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|
/*****************************************************************************
Copyright (c) 2005, 2010, Innobase Oy. All Rights Reserved.
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
*****************************************************************************/
/**************************************************//**
@file handler/handler0alter.cc
Smart ALTER TABLE
*******************************************************/
#include <mysql_priv.h>
#include <mysqld_error.h>
extern "C" {
#include "log0log.h"
#include "row0merge.h"
#include "srv0srv.h"
#include "trx0trx.h"
#include "trx0roll.h"
#include "ha_prototypes.h"
#include "handler0alter.h"
}
#include "ha_innodb.h"
/*************************************************************//**
Copies an InnoDB column to a MySQL field. This function is
adapted from row_sel_field_store_in_mysql_format(). */
static
void
innobase_col_to_mysql(
/*==================*/
const dict_col_t* col, /*!< in: InnoDB column */
const uchar* data, /*!< in: InnoDB column data */
ulint len, /*!< in: length of data, in bytes */
Field* field) /*!< in/out: MySQL field */
{
uchar* ptr;
uchar* dest = field->ptr;
ulint flen = field->pack_length();
switch (col->mtype) {
case DATA_INT:
ut_ad(len == flen);
/* Convert integer data from Innobase to little-endian
format, sign bit restored to normal */
for (ptr = dest + len; ptr != dest; ) {
*--ptr = *data++;
}
if (!(field->flags & UNSIGNED_FLAG)) {
((byte*) dest)[len - 1] ^= 0x80;
}
break;
case DATA_VARCHAR:
case DATA_VARMYSQL:
case DATA_BINARY:
field->reset();
if (field->type() == MYSQL_TYPE_VARCHAR) {
/* This is a >= 5.0.3 type true VARCHAR. Store the
length of the data to the first byte or the first
two bytes of dest. */
dest = row_mysql_store_true_var_len(
dest, len, flen - field->key_length());
}
/* Copy the actual data */
memcpy(dest, data, len);
break;
case DATA_BLOB:
/* Store a pointer to the BLOB buffer to dest: the BLOB was
already copied to the buffer in row_sel_store_mysql_rec */
row_mysql_store_blob_ref(dest, flen, data, len);
break;
#ifdef UNIV_DEBUG
case DATA_MYSQL:
ut_ad(flen >= len);
ut_ad(col->mbmaxlen >= col->mbminlen);
ut_ad(col->mbmaxlen > col->mbminlen || flen == len);
memcpy(dest, data, len);
break;
default:
case DATA_SYS_CHILD:
case DATA_SYS:
/* These column types should never be shipped to MySQL. */
ut_ad(0);
case DATA_CHAR:
case DATA_FIXBINARY:
case DATA_FLOAT:
case DATA_DOUBLE:
case DATA_DECIMAL:
/* Above are the valid column types for MySQL data. */
ut_ad(flen == len);
#else /* UNIV_DEBUG */
default:
#endif /* UNIV_DEBUG */
memcpy(dest, data, len);
}
}
/*************************************************************//**
Copies an InnoDB record to table->record[0]. */
extern "C" UNIV_INTERN
void
innobase_rec_to_mysql(
/*==================*/
TABLE* table, /*!< in/out: MySQL table */
const rec_t* rec, /*!< in: record */
const dict_index_t* index, /*!< in: index */
const ulint* offsets) /*!< in: rec_get_offsets(
rec, index, ...) */
{
uint n_fields = table->s->fields;
uint i;
ut_ad(n_fields == dict_table_get_n_user_cols(index->table));
for (i = 0; i < n_fields; i++) {
Field* field = table->field[i];
ulint ipos;
ulint ilen;
const uchar* ifield;
field->reset();
ipos = dict_index_get_nth_col_pos(index, i);
if (UNIV_UNLIKELY(ipos == ULINT_UNDEFINED)) {
null_field:
field->set_null();
continue;
}
ifield = rec_get_nth_field(rec, offsets, ipos, &ilen);
/* Assign the NULL flag */
if (ilen == UNIV_SQL_NULL) {
ut_ad(field->real_maybe_null());
goto null_field;
}
field->set_notnull();
