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|
/*****************************************************************************
Copyright (c) 1996, 2016, Oracle and/or its affiliates. All Rights Reserved.
Copyright (c) 2012, Facebook Inc.
Copyright (c) 2013, 2017, MariaDB Corporation.
This program is free software; you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free Software
Foundation; version 2 of the License.
This program is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details.
You should have received a copy of the GNU General Public License along with
this program; if not, write to the Free Software Foundation, Inc.,
51 Franklin Street, Suite 500, Boston, MA 02110-1335 USA
*****************************************************************************/
/******************************************************************//**
@file dict/dict0dict.cc
Data dictionary system
Created 1/8/1996 Heikki Tuuri
***********************************************************************/
#include <my_config.h>
#include <string>
#include "ha_prototypes.h"
#include <mysqld.h>
#include <strfunc.h>
#include "dict0dict.h"
#include "fts0fts.h"
#include "fil0fil.h"
#include <algorithm>
/** dummy index for ROW_FORMAT=REDUNDANT supremum and infimum records */
dict_index_t* dict_ind_redundant;
#if defined UNIV_DEBUG || defined UNIV_IBUF_DEBUG
/** Flag to control insert buffer debugging. */
extern uint ibuf_debug;
#endif /* UNIV_DEBUG || UNIV_IBUF_DEBUG */
/**********************************************************************
Issue a warning that the row is too big. */
void
ib_warn_row_too_big(const dict_table_t* table);
#include "btr0btr.h"
#include "btr0cur.h"
#include "btr0sea.h"
#include "buf0buf.h"
#include "data0type.h"
#include "dict0boot.h"
#include "dict0crea.h"
#include "dict0mem.h"
#include "dict0priv.h"
#include "dict0stats.h"
#include "fsp0sysspace.h"
#include "fts0fts.h"
#include "fts0types.h"
#include "lock0lock.h"
#include "mach0data.h"
#include "mem0mem.h"
#include "os0once.h"
#include "page0page.h"
#include "page0zip.h"
#include "pars0pars.h"
#include "pars0sym.h"
#include "que0que.h"
#include "rem0cmp.h"
#include "row0log.h"
#include "row0merge.h"
#include "row0mysql.h"
#include "row0upd.h"
#include "srv0mon.h"
#include "srv0start.h"
#include "sync0sync.h"
#include "trx0undo.h"
#include "ut0new.h"
#include <vector>
#include <algorithm>
/** the dictionary system */
dict_sys_t* dict_sys = NULL;
/** @brief the data dictionary rw-latch protecting dict_sys
table create, drop, etc. reserve this in X-mode; implicit or
backround operations purge, rollback, foreign key checks reserve this
in S-mode; we cannot trust that MySQL protects implicit or background
operations a table drop since MySQL does not know of them; therefore
we need this; NOTE: a transaction which reserves this must keep book
on the mode in trx_t::dict_operation_lock_mode */
rw_lock_t* dict_operation_lock;
/** Percentage of compression failures that are allowed in a single
round */
ulong zip_failure_threshold_pct = 5;
/** Maximum percentage of a page that can be allowed as a pad to avoid
compression failures */
ulong zip_pad_max = 50;
#define DICT_HEAP_SIZE 100 /*!< initial memory heap size when
creating a table or index object */
#define DICT_POOL_PER_TABLE_HASH 512 /*!< buffer pool max size per table
hash table fixed size in bytes */
#define DICT_POOL_PER_VARYING 4 /*!< buffer pool max size per data
dictionary varying size in bytes */
/** Identifies generated InnoDB foreign key names */
static char dict_ibfk[] = "_ibfk_";
bool innodb_table_stats_not_found = false;
bool innodb_index_stats_not_found = false;
static bool innodb_table_stats_not_found_reported = false;
static bool innodb_index_stats_not_found_reported = false;
/*******************************************************************//**
Tries to find column names for the index and sets the col field of the
index.
@param[in] table table
@param[in] index index
@param[in] add_v new virtual columns added along with an add index call
@return TRUE if the column names were found */
static
ibool
dict_index_find_cols(
const dict_table_t* table,
dict_index_t* index,
const dict_add_v_col_t* add_v);
/*******************************************************************//**
Builds the internal dictionary cache representation for a clustered
index, containing also system fields not defined by the user.
@return own: the internal representation of the clustered index */
static
dict_index_t*
dict_index_build_internal_clust(
/*============================*/
const dict_table_t* table, /*!< in: table */
dict_index_t* index); /*!< in: user representation of
a clustered index */
/*******************************************************************//**
Builds the internal dictionary cache representation for a non-clustered
index, containing also system fields not defined by the user.
@return own: the internal representation of the non-clustered index */
static
dict_index_t*
dict_index_build_internal_non_clust(
/*================================*/
const dict_table_t* table, /*!< in: table */
dict_index_t* index); /*!< in: user representation of
a non-clustered index */
/**********************************************************************//**
Builds the internal dictionary cache representation for an FTS index.
@return own: the internal representation of the FTS index */
static
dict_index_t*
dict_index_build_internal_fts(
/*==========================*/
dict_table_t* table, /*!< in: table */
dict_index_t* index); /*!< in: user representation of an FTS index */
/**********************************************************************//**
Removes an index from the dictionary cache. */
static
void
dict_index_remove_from_cache_low(
/*=============================*/
dict_table_t* table, /*!< in/out: table */
dict_index_t* index, /*!< in, own: index */
ibool lru_evict); /*!< in: TRUE if page being evicted
to make room in the table LRU list */
#ifdef UNIV_DEBUG
/**********************************************************************//**
Validate the dictionary table LRU list.
@return TRUE if validate OK */
static
ibool
dict_lru_validate(void);
/*===================*/
/**********************************************************************//**
Check if table is in the dictionary table LRU list.
@return TRUE if table found */
static
ibool
dict_lru_find_table(
/*================*/
const dict_table_t* find_table); /*!< in: table to find */
/**********************************************************************//**
Check if a table exists in the dict table non-LRU list.
@return TRUE if table found */
static
ibool
dict_non_lru_find_table(
/*====================*/
const dict_table_t* find_table); /*!< in: table to find */
#endif /* UNIV_DEBUG */
/* Stream for storing detailed information about the latest foreign key
and unique key errors. Only created if !srv_read_only_mode */
FILE* dict_foreign_err_file = NULL;
/* mutex protecting the foreign and unique error buffers */
ib_mutex_t dict_foreign_err_mutex;
/********************************************************************//**
Checks if the database name in two table names is the same.
@return TRUE if same db name */
ibool
dict_tables_have_same_db(
/*=====================*/
const char* name1, /*!< in: table name in the form
dbname '/' tablename */
const char* name2) /*!< in: table name in the form
dbname '/' tablename */
{
for (; *name1 == *name2; name1++, name2++) {
if (*name1 == '/') {
return(TRUE);
}
ut_a(*name1); /* the names must contain '/' */
}
return(FALSE);
}
/********************************************************************//**
Return the end of table name where we have removed dbname and '/'.
@return table name */
const char*
dict_remove_db_name(
/*================*/
const char* name) /*!< in: table name in the form
dbname '/' tablename */
{
const char* s = strchr(name, '/');
ut_a(s);
return(s + 1);
}
/********************************************************************//**
Get the database name length in a table name.
@return database name length */
ulint
dict_get_db_name_len(
/*=================*/
const char* name) /*!< in: table name in the form
dbname '/' tablename */
{
const char* s;
s = strchr(name, '/');
ut_a(s);
return(s - name);
}
/** Reserve the dictionary system mutex. */
void
dict_mutex_enter_for_mysql_func(const char *file, unsigned line)
{
mutex_enter_loc(&dict_sys->mutex, file, line);
}
/********************************************************************//**
Releases the dictionary system mutex for MySQL. */
void
dict_mutex_exit_for_mysql(void)
/*===========================*/
{
mutex_exit(&dict_sys->mutex);
}
/** Allocate and init a dict_table_t's stats latch.
This function must not be called concurrently on the same table object.
@param[in,out] table_void table whose stats latch to create */
static
void
dict_table_stats_latch_alloc(
void* table_void)
{
dict_table_t* table = static_cast<dict_table_t*>(table_void);
/* Note: rw_lock_create() will call the constructor */
table->stats_latch = static_cast<rw_lock_t*>(
ut_malloc_nokey(sizeof(rw_lock_t)));
ut_a(table->stats_latch != NULL);
rw_lock_create(dict_table_stats_key, table->stats_latch,
SYNC_INDEX_TREE);
}
/** Deinit and free a dict_table_t's stats latch.
This function must not be called concurrently on the same table object.
@param[in,out] table table whose stats latch to free */
static
void
dict_table_stats_latch_free(
dict_table_t* table)
{
rw_lock_free(table->stats_latch);
ut_free(table->stats_latch);
}
/** Create a dict_table_t's stats latch or delay for lazy creation.
This function is only called from either single threaded environment
or from a thread that has not shared the table object with other threads.
@param[in,out] table table whose stats latch to create
@param[in] enabled if false then the latch is disabled
and dict_table_stats_lock()/unlock() become noop on this table. */
void
dict_table_stats_latch_create(
dict_table_t* table,
bool enabled)
{
if (!enabled) {
table->stats_latch = NULL;
table->stats_latch_created = os_once::DONE;
return;
}
/* We create this lazily the first time it is used. */
table->stats_latch = NULL;
table->stats_latch_created = os_once::NEVER_DONE;
}
/** Destroy a dict_table_t's stats latch.
This function is only called from either single threaded environment
or from a thread that has not shared the table object with other threads.
@param[in,out] table table whose stats latch to destroy */
void
dict_table_stats_latch_destroy(
dict_table_t* table)
{
if (table->stats_latch_created == os_once::DONE
&& table->stats_latch != NULL) {
dict_table_stats_latch_free(table);
}
}
/** Lock the appropriate latch to protect a given table's statistics.
@param[in] table table whose stats to lock
@param[in] latch_mode RW_S_LATCH or RW_X_LATCH */
void
dict_table_stats_lock(
dict_table_t* table,
ulint latch_mode)
{
ut_ad(table != NULL);
ut_ad(table->magic_n == DICT_TABLE_MAGIC_N);
os_once::do_or_wait_for_done(
&table->stats_latch_created,
dict_table_stats_latch_alloc, table);
if (table->stats_latch == NULL) {
/* This is a dummy table object that is private in the current
thread and is not shared between multiple threads, thus we
skip any locking. */
return;
}
switch (latch_mode) {
case RW_S_LATCH:
rw_lock_s_lock(table->stats_latch);
break;
case RW_X_LATCH:
rw_lock_x_lock(table->stats_latch);
break;
case RW_NO_LATCH:
/* fall through */
default:
ut_error;
}
}
/** Unlock the latch that has been locked by dict_table_stats_lock().
@param[in] table table whose stats to unlock
@param[in] latch_mode RW_S_LATCH or RW_X_LATCH */
void
dict_table_stats_unlock(
dict_table_t* table,
ulint latch_mode)
{
ut_ad(table != NULL);
ut_ad(table->magic_n == DICT_TABLE_MAGIC_N);
if (table->stats_latch == NULL) {
/* This is a dummy table object that is private in the current
thread and is not shared between multiple threads, thus we
skip any locking. */
return;
}
switch (latch_mode) {
case RW_S_LATCH:
rw_lock_s_unlock(table->stats_latch);
break;
case RW_X_LATCH:
rw_lock_x_unlock(table->stats_latch);
break;
case RW_NO_LATCH:
/* fall through */
default:
ut_error;
}
}
/**********************************************************************//**
Try to drop any indexes after an aborted index creation.
This can also be after a server kill during DROP INDEX. */
static
void
dict_table_try_drop_aborted(
/*========================*/
dict_table_t* table, /*!< in: table, or NULL if it
needs to be looked up again */
table_id_t table_id, /*!< in: table identifier */
ulint ref_count) /*!< in: expected table->n_ref_count */
{
trx_t* trx;
trx = trx_allocate_for_background();
trx->op_info = "try to drop any indexes after an aborted index creation";
row_mysql_lock_data_dictionary(trx);
trx_set_dict_operation(trx, TRX_DICT_OP_INDEX);
if (table == NULL) {
table = dict_table_open_on_id_low(
table_id, DICT_ERR_IGNORE_NONE, FALSE);
} else {
ut_ad(table->id == table_id);
}
if (table && table->get_ref_count() == ref_count && table->drop_aborted) {
/* Silence a debug assertion in row_merge_drop_indexes(). */
ut_d(table->acquire());
row_merge_drop_indexes(trx, table, TRUE);
ut_d(table->release());
ut_ad(table->get_ref_count() == ref_count);
trx_commit_for_mysql(trx);
}
row_mysql_unlock_data_dictionary(trx);
trx_free_for_background(trx);
}
/**********************************************************************//**
When opening a table,
try to drop any indexes after an aborted index creation.
Release the dict_sys->mutex. */
static
void
dict_table_try_drop_aborted_and_mutex_exit(
/*=======================================*/
dict_table_t* table, /*!< in: table (may be NULL) */
ibool try_drop) /*!< in: FALSE if should try to
drop indexes whose online creation
was aborted */
{
if (try_drop
&& table != NULL
&& table->drop_aborted
&& table->get_ref_count() == 1
&& dict_table_get_first_index(table)) {
/* Attempt to drop the indexes whose online creation
was aborted. */
table_id_t table_id = table->id;
mutex_exit(&dict_sys->mutex);
dict_table_try_drop_aborted(table, table_id, 1);
} else {
mutex_exit(&dict_sys->mutex);
}
}
/********************************************************************//**
Decrements the count of open handles to a table. */
void
dict_table_close(
/*=============*/
dict_table_t* table, /*!< in/out: table */
ibool dict_locked, /*!< in: TRUE=data dictionary locked */
ibool try_drop) /*!< in: TRUE=try to drop any orphan
indexes after an aborted online
index creation */
{
if (!dict_locked) {
mutex_enter(&dict_sys->mutex);
}
ut_ad(mutex_own(&dict_sys->mutex));
ut_a(table->get_ref_count() > 0);
table->release();
/* Force persistent stats re-read upon next open of the table
so that FLUSH TABLE can be used to forcibly fetch stats from disk
if they have been manually modified. We reset table->stat_initialized
only if table reference count is 0 because we do not want too frequent
stats re-reads (e.g. in other cases than FLUSH TABLE). */
if (strchr(table->name.m_name, '/') != NULL
&& table->get_ref_count() == 0
&& dict_stats_is_persistent_enabled(table)) {
dict_stats_deinit(table);
}
MONITOR_DEC(MONITOR_TABLE_REFERENCE);
ut_ad(dict_lru_validate());
#ifdef UNIV_DEBUG
if (table->can_be_evicted) {
ut_ad(dict_lru_find_table(table));
} else {
ut_ad(dict_non_lru_find_table(table));
}
#endif /* UNIV_DEBUG */
if (!dict_locked) {
table_id_t table_id = table->id;
ibool drop_aborted;
drop_aborted = try_drop
&& table->drop_aborted
&& table->get_ref_count() == 1
&& dict_table_get_first_index(table);
mutex_exit(&dict_sys->mutex);
if (drop_aborted) {
dict_table_try_drop_aborted(NULL, table_id, 0);
}
}
}
/********************************************************************//**
Closes the only open handle to a table and drops a table while assuring
that dict_sys->mutex is held the whole time. This assures that the table
is not evicted after the close when the count of open handles goes to zero.
Because dict_sys->mutex is held, we do not need to call
dict_table_prevent_eviction(). */
void
dict_table_close_and_drop(
/*======================*/
trx_t* trx, /*!< in: data dictionary transaction */
dict_table_t* table) /*!< in/out: table */
{
dberr_t err = DB_SUCCESS;
ut_ad(mutex_own(&dict_sys->mutex));
ut_ad(rw_lock_own(dict_operation_lock, RW_LOCK_X));
ut_ad(trx->dict_operation != TRX_DICT_OP_NONE);
ut_ad(trx_state_eq(trx, TRX_STATE_ACTIVE));
dict_table_close(table, TRUE, FALSE);
#if defined UNIV_DEBUG || defined UNIV_DDL_DEBUG
/* Nobody should have initialized the stats of the newly created
table when this is called. So we know that it has not been added
for background stats gathering. */
ut_a(!table->stat_initialized);
#endif /* UNIV_DEBUG || UNIV_DDL_DEBUG */
err = row_merge_drop_table(trx, table);
if (err != DB_SUCCESS) {
ib::error() << "At " << __FILE__ << ":" << __LINE__
<< " row_merge_drop_table returned error: " << err
<< " table: " << table->name.m_name;
}
}
/** Check if the table has a given (non_virtual) column.
@param[in] table table object
@param[in] col_name column name
@param[in] col_nr column number guessed, 0 as default
@return column number if the table has the specified column,
otherwise table->n_def */
ulint
dict_table_has_column(
const dict_table_t* table,
const char* col_name,
ulint col_nr)
{
ulint col_max = table->n_def;
ut_ad(table);
ut_ad(col_name);
ut_ad(table->magic_n == DICT_TABLE_MAGIC_N);
if (col_nr < col_max
&& innobase_strcasecmp(
col_name, dict_table_get_col_name(table, col_nr)) == 0) {
return(col_nr);
}
/** The order of column may changed, check it with other columns */
for (ulint i = 0; i < col_max; i++) {
if (i != col_nr
&& innobase_strcasecmp(
col_name, dict_table_get_col_name(table, i)) == 0) {
return(i);
}
}
return(col_max);
}
/**********************************************************************//**
Returns a column's name.
@return column name. NOTE: not guaranteed to stay valid if table is
modified in any way (columns added, etc.). */
const char*
dict_table_get_col_name(
/*====================*/
const dict_table_t* table, /*!< in: table */
ulint col_nr) /*!< in: column number */
{
ulint i;
const char* s;
ut_ad(table);
ut_ad(col_nr < table->n_def);
ut_ad(table->magic_n == DICT_TABLE_MAGIC_N);
s = table->col_names;
if (s) {
for (i = 0; i < col_nr; i++) {
s += strlen(s) + 1;
}
}
return(s);
}
/** Returns a virtual column's name.
@param[in] table target table
@param[in] col_nr virtual column number (nth virtual column)
@return column name or NULL if column number out of range. */
const char*
dict_table_get_v_col_name(
const dict_table_t* table,
ulint col_nr)
{
const char* s;
ut_ad(table);
ut_ad(col_nr < table->n_v_def);
ut_ad(table->magic_n == DICT_TABLE_MAGIC_N);
if (col_nr >= table->n_v_def) {
return(NULL);
}
s = table->v_col_names;
if (s != NULL) {
for (ulint i = 0; i < col_nr; i++) {
s += strlen(s) + 1;
}
}
return(s);
}
/** Search virtual column's position in InnoDB according to its position
in original table's position
@param[in] table target table
@param[in] col_nr column number (nth column in the MySQL table)
@return virtual column's position in InnoDB, ULINT_UNDEFINED if not find */
static
ulint
dict_table_get_v_col_pos_for_mysql(
const dict_table_t* table,
ulint col_nr)
{
ulint i;
ut_ad(table);
ut_ad(col_nr < static_cast<ulint>(table->n_t_def));
ut_ad(table->magic_n == DICT_TABLE_MAGIC_N);
for (i = 0; i < table->n_v_def; i++) {
if (col_nr == dict_get_v_col_mysql_pos(
table->v_cols[i].m_col.ind)) {
break;
}
}
if (i == table->n_v_def) {
return(ULINT_UNDEFINED);
}
return(i);
}
/** Returns a virtual column's name according to its original
MySQL table position.
@param[in] table target table
@param[in] col_nr column number (nth column in the table)
@return column name. */
static
const char*
dict_table_get_v_col_name_mysql(
const dict_table_t* table,
ulint col_nr)
{
ulint i = dict_table_get_v_col_pos_for_mysql(table, col_nr);
if (i == ULINT_UNDEFINED) {
return(NULL);
}
return(dict_table_get_v_col_name(table, i));
}
/** Get nth virtual column according to its original MySQL table position
@param[in] table target table
@param[in] col_nr column number in MySQL Table definition
@return dict_v_col_t ptr */
dict_v_col_t*
dict_table_get_nth_v_col_mysql(
const dict_table_t* table,
ulint col_nr)
{
ulint i = dict_table_get_v_col_pos_for_mysql(table, col_nr);
if (i == ULINT_UNDEFINED) {
return(NULL);
}
return(dict_table_get_nth_v_col(table, i));
}
/** Allocate and init the autoinc latch of a given table.
This function must not be called concurrently on the same table object.
@param[in,out] table_void table whose autoinc latch to create */
static
void
dict_table_autoinc_alloc(
void* table_void)
{
dict_table_t* table = static_cast<dict_table_t*>(table_void);
table->autoinc_mutex = UT_NEW_NOKEY(ib_mutex_t());
ut_a(table->autoinc_mutex != NULL);
mutex_create(LATCH_ID_AUTOINC, table->autoinc_mutex);
}
/** Allocate and init the zip_pad_mutex of a given index.
This function must not be called concurrently on the same index object.
@param[in,out] index_void index whose zip_pad_mutex to create */
static
void
dict_index_zip_pad_alloc(
void* index_void)
{
dict_index_t* index = static_cast<dict_index_t*>(index_void);
index->zip_pad.mutex = UT_NEW_NOKEY(SysMutex());
ut_a(index->zip_pad.mutex != NULL);
mutex_create(LATCH_ID_ZIP_PAD_MUTEX, index->zip_pad.mutex);
}
/********************************************************************//**
Acquire the autoinc lock. */
void
dict_table_autoinc_lock(
/*====================*/
dict_table_t* table) /*!< in/out: table */
{
os_once::do_or_wait_for_done(
&table->autoinc_mutex_created,
dict_table_autoinc_alloc, table);
mutex_enter(table->autoinc_mutex);
}
/** Acquire the zip_pad_mutex latch.
@param[in,out] index the index whose zip_pad_mutex to acquire.*/
static
void
dict_index_zip_pad_lock(
dict_index_t* index)
{
os_once::do_or_wait_for_done(
&index->zip_pad.mutex_created,
dict_index_zip_pad_alloc, index);
mutex_enter(index->zip_pad.mutex);
}
/** Get all the FTS indexes on a table.
@param[in] table table
@param[out] indexes all FTS indexes on this table
@return number of FTS indexes */
ulint
dict_table_get_all_fts_indexes(
const dict_table_t* table,
ib_vector_t* indexes)
{
dict_index_t* index;
ut_a(ib_vector_size(indexes) == 0);
for (index = dict_table_get_first_index(table);
index;
index = dict_table_get_next_index(index)) {
if (index->type == DICT_FTS) {
ib_vector_push(indexes, &index);
}
}
return(ib_vector_size(indexes));
}
/********************************************************************//**
Release the autoinc lock. */
void
dict_table_autoinc_unlock(
/*======================*/
dict_table_t* table) /*!< in/out: table */
{
mutex_exit(table->autoinc_mutex);
}
/** Looks for column n in an index.
