;
share= *table->s;
new_table.s= &share;
new_table.s->db_plugin= ha_lock_engine(session, myisam_engine);
if (!(new_table.file= get_new_handler(&share, &new_table.mem_root,
new_table.s->db_type())))
return(1); // End of memory
save_proc_info=session->get_proc_info();
session->set_proc_info("converting HEAP to MyISAM");
if (new_table.create_myisam_tmp_table(table->key_info, start_recinfo,
recinfo, session->lex->select_lex.options |
session->options))
goto err2;
if (new_table.open_tmp_table())
goto err1;
if (table->file->indexes_are_disabled())
new_table.file->ha_disable_indexes(HA_KEY_SWITCH_ALL);
table->file->ha_index_or_rnd_end();
table->file->ha_rnd_init(1);
if (table->no_rows)
{
new_table.file->extra(HA_EXTRA_NO_ROWS);
new_table.no_rows=1;
}
/* HA_EXTRA_WRITE_CACHE can stay until close, no need to disable it */
new_table.file->extra(HA_EXTRA_WRITE_CACHE);
/*
copy all old rows from heap table to MyISAM table
This is the only code that uses record[1] to read/write but this
is safe as this is a temporary MyISAM table without timestamp/autoincrement.
*/
while (!table->file->rnd_next(new_table.record[1]))
{
write_err= new_table.file->ha_write_row(new_table.record[1]);
if (write_err)
goto err;
}
/* copy row that filled HEAP table */
if ((write_err=new_table.file->ha_write_row(table->record[0])))
{
if (new_table.file->is_fatal_error(write_err, HA_CHECK_DUP) ||
!ignore_last_dupp_key_error)
goto err;
}
/* remove heap table and change to use myisam table */
(void) table->file->ha_rnd_end();
(void) table->file->close(); // This deletes the table !
delete table->file;
table->file=0;
share.db_plugin= plugin_lock(0, &share.db_plugin);
new_table.s= table->s; // Keep old share
*table= new_table;
*table->s= share;
table->file->change_table_ptr(table, table->s);
table->use_all_columns();
if (save_proc_info)
{
const char *new_proc_info=
(!strcmp(save_proc_info,"Copying to tmp table") ?
"Copying to tmp table on disk" : save_proc_info);
session->set_proc_info(new_proc_info);
}
return(0);
err:
table->file->print_error(write_err, MYF(0));
(void) table->file->ha_rnd_end();
(void) new_table.file->close();
err1:
new_table.file->ha_delete_table(new_table.s->table_name.str);
err2:
delete new_table.file;
session->set_proc_info(save_proc_info);
table->mem_root= new_table.mem_root;
return(1);
}
my_bitmap_map *Table::use_all_columns(MY_BITMAP *bitmap)
{
my_bitmap_map *old= bitmap->bitmap;
bitmap->bitmap= s->all_set.bitmap;
return old;
}
void Table::restore_column_map(my_bitmap_map *old)
{
read_set->bitmap= old;
}
uint32_t Table::find_shortest_key(const key_map *usable_keys)
{
uint32_t min_length= UINT32_MAX;
uint32_t best= MAX_KEY;
if (!usable_keys->is_clear_all())
{
for (uint32_t nr=0; nr < s->keys ; nr++)
{
if (usable_keys->is_set(nr))
{
if (key_info[nr].key_length < min_length)
{
min_length= key_info[nr].key_length;
best=nr;
}
}
}
}
return best;
}
/*****************************************************************************
Remove duplicates from tmp table
This should be recoded to add a unique index to the table and remove
duplicates
Table is a locked single thread table
fields is the number of fields to check (from the end)
*****************************************************************************/
bool Table::compare_record(Field **ptr)
{
for (; *ptr ; ptr++)
{
if ((*ptr)->cmp_offset(s->rec_buff_length))
return true;
}
return false;
}
/* Return false if row hasn't changed */
bool Table::compare_record()
{
if (s->blob_fields + s->varchar_fields == 0)
return cmp_record(this, record[1]);
/* Compare null bits */
if (memcmp(null_flags,
null_flags + s->rec_buff_length,
s->null_bytes))
return true; // Diff in NULL value
/* Compare updated fields */
for (Field **ptr= field ; *ptr ; ptr++)
{
if (bitmap_is_set(write_set, (*ptr)->field_index) &&
(*ptr)->cmp_binary_offset(s->rec_buff_length))
return true;
}
return false;
}
/*****************************************************************************
The different ways to read a record
Returns -1 if row was not found, 0 if row was found and 1 on errors
*****************************************************************************/
/** Help function when we get some an error from the table handler. */
int Table::report_error(int error)
{
if (error == HA_ERR_END_OF_FILE || error == HA_ERR_KEY_NOT_FOUND)
{
status= STATUS_GARBAGE;
return -1; // key not found; ok
}
/*
Locking reads can legally return also these errors, do not
print them to the .err log
*/
if (error != HA_ERR_LOCK_DEADLOCK && error != HA_ERR_LOCK_WAIT_TIMEOUT)
errmsg_printf(ERRMSG_LVL_ERROR, _("Got error %d when reading table '%s'"),
error, s->path.str);
file->print_error(error,MYF(0));
return 1;
}
/*
Calculate data for each virtual field marked for write in the
corresponding column map.
SYNOPSIS
update_virtual_fields_marked_for_write()
table The Table object
ignore_stored Indication whether physically stored virtual
fields do not need updating.
This value is false when during INSERT and UPDATE
and true in all other cases.
RETURN
0 - Success
>0 - Error occurred during the generation/calculation of a virtual field value
*/
int update_virtual_fields_marked_for_write(Table *table,
bool ignore_stored)
{
Field **vfield_ptr, *vfield;
int error= 0;
if ((not table) or (not table->vfield))
return(0);
/* Iterate over virtual fields in the table */
for (vfield_ptr= table->vfield; *vfield_ptr; vfield_ptr++)
{
vfield= (*vfield_ptr);
assert(vfield->vcol_info && vfield->vcol_info->expr_item);
/*
Only update those fields that are marked in the write_set bitmap
and not _already_ physically stored in the database.
*/
if (bitmap_is_set(table->write_set, vfield->field_index) &&
(not (ignore_stored && vfield->is_stored))
)
{
/* Generate the actual value of the virtual fields */
error= vfield->vcol_info->expr_item->save_in_field(vfield, 0);
}
}
return(0);
}
void Table::setup_table_map(TableList *table_list, uint32_t table_number)
{
used_fields= 0;
const_table= 0;
null_row= 0;
status= STATUS_NO_RECORD;
maybe_null= table_list->outer_join;
TableList *embedding= table_list->embedding;
while (!maybe_null && embedding)
{
maybe_null= embedding->outer_join;
embedding= embedding->embedding;
}
tablenr= table_number;
map= (table_map) 1 << table_number;
force_index= table_list->force_index;
covering_keys= s->keys_for_keyread;
merge_keys.clear_all();
}
/*****************************************************************************
** Instansiate templates
*****************************************************************************/
#ifdef HAVE_EXPLICIT_TEMPLATE_INSTANTIATION
template class List<String>;
template class List_iterator<String>;
#endif
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