innobase_col_to_mysql(
dict_field_get_col(
dict_index_get_nth_field(index, ipos)),
ifield, ilen, field);
}
}
/*************************************************************//**
Resets table->record[0]. */
extern "C" UNIV_INTERN
void
innobase_rec_reset(
/*===============*/
TABLE* table) /*!< in/out: MySQL table */
{
uint n_fields = table->s->fields;
uint i;
for (i = 0; i < n_fields; i++) {
table->field[i]->set_default();
}
}
/******************************************************************//**
Removes the filename encoding of a database and table name. */
static
void
innobase_convert_tablename(
/*=======================*/
char* s) /*!< in: identifier; out: decoded identifier */
{
uint errors;
char* slash = strchr(s, '/');
if (slash) {
char* t;
/* Temporarily replace the '/' with NUL. */
*slash = 0;
/* Convert the database name. */
strconvert(&my_charset_filename, s, system_charset_info,
s, slash - s + 1, &errors);
t = s + strlen(s);
ut_ad(slash >= t);
/* Append a '.' after the database name. */
*t++ = '.';
slash++;
/* Convert the table name. */
strconvert(&my_charset_filename, slash, system_charset_info,
t, slash - t + strlen(slash), &errors);
} else {
strconvert(&my_charset_filename, s,
system_charset_info, s, strlen(s), &errors);
}
}
/*******************************************************************//**
This function checks that index keys are sensible.
@return 0 or error number */
static
int
innobase_check_index_keys(
/*======================*/
const KEY* key_info, /*!< in: Indexes to be
created */
ulint num_of_keys, /*!< in: Number of
indexes to be created */
const dict_table_t* table) /*!< in: Existing indexes */
{
ulint key_num;
ut_ad(key_info);
ut_ad(num_of_keys);
for (key_num = 0; key_num < num_of_keys; key_num++) {
const KEY& key = key_info[key_num];
/* Check that the same index name does not appear
twice in indexes to be created. */
for (ulint i = 0; i < key_num; i++) {
const KEY& key2 = key_info[i];
if (0 == strcmp(key.name, key2.name)) {
my_error(ER_WRONG_NAME_FOR_INDEX, MYF(0),
key.name);
return(ER_WRONG_NAME_FOR_INDEX);
}
}
/* Check that the same index name does not already exist. */
for (const dict_index_t* index
= dict_table_get_first_index(table);
index; index = dict_table_get_next_index(index)) {
if (0 == strcmp(key.name, index->name)) {
my_error(ER_WRONG_NAME_FOR_INDEX, MYF(0),
key.name);
return(ER_WRONG_NAME_FOR_INDEX);
}
}
/* Check that MySQL does not try to create a column
prefix index field on an inappropriate data type and
that the same column does not appear twice in the index. */
for (ulint i = 0; i < key.key_parts; i++) {
const KEY_PART_INFO& key_part1
= key.key_part[i];
const Field* field
= key_part1.field;
ibool is_unsigned;
switch (get_innobase_type_from_mysql_type(
&is_unsigned, field)) {
default:
break;
case DATA_INT:
case DATA_FLOAT:
case DATA_DOUBLE:
case DATA_DECIMAL:
if (field->type() == MYSQL_TYPE_VARCHAR) {
if (key_part1.length
>= field->pack_length()
- ((Field_varstring*) field)
->length_bytes) {
break;
}
} else {
if (key_part1.length
>= field->pack_length()) {
break;
}
}
my_error(ER_WRONG_KEY_COLUMN, MYF(0),
field->field_name);
return(ER_WRONG_KEY_COLUMN);
}
for (ulint j = 0; j < i; j++) {
const KEY_PART_INFO& key_part2
= key.key_part[j];
if (strcmp(key_part1.field->field_name,
key_part2.field->field_name)) {
continue;
}
my_error(ER_WRONG_KEY_COLUMN, MYF(0),
key_part1.field->field_name);
return(ER_WRONG_KEY_COLUMN);
}
}
}
return(0);
}
/*******************************************************************//**
Create index field definition for key part */
static
void