@param[in] index index
@param[in] n column number
@param[in] inc_prefix true=consider column prefixes too
@param[in] is_virtual true==virtual column
@param[out] prefix_col_pos col num if prefix
@return position in internal representation of the index;
ULINT_UNDEFINED if not contained */
ulint
dict_index_get_nth_col_or_prefix_pos(
const dict_index_t* index,
ulint n,
bool inc_prefix,
bool is_virtual,
ulint* prefix_col_pos)
{
const dict_field_t* field;
const dict_col_t* col;
ulint pos;
ulint n_fields;
ut_ad(index);
ut_ad(index->magic_n == DICT_INDEX_MAGIC_N);
if (prefix_col_pos) {
*prefix_col_pos = ULINT_UNDEFINED;
}
if (is_virtual) {
col = &(dict_table_get_nth_v_col(index->table, n)->m_col);
} else {
col = dict_table_get_nth_col(index->table, n);
}
if (dict_index_is_clust(index)) {
return(dict_col_get_clust_pos(col, index));
}
n_fields = dict_index_get_n_fields(index);
for (pos = 0; pos < n_fields; pos++) {
field = dict_index_get_nth_field(index, pos);
if (col == field->col) {
if (prefix_col_pos) {
*prefix_col_pos = pos;
}
if (inc_prefix || field->prefix_len == 0) {
return(pos);
}
}
}
return(ULINT_UNDEFINED);
}
/** Returns TRUE if the index contains a column or a prefix of that column.
@param[in] index index
@param[in] n column number
@param[in] is_virtual whether it is a virtual col
@return TRUE if contains the column or its prefix */
ibool
dict_index_contains_col_or_prefix(
const dict_index_t* index,
ulint n,
bool is_virtual)
{
const dict_field_t* field;
const dict_col_t* col;
ulint pos;
ulint n_fields;
ut_ad(index);
ut_ad(index->magic_n == DICT_INDEX_MAGIC_N);
if (dict_index_is_clust(index)) {
return(!is_virtual);
}
if (is_virtual) {
col = &dict_table_get_nth_v_col(index->table, n)->m_col;
} else {
col = dict_table_get_nth_col(index->table, n);
}
n_fields = dict_index_get_n_fields(index);
for (pos = 0; pos < n_fields; pos++) {
field = dict_index_get_nth_field(index, pos);
if (col == field->col) {
return(TRUE);
}
}
return(FALSE);
}
/********************************************************************//**
Looks for a matching field in an index. The column has to be the same. The
column in index must be complete, or must contain a prefix longer than the
column in index2. That is, we must be able to construct the prefix in index2
from the prefix in index.
@return position in internal representation of the index;
ULINT_UNDEFINED if not contained */
ulint
dict_index_get_nth_field_pos(
/*=========================*/
const dict_index_t* index, /*!< in: index from which to search */
const dict_index_t* index2, /*!< in: index */
ulint n) /*!< in: field number in index2 */
{
const dict_field_t* field;
const dict_field_t* field2;
ulint n_fields;
ulint pos;
ut_ad(index);
ut_ad(index->magic_n == DICT_INDEX_MAGIC_N);
field2 = dict_index_get_nth_field(index2, n);
n_fields = dict_index_get_n_fields(index);
/* Are we looking for a MBR (Minimum Bound Box) field of
a spatial index */
bool is_mbr_fld = (n == 0 && dict_index_is_spatial(index2));
for (pos = 0; pos < n_fields; pos++) {
field = dict_index_get_nth_field(index, pos);
/* The first field of a spatial index is a transformed
MBR (Minimum Bound Box) field made out of original column,
so its field->col still points to original cluster index
col, but the actual content is different. So we cannot
consider them equal if neither of them is MBR field */
if (pos == 0 && dict_index_is_spatial(index) && !is_mbr_fld) {
continue;
}
if (field->col == field2->col
&& (field->prefix_len == 0
|| (field->prefix_len >= field2->prefix_len
&& field2->prefix_len != 0))) {
return(pos);
}
}
return(ULINT_UNDEFINED);
}
/**********************************************************************//**
Returns a table object based on table id.
@return table, NULL if does not exist */
dict_table_t*
dict_table_open_on_id(
/*==================*/
table_id_t table_id, /*!< in: table id */
ibool dict_locked, /*!< in: TRUE=data dictionary locked */
dict_table_op_t table_op) /*!< in: operation to perform */
{
dict_table_t* table;
if (!dict_locked) {
mutex_enter(&dict_sys->mutex);
}
ut_ad(mutex_own(&dict_sys->mutex));
table = dict_table_open_on_id_low(
table_id,
table_op == DICT_TABLE_OP_LOAD_TABLESPACE
? DICT_ERR_IGNORE_RECOVER_LOCK
: DICT_ERR_IGNORE_NONE,
table_op == DICT_TABLE_OP_OPEN_ONLY_IF_CACHED);
if (table != NULL) {
if (table->can_be_evicted) {
dict_move_to_mru(table);
}
table->acquire();
MONITOR_INC(MONITOR_TABLE_REFERENCE);
}
if (!dict_locked) {
dict_table_try_drop_aborted_and_mutex_exit(
table, table_op == DICT_TABLE_OP_DROP_ORPHAN);
}
return(table);
}
/********************************************************************//**
Looks for column n position in the clustered index.
@return position in internal representation of the clustered index */
ulint
dict_table_get_nth_col_pos(
/*=======================*/
const dict_table_t* table, /*!< in: table */
ulint n, /*!< in: column number */
ulint* prefix_col_pos)
{
return(dict_index_get_nth_col_pos(dict_table_get_first_index(table),
n, prefix_col_pos));
}
/********************************************************************//**
Checks if a column is in the ordering columns of the clustered index of a
table. Column prefixes are treated like whole columns.
@return TRUE if the column, or its prefix, is in the clustered key */
ibool
dict_table_col_in_clustered_key(
/*============================*/
const dict_table_t* table, /*!< in: table */
ulint n) /*!< in: column number */
{
const dict_index_t* index;
const dict_field_t* field;
const dict_col_t* col;
ulint pos;
ulint n_fields;
ut_ad(table);
col = dict_table_get_nth_col(table, n);
index = dict_table_get_first_index(table);
n_fields = dict_index_get_n_unique(index);
for (pos = 0; pos < n_fields; pos++) {
field = dict_index_get_nth_field(index, pos);
if (col == field->col) {
return(TRUE);
}
}
return(FALSE);
}
/**********************************************************************//**
Inits the data dictionary module. */
void
dict_init(void)
/*===========*/
{
dict_operation_lock = static_cast<rw_lock_t*>(
ut_zalloc_nokey(sizeof(*dict_operation_lock)));
dict_sys = static_cast<dict_sys_t*>(ut_zalloc_nokey(sizeof(*dict_sys)));
UT_LIST_INIT(dict_sys->table_LRU, &dict_table_t::table_LRU);
UT_LIST_INIT(dict_sys->table_non_LRU, &dict_table_t::table_LRU);
mutex_create(LATCH_ID_DICT_SYS, &dict_sys->mutex);
dict_sys->table_hash = hash_create(
buf_pool_get_curr_size()
/ (DICT_POOL_PER_TABLE_HASH * UNIV_WORD_SIZE));
dict_sys->table_id_hash = hash_create(
buf_pool_get_curr_size()
/ (DICT_POOL_PER_TABLE_HASH * UNIV_WORD_SIZE));
rw_lock_create(dict_operation_lock_key,
dict_operation_lock, SYNC_DICT_OPERATION);
if (!srv_read_only_mode) {
dict_foreign_err_file = os_file_create_tmpfile(NULL);
ut_a(dict_foreign_err_file);
}
mutex_create(LATCH_ID_DICT_FOREIGN_ERR, &dict_foreign_err_mutex);
}
/**********************************************************************//**
Move to the most recently used segment of the LRU list. */
void
dict_move_to_mru(
/*=============*/
dict_table_t* table) /*!< in: table to move to MRU */
{
ut_ad(mutex_own(&dict_sys->mutex));
ut_ad(dict_lru_validate());
ut_ad(dict_lru_find_table(table));
ut_a(table->can_be_evicted);
UT_LIST_REMOVE(dict_sys->table_LRU, table);
UT_LIST_ADD_FIRST(dict_sys->table_LRU, table);
ut_ad(dict_lru_validate());
}
/**********************************************************************//**
Returns a table object and increment its open handle count.
NOTE! This is a high-level function to be used mainly from outside the
'dict' module. Inside this directory dict_table_get_low
is usually the appropriate function.
@return table, NULL if does not exist */
dict_table_t*
dict_table_open_on_name(
/*====================*/
const char* table_name, /*!< in: table name */
ibool dict_locked, /*!< in: TRUE=data dictionary locked */
ibool try_drop, /*!< in: TRUE=try to drop any orphan
indexes after an aborted online
index creation */
dict_err_ignore_t
ignore_err) /*!< in: error to be ignored when
loading a table definition */
{
dict_table_t* table;
DBUG_ENTER("dict_table_open_on_name");
DBUG_PRINT("dict_table_open_on_name", ("table: '%s'", table_name));
if (!dict_locked) {
mutex_enter(&dict_sys->mutex);
}
ut_ad(table_name);
ut_ad(mutex_own(&dict_sys->mutex));
table = dict_table_check_if_in_cache_low(table_name);
if (table == NULL) {
table = dict_load_table(table_name, true, ignore_err);
}
ut_ad(!table || table->cached);
if (table != NULL) {
/* If table is encrypted or corrupted */
if (ignore_err == DICT_ERR_IGNORE_NONE
&& !table->is_readable()) {
/* Make life easy for drop table. */
dict_table_prevent_eviction(table);
if (table->corrupted) {
ib::error() << "Table " << table->name
<< " is corrupted. Please "
"drop the table and recreate.";
if (!dict_locked) {
mutex_exit(&dict_sys->mutex);
}
DBUG_RETURN(NULL);
}
if (table->can_be_evicted) {
dict_move_to_mru(table);
}
table->acquire();
if (!dict_locked) {
mutex_exit(&dict_sys->mutex);
}
DBUG_RETURN(table);
}
if (table->can_be_evicted) {
dict_move_to_mru(table);
}
table->acquire();
MONITOR_INC(MONITOR_TABLE_REFERENCE);
}
ut_ad(dict_lru_validate());
if (!dict_locked) {
dict_table_try_drop_aborted_and_mutex_exit(table, try_drop);
}
DBUG_RETURN(table);
}
/**********************************************************************//**
Adds system columns to a table object. */
void
dict_table_add_system_columns(
/*==========================*/
dict_table_t* table, /*!< in/out: table */
mem_heap_t* heap) /*!< in: temporary heap */
{
ut_ad(table);
ut_ad(table->n_def ==
(table->n_cols - dict_table_get_n_sys_cols(table)));
ut_ad(table->magic_n == DICT_TABLE_MAGIC_N);
ut_ad(!table->cached);
/* NOTE: the system columns MUST be added in the following order
(so that they can be indexed by the numerical value of DATA_ROW_ID,
etc.) and as the last columns of the table memory object.
The clustered index will not always physically contain all system
columns. */
dict_mem_table_add_col(table, heap, "DB_ROW_ID", DATA_SYS,
DATA_ROW_ID | DATA_NOT_NULL,
DATA_ROW_ID_LEN);
#if DATA_ROW_ID != 0
#error "DATA_ROW_ID != 0"
#endif
dict_mem_table_add_col(table, heap, "DB_TRX_ID", DATA_SYS,
DATA_TRX_ID | DATA_NOT_NULL,
DATA_TRX_ID_LEN);
#if DATA_TRX_ID != 1
#error "DATA_TRX_ID != 1"
#endif
dict_mem_table_add_col(table, heap, "DB_ROLL_PTR", DATA_SYS,
DATA_ROLL_PTR | DATA_NOT_NULL,
DATA_ROLL_PTR_LEN);
#if DATA_ROLL_PTR != 2
#error "DATA_ROLL_PTR != 2"
#endif
/* This check reminds that if a new system column is added to
the program, it should be dealt with here */
#if DATA_N_SYS_COLS != 3
#error "DATA_N_SYS_COLS != 3"
#endif
}
/**********************************************************************//**
Adds a table object to the dictionary cache. */
void
dict_table_add_to_cache(
/*====================*/
dict_table_t* table, /*!< in: table */
bool can_be_evicted, /*!< in: whether can be evicted */
mem_heap_t* heap) /*!< in: temporary heap */
{
ulint fold;
ulint id_fold;
ut_ad(dict_lru_validate());
ut_ad(mutex_own(&dict_sys->mutex));
dict_table_add_system_columns(table, heap);
table->cached = TRUE;
fold = ut_fold_string(table->name.m_name);
id_fold = ut_fold_ull(table->id);
/* Look for a table with the same name: error if such exists */
{
dict_table_t* table2;
HASH_SEARCH(name_hash, dict_sys->table_hash, fold,
dict_table_t*, table2, ut_ad(table2->cached),
!strcmp(table2->name.m_name, table->name.m_name));
ut_a(table2 == NULL);
#ifdef UNIV_DEBUG
/* Look for the same table pointer with a different name */
HASH_SEARCH_ALL(name_hash, dict_sys->table_hash,
dict_table_t*, table2, ut_ad(table2->cached),
table2 == table);
ut_ad(table2 == NULL);
#endif /* UNIV_DEBUG */
}
/* Look for a table with the same id: error if such exists */
{
dict_table_t* table2;
HASH_SEARCH(id_hash, dict_sys->table_id_hash, id_fold,
dict_table_t*, table2, ut_ad(table2->cached),
table2->id == table->id);
ut_a(table2 == NULL);
#ifdef UNIV_DEBUG
/* Look for the same table pointer with a different id */
HASH_SEARCH_ALL(id_hash, dict_sys->table_id_hash,
dict_table_t*, table2, ut_ad(table2->cached),
table2 == table);
ut_ad(table2 == NULL);
#endif /* UNIV_DEBUG */
}
/* Add table to hash table of tables */
HASH_INSERT(dict_table_t, name_hash, dict_sys->table_hash, fold,
table);
/* Add table to hash table of tables based on table id */
HASH_INSERT(dict_table_t, id_hash, dict_sys->table_id_hash, id_fold,
table);
table->can_be_evicted = can_be_evicted;
if (table->can_be_evicted) {
UT_LIST_ADD_FIRST(dict_sys->table_LRU, table);
} else {
UT_LIST_ADD_FIRST(dict_sys->table_non_LRU, table);
}
ut_ad(dict_lru_validate());
}
/**********************************************************************//**
Test whether a table can be evicted from the LRU cache.
@return TRUE if table can be evicted. */
static
ibool
dict_table_can_be_evicted(
/*======================*/
const dict_table_t* table) /*!< in: table to test */
{
ut_ad(mutex_own(&dict_sys->mutex));
ut_ad(rw_lock_own(dict_operation_lock, RW_LOCK_X));
ut_a(table->can_be_evicted);
ut_a(table->foreign_set.empty());
ut_a(table->referenced_set.empty());
if (table->get_ref_count() == 0) {
/* The transaction commit and rollback are called from
outside the handler interface. This means that there is
a window where the table->n_ref_count can be zero but
the table instance is in "use". */
if (lock_table_has_locks(table)) {
return(FALSE);
}
#ifdef BTR_CUR_HASH_ADAPT
for (dict_index_t* index = dict_table_get_first_index(table);
index != NULL;
index = dict_table_get_next_index(index)) {
btr_search_t* info = btr_search_get_info(index);
/* We are not allowed to free the in-memory index
struct dict_index_t until all entries in the adaptive
hash index that point to any of the page belonging to
his b-tree index are dropped. This is so because
dropping of these entries require access to
dict_index_t struct. To avoid such scenario we keep
a count of number of such pages in the search_info and
only free the dict_index_t struct when this count
drops to zero.
See also: dict_index_remove_from_cache_low() */
if (btr_search_info_get_ref_count(info, index) > 0) {
return(FALSE);
}
}
#endif /* BTR_CUR_HASH_ADAPT */
return(TRUE);
}
return(FALSE);
}
/**********************************************************************//**
Make room in the table cache by evicting an unused table. The unused table
should not be part of FK relationship and currently not used in any user
transaction. There is no guarantee that it will remove a table.
@return number of tables evicted. If the number of tables in the dict_LRU
is less than max_tables it will not do anything. */
ulint
dict_make_room_in_cache(
/*====================*/
ulint max_tables, /*!< in: max tables allowed in cache */
ulint pct_check) /*!< in: max percent to check */
{
ulint i;
ulint len;
dict_table_t* table;
ulint check_up_to;
ulint n_evicted = 0;
ut_a(pct_check > 0);
ut_a(pct_check <= 100);
ut_ad(mutex_own(&dict_sys->mutex));
ut_ad(rw_lock_own(dict_operation_lock, RW_LOCK_X));
ut_ad(dict_lru_validate());
i = len = UT_LIST_GET_LEN(dict_sys->table_LRU);
if (len < max_tables) {
return(0);
}
check_up_to = len - ((len * pct_check) / 100);
/* Check for overflow */
ut_a(i == 0 || check_up_to <= i);
/* Find a suitable candidate to evict from the cache. Don't scan the
entire LRU list. Only scan pct_check list entries. */
for (table = UT_LIST_GET_LAST(dict_sys->table_LRU);
table != NULL
&& i > check_up_to
&& (len - n_evicted) > max_tables;
--i) {
dict_table_t* prev_table;
prev_table = UT_LIST_GET_PREV(table_LRU, table);
if (dict_table_can_be_evicted(table)) {
dict_table_remove_from_cache_low(table, TRUE);
++n_evicted;
}
table = prev_table;
}
return(n_evicted);
}
/**********************************************************************//**
Move a table to the non-LRU list from the LRU list. */
void
dict_table_move_from_lru_to_non_lru(
/*================================*/
dict_table_t* table) /*!< in: table to move from LRU to non-LRU */
{
ut_ad(mutex_own(&dict_sys->mutex));
ut_ad(dict_lru_find_table(table));
ut_a(table->can_be_evicted);
UT_LIST_REMOVE(dict_sys->table_LRU, table);
UT_LIST_ADD_LAST(dict_sys->table_non_LRU, table);
table->can_be_evicted = FALSE;
}
/** Looks for an index with the given id given a table instance.
@param[in] table table instance
@param[in] id index id
@return index or NULL */
dict_index_t*
dict_table_find_index_on_id(
const dict_table_t* table,
index_id_t id)
{
dict_index_t* index;
for (index = dict_table_get_first_index(table);
index != NULL;
index = dict_table_get_next_index(index)) {
if (id == index->id) {
/* Found */
return(index);
}
}
return(NULL);
}
/**********************************************************************//**
Looks for an index with the given id. NOTE that we do not reserve
the dictionary mutex: this function is for emergency purposes like
printing info of a corrupt database page!
@return index or NULL if not found in cache */
dict_index_t*
dict_index_find_on_id_low(
/*======================*/
index_id_t id) /*!< in: index id */
{
dict_table_t* table;
/* This can happen if the system tablespace is the wrong page size */
if (dict_sys == NULL) {
return(NULL);
}
for (table = UT_LIST_GET_FIRST(dict_sys->table_LRU);
table != NULL;
table = UT_LIST_GET_NEXT(table_LRU, table)) {
dict_index_t* index = dict_table_find_index_on_id(table, id);
if (index != NULL) {
return(index);
}
}
for (table = UT_LIST_GET_FIRST(dict_sys->table_non_LRU);
table != NULL;
table = UT_LIST_GET_NEXT(table_LRU, table)) {
dict_index_t* index = dict_table_find_index_on_id(table, id);
if (index != NULL) {
return(index);
}
}
return(NULL);
}
/** Function object to remove a foreign key constraint from the
referenced_set of the referenced table. The foreign key object is
also removed from the dictionary cache. The foreign key constraint
is not removed from the foreign_set of the table containing the
constraint. */
struct dict_foreign_remove_partial
{
void operator()(dict_foreign_t* foreign) {
dict_table_t* table = foreign->referenced_table;
if (table != NULL) {
table->referenced_set.erase(foreign);
}
dict_foreign_free(foreign);
}
};
/**********************************************************************//**
Renames a table object.