innobase_create_index_field_def(
/*============================*/
KEY_PART_INFO* key_part, /*!< in: MySQL key definition */
mem_heap_t* heap, /*!< in: memory heap */
merge_index_field_t* index_field) /*!< out: index field
definition for key_part */
{
Field* field;
ibool is_unsigned;
ulint col_type;
DBUG_ENTER("innobase_create_index_field_def");
ut_ad(key_part);
ut_ad(index_field);
field = key_part->field;
ut_a(field);
col_type = get_innobase_type_from_mysql_type(&is_unsigned, field);
if (DATA_BLOB == col_type
|| (key_part->length < field->pack_length()
&& field->type() != MYSQL_TYPE_VARCHAR)
|| (field->type() == MYSQL_TYPE_VARCHAR
&& key_part->length < field->pack_length()
- ((Field_varstring*)field)->length_bytes)) {
index_field->prefix_len = key_part->length;
} else {
index_field->prefix_len = 0;
}
index_field->field_name = mem_heap_strdup(heap, field->field_name);
DBUG_VOID_RETURN;
}
/*******************************************************************//**
Create index definition for key */
static
void
innobase_create_index_def(
/*======================*/
KEY* key, /*!< in: key definition */
bool new_primary, /*!< in: TRUE=generating
a new primary key
on the table */
bool key_primary, /*!< in: TRUE if this key
is a primary key */
merge_index_def_t* index, /*!< out: index definition */
mem_heap_t* heap) /*!< in: heap where memory
is allocated */
{
ulint i;
ulint len;
ulint n_fields = key->key_parts;
char* index_name;
DBUG_ENTER("innobase_create_index_def");
index->fields = (merge_index_field_t*) mem_heap_alloc(
heap, n_fields * sizeof *index->fields);
index->ind_type = 0;
index->n_fields = n_fields;
len = strlen(key->name) + 1;
index->name = index_name = (char*) mem_heap_alloc(heap,
len + !new_primary);
if (UNIV_LIKELY(!new_primary)) {
*index_name++ = TEMP_INDEX_PREFIX;
}
memcpy(index_name, key->name, len);
if (key->flags & HA_NOSAME) {
index->ind_type |= DICT_UNIQUE;
}
if (key_primary) {
index->ind_type |= DICT_CLUSTERED;
}
for (i = 0; i < n_fields; i++) {
innobase_create_index_field_def(&key->key_part[i], heap,
&index->fields[i]);
}
DBUG_VOID_RETURN;
}
/*******************************************************************//**
Copy index field definition */
static
void
innobase_copy_index_field_def(
/*==========================*/
const dict_field_t* field, /*!< in: definition to copy */
merge_index_field_t* index_field) /*!< out: copied definition */
{
DBUG_ENTER("innobase_copy_index_field_def");
DBUG_ASSERT(field != NULL);
DBUG_ASSERT(index_field != NULL);
index_field->field_name = field->name;
index_field->prefix_len = field->prefix_len;
DBUG_VOID_RETURN;
}
/*******************************************************************//**
Copy index definition for the index */
static
void
innobase_copy_index_def(
/*====================*/
const dict_index_t* index, /*!< in: index definition to copy */
merge_index_def_t* new_index,/*!< out: Index definition */
mem_heap_t* heap) /*!< in: heap where allocated */
{
ulint n_fields;
ulint i;
DBUG_ENTER("innobase_copy_index_def");
/* Note that we take only those fields that user defined to be
in the index. In the internal representation more colums were
added and those colums are not copied .*/
n_fields = index->n_user_defined_cols;
new_index->fields = (merge_index_field_t*) mem_heap_alloc(
heap, n_fields * sizeof *new_index->fields);
/* When adding a PRIMARY KEY, we may convert a previous
clustered index to a secondary index (UNIQUE NOT NULL). */
new_index->ind_type = index->type & ~DICT_CLUSTERED;
new_index->n_fields = n_fields;
new_index->name = index->name;
for (i = 0; i < n_fields; i++) {