@return TRUE if success */
dberr_t
dict_table_rename_in_cache(
/*=======================*/
dict_table_t* table, /*!< in/out: table */
const char* new_name, /*!< in: new name */
ibool rename_also_foreigns)/*!< in: in ALTER TABLE we want
to preserve the original table name
in constraints which reference it */
{
dberr_t err;
dict_foreign_t* foreign;
dict_index_t* index;
ulint fold;
char old_name[MAX_FULL_NAME_LEN + 1];
os_file_type_t ftype;
ut_ad(mutex_own(&dict_sys->mutex));
/* store the old/current name to an automatic variable */
if (strlen(table->name.m_name) + 1 <= sizeof(old_name)) {
strcpy(old_name, table->name.m_name);
} else {
ib::fatal() << "Too long table name: "
<< table->name
<< ", max length is " << MAX_FULL_NAME_LEN;
}
fold = ut_fold_string(new_name);
/* Look for a table with the same name: error if such exists */
dict_table_t* table2;
HASH_SEARCH(name_hash, dict_sys->table_hash, fold,
dict_table_t*, table2, ut_ad(table2->cached),
(ut_strcmp(table2->name.m_name, new_name) == 0));
DBUG_EXECUTE_IF("dict_table_rename_in_cache_failure",
if (table2 == NULL) {
table2 = (dict_table_t*) -1;
} );
if (table2) {
ib::error() << "Cannot rename table '" << old_name
<< "' to '" << new_name << "' since the"
" dictionary cache already contains '" << new_name << "'.";
return(DB_ERROR);
}
/* If the table is stored in a single-table tablespace, rename the
.ibd file and rebuild the .isl file if needed. */
if (dict_table_is_discarded(table)) {
bool exists;
char* filepath;
ut_ad(dict_table_is_file_per_table(table));
ut_ad(!dict_table_is_temporary(table));
/* Make sure the data_dir_path is set. */
dict_get_and_save_data_dir_path(table, true);
if (DICT_TF_HAS_DATA_DIR(table->flags)) {
ut_a(table->data_dir_path);
filepath = fil_make_filepath(
table->data_dir_path, table->name.m_name,
IBD, true);
} else {
filepath = fil_make_filepath(
NULL, table->name.m_name, IBD, false);
}
if (filepath == NULL) {
return(DB_OUT_OF_MEMORY);
}
fil_delete_tablespace(table->space, BUF_REMOVE_ALL_NO_WRITE);
/* Delete any temp file hanging around. */
if (os_file_status(filepath, &exists, &ftype)
&& exists
&& !os_file_delete_if_exists(innodb_temp_file_key,
filepath, NULL)) {
ib::info() << "Delete of " << filepath << " failed.";
}
ut_free(filepath);
} else if (dict_table_is_file_per_table(table)) {
char* new_path = NULL;
char* old_path = fil_space_get_first_path(table->space);
ut_ad(!dict_table_is_temporary(table));
if (DICT_TF_HAS_DATA_DIR(table->flags)) {
new_path = os_file_make_new_pathname(
old_path, new_name);
err = RemoteDatafile::create_link_file(
new_name, new_path);
if (err != DB_SUCCESS) {
ut_free(new_path);
ut_free(old_path);
return(DB_TABLESPACE_EXISTS);
}
} else {
new_path = fil_make_filepath(
NULL, new_name, IBD, false);
}
/* New filepath must not exist. */
err = fil_rename_tablespace_check(
table->space, old_path, new_path, false);
if (err != DB_SUCCESS) {
ut_free(old_path);
ut_free(new_path);
return(err);
}
bool success = fil_rename_tablespace(
table->space, old_path, new_name, new_path);
ut_free(old_path);
ut_free(new_path);
/* If the tablespace is remote, a new .isl file was created
If success, delete the old one. If not, delete the new one. */
if (DICT_TF_HAS_DATA_DIR(table->flags)) {
RemoteDatafile::delete_link_file(
success ? old_name : new_name);
}
if (!success) {
return(DB_ERROR);
}
}
/* Remove table from the hash tables of tables */
HASH_DELETE(dict_table_t, name_hash, dict_sys->table_hash,
ut_fold_string(old_name), table);
if (strlen(new_name) > strlen(table->name.m_name)) {
/* We allocate MAX_FULL_NAME_LEN + 1 bytes here to avoid
memory fragmentation, we assume a repeated calls of
ut_realloc() with the same size do not cause fragmentation */
ut_a(strlen(new_name) <= MAX_FULL_NAME_LEN);
table->name.m_name = static_cast<char*>(
ut_realloc(table->name.m_name, MAX_FULL_NAME_LEN + 1));
}
strcpy(table->name.m_name, new_name);
/* Add table to hash table of tables */
HASH_INSERT(dict_table_t, name_hash, dict_sys->table_hash, fold,
table);
/* Update the table_name field in indexes */
for (index = dict_table_get_first_index(table);
index != NULL;
index = dict_table_get_next_index(index)) {
index->table_name = table->name.m_name;
}
if (!rename_also_foreigns) {
/* In ALTER TABLE we think of the rename table operation
in the direction table -> temporary table (#sql...)
as dropping the table with the old name and creating
a new with the new name. Thus we kind of drop the
constraints from the dictionary cache here. The foreign key
constraints will be inherited to the new table from the
system tables through a call of dict_load_foreigns. */
/* Remove the foreign constraints from the cache */
std::for_each(table->foreign_set.begin(),
table->foreign_set.end(),
dict_foreign_remove_partial());
table->foreign_set.clear();
/* Reset table field in referencing constraints */
for (dict_foreign_set::iterator it
= table->referenced_set.begin();
it != table->referenced_set.end();
++it) {
foreign = *it;
foreign->referenced_table = NULL;
foreign->referenced_index = NULL;
}
/* Make the set of referencing constraints empty */
table->referenced_set.clear();
return(DB_SUCCESS);
}
/* Update the table name fields in foreign constraints, and update also
the constraint id of new format >= 4.0.18 constraints. Note that at
this point we have already changed table->name to the new name. */
dict_foreign_set fk_set;
for (;;) {
dict_foreign_set::iterator it
= table->foreign_set.begin();
if (it == table->foreign_set.end()) {
break;
}
foreign = *it;
if (foreign->referenced_table) {
foreign->referenced_table->referenced_set.erase(foreign);
}
if (ut_strlen(foreign->foreign_table_name)
< ut_strlen(table->name.m_name)) {
/* Allocate a longer name buffer;
TODO: store buf len to save memory */
foreign->foreign_table_name = mem_heap_strdup(
foreign->heap, table->name.m_name);
dict_mem_foreign_table_name_lookup_set(foreign, TRUE);
} else {
strcpy(foreign->foreign_table_name,
table->name.m_name);
dict_mem_foreign_table_name_lookup_set(foreign, FALSE);
}
if (strchr(foreign->id, '/')) {
/* This is a >= 4.0.18 format id */
ulint db_len;
char* old_id;
char old_name_cs_filename[MAX_TABLE_NAME_LEN+20];
uint errors = 0;
/* All table names are internally stored in charset
my_charset_filename (except the temp tables and the
partition identifier suffix in partition tables). The
foreign key constraint names are internally stored
in UTF-8 charset. The variable fkid here is used
to store foreign key constraint name in charset
my_charset_filename for comparison further below. */
char fkid[MAX_TABLE_NAME_LEN+20];
ibool on_tmp = FALSE;
/* The old table name in my_charset_filename is stored
in old_name_cs_filename */
strncpy(old_name_cs_filename, old_name,
MAX_TABLE_NAME_LEN);
if (strstr(old_name, TEMP_TABLE_PATH_PREFIX) == NULL) {
innobase_convert_to_system_charset(
strchr(old_name_cs_filename, '/') + 1,
strchr(old_name, '/') + 1,
MAX_TABLE_NAME_LEN, &errors);
if (errors) {
/* There has been an error to convert
old table into UTF-8. This probably
means that the old table name is
actually in UTF-8. */
innobase_convert_to_filename_charset(
strchr(old_name_cs_filename,
'/') + 1,
strchr(old_name, '/') + 1,
MAX_TABLE_NAME_LEN);
} else {
/* Old name already in
my_charset_filename */
strncpy(old_name_cs_filename, old_name,
MAX_TABLE_NAME_LEN);
}
}
strncpy(fkid, foreign->id, MAX_TABLE_NAME_LEN);
if (strstr(fkid, TEMP_TABLE_PATH_PREFIX) == NULL) {
innobase_convert_to_filename_charset(
strchr(fkid, '/') + 1,
strchr(foreign->id, '/') + 1,
MAX_TABLE_NAME_LEN+20);
} else {
on_tmp = TRUE;
}
old_id = mem_strdup(foreign->id);
if (ut_strlen(fkid) > ut_strlen(old_name_cs_filename)
+ ((sizeof dict_ibfk) - 1)
&& !memcmp(fkid, old_name_cs_filename,
ut_strlen(old_name_cs_filename))
&& !memcmp(fkid + ut_strlen(old_name_cs_filename),
dict_ibfk, (sizeof dict_ibfk) - 1)) {
/* This is a generated >= 4.0.18 format id */
char table_name[MAX_TABLE_NAME_LEN] = "";
uint errors = 0;
if (strlen(table->name.m_name)
> strlen(old_name)) {
foreign->id = static_cast<char*>(
mem_heap_alloc(
foreign->heap,
strlen(table->name.m_name)
+ strlen(old_id) + 1));
}
/* Convert the table name to UTF-8 */
strncpy(table_name, table->name.m_name,
MAX_TABLE_NAME_LEN);
innobase_convert_to_system_charset(
strchr(table_name, '/') + 1,
strchr(table->name.m_name, '/') + 1,
MAX_TABLE_NAME_LEN, &errors);
if (errors) {
/* Table name could not be converted
from charset my_charset_filename to
UTF-8. This means that the table name
is already in UTF-8 (#mysql#50). */
strncpy(table_name, table->name.m_name,
MAX_TABLE_NAME_LEN);
}
/* Replace the prefix 'databasename/tablename'
with the new names */
strcpy(foreign->id, table_name);
if (on_tmp) {
strcat(foreign->id,
old_id + ut_strlen(old_name));
} else {
sprintf(strchr(foreign->id, '/') + 1,
"%s%s",
strchr(table_name, '/') +1,
strstr(old_id, "_ibfk_") );
}
} else {
/* This is a >= 4.0.18 format id where the user
gave the id name */
db_len = dict_get_db_name_len(
table->name.m_name) + 1;
if (db_len - 1
> dict_get_db_name_len(foreign->id)) {
foreign->id = static_cast<char*>(
mem_heap_alloc(
foreign->heap,
db_len + strlen(old_id) + 1));
}
/* Replace the database prefix in id with the
one from table->name */
ut_memcpy(foreign->id,
table->name.m_name, db_len);
strcpy(foreign->id + db_len,
dict_remove_db_name(old_id));
}
ut_free(old_id);
}
table->foreign_set.erase(it);
fk_set.insert(foreign);
if (foreign->referenced_table) {
foreign->referenced_table->referenced_set.insert(foreign);
}
}
ut_a(table->foreign_set.empty());
table->foreign_set.swap(fk_set);
for (dict_foreign_set::iterator it = table->referenced_set.begin();
it != table->referenced_set.end();
++it) {
foreign = *it;
if (ut_strlen(foreign->referenced_table_name)
< ut_strlen(table->name.m_name)) {
/* Allocate a longer name buffer;
TODO: store buf len to save memory */
foreign->referenced_table_name = mem_heap_strdup(
foreign->heap, table->name.m_name);
dict_mem_referenced_table_name_lookup_set(
foreign, TRUE);
} else {
/* Use the same buffer */
strcpy(foreign->referenced_table_name,
table->name.m_name);
dict_mem_referenced_table_name_lookup_set(
foreign, FALSE);
}
}
return(DB_SUCCESS);
}
/**********************************************************************//**
Change the id of a table object in the dictionary cache. This is used in
DISCARD TABLESPACE. */
void
dict_table_change_id_in_cache(
/*==========================*/
dict_table_t* table, /*!< in/out: table object already in cache */
table_id_t new_id) /*!< in: new id to set */
{
ut_ad(table);
ut_ad(mutex_own(&dict_sys->mutex));
ut_ad(table->magic_n == DICT_TABLE_MAGIC_N);
/* Remove the table from the hash table of id's */
HASH_DELETE(dict_table_t, id_hash, dict_sys->table_id_hash,
ut_fold_ull(table->id), table);
table->id = new_id;
/* Add the table back to the hash table */
HASH_INSERT(dict_table_t, id_hash, dict_sys->table_id_hash,
ut_fold_ull(table->id), table);
}
/**********************************************************************//**
Removes a table object from the dictionary cache. */
void
dict_table_remove_from_cache_low(
/*=============================*/
dict_table_t* table, /*!< in, own: table */
ibool lru_evict) /*!< in: TRUE if table being evicted
to make room in the table LRU list */
{
dict_foreign_t* foreign;
dict_index_t* index;
ut_ad(table);
ut_ad(dict_lru_validate());
ut_a(table->get_ref_count() == 0);
ut_a(table->n_rec_locks == 0);
ut_ad(mutex_own(&dict_sys->mutex));
ut_ad(table->magic_n == DICT_TABLE_MAGIC_N);
/* Remove the foreign constraints from the cache */
std::for_each(table->foreign_set.begin(), table->foreign_set.end(),
dict_foreign_remove_partial());
table->foreign_set.clear();
/* Reset table field in referencing constraints */
for (dict_foreign_set::iterator it = table->referenced_set.begin();
it != table->referenced_set.end();
++it) {
foreign = *it;
foreign->referenced_table = NULL;
foreign->referenced_index = NULL;
}
/* Remove the indexes from the cache */
for (index = UT_LIST_GET_LAST(table->indexes);
index != NULL;
index = UT_LIST_GET_LAST(table->indexes)) {
dict_index_remove_from_cache_low(table, index, lru_evict);
}
/* Remove table from the hash tables of tables */
HASH_DELETE(dict_table_t, name_hash, dict_sys->table_hash,
ut_fold_string(table->name.m_name), table);
HASH_DELETE(dict_table_t, id_hash, dict_sys->table_id_hash,
ut_fold_ull(table->id), table);
/* Remove table from LRU or non-LRU list. */
if (table->can_be_evicted) {
ut_ad(dict_lru_find_table(table));
UT_LIST_REMOVE(dict_sys->table_LRU, table);
} else {
ut_ad(dict_non_lru_find_table(table));
UT_LIST_REMOVE(dict_sys->table_non_LRU, table);
}
ut_ad(dict_lru_validate());
if (lru_evict && table->drop_aborted) {
/* Do as dict_table_try_drop_aborted() does. */
trx_t* trx = trx_allocate_for_background();
ut_ad(mutex_own(&dict_sys->mutex));
ut_ad(rw_lock_own(dict_operation_lock, RW_LOCK_X));
/* Mimic row_mysql_lock_data_dictionary(). */
trx->dict_operation_lock_mode = RW_X_LATCH;
trx_set_dict_operation(trx, TRX_DICT_OP_INDEX);
/* Silence a debug assertion in row_merge_drop_indexes(). */
ut_d(table->acquire());
row_merge_drop_indexes(trx, table, TRUE);
ut_d(table->release());
ut_ad(table->get_ref_count() == 0);
trx_commit_for_mysql(trx);
trx->dict_operation_lock_mode = 0;
trx_free_for_background(trx);
}
/* Free virtual column template if any */
if (table->vc_templ != NULL) {
dict_free_vc_templ(table->vc_templ);
UT_DELETE(table->vc_templ);
}
dict_mem_table_free(table);
}
/**********************************************************************//**
Removes a table object from the dictionary cache. */
void
dict_table_remove_from_cache(
/*=========================*/
dict_table_t* table) /*!< in, own: table */
{
dict_table_remove_from_cache_low(table, FALSE);
}
/****************************************************************//**
If the given column name is reserved for InnoDB system columns, return
TRUE.
@return TRUE if name is reserved */
ibool
dict_col_name_is_reserved(
/*======================*/
const char* name) /*!< in: column name */
{
/* This check reminds that if a new system column is added to
the program, it should be dealt with here. */
#if DATA_N_SYS_COLS != 3
#error "DATA_N_SYS_COLS != 3"
#endif
static const char* reserved_names[] = {
"DB_ROW_ID", "DB_TRX_ID", "DB_ROLL_PTR"
};
ulint i;
for (i = 0; i < UT_ARR_SIZE(reserved_names); i++) {
if (innobase_strcasecmp(name, reserved_names[i]) == 0) {
return(TRUE);
}
}
return(FALSE);
}
/****************************************************************//**
Return maximum size of the node pointer record.
@return maximum size of the record in bytes */
ulint
dict_index_node_ptr_max_size(
/*=========================*/
const dict_index_t* index) /*!< in: index */
{
ulint comp;
ulint i;
/* maximum possible storage size of a record */
ulint rec_max_size;
if (dict_index_is_ibuf(index)) {
/* cannot estimate accurately */
/* This is universal index for change buffer.
The max size of the entry is about max key length * 2.
(index key + primary key to be inserted to the index)
(The max key length is UNIV_PAGE_SIZE / 16 * 3 at
ha_innobase::max_supported_key_length(),
considering MAX_KEY_LENGTH = 3072 at MySQL imposes
the 3500 historical InnoDB value for 16K page size case.)
For the universal index, node_ptr contains most of the entry.
And 512 is enough to contain ibuf columns and meta-data */
return(UNIV_PAGE_SIZE / 8 * 3 + 512);
}
comp = dict_table_is_comp(index->table);
/* Each record has page_no, length of page_no and header. */
rec_max_size = comp
? REC_NODE_PTR_SIZE + 1 + REC_N_NEW_EXTRA_BYTES
: REC_NODE_PTR_SIZE + 2 + REC_N_OLD_EXTRA_BYTES;
if (comp) {
/* Include the "null" flags in the
maximum possible record size. */
rec_max_size += UT_BITS_IN_BYTES(index->n_nullable);
} else {
/* For each column, include a 2-byte offset and a
"null" flag. */
rec_max_size += 2 * index->n_fields;
}
/* Compute the maximum possible record size. */
for (i = 0; i < dict_index_get_n_unique_in_tree(index); i++) {
const dict_field_t* field
= dict_index_get_nth_field(index, i);
const dict_col_t* col
= dict_field_get_col(field);
ulint field_max_size;
ulint field_ext_max_size;
/* Determine the maximum length of the index field. */
field_max_size = dict_col_get_fixed_size(col, comp);
if (field_max_size) {
/* dict_index_add_col() should guarantee this */
ut_ad(!field->prefix_len
|| field->fixed_len == field->prefix_len);
/* Fixed lengths are not encoded
in ROW_FORMAT=COMPACT. */
rec_max_size += field_max_size;
continue;
}
field_max_size = dict_col_get_max_size(col);
field_ext_max_size = field_max_size < 256 ? 1 : 2;
if (field->prefix_len
&& field->prefix_len < field_max_size) {
field_max_size = field->prefix_len;
}
if (comp) {
/* Add the extra size for ROW_FORMAT=COMPACT.
For ROW_FORMAT=REDUNDANT, these bytes were
added to rec_max_size before this loop. */
rec_max_size += field_ext_max_size;
}
rec_max_size += field_max_size;
}
return(rec_max_size);
}
/****************************************************************//**
If a record of this index might not fit on a single B-tree page,
return TRUE.
@return TRUE if the index record could become too big */
static
ibool
dict_index_too_big_for_tree(
/*========================*/
const dict_table_t* table, /*!< in: table */
const dict_index_t* new_index, /*!< in: index */
bool strict) /*!< in: TRUE=report error if
records could be too big to
fit in an B-tree page */
{
ulint comp;
ulint i;
/* maximum possible storage size of a record */
ulint rec_max_size;
/* maximum allowed size of a record on a leaf page */
ulint page_rec_max;
/* maximum allowed size of a node pointer record */
ulint page_ptr_max;
/* FTS index consists of auxiliary tables, they shall be excluded from
index row size check */
if (new_index->type & DICT_FTS) {
return(false);
}
DBUG_EXECUTE_IF(
"ib_force_create_table",
return(FALSE););
comp = dict_table_is_comp(table);
const page_size_t page_size(dict_table_page_size(table));
if (page_size.is_compressed()
&& page_size.physical() < univ_page_size.physical()) {
/* On a compressed page, two records must fit in the
uncompressed page modification log. On compressed pages
with size.physical() == univ_page_size.physical(),
this limit will never be reached. */
ut_ad(comp);
/* The maximum allowed record size is the size of
an empty page, minus a byte for recoding the heap
number in the page modification log. The maximum
allowed node pointer size is half that. */
page_rec_max = page_zip_empty_size(new_index->n_fields,
page_size.physical());
if (page_rec_max) {
page_rec_max--;
}
page_ptr_max = page_rec_max / 2;
/* On a compressed page, there is a two-byte entry in
the dense page directory for every record. But there
is no record header. */
rec_max_size = 2;
} else {
/* The maximum allowed record size is half a B-tree
page(16k for 64k page size). No additional sparse
page directory entry will be generated for the first
few user records. */
page_rec_max = (comp || srv_page_size < UNIV_PAGE_SIZE_MAX)
? page_get_free_space_of_empty(comp) / 2
: REDUNDANT_REC_MAX_DATA_SIZE;
page_ptr_max = page_rec_max;
/* Each record has a header. */
rec_max_size = comp
? REC_N_NEW_EXTRA_BYTES
: REC_N_OLD_EXTRA_BYTES;
}
if (comp) {
/* Include the "null" flags in the
maximum possible record size. */
rec_max_size += UT_BITS_IN_BYTES(new_index->n_nullable);
} else {
/* For each column, include a 2-byte offset and a
"null" flag. The 1-byte format is only used in short
records that do not contain externally stored columns.
Such records could never exceed the page limit, even
when using the 2-byte format. */
rec_max_size += 2 * new_index->n_fields;
}
/* Compute the maximum possible record size. */
for (i = 0; i < new_index->n_fields; i++) {
const dict_field_t* field
= dict_index_get_nth_field(new_index, i);
const dict_col_t* col
= dict_field_get_col(field);
ulint field_max_size;
ulint field_ext_max_size;
/* In dtuple_convert_big_rec(), variable-length columns
that are longer than BTR_EXTERN_LOCAL_STORED_MAX_SIZE
may be chosen for external storage.
Fixed-length columns, and all columns of secondary
index records are always stored inline. */
/* Determine the maximum length of the index field.
The field_ext_max_size should be computed as the worst
case in rec_get_converted_size_comp() for
REC_STATUS_ORDINARY records. */
field_max_size = dict_col_get_fixed_size(col, comp);
if (field_max_size && field->fixed_len != 0) {
/* dict_index_add_col() should guarantee this */
ut_ad(!field->prefix_len
|| field->fixed_len == field->prefix_len);
/* Fixed lengths are not encoded
in ROW_FORMAT=COMPACT. */
field_ext_max_size = 0;
goto add_field_size;
}
field_max_size = dict_col_get_max_size(col);
field_ext_max_size = field_max_size < 256 ? 1 : 2;
if (field->prefix_len) {
if (field->prefix_len < field_max_size) {
field_max_size = field->prefix_len;
}
} else if (field_max_size > BTR_EXTERN_LOCAL_STORED_MAX_SIZE
&& dict_index_is_clust(new_index)) {
/* In the worst case, we have a locally stored
column of BTR_EXTERN_LOCAL_STORED_MAX_SIZE bytes.
The length can be stored in one byte. If the
column were stored externally, the lengths in
the clustered index page would be
BTR_EXTERN_FIELD_REF_SIZE and 2. */
field_max_size = BTR_EXTERN_LOCAL_STORED_MAX_SIZE;
field_ext_max_size = 1;
}
if (comp) {
/* Add the extra size for ROW_FORMAT=COMPACT.
For ROW_FORMAT=REDUNDANT, these bytes were
added to rec_max_size before this loop. */
rec_max_size += field_ext_max_size;
}
add_field_size:
rec_max_size += field_max_size;
/* Check the size limit on leaf pages. */
if (rec_max_size >= page_rec_max) {
ib::error_or_warn(strict)
<< "Cannot add field " << field->name
<< " in table " << table->name
<< " because after adding it, the row size is "
<< rec_max_size
<< " which is greater than maximum allowed"
" size (" << page_rec_max
<< ") for a record on index leaf page.";
return(TRUE);
}
/* Check the size limit on non-leaf pages. Records
stored in non-leaf B-tree pages consist of the unique
columns of the record (the key columns of the B-tree)
and a node pointer field. When we have processed the
unique columns, rec_max_size equals the size of the
node pointer record minus the node pointer column. */
if (i + 1 == dict_index_get_n_unique_in_tree(new_index)
&& rec_max_size + REC_NODE_PTR_SIZE >= page_ptr_max) {
return(TRUE);
}
}
return(FALSE);
}
/** Adds an index to the dictionary cache.
@param[in,out] table table on which the index is
@param[in,out] index index; NOTE! The index memory
object is freed in this function!
@param[in] page_no root page number of the index
@param[in] strict TRUE=refuse to create the index
if records could be too big to fit in
an B-tree page
@return DB_SUCCESS, DB_TOO_BIG_RECORD, or DB_CORRUPTION */
dberr_t
dict_index_add_to_cache(
dict_table_t* table,
dict_index_t* index,
ulint page_no,
ibool strict)
{
return(dict_index_add_to_cache_w_vcol(
table, index, NULL, page_no, strict));
}
/** Adds an index to the dictionary cache, with possible indexing newly
added column.
@param[in,out] table table on which the index is
@param[in,out] index index; NOTE! The index memory
object is freed in this function!
@param[in] add_v new virtual column that being added along with
an add index call
@param[in] page_no root page number of the index
@param[in] strict TRUE=refuse to create the index
if records could be too big to fit in
an B-tree page
@return DB_SUCCESS, DB_TOO_BIG_RECORD, or DB_CORRUPTION */
dberr_t
dict_index_add_to_cache_w_vcol(
dict_table_t* table,
dict_index_t* index,
const dict_add_v_col_t* add_v,
ulint page_no,
ibool strict)
{
dict_index_t* new_index;
ulint n_ord;
ulint i;
ut_ad(index);
ut_ad(mutex_own(&dict_sys->mutex));
ut_ad(index->n_def == index->n_fields);
ut_ad(index->magic_n == DICT_INDEX_MAGIC_N);
ut_ad(!dict_index_is_online_ddl(index));
ut_ad(!dict_index_is_ibuf(index));
ut_d(mem_heap_validate(index->heap));
ut_a(!dict_index_is_clust(index)
|| UT_LIST_GET_LEN(table->indexes) == 0);
ut_ad(dict_index_is_clust(index) || !table->no_rollback());
if (!dict_index_find_cols(table, index, add_v)) {
dict_mem_index_free(index);
return(DB_CORRUPTION);
}
/* Build the cache internal representation of the index,
containing also the added system fields */
if (index->type == DICT_FTS) {
new_index = dict_index_build_internal_fts(table, index);
} else if (dict_index_is_clust(index)) {
new_index = dict_index_build_internal_clust(table, index);
} else {
new_index = dict_index_build_internal_non_clust(table, index);
}
/* Set the n_fields value in new_index to the actual defined
number of fields in the cache internal representation */
new_index->n_fields = new_index->n_def;
new_index->trx_id = index->trx_id;
new_index->set_committed(index->is_committed());
new_index->nulls_equal = index->nulls_equal;
#ifdef MYSQL_INDEX_DISABLE_AHI
new_index->disable_ahi = index->disable_ahi;
#endif
if (dict_index_too_big_for_tree(table, new_index, strict)) {
if (strict) {
dict_mem_index_free(new_index);
dict_mem_index_free(index);
return(DB_TOO_BIG_RECORD);
} else if (current_thd != NULL) {
/* Avoid the warning to be printed
during recovery. */
ib_warn_row_too_big((const dict_table_t*)table);
}
}
n_ord = new_index->n_uniq;
/* Flag the ordering columns and also set column max_prefix */
for (i = 0; i < n_ord; i++) {
const dict_field_t* field
= dict_index_get_nth_field(new_index, i);
/* Check the column being added in the index for
the first time and flag the ordering column. */
if (field->col->ord_part == 0 ) {
field->col->max_prefix = field->prefix_len;
field->col->ord_part = 1;
} else if (field->prefix_len == 0) {
/* Set the max_prefix for a column to 0 if
its prefix length is 0 (for this index)
even if it was a part of any other index
with some prefix length. */
field->col->max_prefix = 0;
} else if (field->col->max_prefix != 0
&& field->prefix_len
> field->col->max_prefix) {
/* Set the max_prefix value based on the
prefix_len. */
field->col->max_prefix = field->prefix_len;
}
ut_ad(field->col->ord_part == 1);
}
new_index->stat_n_diff_key_vals =
static_cast<ib_uint64_t*>(mem_heap_zalloc(
new_index->heap,
dict_index_get_n_unique(new_index)
* sizeof(*new_index->stat_n_diff_key_vals)));
new_index->stat_n_sample_sizes =
static_cast<ib_uint64_t*>(mem_heap_zalloc(
new_index->heap,
dict_index_get_n_unique(new_index)
* sizeof(*new_index->stat_n_sample_sizes)));
new_index->stat_n_non_null_key_vals =
static_cast<ib_uint64_t*>(mem_heap_zalloc(
new_index->heap,
dict_index_get_n_unique(new_index)
* sizeof(*new_index->stat_n_non_null_key_vals)));
new_index->stat_index_size = 1;
new_index->stat_n_leaf_pages = 1;
new_index->stat_defrag_n_pages_freed = 0;
new_index->stat_defrag_n_page_split = 0;
new_index->stat_defrag_sample_next_slot = 0;
memset(&new_index->stat_defrag_data_size_sample,
0x0, sizeof(ulint) * STAT_DEFRAG_DATA_SIZE_N_SAMPLE);
/* Add the new index as the last index for the table */
UT_LIST_ADD_LAST(table->indexes, new_index);
new_index->table = table;
new_index->table_name = table->name.m_name;
#ifdef BTR_CUR_ADAPT
new_index->search_info = btr_search_info_create(new_index->heap);
#endif /* BTR_CUR_ADAPT */
new_index->page = unsigned(page_no);
rw_lock_create(index_tree_rw_lock_key, &new_index->lock,
SYNC_INDEX_TREE);
dict_mem_index_free(index);
return(DB_SUCCESS);
}
/**********************************************************************//**
Removes an index from the dictionary cache. */
static
void
dict_index_remove_from_cache_low(
/*=============================*/
dict_table_t* table, /*!< in/out: table */
dict_index_t* index, /*!< in, own: index */
ibool lru_evict) /*!< in: TRUE if index being evicted
to make room in the table LRU list */
{
ut_ad(table && index);
ut_ad(table->magic_n == DICT_TABLE_MAGIC_N);
ut_ad(index->magic_n == DICT_INDEX_MAGIC_N);
ut_ad(mutex_own(&dict_sys->mutex));
/* No need to acquire the dict_index_t::lock here because
there can't be any active operations on this index (or table). */
if (index->online_log) {
ut_ad(index->online_status == ONLINE_INDEX_CREATION);
row_log_free(index->online_log);
}
#ifdef BTR_CUR_HASH_ADAPT
/* We always create search info whether or not adaptive
hash index is enabled or not. */
btr_search_t* info = btr_search_get_info(index);
ulint retries = 0;
ut_ad(info);
/* We are not allowed to free the in-memory index struct
dict_index_t until all entries in the adaptive hash index
that point to any of the page belonging to his b-tree index
are dropped. This is so because dropping of these entries
require access to dict_index_t struct. To avoid such scenario
We keep a count of number of such pages in the search_info and
only free the dict_index_t struct when this count drops to
zero. See also: dict_table_can_be_evicted() */
do {
ulint ref_count = btr_search_info_get_ref_count(info, index);
if (ref_count == 0) {
break;
}
/* Sleep for 10ms before trying again. */
os_thread_sleep(10000);
++retries;
if (retries % 500 == 0) {
/* No luck after 5 seconds of wait. */
ib::error() << "Waited for " << retries / 100
<< " secs for hash index"
" ref_count (" << ref_count << ") to drop to 0."
" index: " << index->name
<< " table: " << table->name;
}
/* To avoid a hang here we commit suicide if the
ref_count doesn't drop to zero in 600 seconds. */
ut_a(retries < 60000);
} while (srv_shutdown_state == SRV_SHUTDOWN_NONE || !lru_evict);
#endif /* BTR_CUR_HASH_ADAPT */
rw_lock_free(&index->lock);
/* The index is being dropped, remove any compression stats for it. */
if (!lru_evict && DICT_TF_GET_ZIP_SSIZE(index->table->flags)) {
mutex_enter(&page_zip_stat_per_index_mutex);
page_zip_stat_per_index.erase(index->id);
mutex_exit(&page_zip_stat_per_index_mutex);
}
/* Remove the index from the list of indexes of the table */
UT_LIST_REMOVE(table->indexes, index);
/* Remove the index from affected virtual column index list */
if (dict_index_has_virtual(index)) {
const dict_col_t* col;
const dict_v_col_t* vcol;
for (ulint i = 0; i < dict_index_get_n_fields(index); i++) {
col = dict_index_get_nth_col(index, i);
if (dict_col_is_virtual(col)) {
vcol = reinterpret_cast<const dict_v_col_t*>(
col);
/* This could be NULL, when we do add virtual
column, add index together. We do not need to
track this virtual column's index */
if (vcol->v_indexes == NULL) {
continue;
}
dict_v_idx_list::iterator it;
for (it = vcol->v_indexes->begin();
it != vcol->v_indexes->end(); ++it) {
dict_v_idx_t v_index = *it;
if (v_index.index == index) {
vcol->v_indexes->erase(it);
break;
}
}
}
}
}
dict_mem_index_free(index);
}
/**********************************************************************//**
Removes an index from the dictionary cache. */
void
dict_index_remove_from_cache(
/*=========================*/
dict_table_t* table, /*!< in/out: table */
dict_index_t* index) /*!< in, own: index */
{
dict_index_remove_from_cache_low(table, index, FALSE);
}
/** Tries to find column names for the index and sets the col field of the
index.
@param[in] table table
@param[in,out] index index
@param[in] add_v new virtual columns added along with an add index call
@return TRUE if the column names were found */
static
ibool
dict_index_find_cols(
const dict_table_t* table,
dict_index_t* index,
const dict_add_v_col_t* add_v)
{
std::vector<ulint, ut_allocator<ulint> > col_added;
std::vector<ulint, ut_allocator<ulint> > v_col_added;
ut_ad(table != NULL && index != NULL);
ut_ad(table->magic_n == DICT_TABLE_MAGIC_N);
ut_ad(mutex_own(&dict_sys->mutex));
for (ulint i = 0; i < index->n_fields; i++) {
ulint j;
dict_field_t* field = dict_index_get_nth_field(index, i);
for (j = 0; j < table->n_cols; j++) {
if (!innobase_strcasecmp(dict_table_get_col_name(table, j),
field->name)) {
/* Check if same column is being assigned again
which suggest that column has duplicate name. */
bool exists =
std::find(col_added.begin(),
col_added.end(), j)
!= col_added.end();
if (exists) {
/* Duplicate column found. */
goto dup_err;
}
field->col = dict_table_get_nth_col(table, j);
col_added.push_back(j);
goto found;
}
}
/* Let's check if it is a virtual column */
for (j = 0; j < table->n_v_cols; j++) {
if (!strcmp(dict_table_get_v_col_name(table, j),
field->name)) {
/* Check if same column is being assigned again
which suggest that column has duplicate name. */
bool exists =
std::find(v_col_added.begin(),
v_col_added.end(), j)
!= v_col_added.end();
if (exists) {
/* Duplicate column found. */
break;
}
field->col = reinterpret_cast<dict_col_t*>(
dict_table_get_nth_v_col(table, j));
v_col_added.push_back(j);
goto found;
}
}
if (add_v) {
for (j = 0; j < add_v->n_v_col; j++) {
if (!strcmp(add_v->v_col_name[j],
field->name)) {
field->col = const_cast<dict_col_t*>(
&add_v->v_col[j].m_col);
goto found;
}
}
}
dup_err:
#ifdef UNIV_DEBUG
/* It is an error not to find a matching column. */
ib::error() << "No matching column for " << field->name
<< " in index " << index->name
<< " of table " << table->name;
#endif /* UNIV_DEBUG */
return(FALSE);
found:
;
}
return(TRUE);
}
/*******************************************************************//**
Adds a column to index. */
void
dict_index_add_col(
/*===============*/
dict_index_t* index, /*!< in/out: index */
const dict_table_t* table, /*!< in: table */
dict_col_t* col, /*!< in: column */
ulint prefix_len) /*!< in: column prefix length */
{
dict_field_t* field;
const char* col_name;
if (dict_col_is_virtual(col)) {
dict_v_col_t* v_col = reinterpret_cast<dict_v_col_t*>(col);
/* When v_col->v_indexes==NULL,
ha_innobase::commit_inplace_alter_table(commit=true)
will evict and reload the table definition, and
v_col->v_indexes will not be NULL for the new table. */
if (v_col->v_indexes != NULL) {
/* Register the index with the virtual column index
list */
struct dict_v_idx_t new_idx
= {index, index->n_def};
v_col->v_indexes->push_back(new_idx);
}
col_name = dict_table_get_v_col_name_mysql(
table, dict_col_get_no(col));
} else {
col_name = dict_table_get_col_name(table, dict_col_get_no(col));
}
dict_mem_index_add_field(index, col_name, prefix_len);
field = dict_index_get_nth_field(index, index->n_def - 1);
field->col = col;
field->fixed_len = static_cast<unsigned int>(
dict_col_get_fixed_size(
col, dict_table_is_comp(table)));
if (prefix_len && field->fixed_len > prefix_len) {
field->fixed_len = (unsigned int) prefix_len;
}
/* Long fixed-length fields that need external storage are treated as
variable-length fields, so that the extern flag can be embedded in
the length word. */
if (field->fixed_len > DICT_MAX_FIXED_COL_LEN) {
field->fixed_len = 0;
}
#if DICT_MAX_FIXED_COL_LEN != 768
/* The comparison limit above must be constant. If it were
changed, the disk format of some fixed-length columns would
change, which would be a disaster. */
# error "DICT_MAX_FIXED_COL_LEN != 768"
#endif
if (!(col->prtype & DATA_NOT_NULL)) {
index->n_nullable++;
}
}
/*******************************************************************//**
Copies fields contained in index2 to index1. */
static
void
dict_index_copy(
/*============*/
dict_index_t* index1, /*!< in: index to copy to */
dict_index_t* index2, /*!< in: index to copy from */
const dict_table_t* table, /*!< in: table */
ulint start, /*!< in: first position to copy */
ulint end) /*!< in: last position to copy */
{
dict_field_t* field;
ulint i;
/* Copy fields contained in index2 */
for (i = start; i < end; i++) {
field = dict_index_get_nth_field(index2, i);
dict_index_add_col(index1, table, field->col,
field->prefix_len);
}
}
/*******************************************************************//**
Copies types of fields contained in index to tuple. */
void
dict_index_copy_types(
/*==================*/
dtuple_t* tuple, /*!< in/out: data tuple */
const dict_index_t* index, /*!< in: index */
ulint n_fields) /*!< in: number of
field types to copy */
{
ulint i;
if (dict_index_is_ibuf(index)) {
dtuple_set_types_binary(tuple, n_fields);
return;
}
for (i = 0; i < n_fields; i++) {
const dict_field_t* ifield;
dtype_t* dfield_type;
ifield = dict_index_get_nth_field(index, i);
dfield_type = dfield_get_type(dtuple_get_nth_field(tuple, i));
dict_col_copy_type(dict_field_get_col(ifield), dfield_type);
if (dict_index_is_spatial(index)
&& DATA_GEOMETRY_MTYPE(dfield_type->mtype)) {
dfield_type->prtype |= DATA_GIS_MBR;
}
}
}
/** Copies types of virtual columns contained in table to tuple and sets all
fields of the tuple to the SQL NULL value. This function should
be called right after dtuple_create().
@param[in,out] tuple data tuple
@param[in] table table
*/
void
dict_table_copy_v_types(
dtuple_t* tuple,
const dict_table_t* table)
{
/* tuple could have more virtual columns than existing table,
if we are calling this for creating index along with adding
virtual columns */
ulint n_fields = ut_min(dtuple_get_n_v_fields(tuple),
static_cast<ulint>(table->n_v_def));
for (ulint i = 0; i < n_fields; i++) {
dfield_t* dfield = dtuple_get_nth_v_field(tuple, i);
dtype_t* dtype = dfield_get_type(dfield);
dfield_set_null(dfield);
dict_col_copy_type(
&(dict_table_get_nth_v_col(table, i)->m_col),
dtype);
}
}
/*******************************************************************//**
Copies types of columns contained in table to tuple and sets all
fields of the tuple to the SQL NULL value. This function should
be called right after dtuple_create(). */
void
dict_table_copy_types(
/*==================*/
dtuple_t* tuple, /*!< in/out: data tuple */
const dict_table_t* table) /*!< in: table */
{
ulint i;
for (i = 0; i < dtuple_get_n_fields(tuple); i++) {
dfield_t* dfield = dtuple_get_nth_field(tuple, i);
dtype_t* dtype = dfield_get_type(dfield);
dfield_set_null(dfield);
dict_col_copy_type(dict_table_get_nth_col(table, i), dtype);
}
dict_table_copy_v_types(tuple, table);
}
/********************************************************************
Wait until all the background threads of the given table have exited, i.e.,
bg_threads == 0. Note: bg_threads_mutex must be reserved when
calling this. */
void
dict_table_wait_for_bg_threads_to_exit(
/*===================================*/
dict_table_t* table, /*< in: table */
ulint delay) /*< in: time in microseconds to wait between
checks of bg_threads. */
{
fts_t* fts = table->fts;
ut_ad(mutex_own(&fts->bg_threads_mutex));
while (fts->bg_threads > 0) {
mutex_exit(&fts->bg_threads_mutex);
os_thread_sleep(delay);
mutex_enter(&fts->bg_threads_mutex);
}
}
/*******************************************************************//**
Builds the internal dictionary cache representation for a clustered
index, containing also system fields not defined by the user.
@return own: the internal representation of the clustered index */
static
dict_index_t*
dict_index_build_internal_clust(
/*============================*/
const dict_table_t* table, /*!< in: table */
dict_index_t* index) /*!< in: user representation of
a clustered index */
{
dict_index_t* new_index;
dict_field_t* field;
ulint trx_id_pos;
ulint i;
ibool* indexed;
ut_ad(table && index);
ut_ad(dict_index_is_clust(index));
ut_ad(!dict_index_is_ibuf(index));
ut_ad(mutex_own(&dict_sys->mutex));
ut_ad(table->magic_n == DICT_TABLE_MAGIC_N);
/* Create a new index object with certainly enough fields */
new_index = dict_mem_index_create(table->name.m_name,
index->name, table->space,
index->type,
index->n_fields + table->n_cols);
/* Copy other relevant data from the old index struct to the new
struct: it inherits the values */
new_index->n_user_defined_cols = index->n_fields;
new_index->id = index->id;
/* Copy the fields of index */
dict_index_copy(new_index, index, table, 0, index->n_fields);
if (dict_index_is_unique(index)) {
/* Only the fields defined so far are needed to identify
the index entry uniquely */
new_index->n_uniq = new_index->n_def;
} else {
/* Also the row id is needed to identify the entry */
new_index->n_uniq = 1 + new_index->n_def;
}
new_index->trx_id_offset = 0;
/* Add system columns, trx id first */
trx_id_pos = new_index->n_def;
#if DATA_ROW_ID != 0
# error "DATA_ROW_ID != 0"
#endif
#if DATA_TRX_ID != 1
# error "DATA_TRX_ID != 1"
#endif
#if DATA_ROLL_PTR != 2
# error "DATA_ROLL_PTR != 2"
#endif
if (!dict_index_is_unique(index)) {
dict_index_add_col(new_index, table,
dict_table_get_sys_col(
table, DATA_ROW_ID),
0);
trx_id_pos++;
}
dict_index_add_col(
new_index, table,
dict_table_get_sys_col(table, DATA_TRX_ID), 0);
for (i = 0; i < trx_id_pos; i++) {
ulint fixed_size = dict_col_get_fixed_size(
dict_index_get_nth_col(new_index, i),
dict_table_is_comp(table));
if (fixed_size == 0) {
new_index->trx_id_offset = 0;
break;
}
dict_field_t* field = dict_index_get_nth_field(
new_index, i);
if (field->prefix_len > 0) {
new_index->trx_id_offset = 0;
break;
}
/* Add fixed_size to new_index->trx_id_offset.
Because the latter is a bit-field, an overflow
can theoretically occur. Check for it. */
fixed_size += new_index->trx_id_offset;
new_index->trx_id_offset = unsigned(fixed_size);
if (new_index->trx_id_offset != fixed_size) {
/* Overflow. Pretend that this is a
variable-length PRIMARY KEY. */
ut_ad(0);
new_index->trx_id_offset = 0;
break;
}
}
dict_index_add_col(
new_index, table,
dict_table_get_sys_col(table, DATA_ROLL_PTR), 0);
/* Remember the table columns already contained in new_index */
indexed = static_cast<ibool*>(
ut_zalloc_nokey(table->n_cols * sizeof *indexed));
/* Mark the table columns already contained in new_index */
for (i = 0; i < new_index->n_def; i++) {
field = dict_index_get_nth_field(new_index, i);
/* If there is only a prefix of the column in the index
field, do not mark the column as contained in the index */
if (field->prefix_len == 0) {
indexed[field->col->ind] = TRUE;
}
}
/* Add to new_index non-system columns of table not yet included
there */
ulint n_sys_cols = dict_table_get_n_sys_cols(table);
for (i = 0; i + n_sys_cols < (ulint) table->n_cols; i++) {
dict_col_t* col = dict_table_get_nth_col(table, i);
ut_ad(col->mtype != DATA_SYS);
if (!indexed[col->ind]) {
dict_index_add_col(new_index, table, col, 0);
}
}
ut_free(indexed);
ut_ad(UT_LIST_GET_LEN(table->indexes) == 0);
new_index->cached = TRUE;
return(new_index);
}
/*******************************************************************//**
Builds the internal dictionary cache representation for a non-clustered
index, containing also system fields not defined by the user.