innobase_copy_index_field_def(&index->fields[i],
&new_index->fields[i]);
}
DBUG_VOID_RETURN;
}
/*******************************************************************//**
Create an index table where indexes are ordered as follows:
IF a new primary key is defined for the table THEN
1) New primary key
2) Original secondary indexes
3) New secondary indexes
ELSE
1) All new indexes in the order they arrive from MySQL
ENDIF
@return key definitions or NULL */
static
merge_index_def_t*
innobase_create_key_def(
/*====================*/
trx_t* trx, /*!< in: trx */
const dict_table_t*table, /*!< in: table definition */
mem_heap_t* heap, /*!< in: heap where space for key
definitions are allocated */
KEY* key_info, /*!< in: Indexes to be created */
ulint& n_keys) /*!< in/out: Number of indexes to
be created */
{
ulint i = 0;
merge_index_def_t* indexdef;
merge_index_def_t* indexdefs;
bool new_primary;
DBUG_ENTER("innobase_create_key_def");
indexdef = indexdefs = (merge_index_def_t*)
mem_heap_alloc(heap, sizeof *indexdef
* (n_keys + UT_LIST_GET_LEN(table->indexes)));
/* If there is a primary key, it is always the first index
defined for the table. */
new_primary = !my_strcasecmp(system_charset_info,
key_info->name, "PRIMARY");
/* If there is a UNIQUE INDEX consisting entirely of NOT NULL
columns and if the index does not contain column prefix(es)
(only prefix/part of the column is indexed), MySQL will treat the
index as a PRIMARY KEY unless the table already has one. */
if (!new_primary && (key_info->flags & HA_NOSAME)
&& (!(key_info->flags & HA_KEY_HAS_PART_KEY_SEG))
&& row_table_got_default_clust_index(table)) {
uint key_part = key_info->key_parts;
new_primary = TRUE;
while (key_part--) {
if (key_info->key_part[key_part].key_type
& FIELDFLAG_MAYBE_NULL) {
new_primary = FALSE;
break;
}
}
}
if (new_primary) {
const dict_index_t* index;
/* Create the PRIMARY key index definition */
innobase_create_index_def(&key_info[i++], TRUE, TRUE,
indexdef++, heap);
row_mysql_lock_data_dictionary(trx);
index = dict_table_get_first_index(table);
/* Copy the index definitions of the old table. Skip
the old clustered index if it is a generated clustered
index or a PRIMARY KEY. If the clustered index is a
UNIQUE INDEX, it must be converted to a secondary index. */
if (dict_index_get_nth_col(index, 0)->mtype == DATA_SYS
|| !my_strcasecmp(system_charset_info,
index->name, "PRIMARY")) {
index = dict_table_get_next_index(index);
}
while (index) {
innobase_copy_index_def(index, indexdef++, heap);
index = dict_table_get_next_index(index);
}
row_mysql_unlock_data_dictionary(trx);
}
/* Create definitions for added secondary indexes. */
while (i < n_keys) {
innobase_create_index_def(&key_info[i++], new_primary, FALSE,
indexdef++, heap);
}
n_keys = indexdef - indexdefs;
DBUG_RETURN(indexdefs);
}
/*******************************************************************//**
Create a temporary tablename using query id, thread id, and id
@return temporary tablename */
static
char*
innobase_create_temporary_tablename(
/*================================*/
mem_heap_t* heap, /*!< in: memory heap */
char id, /*!< in: identifier [0-9a-zA-Z] */
const char* table_name) /*!< in: table name */
{
char* name;
ulint len;
static const char suffix[] = "@0023 "; /* "# " */
len = strlen(table_name);
name = (char*) mem_heap_alloc(heap, len + sizeof suffix);
memcpy(name, table_name, len);
memcpy(name + len, suffix, sizeof suffix);
name[len + (sizeof suffix - 2)] = id;
return(name);
}
/*******************************************************************//**
Create indexes.