@return own: the internal representation of the non-clustered index */
static
dict_index_t*
dict_index_build_internal_non_clust(
/*================================*/
const dict_table_t* table, /*!< in: table */
dict_index_t* index) /*!< in: user representation of
a non-clustered index */
{
dict_field_t* field;
dict_index_t* new_index;
dict_index_t* clust_index;
ulint i;
ibool* indexed;
ut_ad(table && index);
ut_ad(!dict_index_is_clust(index));
ut_ad(!dict_index_is_ibuf(index));
ut_ad(mutex_own(&dict_sys->mutex));
ut_ad(table->magic_n == DICT_TABLE_MAGIC_N);
/* The clustered index should be the first in the list of indexes */
clust_index = UT_LIST_GET_FIRST(table->indexes);
ut_ad(clust_index);
ut_ad(dict_index_is_clust(clust_index));
ut_ad(!dict_index_is_ibuf(clust_index));
/* Create a new index */
new_index = dict_mem_index_create(
table->name.m_name, index->name, index->space, index->type,
index->n_fields + 1 + clust_index->n_uniq);
/* Copy other relevant data from the old index
struct to the new struct: it inherits the values */
new_index->n_user_defined_cols = index->n_fields;
new_index->id = index->id;
/* Copy fields from index to new_index */
dict_index_copy(new_index, index, table, 0, index->n_fields);
/* Remember the table columns already contained in new_index */
indexed = static_cast<ibool*>(
ut_zalloc_nokey(table->n_cols * sizeof *indexed));
/* Mark the table columns already contained in new_index */
for (i = 0; i < new_index->n_def; i++) {
field = dict_index_get_nth_field(new_index, i);
if (dict_col_is_virtual(field->col)) {
continue;
}
/* If there is only a prefix of the column in the index
field, do not mark the column as contained in the index */
if (field->prefix_len == 0) {
indexed[field->col->ind] = TRUE;
}
}
/* Add to new_index the columns necessary to determine the clustered
index entry uniquely */
for (i = 0; i < clust_index->n_uniq; i++) {
field = dict_index_get_nth_field(clust_index, i);
if (!indexed[field->col->ind]) {
dict_index_add_col(new_index, table, field->col,
field->prefix_len);
} else if (dict_index_is_spatial(index)) {
/*For spatial index, we still need to add the
field to index. */
dict_index_add_col(new_index, table, field->col,
field->prefix_len);
}
}
ut_free(indexed);
if (dict_index_is_unique(index)) {
new_index->n_uniq = index->n_fields;
} else {
new_index->n_uniq = new_index->n_def;
}
/* Set the n_fields value in new_index to the actual defined
number of fields */
new_index->n_fields = new_index->n_def;
new_index->cached = TRUE;
return(new_index);
}
/***********************************************************************
Builds the internal dictionary cache representation for an FTS index.
@return own: the internal representation of the FTS index */
static
dict_index_t*
dict_index_build_internal_fts(
/*==========================*/
dict_table_t* table, /*!< in: table */
dict_index_t* index) /*!< in: user representation of an FTS index */
{
dict_index_t* new_index;
ut_ad(table && index);
ut_ad(index->type == DICT_FTS);
ut_ad(mutex_own(&dict_sys->mutex));
ut_ad(table->magic_n == DICT_TABLE_MAGIC_N);
/* Create a new index */
new_index = dict_mem_index_create(
table->name.m_name, index->name, index->space, index->type,
index->n_fields);
/* Copy other relevant data from the old index struct to the new
struct: it inherits the values */
new_index->n_user_defined_cols = index->n_fields;
new_index->id = index->id;
/* Copy fields from index to new_index */
dict_index_copy(new_index, index, table, 0, index->n_fields);
new_index->n_uniq = 0;
new_index->cached = TRUE;
if (table->fts->cache == NULL) {
table->fts->cache = fts_cache_create(table);
}
rw_lock_x_lock(&table->fts->cache->init_lock);
/* Notify the FTS cache about this index. */
fts_cache_index_cache_create(table, new_index);
rw_lock_x_unlock(&table->fts->cache->init_lock);
return(new_index);
}
/*====================== FOREIGN KEY PROCESSING ========================*/
#define DB_FOREIGN_KEY_IS_PREFIX_INDEX 200
#define DB_FOREIGN_KEY_COL_NOT_NULL 201
#define DB_FOREIGN_KEY_COLS_NOT_EQUAL 202
#define DB_FOREIGN_KEY_INDEX_NOT_FOUND 203
/** Check whether the dict_table_t is a partition.
A partitioned table on the SQL level is composed of InnoDB tables,
where each InnoDB table is a [sub]partition including its secondary indexes
which belongs to the partition.
@param[in] table Table to check.
@return true if the dict_table_t is a partition else false. */
UNIV_INLINE
bool
dict_table_is_partition(
const dict_table_t* table)
{
/* Check both P and p on all platforms in case it was moved to/from
WIN. */
return(strstr(table->name.m_name, "#p#")
|| strstr(table->name.m_name, "#P#"));
}
/*********************************************************************//**
Checks if a table is referenced by foreign keys.
@return TRUE if table is referenced by a foreign key */
ibool
dict_table_is_referenced_by_foreign_key(
/*====================================*/
const dict_table_t* table) /*!< in: InnoDB table */
{
return(!table->referenced_set.empty());
}
/**********************************************************************//**
Removes a foreign constraint struct from the dictionary cache. */
void
dict_foreign_remove_from_cache(
/*===========================*/
dict_foreign_t* foreign) /*!< in, own: foreign constraint */
{
ut_ad(mutex_own(&dict_sys->mutex));
ut_a(foreign);
if (foreign->referenced_table != NULL) {
foreign->referenced_table->referenced_set.erase(foreign);
}
if (foreign->foreign_table != NULL) {
foreign->foreign_table->foreign_set.erase(foreign);
}
dict_foreign_free(foreign);
}
/**********************************************************************//**
Looks for the foreign constraint from the foreign and referenced lists
of a table.
@return foreign constraint */
static
dict_foreign_t*
dict_foreign_find(
/*==============*/
dict_table_t* table, /*!< in: table object */
dict_foreign_t* foreign) /*!< in: foreign constraint */
{
ut_ad(mutex_own(&dict_sys->mutex));
ut_ad(dict_foreign_set_validate(table->foreign_set));
ut_ad(dict_foreign_set_validate(table->referenced_set));
dict_foreign_set::iterator it = table->foreign_set.find(foreign);
if (it != table->foreign_set.end()) {
return(*it);
}
it = table->referenced_set.find(foreign);
if (it != table->referenced_set.end()) {
return(*it);
}
return(NULL);
}
/*********************************************************************//**
Tries to find an index whose first fields are the columns in the array,
in the same order and is not marked for deletion and is not the same
as types_idx.
@return matching index, NULL if not found */
dict_index_t*
dict_foreign_find_index(
/*====================*/
const dict_table_t* table, /*!< in: table */
const char** col_names,
/*!< in: column names, or NULL
to use table->col_names */
const char** columns,/*!< in: array of column names */
ulint n_cols, /*!< in: number of columns */
const dict_index_t* types_idx,
/*!< in: NULL or an index
whose types the column types
must match */
bool check_charsets,
/*!< in: whether to check
charsets. only has an effect
if types_idx != NULL */
ulint check_null,
/*!< in: nonzero if none of
the columns must be declared
NOT NULL */
ulint* error, /*!< out: error code */
ulint* err_col_no,
/*!< out: column number where
error happened */
dict_index_t** err_index)
/*!< out: index where error
happened */
{
dict_index_t* index;
ut_ad(mutex_own(&dict_sys->mutex));
if (error) {
*error = DB_FOREIGN_KEY_INDEX_NOT_FOUND;
}
index = dict_table_get_first_index(table);
while (index != NULL) {
if (types_idx != index
&& !(index->type & DICT_FTS)
&& !dict_index_is_spatial(index)
&& !index->to_be_dropped
&& dict_foreign_qualify_index(
table, col_names, columns, n_cols,
index, types_idx,
check_charsets, check_null,
error, err_col_no,err_index)) {
if (error) {
*error = DB_SUCCESS;
}
return(index);
}
index = dict_table_get_next_index(index);
}
return(NULL);
}
#ifdef WITH_WSREP
dict_index_t*
wsrep_dict_foreign_find_index(
/*====================*/
dict_table_t* table, /*!< in: table */
const char** col_names, /*!< in: column names, or NULL
to use table->col_names */
const char** columns,/*!< in: array of column names */
ulint n_cols, /*!< in: number of columns */
dict_index_t* types_idx, /*!< in: NULL or an index to whose types the
column types must match */
ibool check_charsets,
/*!< in: whether to check charsets.
only has an effect if types_idx != NULL */
ulint check_null)
/*!< in: nonzero if none of the columns must
be declared NOT NULL */
{
return dict_foreign_find_index(
table, col_names, columns, n_cols, types_idx, check_charsets,
check_null, NULL, NULL, NULL);
}
#endif /* WITH_WSREP */
/**********************************************************************//**
Report an error in a foreign key definition. */
static
void
dict_foreign_error_report_low(
/*==========================*/
FILE* file, /*!< in: output stream */
const char* name) /*!< in: table name */
{
rewind(file);
ut_print_timestamp(file);
fprintf(file, " Error in foreign key constraint of table %s:\n",
name);
}
/**********************************************************************//**
Report an error in a foreign key definition. */
static
void
dict_foreign_error_report(
/*======================*/
FILE* file, /*!< in: output stream */
dict_foreign_t* fk, /*!< in: foreign key constraint */
const char* msg) /*!< in: the error message */
{
std::string fk_str;
mutex_enter(&dict_foreign_err_mutex);
dict_foreign_error_report_low(file, fk->foreign_table_name);
fputs(msg, file);
fputs(" Constraint:\n", file);
fk_str = dict_print_info_on_foreign_key_in_create_format(NULL, fk, TRUE);
fputs(fk_str.c_str(), file);
putc('\n', file);
if (fk->foreign_index) {
fprintf(file, "The index in the foreign key in table is"
" %s\n%s\n", fk->foreign_index->name(),
FOREIGN_KEY_CONSTRAINTS_MSG);
}
mutex_exit(&dict_foreign_err_mutex);
}
/**********************************************************************//**
Adds a foreign key constraint object to the dictionary cache. May free
the object if there already is an object with the same identifier in.
At least one of the foreign table and the referenced table must already
be in the dictionary cache!
@return DB_SUCCESS or error code */
dberr_t
dict_foreign_add_to_cache(
/*======================*/
dict_foreign_t* foreign,
/*!< in, own: foreign key constraint */
const char** col_names,
/*!< in: column names, or NULL to use
foreign->foreign_table->col_names */
bool check_charsets,
/*!< in: whether to check charset
compatibility */
dict_err_ignore_t ignore_err)
/*!< in: error to be ignored */
{
dict_table_t* for_table;
dict_table_t* ref_table;
dict_foreign_t* for_in_cache = NULL;
dict_index_t* index;
ibool added_to_referenced_list= FALSE;
FILE* ef = dict_foreign_err_file;
DBUG_ENTER("dict_foreign_add_to_cache");
DBUG_PRINT("dict_foreign_add_to_cache", ("id: %s", foreign->id));
ut_ad(mutex_own(&dict_sys->mutex));
for_table = dict_table_check_if_in_cache_low(
foreign->foreign_table_name_lookup);
ref_table = dict_table_check_if_in_cache_low(
foreign->referenced_table_name_lookup);
ut_a(for_table || ref_table);
if (for_table) {
for_in_cache = dict_foreign_find(for_table, foreign);
}
if (!for_in_cache && ref_table) {
for_in_cache = dict_foreign_find(ref_table, foreign);
}
if (for_in_cache) {
dict_foreign_free(foreign);
} else {
for_in_cache = foreign;
}
if (ref_table && !for_in_cache->referenced_table) {
ulint index_error;
ulint err_col;
dict_index_t *err_index=NULL;
index = dict_foreign_find_index(
ref_table, NULL,
for_in_cache->referenced_col_names,
for_in_cache->n_fields, for_in_cache->foreign_index,
check_charsets, false, &index_error, &err_col, &err_index);
if (index == NULL
&& !(ignore_err & DICT_ERR_IGNORE_FK_NOKEY)) {
dict_foreign_error_report(
ef, for_in_cache,
"there is no index in referenced table"
" which would contain\n"
"the columns as the first columns,"
" or the data types in the\n"
"referenced table do not match"
" the ones in table.");
if (for_in_cache == foreign) {
dict_foreign_free(foreign);
}
DBUG_RETURN(DB_CANNOT_ADD_CONSTRAINT);
}
for_in_cache->referenced_table = ref_table;
for_in_cache->referenced_index = index;
std::pair<dict_foreign_set::iterator, bool> ret
= ref_table->referenced_set.insert(for_in_cache);
ut_a(ret.second); /* second is true if the insertion
took place */
added_to_referenced_list = TRUE;
}
if (for_table && !for_in_cache->foreign_table) {
ulint index_error;
ulint err_col;
dict_index_t *err_index=NULL;
index = dict_foreign_find_index(
for_table, col_names,
for_in_cache->foreign_col_names,
for_in_cache->n_fields,
for_in_cache->referenced_index, check_charsets,
for_in_cache->type
& (DICT_FOREIGN_ON_DELETE_SET_NULL
| DICT_FOREIGN_ON_UPDATE_SET_NULL),
&index_error, &err_col, &err_index);
if (index == NULL
&& !(ignore_err & DICT_ERR_IGNORE_FK_NOKEY)) {
dict_foreign_error_report(
ef, for_in_cache,
"there is no index in the table"
" which would contain\n"
"the columns as the first columns,"
" or the data types in the\n"
"table do not match"
" the ones in the referenced table\n"
"or one of the ON ... SET NULL columns"
" is declared NOT NULL.");
if (for_in_cache == foreign) {
if (added_to_referenced_list) {
const dict_foreign_set::size_type
n = ref_table->referenced_set
.erase(for_in_cache);
ut_a(n == 1); /* the number of
elements removed must
be one */
}
dict_foreign_free(foreign);
}
DBUG_RETURN(DB_CANNOT_ADD_CONSTRAINT);
}
for_in_cache->foreign_table = for_table;
for_in_cache->foreign_index = index;
std::pair<dict_foreign_set::iterator, bool> ret
= for_table->foreign_set.insert(for_in_cache);
ut_a(ret.second); /* second is true if the insertion
took place */
}
/* We need to move the table to the non-LRU end of the table LRU
list. Otherwise it will be evicted from the cache. */
if (ref_table != NULL) {
dict_table_prevent_eviction(ref_table);
}
if (for_table != NULL) {
dict_table_prevent_eviction(for_table);
}
ut_ad(dict_lru_validate());
DBUG_RETURN(DB_SUCCESS);
}
/*********************************************************************//**
Scans from pointer onwards. Stops if is at the start of a copy of
'string' where characters are compared without case sensitivity, and
only outside `` or "" quotes. Stops also at NUL.
@return scanned up to this */
static
const char*
dict_scan_to(
/*=========*/
const char* ptr, /*!< in: scan from */
const char* string) /*!< in: look for this */
{
char quote = '\0';
bool escape = false;
for (; *ptr; ptr++) {
if (*ptr == quote) {
/* Closing quote character: do not look for
starting quote or the keyword. */
/* If the quote character is escaped by a
backslash, ignore it. */
if (escape) {
escape = false;
} else {
quote = '\0';
}
} else if (quote) {
/* Within quotes: do nothing. */
if (escape) {
escape = false;
} else if (*ptr == '\\') {
escape = true;
}
} else if (*ptr == '`' || *ptr == '"' || *ptr == '\'') {
/* Starting quote: remember the quote character. */
quote = *ptr;
} else {
/* Outside quotes: look for the keyword. */
ulint i;
for (i = 0; string[i]; i++) {
if (toupper((int)(unsigned char)(ptr[i]))
!= toupper((int)(unsigned char)
(string[i]))) {
goto nomatch;
}
}
break;
nomatch:
;
}
}
return(ptr);
}
/*********************************************************************//**
Accepts a specified string. Comparisons are case-insensitive.
@return if string was accepted, the pointer is moved after that, else
ptr is returned */
static
const char*
dict_accept(
/*========*/
CHARSET_INFO* cs, /*!< in: the character set of ptr */
const char* ptr, /*!< in: scan from this */
const char* string, /*!< in: accept only this string as the next
non-whitespace string */
ibool* success)/*!< out: TRUE if accepted */
{
const char* old_ptr = ptr;
const char* old_ptr2;
*success = FALSE;
while (my_isspace(cs, *ptr)) {
ptr++;
}
old_ptr2 = ptr;
ptr = dict_scan_to(ptr, string);
if (*ptr == '\0' || old_ptr2 != ptr) {
return(old_ptr);
}
*success = TRUE;
return(ptr + ut_strlen(string));
}
/*********************************************************************//**
Scans an id. For the lexical definition of an 'id', see the code below.
Strips backquotes or double quotes from around the id.
@return scanned to */
static
const char*
dict_scan_id(
/*=========*/
CHARSET_INFO* cs, /*!< in: the character set of ptr */
const char* ptr, /*!< in: scanned to */
mem_heap_t* heap, /*!< in: heap where to allocate the id
(NULL=id will not be allocated, but it
will point to string near ptr) */
const char** id, /*!< out,own: the id; NULL if no id was
scannable */
ibool table_id,/*!< in: TRUE=convert the allocated id
as a table name; FALSE=convert to UTF-8 */
ibool accept_also_dot)
/*!< in: TRUE if also a dot can appear in a
non-quoted id; in a quoted id it can appear
always */
{
char quote = '\0';
ulint len = 0;
const char* s;
char* str;
char* dst;
*id = NULL;
while (my_isspace(cs, *ptr)) {
ptr++;
}
if (*ptr == '\0') {
return(ptr);
}
if (*ptr == '`' || *ptr == '"') {
quote = *ptr++;
}
s = ptr;
if (quote) {
for (;;) {
if (!*ptr) {
/* Syntax error */
return(ptr);
}
if (*ptr == quote) {
ptr++;
if (*ptr != quote) {
break;
}
}
ptr++;
len++;
}
} else {
while (!my_isspace(cs, *ptr) && *ptr != '(' && *ptr != ')'
&& (accept_also_dot || *ptr != '.')
&& *ptr != ',' && *ptr != '\0') {
ptr++;
}
len = ptr - s;
}
if (heap == NULL) {
/* no heap given: id will point to source string */
*id = s;
return(ptr);
}
if (quote) {
char* d;
str = d = static_cast<char*>(
mem_heap_alloc(heap, len + 1));
while (len--) {
if ((*d++ = *s++) == quote) {
s++;
}
}
*d++ = 0;
len = d - str;
ut_ad(*s == quote);
ut_ad(s + 1 == ptr);
} else {
str = mem_heap_strdupl(heap, s, len);
}
if (!table_id) {
convert_id:
/* Convert the identifier from connection character set
to UTF-8. */
len = 3 * len + 1;
*id = dst = static_cast<char*>(mem_heap_alloc(heap, len));
innobase_convert_from_id(cs, dst, str, len);
} else if (!strncmp(str, srv_mysql50_table_name_prefix,
sizeof(srv_mysql50_table_name_prefix) - 1)) {
/* This is a pre-5.1 table name
containing chars other than [A-Za-z0-9].
Discard the prefix and use raw UTF-8 encoding. */
str += sizeof(srv_mysql50_table_name_prefix) - 1;
len -= sizeof(srv_mysql50_table_name_prefix) - 1;
goto convert_id;
} else {
/* Encode using filename-safe characters. */
len = 5 * len + 1;
*id = dst = static_cast<char*>(mem_heap_alloc(heap, len));
innobase_convert_from_table_id(cs, dst, str, len);
}
return(ptr);
}
/*********************************************************************//**
Tries to scan a column name.
@return scanned to */
static
const char*
dict_scan_col(
/*==========*/
CHARSET_INFO* cs, /*!< in: the character set of ptr */
const char* ptr, /*!< in: scanned to */
ibool* success,/*!< out: TRUE if success */
dict_table_t* table, /*!< in: table in which the column is */
const dict_col_t** column, /*!< out: pointer to column if success */
mem_heap_t* heap, /*!< in: heap where to allocate */
const char** name) /*!< out,own: the column name;
NULL if no name was scannable */
{
ulint i;
*success = FALSE;
ptr = dict_scan_id(cs, ptr, heap, name, FALSE, TRUE);
if (*name == NULL) {
return(ptr); /* Syntax error */
}
if (table == NULL) {
*success = TRUE;
*column = NULL;
} else {
for (i = 0; i < dict_table_get_n_cols(table); i++) {
const char* col_name = dict_table_get_col_name(
table, i);
if (0 == innobase_strcasecmp(col_name, *name)) {
/* Found */
*success = TRUE;
*column = dict_table_get_nth_col(table, i);
strcpy((char*) *name, col_name);
break;
}
}
for (i = 0; i < dict_table_get_n_v_cols(table); i++) {
const char* col_name = dict_table_get_v_col_name(
table, i);
if (0 == innobase_strcasecmp(col_name, *name)) {
/* Found */
dict_v_col_t * vcol;
*success = TRUE;
vcol = dict_table_get_nth_v_col(table, i);
*column = &vcol->m_col;
strcpy((char*) *name, col_name);
break;
}
}
}
return(ptr);
}
/*********************************************************************//**
Open a table from its database and table name, this is currently used by
foreign constraint parser to get the referenced table.
@return complete table name with database and table name, allocated from
heap memory passed in */
char*
dict_get_referenced_table(
/*======================*/
const char* name, /*!< in: foreign key table name */
const char* database_name, /*!< in: table db name */
ulint database_name_len, /*!< in: db name length */
const char* table_name, /*!< in: table name */
ulint table_name_len, /*!< in: table name length */
dict_table_t** table, /*!< out: table object or NULL */
mem_heap_t* heap) /*!< in/out: heap memory */
{
char* ref;
const char* db_name;
if (!database_name) {
/* Use the database name of the foreign key table */
db_name = name;
database_name_len = dict_get_db_name_len(name);
} else {
db_name = database_name;
}
/* Copy database_name, '/', table_name, '\0' */
ref = static_cast<char*>(
mem_heap_alloc(heap, database_name_len + table_name_len + 2));
memcpy(ref, db_name, database_name_len);
ref[database_name_len] = '/';
memcpy(ref + database_name_len + 1, table_name, table_name_len + 1);
/* Values; 0 = Store and compare as given; case sensitive
1 = Store and compare in lower; case insensitive
2 = Store as given, compare in lower; case semi-sensitive */
if (innobase_get_lower_case_table_names() == 2) {
innobase_casedn_str(ref);
*table = dict_table_get_low(ref);
memcpy(ref, db_name, database_name_len);
ref[database_name_len] = '/';
memcpy(ref + database_name_len + 1, table_name, table_name_len + 1);
} else {
#ifndef _WIN32
if (innobase_get_lower_case_table_names() == 1) {
innobase_casedn_str(ref);
}
#else
innobase_casedn_str(ref);
#endif /* !_WIN32 */
*table = dict_table_get_low(ref);
}
return(ref);
}
/*********************************************************************//**
Scans a table name from an SQL string.
@return scanned to */
static
const char*
dict_scan_table_name(
/*=================*/
CHARSET_INFO* cs, /*!< in: the character set of ptr */
const char* ptr, /*!< in: scanned to */
dict_table_t** table, /*!< out: table object or NULL */
const char* name, /*!< in: foreign key table name */
ibool* success,/*!< out: TRUE if ok name found */
mem_heap_t* heap, /*!< in: heap where to allocate the id */
const char** ref_name)/*!< out,own: the table name;
NULL if no name was scannable */
{
const char* database_name = NULL;
ulint database_name_len = 0;
const char* table_name = NULL;
const char* scan_name;
*success = FALSE;
*table = NULL;
ptr = dict_scan_id(cs, ptr, heap, &scan_name, TRUE, FALSE);
if (scan_name == NULL) {
return(ptr); /* Syntax error */
}
if (*ptr == '.') {
/* We scanned the database name; scan also the table name */
ptr++;
database_name = scan_name;
database_name_len = strlen(database_name);
ptr = dict_scan_id(cs, ptr, heap, &table_name, TRUE, FALSE);
if (table_name == NULL) {
return(ptr); /* Syntax error */
}
} else {
/* To be able to read table dumps made with InnoDB-4.0.17 or
earlier, we must allow the dot separator between the database
name and the table name also to appear within a quoted
identifier! InnoDB used to print a constraint as:
... REFERENCES `databasename.tablename` ...
starting from 4.0.18 it is
... REFERENCES `databasename`.`tablename` ... */
const char* s;
for (s = scan_name; *s; s++) {
if (*s == '.') {
database_name = scan_name;
database_name_len = s - scan_name;
scan_name = ++s;
break;/* to do: multiple dots? */
}
}
table_name = scan_name;
}
*ref_name = dict_get_referenced_table(
name, database_name, database_name_len,
table_name, strlen(table_name), table, heap);
*success = TRUE;
return(ptr);
}
/*********************************************************************//**
Skips one id. The id is allowed to contain also '.'.
@return scanned to */
static
const char*
dict_skip_word(
/*===========*/
CHARSET_INFO* cs, /*!< in: the character set of ptr */
const char* ptr, /*!< in: scanned to */
ibool* success)/*!< out: TRUE if success, FALSE if just spaces
left in string or a syntax error */
{
const char* start;
*success = FALSE;
ptr = dict_scan_id(cs, ptr, NULL, &start, FALSE, TRUE);
if (start) {
*success = TRUE;
}
return(ptr);
}
/*********************************************************************//**
Removes MySQL comments from an SQL string. A comment is either
(a) '#' to the end of the line,
(b) '--[space]' to the end of the line, or
(c) '[slash][asterisk]' till the next '[asterisk][slash]' (like the familiar
C comment syntax).
@return own: SQL string stripped from comments; the caller must free
this with ut_free()! */
static
char*
dict_strip_comments(
/*================*/
const char* sql_string, /*!< in: SQL string */
size_t sql_length) /*!< in: length of sql_string */
{
char* str;
const char* sptr;
const char* eptr = sql_string + sql_length;
char* ptr;
/* unclosed quote character (0 if none) */
char quote = 0;
bool escape = false;
DBUG_ENTER("dict_strip_comments");
DBUG_PRINT("dict_strip_comments", ("%s", sql_string));
str = static_cast<char*>(ut_malloc_nokey(sql_length + 1));
sptr = sql_string;
ptr = str;
for (;;) {
scan_more:
if (sptr >= eptr || *sptr == '\0') {
end_of_string:
*ptr = '\0';
ut_a(ptr <= str + sql_length);
DBUG_PRINT("dict_strip_comments", ("%s", str));
DBUG_RETURN(str);
}
if (*sptr == quote) {
/* Closing quote character: do not look for
starting quote or comments. */
/* If the quote character is escaped by a
backslash, ignore it. */
if (escape) {
escape = false;
} else {
quote = 0;
}
} else if (quote) {
/* Within quotes: do not look for
starting quotes or comments. */
if (escape) {
escape = false;
} else if (*sptr == '\\') {
escape = true;
}
} else if (*sptr == '"' || *sptr == '`' || *sptr == '\'') {
/* Starting quote: remember the quote character. */
quote = *sptr;
} else if (*sptr == '#'
|| (sptr[0] == '-' && sptr[1] == '-'
&& sptr[2] == ' ')) {
for (;;) {
if (++sptr >= eptr) {
goto end_of_string;
}
/* In Unix a newline is 0x0A while in Windows
it is 0x0D followed by 0x0A */
switch (*sptr) {
case (char) 0X0A:
case (char) 0x0D:
case '\0':
goto scan_more;
}
}
} else if (!quote && *sptr == '/' && *(sptr + 1) == '*') {
sptr += 2;
for (;;) {
if (sptr >= eptr) {
goto end_of_string;
}
switch (*sptr) {
case '\0':
goto scan_more;
case '*':
if (sptr[1] == '/') {
sptr += 2;
goto scan_more;
}
}
sptr++;
}
}
*ptr = *sptr;
ptr++;
sptr++;
}
}
/*********************************************************************//**
Finds the highest [number] for foreign key constraints of the table. Looks
only at the >= 4.0.18-format id's, which are of the form
databasename/tablename_ibfk_[number].
@return highest number, 0 if table has no new format foreign key constraints */
ulint
dict_table_get_highest_foreign_id(
/*==============================*/
dict_table_t* table) /*!< in: table in the dictionary memory cache */
{
dict_foreign_t* foreign;
char* endp;
ulint biggest_id = 0;
ulint id;
ulint len;
DBUG_ENTER("dict_table_get_highest_foreign_id");
ut_a(table);
len = ut_strlen(table->name.m_name);
for (dict_foreign_set::iterator it = table->foreign_set.begin();
it != table->foreign_set.end();
++it) {
char fkid[MAX_TABLE_NAME_LEN+20];
foreign = *it;
strcpy(fkid, foreign->id);
/* Convert foreign key identifier on dictionary memory
cache to filename charset. */
innobase_convert_to_filename_charset(
strchr(fkid, '/') + 1,
strchr(foreign->id, '/') + 1,
MAX_TABLE_NAME_LEN);
if (ut_strlen(fkid) > ((sizeof dict_ibfk) - 1) + len
&& 0 == ut_memcmp(fkid, table->name.m_name, len)
&& 0 == ut_memcmp(fkid + len,
dict_ibfk, (sizeof dict_ibfk) - 1)
&& fkid[len + ((sizeof dict_ibfk) - 1)] != '0') {
/* It is of the >= 4.0.18 format */
id = strtoul(fkid + len
+ ((sizeof dict_ibfk) - 1),
&endp, 10);
if (*endp == '\0') {
ut_a(id != biggest_id);
if (id > biggest_id) {
biggest_id = id;
}
}
}
}
DBUG_PRINT("dict_table_get_highest_foreign_id",
("id: " ULINTPF, biggest_id));
DBUG_RETURN(biggest_id);
}
/*********************************************************************//**
Reports a simple foreign key create clause syntax error. */
static
void
dict_foreign_report_syntax_err(
/*===========================*/
const char* fmt, /*!< in: syntax err msg */
const char* oper, /*!< in: operation */
const char* name, /*!< in: table name */
const char* start_of_latest_foreign,
/*!< in: start of the foreign key clause
in the SQL string */
const char* ptr) /*!< in: place of the syntax error */
{
ut_ad(!srv_read_only_mode);
FILE* ef = dict_foreign_err_file;
mutex_enter(&dict_foreign_err_mutex);
dict_foreign_error_report_low(ef, name);
fprintf(ef, fmt, oper, name, start_of_latest_foreign, ptr);
mutex_exit(&dict_foreign_err_mutex);
}
/*********************************************************************//**
Push warning message to SQL-layer based on foreign key constraint
index match error. */
static
void
dict_foreign_push_index_error(
/*==========================*/
trx_t* trx, /*!< in: trx */
const char* operation, /*!< in: operation create or alter
*/
const char* create_name, /*!< in: table name in create or
alter table */
const char* latest_foreign, /*!< in: start of latest foreign key
constraint name */
const char** columns, /*!< in: foreign key columns */
ulint index_error, /*!< in: error code */
ulint err_col, /*!< in: column where error happened
*/
dict_index_t* err_index, /*!< in: index where error happened
*/
dict_table_t* table, /*!< in: table */
FILE* ef) /*!< in: output stream */
{
switch (index_error) {
case DB_FOREIGN_KEY_INDEX_NOT_FOUND: {
fprintf(ef,
"%s table '%s' with foreign key constraint"
" failed. There is no index in the referenced"
" table where the referenced columns appear"
" as the first columns near '%s'.\n",
operation, create_name, latest_foreign);
ib_push_warning(trx, DB_CANNOT_ADD_CONSTRAINT,
"%s table '%s' with foreign key constraint"
" failed. There is no index in the referenced"
" table where the referenced columns appear"
" as the first columns near '%s'.",
operation, create_name, latest_foreign);
break;
}
case DB_FOREIGN_KEY_IS_PREFIX_INDEX: {
fprintf(ef,
"%s table '%s' with foreign key constraint"
" failed. There is only prefix index in the referenced"
" table where the referenced columns appear"
" as the first columns near '%s'.\n",
operation, create_name, latest_foreign);
ib_push_warning(trx, DB_CANNOT_ADD_CONSTRAINT,
"%s table '%s' with foreign key constraint"
" failed. There is only prefix index in the referenced"
" table where the referenced columns appear"
" as the first columns near '%s'.",
operation, create_name, latest_foreign);
break;
}
case DB_FOREIGN_KEY_COL_NOT_NULL: {
fprintf(ef,
"%s table %s with foreign key constraint"
" failed. You have defined a SET NULL condition but "
"column '%s' on index is defined as NOT NULL near '%s'.\n",
operation, create_name, columns[err_col], latest_foreign);
ib_push_warning(trx, DB_CANNOT_ADD_CONSTRAINT,
"%s table %s with foreign key constraint"
" failed. You have defined a SET NULL condition but "
"column '%s' on index is defined as NOT NULL near '%s'.",
operation, create_name, columns[err_col], latest_foreign);
break;
}
case DB_FOREIGN_KEY_COLS_NOT_EQUAL: {
dict_field_t* field;
const char* col_name;
field = dict_index_get_nth_field(err_index, err_col);
col_name = dict_table_get_col_name(
table, dict_col_get_no(field->col));
fprintf(ef,
"%s table %s with foreign key constraint"
" failed. Field type or character set for column '%s' "
"does not mach referenced column '%s' near '%s'.\n",
operation, create_name, columns[err_col], col_name, latest_foreign);
ib_push_warning(trx, DB_CANNOT_ADD_CONSTRAINT,
"%s table %s with foreign key constraint"
" failed. Field type or character set for column '%s' "
"does not mach referenced column '%s' near '%s'.",
operation, create_name, columns[err_col], col_name, latest_foreign);
break;
}
default:
ut_error;
}
}
/*********************************************************************//**
Scans a table create SQL string and adds to the data dictionary the foreign key
constraints declared in the string. This function should be called after the
indexes for a table have been created. Each foreign key constraint must be
accompanied with indexes in bot participating tables. The indexes are allowed
to contain more fields than mentioned in the constraint.
@return error code or DB_SUCCESS */
static
dberr_t
dict_create_foreign_constraints_low(
trx_t* trx,
mem_heap_t* heap,
CHARSET_INFO* cs,
const char* sql_string,
const char* name,
ibool reject_fks)
{
dict_table_t* table = NULL;
dict_table_t* referenced_table = NULL;
dict_table_t* table_to_alter = NULL;
dict_table_t* table_to_create = NULL;
ulint highest_id_so_far = 0;
ulint number = 1;
dict_index_t* index = NULL;
dict_foreign_t* foreign = NULL;
const char* ptr = sql_string;
const char* start_of_latest_foreign = sql_string;
const char* start_of_latest_set = NULL;
FILE* ef = dict_foreign_err_file;
ulint index_error = DB_SUCCESS;
dict_index_t* err_index = NULL;
ulint err_col;
const char* constraint_name;
ibool success;
dberr_t error;
const char* ptr1;
const char* ptr2;
ulint i;
ulint j;
ibool is_on_delete;
ulint n_on_deletes;
ulint n_on_updates;
const dict_col_t*columns[500];
const char* column_names[500];
const char* ref_column_names[500];
const char* referenced_table_name;
dict_foreign_set local_fk_set;
dict_foreign_set_free local_fk_set_free(local_fk_set);
const char* create_table_name;
const char* orig;
char create_name[MAX_TABLE_NAME_LEN + 1];
char operation[8];
ut_ad(!srv_read_only_mode);
ut_ad(mutex_own(&dict_sys->mutex));
table = dict_table_get_low(name);
/* First check if we are actually doing an ALTER TABLE, and in that
case look for the table being altered */
orig = ptr;
ptr = dict_accept(cs, ptr, "ALTER", &success);
strcpy((char *)operation, success ? "Alter " : "Create ");
if (!success) {
orig = ptr;
ptr = dict_scan_to(ptr, "CREATE");
ptr = dict_scan_to(ptr, "TABLE");
ptr = dict_accept(cs, ptr, "TABLE", &success);
if (success) {
ptr = dict_scan_table_name(cs, ptr, &table_to_create, name,
&success, heap, &create_table_name);
}
if (success) {
char *bufend;
bufend = innobase_convert_name((char *)create_name, MAX_TABLE_NAME_LEN,
create_table_name, strlen(create_table_name),
trx->mysql_thd);
create_name[bufend-create_name]='\0';
ptr = orig;
} else {
char *bufend;
ptr = orig;
bufend = innobase_convert_name((char *)create_name, MAX_TABLE_NAME_LEN,
name, strlen(name), trx->mysql_thd);
create_name[bufend-create_name]='\0';
}
goto loop;
}
if (table == NULL) {
mutex_enter(&dict_foreign_err_mutex);
dict_foreign_error_report_low(ef, create_name);
dict_foreign_error_report_low(ef, create_name);
fprintf(ef, "%s table %s with foreign key constraint"
" failed. Table %s not found from data dictionary."
" Error close to %s.\n",
operation, create_name, create_name, start_of_latest_foreign);
mutex_exit(&dict_foreign_err_mutex);
ib_push_warning(trx, DB_ERROR,
"%s table %s with foreign key constraint"
" failed. Table %s not found from data dictionary."
" Error close to %s.",
operation, create_name, create_name, start_of_latest_foreign);
return(DB_ERROR);
}
/* If not alter table jump to loop */
if (!success) {
goto loop;
}
orig = ptr;
ptr = dict_accept(cs, ptr, "TABLE", &success);
if (!success) {
goto loop;
}
/* We are doing an ALTER TABLE: scan the table name we are altering */
orig = ptr;
ptr = dict_scan_table_name(cs, ptr, &table_to_alter, name,
&success, heap, &referenced_table_name);
if (table_to_alter) {
char *bufend;
bufend = innobase_convert_name((char *)create_name, MAX_TABLE_NAME_LEN,
table_to_alter->name.m_name, strlen(table_to_alter->name.m_name),
trx->mysql_thd);
create_name[bufend-create_name]='\0';
} else {
char *bufend;
bufend = innobase_convert_name((char *)create_name, MAX_TABLE_NAME_LEN,
referenced_table_name, strlen(referenced_table_name),
trx->mysql_thd);
create_name[bufend-create_name]='\0';
}
if (!success) {
ib::error() << "Could not find the table " << create_name << " being" << operation << " near to "
<< orig;
ib_push_warning(trx, DB_ERROR,
"%s table %s with foreign key constraint"
" failed. Table %s not found from data dictionary."
" Error close to %s.",
operation, create_name, create_name, orig);
return(DB_ERROR);
}
/* Starting from 4.0.18 and 4.1.2, we generate foreign key id's in the
format databasename/tablename_ibfk_[number], where [number] is local
to the table; look for the highest [number] for table_to_alter, so
that we can assign to new constraints higher numbers. */
/* If we are altering a temporary table, the table name after ALTER
TABLE does not correspond to the internal table name, and
table_to_alter is NULL. TODO: should we fix this somehow? */
if (table_to_alter == NULL) {
highest_id_so_far = 0;
} else {
highest_id_so_far = dict_table_get_highest_foreign_id(
table_to_alter);
}
number = highest_id_so_far + 1;
/* Scan for foreign key declarations in a loop */
loop:
/* Scan either to "CONSTRAINT" or "FOREIGN", whichever is closer */
ptr1 = dict_scan_to(ptr, "CONSTRAINT");
ptr2 = dict_scan_to(ptr, "FOREIGN");
constraint_name = NULL;
if (ptr1 < ptr2) {
/* The user may have specified a constraint name. Pick it so
that we can store 'databasename/constraintname' as the id of
of the constraint to system tables. */
ptr = ptr1;
orig = ptr;
ptr = dict_accept(cs, ptr, "CONSTRAINT", &success);
ut_a(success);
if (!my_isspace(cs, *ptr) && *ptr != '"' && *ptr != '`') {
goto loop;
}
while (my_isspace(cs, *ptr)) {
ptr++;
}
/* read constraint name unless got "CONSTRAINT FOREIGN" */
if (ptr != ptr2) {
ptr = dict_scan_id(cs, ptr, heap,
&constraint_name, FALSE, FALSE);
}
} else {
ptr = ptr2;
}
if (*ptr == '\0') {
/* The proper way to reject foreign keys for temporary
tables would be to split the lexing and syntactical
analysis of foreign key clauses from the actual adding
of them, so that ha_innodb.cc could first parse the SQL
command, determine if there are any foreign keys, and
if so, immediately reject the command if the table is a
temporary one. For now, this kludge will work. */
if (reject_fks && !local_fk_set.empty()) {
mutex_enter(&dict_foreign_err_mutex);
dict_foreign_error_report_low(ef, create_name);
fprintf(ef, "%s table %s with foreign key constraint"
" failed. Temporary tables can't have foreign key constraints."
" Error close to %s.\n",
operation, create_name, start_of_latest_foreign);
mutex_exit(&dict_foreign_err_mutex);
ib_push_warning(trx, DB_CANNOT_ADD_CONSTRAINT,
"%s table %s with foreign key constraint"
" failed. Temporary tables can't have foreign key constraints."