@return 0 or error number */
UNIV_INTERN
int
ha_innobase::add_index(
/*===================*/
TABLE* table, /*!< in: Table where indexes are created */
KEY* key_info, /*!< in: Indexes to be created */
uint num_of_keys) /*!< in: Number of indexes to be created */
{
dict_index_t** index; /*!< Index to be created */
dict_table_t* innodb_table; /*!< InnoDB table in dictionary */
dict_table_t* indexed_table; /*!< Table where indexes are created */
merge_index_def_t* index_defs; /*!< Index definitions */
mem_heap_t* heap; /*!< Heap for index definitions */
trx_t* trx; /*!< Transaction */
ulint num_of_idx;
ulint num_created = 0;
ibool dict_locked = FALSE;
ulint new_primary;
int error;
DBUG_ENTER("ha_innobase::add_index");
ut_a(table);
ut_a(key_info);
ut_a(num_of_keys);
if (srv_created_new_raw || srv_force_recovery) {
DBUG_RETURN(HA_ERR_WRONG_COMMAND);
}
update_thd();
heap = mem_heap_create(1024);
/* In case MySQL calls this in the middle of a SELECT query, release
possible adaptive hash latch to avoid deadlocks of threads. */
trx_search_latch_release_if_reserved(prebuilt->trx);
trx_start_if_not_started(prebuilt->trx);
/* Create a background transaction for the operations on
the data dictionary tables. */
trx = innobase_trx_allocate(user_thd);
trx_start_if_not_started(trx);
innodb_table = indexed_table
= dict_table_get(prebuilt->table->name, FALSE);
if (UNIV_UNLIKELY(!innodb_table)) {
error = HA_ERR_NO_SUCH_TABLE;
goto err_exit;
}
/* Check if the index name is reserved. */
if (innobase_index_name_is_reserved(trx, key_info, num_of_keys)) {
error = ER_WRONG_NAME_FOR_INDEX;
} else {
/* Check that index keys are sensible */
error = innobase_check_index_keys(key_info, num_of_keys,
innodb_table);
}
if (UNIV_UNLIKELY(error)) {
err_exit:
mem_heap_free(heap);
trx_general_rollback_for_mysql(trx, NULL);
trx_free_for_mysql(trx);
trx_commit_for_mysql(prebuilt->trx);
DBUG_RETURN(error);
}
/* Create table containing all indexes to be built in this
alter table add index so that they are in the correct order
in the table. */
num_of_idx = num_of_keys;
index_defs = innobase_create_key_def(
trx, innodb_table, heap, key_info, num_of_idx);
new_primary = DICT_CLUSTERED & index_defs[0].ind_type;
/* Allocate memory for dictionary index definitions */
index = (dict_index_t**) mem_heap_alloc(
heap, num_of_idx * sizeof *index);
/* Flag this transaction as a dictionary operation, so that
the data dictionary will be locked in crash recovery. */
trx_set_dict_operation(trx, TRX_DICT_OP_INDEX);
/* Acquire a lock on the table before creating any indexes. */
error = row_merge_lock_table(prebuilt->trx, innodb_table,
new_primary ? LOCK_X : LOCK_S);
if (UNIV_UNLIKELY(error != DB_SUCCESS)) {
goto error_handling;
}
/* Latch the InnoDB data dictionary exclusively so that no deadlocks
or lock waits can happen in it during an index create operation. */
row_mysql_lock_data_dictionary(trx);
dict_locked = TRUE;
ut_d(dict_table_check_for_dup_indexes(innodb_table, FALSE));
/* If a new primary key is defined for the table we need
to drop the original table and rebuild all indexes. */
if (UNIV_UNLIKELY(new_primary)) {
/* This transaction should be the only one
operating on the table. */
ut_a(innodb_table->n_mysql_handles_opened == 1);
char* new_table_name = innobase_create_temporary_tablename(
heap, '1', innodb_table->name);
/* Clone the table. */
trx_set_dict_operation(trx, TRX_DICT_OP_TABLE);
indexed_table = row_merge_create_temporary_table(
new_table_name, index_defs, innodb_table, trx);
if (!indexed_table) {
switch (trx->error_state) {
case DB_TABLESPACE_ALREADY_EXISTS:
case DB_DUPLICATE_KEY:
innobase_convert_tablename(new_table_name);
my_error(HA_ERR_TABLE_EXIST, MYF(0),
new_table_name);
error = HA_ERR_TABLE_EXIST;
break;
default:
error = convert_error_code_to_mysql(
trx->error_state, innodb_table->flags,
user_thd);
}
ut_d(dict_table_check_for_dup_indexes(innodb_table,
FALSE));
row_mysql_unlock_data_dictionary(trx);
goto err_exit;
}
trx->table_id = indexed_table->id;
}