" Error close to %s.",
operation, create_name, start_of_latest_foreign);
return(DB_CANNOT_ADD_CONSTRAINT);
}
if (dict_foreigns_has_s_base_col(local_fk_set, table)) {
return(DB_NO_FK_ON_S_BASE_COL);
}
/**********************************************************/
/* The following call adds the foreign key constraints
to the data dictionary system tables on disk */
error = dict_create_add_foreigns_to_dictionary(
local_fk_set, table, trx);
if (error == DB_SUCCESS) {
table->foreign_set.insert(local_fk_set.begin(),
local_fk_set.end());
std::for_each(local_fk_set.begin(),
local_fk_set.end(),
dict_foreign_add_to_referenced_table());
local_fk_set.clear();
dict_mem_table_fill_foreign_vcol_set(table);
}
return(error);
}
start_of_latest_foreign = ptr;
orig = ptr;
ptr = dict_accept(cs, ptr, "FOREIGN", &success);
if (!success) {
goto loop;
}
if (!my_isspace(cs, *ptr)) {
goto loop;
}
orig = ptr;
ptr = dict_accept(cs, ptr, "KEY", &success);
if (!success) {
goto loop;
}
if (my_isspace(cs, *ptr)) {
ptr1 = dict_accept(cs, ptr, "IF", &success);
if (success) {
if (!my_isspace(cs, *ptr1)) {
goto loop;
}
ptr1 = dict_accept(cs, ptr1, "NOT", &success);
if (!success) {
goto loop;
}
ptr1 = dict_accept(cs, ptr1, "EXISTS", &success);
if (!success) {
goto loop;
}
ptr = ptr1;
}
}
orig = ptr;
ptr = dict_accept(cs, ptr, "(", &success);
if (!success) {
if (constraint_name) {
/* MySQL allows also an index id before the '('; we
skip it */
ptr = dict_skip_word(cs, ptr, &success);
if (!success) {
dict_foreign_report_syntax_err(
"%s table %s with foreign key constraint"
" failed. Parse error in '%s'"
" near '%s'.\n",
operation, create_name, start_of_latest_foreign, orig);
ib_push_warning(trx, DB_CANNOT_ADD_CONSTRAINT,
"%s table %s with foreign key constraint"
" failed. Parse error in '%s'"
" near '%s'.",
operation, create_name, start_of_latest_foreign, orig);
return(DB_CANNOT_ADD_CONSTRAINT);
}
} else {
while (my_isspace(cs, *ptr)) {
ptr++;
}
ptr = dict_scan_id(cs, ptr, heap,
&constraint_name, FALSE, FALSE);
}
ptr = dict_accept(cs, ptr, "(", &success);
if (!success) {
/* We do not flag a syntax error here because in an
ALTER TABLE we may also have DROP FOREIGN KEY abc */
goto loop;
}
}
i = 0;
/* Scan the columns in the first list */
col_loop1:
ut_a(i < (sizeof column_names) / sizeof *column_names);
orig = ptr;
ptr = dict_scan_col(cs, ptr, &success, table, columns + i,
heap, column_names + i);
if (!success) {
mutex_enter(&dict_foreign_err_mutex);
dict_foreign_error_report_low(ef, create_name);
fprintf(ef,
"%s table %s with foreign key constraint"
" failed. Parse error in '%s'"
" near '%s'.\n",
operation, create_name, start_of_latest_foreign, orig);
mutex_exit(&dict_foreign_err_mutex);
ib_push_warning(trx, DB_CANNOT_ADD_CONSTRAINT,
"%s table %s with foreign key constraint"
" failed. Parse error in '%s'"
" near '%s'.",
operation, create_name, start_of_latest_foreign, orig);
return(DB_CANNOT_ADD_CONSTRAINT);
}
i++;
ptr = dict_accept(cs, ptr, ",", &success);
if (success) {
goto col_loop1;
}
orig = ptr;
ptr = dict_accept(cs, ptr, ")", &success);
if (!success) {
dict_foreign_report_syntax_err(
"%s table %s with foreign key constraint"
" failed. Parse error in '%s'"
" near '%s'.\n",
operation, create_name, start_of_latest_foreign, orig);
ib_push_warning(trx, DB_CANNOT_ADD_CONSTRAINT,
"%s table %s with foreign key constraint"
" failed. Parse error in '%s'"
" near '%s'.",
operation, create_name, start_of_latest_foreign, orig);
return(DB_CANNOT_ADD_CONSTRAINT);
}
/* Try to find an index which contains the columns
as the first fields and in the right order. There is
no need to check column type match (on types_idx), since
the referenced table can be NULL if foreign_key_checks is
set to 0 */
index = dict_foreign_find_index(
table, NULL, column_names, i,
NULL, TRUE, FALSE, &index_error, &err_col, &err_index);
if (!index) {
mutex_enter(&dict_foreign_err_mutex);
dict_foreign_error_report_low(ef, create_name);
fputs("There is no index in table ", ef);
ut_print_name(ef, NULL, create_name);
fprintf(ef, " where the columns appear\n"
"as the first columns. Constraint:\n%s\n%s",
start_of_latest_foreign,
FOREIGN_KEY_CONSTRAINTS_MSG);
dict_foreign_push_index_error(trx, operation, create_name, start_of_latest_foreign,
column_names, index_error, err_col, err_index, table, ef);
mutex_exit(&dict_foreign_err_mutex);
return(DB_CANNOT_ADD_CONSTRAINT);
}
orig = ptr;
ptr = dict_accept(cs, ptr, "REFERENCES", &success);
if (!success || !my_isspace(cs, *ptr)) {
dict_foreign_report_syntax_err(
"%s table %s with foreign key constraint"
" failed. Parse error in '%s'"
" near '%s'.\n",
operation, create_name, start_of_latest_foreign, orig);
ib_push_warning(trx, DB_CANNOT_ADD_CONSTRAINT,
"%s table %s with foreign key constraint"
" failed. Parse error in '%s'"
" near '%s'.",
operation, create_name, start_of_latest_foreign, orig);
return(DB_CANNOT_ADD_CONSTRAINT);
}
/* Don't allow foreign keys on partitioned tables yet. */
ptr1 = dict_scan_to(ptr, "PARTITION");
if (ptr1) {
ptr1 = dict_accept(cs, ptr1, "PARTITION", &success);
if (success && my_isspace(cs, *ptr1)) {
ptr2 = dict_accept(cs, ptr1, "BY", &success);
if (success) {
my_error(ER_FOREIGN_KEY_ON_PARTITIONED,MYF(0));
return(DB_CANNOT_ADD_CONSTRAINT);
}
}
}
if (dict_table_is_partition(table)) {
my_error(ER_FOREIGN_KEY_ON_PARTITIONED,MYF(0));
return(DB_CANNOT_ADD_CONSTRAINT);
}
/* Don't allow foreign keys on partitioned tables yet. */
ptr1 = dict_scan_to(ptr, "PARTITION");
if (ptr1) {
ptr1 = dict_accept(cs, ptr1, "PARTITION", &success);
if (success && my_isspace(cs, *ptr1)) {
ptr2 = dict_accept(cs, ptr1, "BY", &success);
if (success) {
my_error(ER_FOREIGN_KEY_ON_PARTITIONED,MYF(0));
return(DB_CANNOT_ADD_CONSTRAINT);
}
}
}
if (dict_table_is_partition(table)) {
my_error(ER_FOREIGN_KEY_ON_PARTITIONED,MYF(0));
return(DB_CANNOT_ADD_CONSTRAINT);
}
/* Let us create a constraint struct */
foreign = dict_mem_foreign_create();
if (constraint_name) {
ulint db_len;
/* Catenate 'databasename/' to the constraint name specified
by the user: we conceive the constraint as belonging to the
same MySQL 'database' as the table itself. We store the name
to foreign->id. */
db_len = dict_get_db_name_len(table->name.m_name);
foreign->id = static_cast<char*>(mem_heap_alloc(
foreign->heap, db_len + strlen(constraint_name) + 2));
ut_memcpy(foreign->id, table->name.m_name, db_len);
foreign->id[db_len] = '/';
strcpy(foreign->id + db_len + 1, constraint_name);
}
if (foreign->id == NULL) {
error = dict_create_add_foreign_id(
&number, table->name.m_name, foreign);
if (error != DB_SUCCESS) {
dict_foreign_free(foreign);
return(error);
}
}
std::pair<dict_foreign_set::iterator, bool> ret
= local_fk_set.insert(foreign);
if (!ret.second) {
/* A duplicate foreign key name has been found */
dict_foreign_free(foreign);
return(DB_CANNOT_ADD_CONSTRAINT);
}
foreign->foreign_table = table;
foreign->foreign_table_name = mem_heap_strdup(
foreign->heap, table->name.m_name);
dict_mem_foreign_table_name_lookup_set(foreign, TRUE);
foreign->foreign_index = index;
foreign->n_fields = (unsigned int) i;
foreign->foreign_col_names = static_cast<const char**>(
mem_heap_alloc(foreign->heap, i * sizeof(void*)));
for (i = 0; i < foreign->n_fields; i++) {
foreign->foreign_col_names[i] = mem_heap_strdup(
foreign->heap, column_names[i]);
}
ptr = dict_scan_table_name(cs, ptr, &referenced_table, name,
&success, heap, &referenced_table_name);
/* Note that referenced_table can be NULL if the user has suppressed
checking of foreign key constraints! */
if (!success || (!referenced_table && trx->check_foreigns)) {
char buf[MAX_TABLE_NAME_LEN + 1] = "";
char* bufend;
bufend = innobase_convert_name(buf, MAX_TABLE_NAME_LEN,
referenced_table_name, strlen(referenced_table_name),
trx->mysql_thd);
buf[bufend - buf] = '\0';
ib_push_warning(trx, DB_CANNOT_ADD_CONSTRAINT,
"%s table %s with foreign key constraint failed. Referenced table %s not found in the data dictionary "
"near '%s'.",
operation, create_name, buf, start_of_latest_foreign);
mutex_enter(&dict_foreign_err_mutex);
dict_foreign_error_report_low(ef, create_name);
fprintf(ef,
"%s table %s with foreign key constraint failed. Referenced table %s not found in the data dictionary "
"near '%s'.\n",
operation, create_name, buf, start_of_latest_foreign);
mutex_exit(&dict_foreign_err_mutex);
return(DB_CANNOT_ADD_CONSTRAINT);
}
/* Don't allow foreign keys on partitioned tables yet. */
if (referenced_table && dict_table_is_partition(referenced_table)) {
/* How could one make a referenced table to be a partition? */
ut_ad(0);
my_error(ER_FOREIGN_KEY_ON_PARTITIONED,MYF(0));
return(DB_CANNOT_ADD_CONSTRAINT);
}
ptr = dict_accept(cs, ptr, "(", &success);
if (!success) {
dict_foreign_report_syntax_err(
"%s table %s with foreign key constraint"
" failed. Parse error in '%s'"
" near '%s'.\n",
operation, create_name, start_of_latest_foreign, orig);
ib_push_warning(trx, DB_CANNOT_ADD_CONSTRAINT,
"%s table %s with foreign key constraint"
" failed. Parse error in '%s'"
" near '%s'.",
operation, create_name, start_of_latest_foreign, orig);
return(DB_CANNOT_ADD_CONSTRAINT);
}
/* Scan the columns in the second list */
i = 0;
col_loop2:
orig = ptr;
ptr = dict_scan_col(cs, ptr, &success, referenced_table, columns + i,
heap, ref_column_names + i);
i++;
if (!success) {
mutex_enter(&dict_foreign_err_mutex);
dict_foreign_error_report_low(ef, create_name);
fprintf(ef,
"%s table %s with foreign key constraint"
" failed. Parse error in '%s'"
" near '%s'.\n",
operation, create_name, start_of_latest_foreign, orig);
mutex_exit(&dict_foreign_err_mutex);
ib_push_warning(trx, DB_CANNOT_ADD_CONSTRAINT,
"%s table %s with foreign key constraint"
" failed. Parse error in '%s'"
" near '%s'.",
operation, create_name, start_of_latest_foreign, orig);
return(DB_CANNOT_ADD_CONSTRAINT);
}
orig = ptr;
ptr = dict_accept(cs, ptr, ",", &success);
if (success) {
goto col_loop2;
}
orig = ptr;
ptr = dict_accept(cs, ptr, ")", &success);
if (!success || foreign->n_fields != i) {
dict_foreign_report_syntax_err(
"%s table %s with foreign key constraint"
" failed. Parse error in '%s' near '%s'. Referencing column count does not match referenced column count.\n",
operation, create_name, start_of_latest_foreign, orig);
ib_push_warning(trx, DB_CANNOT_ADD_CONSTRAINT,
"%s table %s with foreign key constraint"
" failed. Parse error in '%s' near '%s'. Referencing column count %d does not match referenced column count %d.\n",
operation, create_name, start_of_latest_foreign, orig, i, foreign->n_fields);
return(DB_CANNOT_ADD_CONSTRAINT);
}
n_on_deletes = 0;
n_on_updates = 0;
scan_on_conditions:
/* Loop here as long as we can find ON ... conditions */
start_of_latest_set = ptr;
ptr = dict_accept(cs, ptr, "ON", &success);
if (!success) {
goto try_find_index;
}
orig = ptr;
ptr = dict_accept(cs, ptr, "DELETE", &success);
if (!success) {
orig = ptr;
ptr = dict_accept(cs, ptr, "UPDATE", &success);
if (!success) {
dict_foreign_report_syntax_err(
"%s table %s with foreign key constraint"
" failed. Parse error in '%s'"
" near '%s'.\n",
operation, create_name, start_of_latest_foreign, start_of_latest_set);
ib_push_warning(trx, DB_CANNOT_ADD_CONSTRAINT,
"%s table %s with foreign key constraint"
" failed. Parse error in '%s'"
" near '%s'.",
operation, create_name, start_of_latest_foreign, start_of_latest_set);
return(DB_CANNOT_ADD_CONSTRAINT);
}
is_on_delete = FALSE;
n_on_updates++;
} else {
is_on_delete = TRUE;
n_on_deletes++;
}
orig = ptr;
ptr = dict_accept(cs, ptr, "RESTRICT", &success);
if (success) {
goto scan_on_conditions;
}
orig = ptr;
ptr = dict_accept(cs, ptr, "CASCADE", &success);
if (success) {
if (is_on_delete) {
foreign->type |= DICT_FOREIGN_ON_DELETE_CASCADE;
} else {
foreign->type |= DICT_FOREIGN_ON_UPDATE_CASCADE;
}
goto scan_on_conditions;
}
orig = ptr;
ptr = dict_accept(cs, ptr, "NO", &success);
if (success) {
orig = ptr;
ptr = dict_accept(cs, ptr, "ACTION", &success);
if (!success) {
dict_foreign_report_syntax_err(
"%s table %s with foreign key constraint"
" failed. Parse error in '%s'"
" near '%s'.\n",
operation, create_name, start_of_latest_foreign, start_of_latest_set);
ib_push_warning(trx, DB_CANNOT_ADD_CONSTRAINT,
"%s table %s with foreign key constraint"
" failed. Parse error in '%s'"
" near '%s'.",
operation, create_name, start_of_latest_foreign, start_of_latest_set);
return(DB_CANNOT_ADD_CONSTRAINT);
}
if (is_on_delete) {
foreign->type |= DICT_FOREIGN_ON_DELETE_NO_ACTION;
} else {
foreign->type |= DICT_FOREIGN_ON_UPDATE_NO_ACTION;
}
goto scan_on_conditions;
}
orig = ptr;
ptr = dict_accept(cs, ptr, "SET", &success);
if (!success) {
dict_foreign_report_syntax_err(
"%s table %s with foreign key constraint"
" failed. Parse error in '%s'"
" near '%s'.\n",
operation, create_name, start_of_latest_foreign, start_of_latest_set);
ib_push_warning(trx, DB_CANNOT_ADD_CONSTRAINT,
"%s table %s with foreign key constraint"
" failed. Parse error in '%s'"
" near '%s'.",
operation, create_name, start_of_latest_foreign, start_of_latest_set);
return(DB_CANNOT_ADD_CONSTRAINT);
}
orig = ptr;
ptr = dict_accept(cs, ptr, "NULL", &success);
if (!success) {
dict_foreign_report_syntax_err(
"%s table %s with foreign key constraint"
" failed. Parse error in '%s'"
" near '%s'.\n",
operation, create_name, start_of_latest_foreign, start_of_latest_set);
ib_push_warning(trx, DB_CANNOT_ADD_CONSTRAINT,
"%s table %s with foreign key constraint"
" failed. Parse error in '%s'"
" near '%s'.",
operation, create_name, start_of_latest_foreign, start_of_latest_set);
return(DB_CANNOT_ADD_CONSTRAINT);
}
for (j = 0; j < foreign->n_fields; j++) {
if ((dict_index_get_nth_col(foreign->foreign_index, j)->prtype)
& DATA_NOT_NULL) {
const dict_col_t* col
= dict_index_get_nth_col(foreign->foreign_index, j);
const char* col_name = dict_table_get_col_name(foreign->foreign_index->table,
dict_col_get_no(col));
/* It is not sensible to define SET NULL
if the column is not allowed to be NULL! */
mutex_enter(&dict_foreign_err_mutex);
dict_foreign_error_report_low(ef, create_name);
fprintf(ef,
"%s table %s with foreign key constraint"
" failed. You have defined a SET NULL condition but column '%s' is defined as NOT NULL"
" in '%s' near '%s'.\n",
operation, create_name, col_name, start_of_latest_foreign, start_of_latest_set);
mutex_exit(&dict_foreign_err_mutex);
ib_push_warning(trx, DB_CANNOT_ADD_CONSTRAINT,
"%s table %s with foreign key constraint"
" failed. You have defined a SET NULL condition but column '%s' is defined as NOT NULL"
" in '%s' near '%s'.",
operation, create_name, col_name, start_of_latest_foreign, start_of_latest_set);
return(DB_CANNOT_ADD_CONSTRAINT);
}
}
if (is_on_delete) {
foreign->type |= DICT_FOREIGN_ON_DELETE_SET_NULL;
} else {
foreign->type |= DICT_FOREIGN_ON_UPDATE_SET_NULL;
}
goto scan_on_conditions;
try_find_index:
if (n_on_deletes > 1 || n_on_updates > 1) {
/* It is an error to define more than 1 action */
mutex_enter(&dict_foreign_err_mutex);
dict_foreign_error_report_low(ef, create_name);
fprintf(ef,
"%s table %s with foreign key constraint"
" failed. You have more than one on delete or on update clause"
" in '%s' near '%s'.\n",
operation, create_name, start_of_latest_foreign, start_of_latest_set);
mutex_exit(&dict_foreign_err_mutex);
ib_push_warning(trx, DB_CANNOT_ADD_CONSTRAINT,
"%s table %s with foreign key constraint"
" failed. You have more than one on delete or on update clause"
" in '%s' near '%s'.",
operation, create_name, start_of_latest_foreign, start_of_latest_set);
dict_foreign_free(foreign);
return(DB_CANNOT_ADD_CONSTRAINT);
}
/* Try to find an index which contains the columns as the first fields
and in the right order, and the types are the same as in
foreign->foreign_index */
if (referenced_table) {
index = dict_foreign_find_index(referenced_table, NULL,
ref_column_names, i,
foreign->foreign_index,
TRUE, FALSE, &index_error, &err_col, &err_index);
if (!index) {
mutex_enter(&dict_foreign_err_mutex);
dict_foreign_error_report_low(ef, create_name);
fprintf(ef, "%s:\n"
"Cannot find an index in the"
" referenced table where the\n"
"referenced columns appear as the"
" first columns, or column types\n"
"in the table and the referenced table"
" do not match for constraint.\n"
"Note that the internal storage type of"
" ENUM and SET changed in\n"
"tables created with >= InnoDB-4.1.12,"
" and such columns in old tables\n"
"cannot be referenced by such columns"
" in new tables.\n%s\n",
start_of_latest_foreign,
FOREIGN_KEY_CONSTRAINTS_MSG);
dict_foreign_push_index_error(trx, operation, create_name, start_of_latest_foreign,
column_names, index_error, err_col, err_index, referenced_table, ef);
mutex_exit(&dict_foreign_err_mutex);
return(DB_CANNOT_ADD_CONSTRAINT);
}
} else {
ut_a(trx->check_foreigns == FALSE);
index = NULL;
}
foreign->referenced_index = index;
foreign->referenced_table = referenced_table;
foreign->referenced_table_name = mem_heap_strdup(
foreign->heap, referenced_table_name);
dict_mem_referenced_table_name_lookup_set(foreign, TRUE);
foreign->referenced_col_names = static_cast<const char**>(
mem_heap_alloc(foreign->heap, i * sizeof(void*)));
for (i = 0; i < foreign->n_fields; i++) {
foreign->referenced_col_names[i]
= mem_heap_strdup(foreign->heap, ref_column_names[i]);
}
goto loop;
}
/** Scans a table create SQL string and adds to the data dictionary
the foreign key constraints declared in the string. This function
should be called after the indexes for a table have been created.
Each foreign key constraint must be accompanied with indexes in
bot participating tables. The indexes are allowed to contain more
fields than mentioned in the constraint.
@param[in] trx transaction
@param[in] sql_string table create statement where
foreign keys are declared like:
FOREIGN KEY (a, b) REFERENCES table2(c, d),
table2 can be written also with the database
name before it: test.table2; the default
database id the database of parameter name
@param[in] sql_length length of sql_string
@param[in] name table full name in normalized form
@param[in] reject_fks if TRUE, fail with error code
DB_CANNOT_ADD_CONSTRAINT if any
foreign keys are found.
@return error code or DB_SUCCESS */
dberr_t
dict_create_foreign_constraints(
trx_t* trx,
const char* sql_string,
size_t sql_length,
const char* name,
ibool reject_fks)
{
char* str;
dberr_t err;
mem_heap_t* heap;
ut_a(trx);
ut_a(trx->mysql_thd);
str = dict_strip_comments(sql_string, sql_length);
heap = mem_heap_create(10000);
err = dict_create_foreign_constraints_low(
trx, heap, innobase_get_charset(trx->mysql_thd),
str, name, reject_fks);
mem_heap_free(heap);
ut_free(str);
return(err);
}
/**********************************************************************//**
Parses the CONSTRAINT id's to be dropped in an ALTER TABLE statement.
@return DB_SUCCESS or DB_CANNOT_DROP_CONSTRAINT if syntax error or the
constraint id does not match */
dberr_t
dict_foreign_parse_drop_constraints(
/*================================*/
mem_heap_t* heap, /*!< in: heap from which we can
allocate memory */
trx_t* trx, /*!< in: transaction */
dict_table_t* table, /*!< in: table */
ulint* n, /*!< out: number of constraints
to drop */
const char*** constraints_to_drop) /*!< out: id's of the
constraints to drop */
{
ibool success;
char* str;
size_t len;
const char* ptr;
const char* ptr1;
const char* id;
CHARSET_INFO* cs;
ut_a(trx);
ut_a(trx->mysql_thd);
cs = innobase_get_charset(trx->mysql_thd);
*n = 0;
*constraints_to_drop = static_cast<const char**>(
mem_heap_alloc(heap, 1000 * sizeof(char*)));
ptr = innobase_get_stmt_unsafe(trx->mysql_thd, &len);
str = dict_strip_comments(ptr, len);
ptr = str;
ut_ad(mutex_own(&dict_sys->mutex));
loop:
ptr = dict_scan_to(ptr, "DROP");
if (*ptr == '\0') {
ut_free(str);
return(DB_SUCCESS);
}
ptr = dict_accept(cs, ptr, "DROP", &success);
if (!my_isspace(cs, *ptr)) {
goto loop;
}
ptr = dict_accept(cs, ptr, "FOREIGN", &success);
if (!success || !my_isspace(cs, *ptr)) {
goto loop;
}
ptr = dict_accept(cs, ptr, "KEY", &success);
if (!success) {
goto syntax_error;
}
ptr1 = dict_accept(cs, ptr, "IF", &success);
if (success && my_isspace(cs, *ptr1)) {
ptr1 = dict_accept(cs, ptr1, "EXISTS", &success);
if (success) {
ptr = ptr1;
}
}
ptr = dict_scan_id(cs, ptr, heap, &id, FALSE, TRUE);
if (id == NULL) {
goto syntax_error;
}
ut_a(*n < 1000);
(*constraints_to_drop)[*n] = id;
(*n)++;
if (std::find_if(table->foreign_set.begin(),
table->foreign_set.end(),
dict_foreign_matches_id(id))
== table->foreign_set.end()) {
if (!srv_read_only_mode) {
FILE* ef = dict_foreign_err_file;
mutex_enter(&dict_foreign_err_mutex);
rewind(ef);
ut_print_timestamp(ef);
fputs(" Error in dropping of a foreign key"
" constraint of table ", ef);
ut_print_name(ef, NULL, table->name.m_name);
fprintf(ef, ",\nin SQL command\n%s"
"\nCannot find a constraint with the"
" given id %s.\n", str, id);
mutex_exit(&dict_foreign_err_mutex);
}
ut_free(str);
return(DB_CANNOT_DROP_CONSTRAINT);
}
goto loop;
syntax_error:
if (!srv_read_only_mode) {
FILE* ef = dict_foreign_err_file;
mutex_enter(&dict_foreign_err_mutex);
rewind(ef);
ut_print_timestamp(ef);
fputs(" Syntax error in dropping of a"
" foreign key constraint of table ", ef);
ut_print_name(ef, NULL, table->name.m_name);
fprintf(ef, ",\n"
"close to:\n%s\n in SQL command\n%s\n", ptr, str);
mutex_exit(&dict_foreign_err_mutex);
}
ut_free(str);
return(DB_CANNOT_DROP_CONSTRAINT);
}
/*==================== END OF FOREIGN KEY PROCESSING ====================*/
/**********************************************************************//**
Returns an index object if it is found in the dictionary cache.
Assumes that dict_sys->mutex is already being held.
@return index, NULL if not found */
dict_index_t*
dict_index_get_if_in_cache_low(
/*===========================*/
index_id_t index_id) /*!< in: index id */
{
ut_ad(mutex_own(&dict_sys->mutex));
return(dict_index_find_on_id_low(index_id));
}
#if defined UNIV_DEBUG || defined UNIV_BUF_DEBUG
/**********************************************************************//**
Returns an index object if it is found in the dictionary cache.
@return index, NULL if not found */
dict_index_t*
dict_index_get_if_in_cache(
/*=======================*/
index_id_t index_id) /*!< in: index id */
{
dict_index_t* index;
if (dict_sys == NULL) {
return(NULL);
}
mutex_enter(&dict_sys->mutex);
index = dict_index_get_if_in_cache_low(index_id);
mutex_exit(&dict_sys->mutex);
return(index);
}
#endif /* UNIV_DEBUG || UNIV_BUF_DEBUG */
#ifdef UNIV_DEBUG
/**********************************************************************//**
Checks that a tuple has n_fields_cmp value in a sensible range, so that
no comparison can occur with the page number field in a node pointer.
@return TRUE if ok */
ibool
dict_index_check_search_tuple(
/*==========================*/
const dict_index_t* index, /*!< in: index tree */
const dtuple_t* tuple) /*!< in: tuple used in a search */
{
ut_a(index);
ut_a(dtuple_get_n_fields_cmp(tuple)
<= dict_index_get_n_unique_in_tree(index));
return(TRUE);
}
#endif /* UNIV_DEBUG */
/**********************************************************************//**
Builds a node pointer out of a physical record and a page number.