/* Create the indexes in SYS_INDEXES and load into dictionary. */
for (ulint i = 0; i < num_of_idx; i++) {
index[i] = row_merge_create_index(trx, indexed_table,
&index_defs[i]);
if (!index[i]) {
error = trx->error_state;
goto error_handling;
}
num_created++;
}
ut_ad(error == DB_SUCCESS);
/* We will need to rebuild index translation table. Set
valid index entry count in the translation table to zero */
share->idx_trans_tbl.index_count = 0;
/* Commit the data dictionary transaction in order to release
the table locks on the system tables. This means that if
MySQL crashes while creating a new primary key inside
row_merge_build_indexes(), indexed_table will not be dropped
by trx_rollback_active(). It will have to be recovered or
dropped by the database administrator. */
trx_commit_for_mysql(trx);
row_mysql_unlock_data_dictionary(trx);
dict_locked = FALSE;
ut_a(trx->n_active_thrs == 0);
ut_a(UT_LIST_GET_LEN(trx->signals) == 0);
if (UNIV_UNLIKELY(new_primary)) {
/* A primary key is to be built. Acquire an exclusive
table lock also on the table that is being created. */
ut_ad(indexed_table != innodb_table);
error = row_merge_lock_table(prebuilt->trx, indexed_table,
LOCK_X);
if (UNIV_UNLIKELY(error != DB_SUCCESS)) {
goto error_handling;
}
}
/* Read the clustered index of the table and build indexes
based on this information using temporary files and merge sort. */
error = row_merge_build_indexes(prebuilt->trx,
innodb_table, indexed_table,
index, num_of_idx, table);
error_handling:
/* After an error, remove all those index definitions from the
dictionary which were defined. */
switch (error) {
const char* old_name;
char* tmp_name;
case DB_SUCCESS:
ut_a(!dict_locked);
row_mysql_lock_data_dictionary(trx);
dict_locked = TRUE;
ut_d(dict_table_check_for_dup_indexes(prebuilt->table, TRUE));
if (!new_primary) {
error = row_merge_rename_indexes(trx, indexed_table);
if (error != DB_SUCCESS) {
row_merge_drop_indexes(trx, indexed_table,
index, num_created);
}
goto convert_error;
}
/* If a new primary key was defined for the table and
there was no error at this point, we can now rename
the old table as a temporary table, rename the new
temporary table as the old table and drop the old table. */
old_name = innodb_table->name;
tmp_name = innobase_create_temporary_tablename(heap, '2',
old_name);
error = row_merge_rename_tables(innodb_table, indexed_table,
tmp_name, trx);
if (error != DB_SUCCESS) {
row_merge_drop_table(trx, indexed_table);
switch (error) {
case DB_TABLESPACE_ALREADY_EXISTS:
case DB_DUPLICATE_KEY:
innobase_convert_tablename(tmp_name);
my_error(HA_ERR_TABLE_EXIST, MYF(0), tmp_name);
error = HA_ERR_TABLE_EXIST;
break;
default:
goto convert_error;
}
break;
}
trx_commit_for_mysql(prebuilt->trx);
row_prebuilt_free(prebuilt, TRUE);
prebuilt = row_create_prebuilt(indexed_table);
indexed_table->n_mysql_handles_opened++;
error = row_merge_drop_table(trx, innodb_table);
innodb_table = indexed_table;
goto convert_error;
case DB_TOO_BIG_RECORD:
my_error(HA_ERR_TO_BIG_ROW, MYF(0));
goto error;
case DB_PRIMARY_KEY_IS_NULL:
my_error(ER_PRIMARY_CANT_HAVE_NULL, MYF(0));
/* fall through */
case DB_DUPLICATE_KEY:
error:
prebuilt->trx->error_info = NULL;
/* fall through */
default:
if (new_primary) {
if (indexed_table != innodb_table) {
row_merge_drop_table(trx, indexed_table);
}
} else {
if (!dict_locked) {
row_mysql_lock_data_dictionary(trx);
dict_locked = TRUE;
}
row_merge_drop_indexes(trx, indexed_table,
index, num_created);
}
convert_error:
error = convert_error_code_to_mysql(error,
innodb_table->flags,
user_thd);
}
mem_heap_free(heap);
trx_commit_for_mysql(trx);
if (prebuilt->trx) {
trx_commit_for_mysql(prebuilt->trx);
}
if (dict_locked) {
ut_d(dict_table_check_for_dup_indexes(innodb_table, FALSE));
row_mysql_unlock_data_dictionary(trx);
}
trx_free_for_mysql(trx);
/* There might be work for utility threads.*/
srv_active_wake_master_thread();
DBUG_RETURN(error);
}
/*******************************************************************//**
Prepare to drop some indexes of a table.
@return 0 or error number */
UNIV_INTERN
int
ha_innobase::prepare_drop_index(
/*============================*/
TABLE* table, /*!< in: Table where indexes are dropped */
uint* key_num, /*!< in: Key nums to be dropped */
uint num_of_keys) /*!< in: Number of keys to be dropped */
{
trx_t* trx;
int err = 0;
uint n_key;
DBUG_ENTER("ha_innobase::prepare_drop_index");
ut_ad(table);
ut_ad(key_num);
ut_ad(num_of_keys);
if (srv_created_new_raw || srv_force_recovery) {
DBUG_RETURN(HA_ERR_WRONG_COMMAND);
}
update_thd();
trx_search_latch_release_if_reserved(prebuilt->trx);
trx = prebuilt->trx;
/* Test and mark all the indexes to be dropped */
row_mysql_lock_data_dictionary(trx);
ut_d(dict_table_check_for_dup_indexes(prebuilt->table, FALSE));
/* Check that none of the indexes have previously been flagged
for deletion. */
{
const dict_index_t* index
= dict_table_get_first_index(prebuilt->table);
do {
ut_a(!index->to_be_dropped);
index = dict_table_get_next_index(index);
} while (index);
}
for (n_key = 0; n_key < num_of_keys; n_key++) {
const KEY* key;
dict_index_t* index;
key = table->key_info + key_num[n_key];
index = dict_table_get_index_on_name_and_min_id(
prebuilt->table, key->name);
if (!index) {
sql_print_error("InnoDB could not find key n:o %u "
"with name %s for table %s",
key_num[n_key],
key ? key->name : "NULL",
prebuilt->table->name);
err = HA_ERR_KEY_NOT_FOUND;
goto func_exit;
}
/* Refuse to drop the clustered index. It would be
better to automatically generate a clustered index,
but mysql_alter_table() will call this method only
after ha_innobase::add_index(). */
if (dict_index_is_clust(index)) {
my_error(ER_REQUIRES_PRIMARY_KEY, MYF(0));
err = -1;
goto func_exit;
}
index->to_be_dropped = TRUE;
}
/* If FOREIGN_KEY_CHECK = 1 you may not drop an index defined
for a foreign key constraint because InnoDB requires that both
tables contain indexes for the constraint. Note that CREATE
INDEX id ON table does a CREATE INDEX and DROP INDEX, and we
can ignore here foreign keys because a new index for the
foreign key has already been created.
We check for the foreign key constraints after marking the
candidate indexes for deletion, because when we check for an
equivalent foreign index we don't want to select an index that
is later deleted. */
if (trx->check_foreigns
&& thd_sql_command(user_thd) != SQLCOM_CREATE_INDEX) {
dict_index_t* index;
for (index = dict_table_get_first_index(prebuilt->table);
index;
index = dict_table_get_next_index(index)) {
dict_foreign_t* foreign;
if (!index->to_be_dropped) {
continue;
}
/* Check if the index is referenced. */
foreign = dict_table_get_referenced_constraint(
prebuilt->table, index);
if (foreign) {
index_needed:
trx_set_detailed_error(
trx,
"Index needed in foreign key "
"constraint");
trx->error_info = index;
err = HA_ERR_DROP_INDEX_FK;
break;
} else {
/* Check if this index references some
other table */
foreign = dict_table_get_foreign_constraint(
prebuilt->table, index);
if (foreign) {
ut_a(foreign->foreign_index == index);
/* Search for an equivalent index that
the foreign key constraint could use
if this index were to be deleted. */
if (!dict_foreign_find_equiv_index(
foreign)) {
goto index_needed;
}
}
}
}
} else if (thd_sql_command(user_thd) == SQLCOM_CREATE_INDEX) {
/* This is a drop of a foreign key constraint index that
was created by MySQL when the constraint was added. MySQL
does this when the user creates an index explicitly which
can be used in place of the automatically generated index. */
dict_index_t* index;
for (index = dict_table_get_first_index(prebuilt->table);
index;
index = dict_table_get_next_index(index)) {
dict_foreign_t* foreign;
if (!index->to_be_dropped) {
continue;
}
/* Check if this index references some other table */
foreign = dict_table_get_foreign_constraint(
prebuilt->table, index);
if (foreign == NULL) {
continue;
}
ut_a(foreign->foreign_index == index);
/* Search for an equivalent index that the
foreign key constraint could use if this index
were to be deleted. */
if (!dict_foreign_find_equiv_index(foreign)) {
trx_set_detailed_error(
trx,
"Index needed in foreign key "
"constraint");
trx->error_info = foreign->foreign_index;
err = HA_ERR_DROP_INDEX_FK;
break;
}
}
}
func_exit:
if (err) {
/* Undo our changes since there was some sort of error. */
dict_index_t* index
= dict_table_get_first_index(prebuilt->table);
do {
index->to_be_dropped = FALSE;
index = dict_table_get_next_index(index);
} while (index);
}
ut_d(dict_table_check_for_dup_indexes(prebuilt->table, FALSE));
row_mysql_unlock_data_dictionary(trx);
DBUG_RETURN(err);
}
/*******************************************************************//**
Drop the indexes that were passed to a successful prepare_drop_index().
@return 0 or error number */
UNIV_INTERN
int
ha_innobase::final_drop_index(
/*==========================*/
TABLE* table) /*!< in: Table where indexes are dropped */
{
dict_index_t* index; /*!< Index to be dropped */
trx_t* trx; /*!< Transaction */
int err;
DBUG_ENTER("ha_innobase::final_drop_index");
ut_ad(table);
if (srv_created_new_raw || srv_force_recovery) {
DBUG_RETURN(HA_ERR_WRONG_COMMAND);
}
update_thd();
trx_search_latch_release_if_reserved(prebuilt->trx);
trx_start_if_not_started(prebuilt->trx);
/* Create a background transaction for the operations on
the data dictionary tables. */
trx = innobase_trx_allocate(user_thd);
trx_start_if_not_started(trx);
/* Flag this transaction as a dictionary operation, so that
the data dictionary will be locked in crash recovery. */
trx_set_dict_operation(trx, TRX_DICT_OP_INDEX);
/* Lock the table exclusively, to ensure that no active
transaction depends on an index that is being dropped. */
err = convert_error_code_to_mysql(
row_merge_lock_table(prebuilt->trx, prebuilt->table, LOCK_X),
prebuilt->table->flags, user_thd);
row_mysql_lock_data_dictionary(trx);
ut_d(dict_table_check_for_dup_indexes(prebuilt->table, FALSE));
if (UNIV_UNLIKELY(err)) {
/* Unmark the indexes to be dropped. */
for (index = dict_table_get_first_index(prebuilt->table);
index; index = dict_table_get_next_index(index)) {
index->to_be_dropped = FALSE;
}
goto func_exit;
}
/* Drop indexes marked to be dropped */
index = dict_table_get_first_index(prebuilt->table);
while (index) {
dict_index_t* next_index;
next_index = dict_table_get_next_index(index);
if (index->to_be_dropped) {
row_merge_drop_index(index, prebuilt->table, trx);
}
index = next_index;
}
/* Check that all flagged indexes were dropped. */
for (index = dict_table_get_first_index(prebuilt->table);
index; index = dict_table_get_next_index(index)) {
ut_a(!index->to_be_dropped);
}
/* We will need to rebuild index translation table. Set
valid index entry count in the translation table to zero */
share->idx_trans_tbl.index_count = 0;
func_exit:
ut_d(dict_table_check_for_dup_indexes(prebuilt->table, FALSE));
trx_commit_for_mysql(trx);
trx_commit_for_mysql(prebuilt->trx);
row_mysql_unlock_data_dictionary(trx);
/* Flush the log to reduce probability that the .frm files and
the InnoDB data dictionary get out-of-sync if the user runs
with innodb_flush_log_at_trx_commit = 0 */
log_buffer_flush_to_disk();
trx_free_for_mysql(trx);
/* Tell the InnoDB server that there might be work for
utility threads: */
srv_active_wake_master_thread();
DBUG_RETURN(err);
}
|