@return own: node pointer */
dtuple_t*
dict_index_build_node_ptr(
/*======================*/
const dict_index_t* index, /*!< in: index */
const rec_t* rec, /*!< in: record for which to build node
pointer */
ulint page_no,/*!< in: page number to put in node
pointer */
mem_heap_t* heap, /*!< in: memory heap where pointer
created */
ulint level) /*!< in: level of rec in tree:
0 means leaf level */
{
dtuple_t* tuple;
dfield_t* field;
byte* buf;
ulint n_unique;
if (dict_index_is_ibuf(index)) {
/* In a universal index tree, we take the whole record as
the node pointer if the record is on the leaf level,
on non-leaf levels we remove the last field, which
contains the page number of the child page */
ut_a(!dict_table_is_comp(index->table));
n_unique = rec_get_n_fields_old(rec);
if (level > 0) {
ut_a(n_unique > 1);
n_unique--;
}
} else {
n_unique = dict_index_get_n_unique_in_tree_nonleaf(index);
}
tuple = dtuple_create(heap, n_unique + 1);
/* When searching in the tree for the node pointer, we must not do
comparison on the last field, the page number field, as on upper
levels in the tree there may be identical node pointers with a
different page number; therefore, we set the n_fields_cmp to one
less: */
dtuple_set_n_fields_cmp(tuple, n_unique);
dict_index_copy_types(tuple, index, n_unique);
buf = static_cast<byte*>(mem_heap_alloc(heap, 4));
mach_write_to_4(buf, page_no);
field = dtuple_get_nth_field(tuple, n_unique);
dfield_set_data(field, buf, 4);
dtype_set(dfield_get_type(field), DATA_SYS_CHILD, DATA_NOT_NULL, 4);
rec_copy_prefix_to_dtuple(tuple, rec, index, !level, n_unique, heap);
dtuple_set_info_bits(tuple, dtuple_get_info_bits(tuple)
| REC_STATUS_NODE_PTR);
ut_ad(dtuple_check_typed(tuple));
return(tuple);
}
/**********************************************************************//**
Copies an initial segment of a physical record, long enough to specify an
index entry uniquely.
@return pointer to the prefix record */
rec_t*
dict_index_copy_rec_order_prefix(
/*=============================*/
const dict_index_t* index, /*!< in: index */
const rec_t* rec, /*!< in: record for which to
copy prefix */
ulint* n_fields,/*!< out: number of fields copied */
byte** buf, /*!< in/out: memory buffer for the
copied prefix, or NULL */
ulint* buf_size)/*!< in/out: buffer size */
{
ulint n;
UNIV_PREFETCH_R(rec);
if (dict_index_is_ibuf(index)) {
ut_a(!dict_table_is_comp(index->table));
n = rec_get_n_fields_old(rec);
} else {
if (page_rec_is_leaf(rec)) {
n = dict_index_get_n_unique_in_tree(index);
} else {
n = dict_index_get_n_unique_in_tree_nonleaf(index);
/* For internal node of R-tree, since we need to
compare the page no field, so, we need to copy this
field as well. */
if (dict_index_is_spatial(index)) {
n++;
}
}
}
*n_fields = n;
return(rec_copy_prefix_to_buf(rec, index, n, buf, buf_size));
}
/** Convert a physical record into a search tuple.
@param[in] rec index record (not necessarily in an index page)
@param[in] index index
@param[in] leaf whether rec is in a leaf page
@param[in] n_fields number of data fields
@param[in,out] heap memory heap for allocation
@return own: data tuple */
dtuple_t*
dict_index_build_data_tuple_func(
const rec_t* rec,
const dict_index_t* index,
#ifdef UNIV_DEBUG
bool leaf,
#endif /* UNIV_DEBUG */
ulint n_fields,
mem_heap_t* heap)
{
dtuple_t* tuple;
ut_ad(dict_table_is_comp(index->table)
|| n_fields <= rec_get_n_fields_old(rec));
tuple = dtuple_create(heap, n_fields);
dict_index_copy_types(tuple, index, n_fields);
rec_copy_prefix_to_dtuple(tuple, rec, index, leaf, n_fields, heap);
ut_ad(dtuple_check_typed(tuple));
return(tuple);
}
/*********************************************************************//**
Calculates the minimum record length in an index. */
ulint
dict_index_calc_min_rec_len(
/*========================*/
const dict_index_t* index) /*!< in: index */
{
ulint sum = 0;
ulint i;
ulint comp = dict_table_is_comp(index->table);
if (comp) {
ulint nullable = 0;
sum = REC_N_NEW_EXTRA_BYTES;
for (i = 0; i < dict_index_get_n_fields(index); i++) {
const dict_col_t* col
= dict_index_get_nth_col(index, i);
ulint size = dict_col_get_fixed_size(col, comp);
sum += size;
if (!size) {
size = col->len;
sum += size < 128 ? 1 : 2;
}
if (!(col->prtype & DATA_NOT_NULL)) {
nullable++;
}
}
/* round the NULL flags up to full bytes */
sum += UT_BITS_IN_BYTES(nullable);
return(sum);
}
for (i = 0; i < dict_index_get_n_fields(index); i++) {
sum += dict_col_get_fixed_size(
dict_index_get_nth_col(index, i), comp);
}
if (sum > 127) {
sum += 2 * dict_index_get_n_fields(index);
} else {
sum += dict_index_get_n_fields(index);
}
sum += REC_N_OLD_EXTRA_BYTES;
return(sum);
}
/**********************************************************************//**
Outputs info on a foreign key of a table in a format suitable for
CREATE TABLE. */
std::string
dict_print_info_on_foreign_key_in_create_format(
/*============================================*/
trx_t* trx, /*!< in: transaction */
dict_foreign_t* foreign, /*!< in: foreign key constraint */
ibool add_newline) /*!< in: whether to add a newline */
{
const char* stripped_id;
ulint i;
std::string str;
if (strchr(foreign->id, '/')) {
/* Strip the preceding database name from the constraint id */
stripped_id = foreign->id + 1
+ dict_get_db_name_len(foreign->id);
} else {
stripped_id = foreign->id;
}
str.append(",");
if (add_newline) {
/* SHOW CREATE TABLE wants constraints each printed nicely
on its own line, while error messages want no newlines
inserted. */
str.append("\n ");
}
str.append(" CONSTRAINT ");
str.append(innobase_quote_identifier(trx, stripped_id));
str.append(" FOREIGN KEY (");
for (i = 0;;) {
str.append(innobase_quote_identifier(trx, foreign->foreign_col_names[i]));
if (++i < foreign->n_fields) {
str.append(", ");
} else {
break;
}
}
str.append(") REFERENCES ");
if (dict_tables_have_same_db(foreign->foreign_table_name_lookup,
foreign->referenced_table_name_lookup)) {
/* Do not print the database name of the referenced table */
str.append(ut_get_name(trx,
dict_remove_db_name(
foreign->referenced_table_name)));
} else {
str.append(ut_get_name(trx,
foreign->referenced_table_name));
}
str.append(" (");
for (i = 0;;) {
str.append(innobase_quote_identifier(trx,
foreign->referenced_col_names[i]));
if (++i < foreign->n_fields) {
str.append(", ");
} else {
break;
}
}
str.append(")");
if (foreign->type & DICT_FOREIGN_ON_DELETE_CASCADE) {
str.append(" ON DELETE CASCADE");
}
if (foreign->type & DICT_FOREIGN_ON_DELETE_SET_NULL) {
str.append(" ON DELETE SET NULL");
}
if (foreign->type & DICT_FOREIGN_ON_DELETE_NO_ACTION) {
str.append(" ON DELETE NO ACTION");
}
if (foreign->type & DICT_FOREIGN_ON_UPDATE_CASCADE) {
str.append(" ON UPDATE CASCADE");
}
if (foreign->type & DICT_FOREIGN_ON_UPDATE_SET_NULL) {
str.append(" ON UPDATE SET NULL");
}
if (foreign->type & DICT_FOREIGN_ON_UPDATE_NO_ACTION) {
str.append(" ON UPDATE NO ACTION");
}
return str;
}
/**********************************************************************//**
Outputs info on foreign keys of a table. */
std::string
dict_print_info_on_foreign_keys(
/*============================*/
ibool create_table_format, /*!< in: if TRUE then print in
a format suitable to be inserted into
a CREATE TABLE, otherwise in the format
of SHOW TABLE STATUS */
trx_t* trx, /*!< in: transaction */
dict_table_t* table) /*!< in: table */
{
dict_foreign_t* foreign;
std::string str;
mutex_enter(&dict_sys->mutex);
for (dict_foreign_set::iterator it = table->foreign_set.begin();
it != table->foreign_set.end();
++it) {
foreign = *it;
if (create_table_format) {
str.append(
dict_print_info_on_foreign_key_in_create_format(
trx, foreign, TRUE));
} else {
ulint i;
str.append("; (");
for (i = 0; i < foreign->n_fields; i++) {
if (i) {
str.append(" ");
}
str.append(innobase_quote_identifier(trx,
foreign->foreign_col_names[i]));
}
str.append(") REFER ");
str.append(ut_get_name(trx,
foreign->referenced_table_name));
str.append(")");
for (i = 0; i < foreign->n_fields; i++) {
if (i) {
str.append(" ");
}
str.append(innobase_quote_identifier(
trx,
foreign->referenced_col_names[i]));
}
str.append(")");
if (foreign->type == DICT_FOREIGN_ON_DELETE_CASCADE) {
str.append(" ON DELETE CASCADE");
}
if (foreign->type == DICT_FOREIGN_ON_DELETE_SET_NULL) {
str.append(" ON DELETE SET NULL");
}
if (foreign->type & DICT_FOREIGN_ON_DELETE_NO_ACTION) {
str.append(" ON DELETE NO ACTION");
}
if (foreign->type & DICT_FOREIGN_ON_UPDATE_CASCADE) {
str.append(" ON UPDATE CASCADE");
}
if (foreign->type & DICT_FOREIGN_ON_UPDATE_SET_NULL) {
str.append(" ON UPDATE SET NULL");
}
if (foreign->type & DICT_FOREIGN_ON_UPDATE_NO_ACTION) {
str.append(" ON UPDATE NO ACTION");
}
}
}
mutex_exit(&dict_sys->mutex);
return str;
}
/** Given a space_id of a file-per-table tablespace, search the
dict_sys->table_LRU list and return the dict_table_t* pointer for it.
@param space_id Tablespace ID
@return table if found, NULL if not */
static
dict_table_t*
dict_find_single_table_by_space(
ulint space_id)
{
dict_table_t* table;
ulint num_item;
ulint count = 0;
ut_ad(space_id > 0);
if (dict_sys == NULL) {
/* This could happen when it's in redo processing. */
return(NULL);
}
table = UT_LIST_GET_FIRST(dict_sys->table_LRU);
num_item = UT_LIST_GET_LEN(dict_sys->table_LRU);
/* This function intentionally does not acquire mutex as it is used
by error handling code in deep call stack as last means to avoid
killing the server, so it worth to risk some consequences for
the action. */
while (table && count < num_item) {
if (table->space == space_id) {
if (dict_table_is_file_per_table(table)) {
return(table);
}
return(NULL);
}
table = UT_LIST_GET_NEXT(table_LRU, table);
count++;
}
return(NULL);
}
/**********************************************************************//**
Flags a table with specified space_id corrupted in the data dictionary
cache
@return TRUE if successful */
ibool
dict_set_corrupted_by_space(
/*========================*/
ulint space_id) /*!< in: space ID */
{
dict_table_t* table;
table = dict_find_single_table_by_space(space_id);
if (!table) {
return(FALSE);
}
/* mark the table->corrupted bit only, since the caller
could be too deep in the stack for SYS_INDEXES update */
table->corrupted = true;
table->file_unreadable = true;
return(TRUE);
}
/** Flag a table with specified space_id encrypted in the data dictionary
cache
@param[in] space_id Tablespace id */
UNIV_INTERN
void
dict_set_encrypted_by_space(ulint space_id)
{
dict_table_t* table;
table = dict_find_single_table_by_space(space_id);
if (table) {
table->file_unreadable = true;
}
}
/**********************************************************************//**
Flags an index corrupted both in the data dictionary cache
and in the SYS_INDEXES */
void
dict_set_corrupted(
/*===============*/
dict_index_t* index, /*!< in/out: index */
trx_t* trx, /*!< in/out: transaction */
const char* ctx) /*!< in: context */
{
mem_heap_t* heap;
mtr_t mtr;
dict_index_t* sys_index;
dtuple_t* tuple;
dfield_t* dfield;
byte* buf;
const char* status;
btr_cur_t cursor;
bool locked = RW_X_LATCH == trx->dict_operation_lock_mode;
if (!locked) {
row_mysql_lock_data_dictionary(trx);
}
ut_ad(mutex_own(&dict_sys->mutex));
ut_ad(!dict_table_is_comp(dict_sys->sys_tables));
ut_ad(!dict_table_is_comp(dict_sys->sys_indexes));
ut_ad(!sync_check_iterate(dict_sync_check()));
/* Mark the table as corrupted only if the clustered index
is corrupted */
if (dict_index_is_clust(index)) {
index->table->corrupted = TRUE;
}
if (index->type & DICT_CORRUPT) {
/* The index was already flagged corrupted. */
ut_ad(!dict_index_is_clust(index) || index->table->corrupted);
goto func_exit;
}
/* If this is read only mode, do not update SYS_INDEXES, just
mark it as corrupted in memory */
if (srv_read_only_mode) {
index->type |= DICT_CORRUPT;
goto func_exit;
}
heap = mem_heap_create(sizeof(dtuple_t) + 2 * (sizeof(dfield_t)
+ sizeof(que_fork_t) + sizeof(upd_node_t)
+ sizeof(upd_t) + 12));
mtr_start(&mtr);
index->type |= DICT_CORRUPT;
sys_index = UT_LIST_GET_FIRST(dict_sys->sys_indexes->indexes);
/* Find the index row in SYS_INDEXES */
tuple = dtuple_create(heap, 2);
dfield = dtuple_get_nth_field(tuple, 0);
buf = static_cast<byte*>(mem_heap_alloc(heap, 8));
mach_write_to_8(buf, index->table->id);
dfield_set_data(dfield, buf, 8);
dfield = dtuple_get_nth_field(tuple, 1);
buf = static_cast<byte*>(mem_heap_alloc(heap, 8));
mach_write_to_8(buf, index->id);
dfield_set_data(dfield, buf, 8);
dict_index_copy_types(tuple, sys_index, 2);
btr_cur_search_to_nth_level(sys_index, 0, tuple, PAGE_CUR_LE,
BTR_MODIFY_LEAF,
&cursor, 0, __FILE__, __LINE__, &mtr);
if (cursor.low_match == dtuple_get_n_fields(tuple)) {
/* UPDATE SYS_INDEXES SET TYPE=index->type
WHERE TABLE_ID=index->table->id AND INDEX_ID=index->id */
ulint len;
byte* field = rec_get_nth_field_old(
btr_cur_get_rec(&cursor),
DICT_FLD__SYS_INDEXES__TYPE, &len);
if (len != 4) {
goto fail;
}
mlog_write_ulint(field, index->type, MLOG_4BYTES, &mtr);
status = "Flagged";
} else {
fail:
status = "Unable to flag";
}
mtr_commit(&mtr);
mem_heap_empty(heap);
ib::error() << status << " corruption of " << index->name
<< " in table " << index->table->name << " in " << ctx;
mem_heap_free(heap);
func_exit:
if (!locked) {
row_mysql_unlock_data_dictionary(trx);
}
}
/** Flags an index corrupted in the data dictionary cache only. This
is used mostly to mark a corrupted index when index's own dictionary
is corrupted, and we force to load such index for repair purpose
@param[in,out] index index which is corrupted */
void
dict_set_corrupted_index_cache_only(
dict_index_t* index)
{
ut_ad(index != NULL);
ut_ad(index->table != NULL);
ut_ad(mutex_own(&dict_sys->mutex));
ut_ad(!dict_table_is_comp(dict_sys->sys_tables));
ut_ad(!dict_table_is_comp(dict_sys->sys_indexes));
/* Mark the table as corrupted only if the clustered index
is corrupted */
if (dict_index_is_clust(index)) {
index->table->corrupted = TRUE;
}
index->type |= DICT_CORRUPT;
}
/** Sets merge_threshold in the SYS_INDEXES
@param[in,out] index index
@param[in] merge_threshold value to set */
void
dict_index_set_merge_threshold(
dict_index_t* index,
ulint merge_threshold)
{
mem_heap_t* heap;
mtr_t mtr;
dict_index_t* sys_index;
dtuple_t* tuple;
dfield_t* dfield;
byte* buf;
btr_cur_t cursor;
ut_ad(index != NULL);
ut_ad(!dict_table_is_comp(dict_sys->sys_tables));
ut_ad(!dict_table_is_comp(dict_sys->sys_indexes));
rw_lock_x_lock(dict_operation_lock);
mutex_enter(&(dict_sys->mutex));
heap = mem_heap_create(sizeof(dtuple_t) + 2 * (sizeof(dfield_t)
+ sizeof(que_fork_t) + sizeof(upd_node_t)
+ sizeof(upd_t) + 12));
mtr_start(&mtr);
sys_index = UT_LIST_GET_FIRST(dict_sys->sys_indexes->indexes);
/* Find the index row in SYS_INDEXES */
tuple = dtuple_create(heap, 2);
dfield = dtuple_get_nth_field(tuple, 0);
buf = static_cast<byte*>(mem_heap_alloc(heap, 8));
mach_write_to_8(buf, index->table->id);
dfield_set_data(dfield, buf, 8);
dfield = dtuple_get_nth_field(tuple, 1);
buf = static_cast<byte*>(mem_heap_alloc(heap, 8));
mach_write_to_8(buf, index->id);
dfield_set_data(dfield, buf, 8);
dict_index_copy_types(tuple, sys_index, 2);
btr_cur_search_to_nth_level(sys_index, 0, tuple, PAGE_CUR_GE,
BTR_MODIFY_LEAF,
&cursor, 0, __FILE__, __LINE__, &mtr);
if (cursor.up_match == dtuple_get_n_fields(tuple)
&& rec_get_n_fields_old(btr_cur_get_rec(&cursor))
== DICT_NUM_FIELDS__SYS_INDEXES) {
ulint len;
byte* field = rec_get_nth_field_old(
btr_cur_get_rec(&cursor),
DICT_FLD__SYS_INDEXES__MERGE_THRESHOLD, &len);
ut_ad(len == 4);
if (len == 4) {
mlog_write_ulint(field, merge_threshold,
MLOG_4BYTES, &mtr);
}
}
mtr_commit(&mtr);
mem_heap_free(heap);
mutex_exit(&(dict_sys->mutex));
rw_lock_x_unlock(dict_operation_lock);
}
#ifdef UNIV_DEBUG
/** Sets merge_threshold for all indexes in the list of tables
@param[in] list pointer to the list of tables */
inline
void
dict_set_merge_threshold_list_debug(
UT_LIST_BASE_NODE_T(dict_table_t)* list,
uint merge_threshold_all)
{
for (dict_table_t* table = UT_LIST_GET_FIRST(*list);
table != NULL;
table = UT_LIST_GET_NEXT(table_LRU, table)) {
for (dict_index_t* index = UT_LIST_GET_FIRST(table->indexes);
index != NULL;
index = UT_LIST_GET_NEXT(indexes, index)) {
rw_lock_x_lock(dict_index_get_lock(index));
index->merge_threshold = merge_threshold_all;
rw_lock_x_unlock(dict_index_get_lock(index));
}
}
}
/** Sets merge_threshold for all indexes in dictionary cache for debug.
@param[in] merge_threshold_all value to set for all indexes */
void
dict_set_merge_threshold_all_debug(
uint merge_threshold_all)
{
mutex_enter(&dict_sys->mutex);
dict_set_merge_threshold_list_debug(
&dict_sys->table_LRU, merge_threshold_all);
dict_set_merge_threshold_list_debug(
&dict_sys->table_non_LRU, merge_threshold_all);
mutex_exit(&dict_sys->mutex);
}
#endif /* UNIV_DEBUG */
/** Initialize dict_ind_redundant. */
void
dict_ind_init()
{
dict_table_t* table;
/* create dummy table and index for REDUNDANT infimum and supremum */
table = dict_mem_table_create("SYS_DUMMY1", DICT_HDR_SPACE, 1, 0, 0, 0);
dict_mem_table_add_col(table, NULL, NULL, DATA_CHAR,
DATA_ENGLISH | DATA_NOT_NULL, 8);
dict_ind_redundant = dict_mem_index_create("SYS_DUMMY1", "SYS_DUMMY1",
DICT_HDR_SPACE, 0, 1);
dict_index_add_col(dict_ind_redundant, table,
dict_table_get_nth_col(table, 0), 0);
dict_ind_redundant->table = table;
/* avoid ut_ad(index->cached) in dict_index_get_n_unique_in_tree */
dict_ind_redundant->cached = TRUE;
}
/** Free dict_ind_redundant. */
void
dict_ind_free()
{
dict_table_t* table = dict_ind_redundant->table;
dict_mem_index_free(dict_ind_redundant);
dict_ind_redundant = NULL;
dict_mem_table_free(table);
}
/** Get an index by name.
@param[in] table the table where to look for the index
@param[in] name the index name to look for
@param[in] committed true=search for committed,
false=search for uncommitted
@return index, NULL if does not exist */
dict_index_t*
dict_table_get_index_on_name(
dict_table_t* table,
const char* name,
bool committed)
{
dict_index_t* index;
index = dict_table_get_first_index(table);
while (index != NULL) {
if (index->is_committed() == committed
&& innobase_strcasecmp(index->name, name) == 0) {
return(index);
}
index = dict_table_get_next_index(index);
}
return(NULL);
}
/**********************************************************************//**
Replace the index passed in with another equivalent index in the
foreign key lists of the table.
@return whether all replacements were found */
bool
dict_foreign_replace_index(
/*=======================*/
dict_table_t* table, /*!< in/out: table */
const char** col_names,
/*!< in: column names, or NULL
to use table->col_names */
const dict_index_t* index) /*!< in: index to be replaced */
{
bool found = true;
dict_foreign_t* foreign;
ut_ad(index->to_be_dropped);
ut_ad(index->table == table);
for (dict_foreign_set::iterator it = table->foreign_set.begin();
it != table->foreign_set.end();
++it) {
foreign = *it;
if (foreign->foreign_index == index) {
ut_ad(foreign->foreign_table == index->table);
dict_index_t* new_index = dict_foreign_find_index(
foreign->foreign_table, col_names,
foreign->foreign_col_names,
foreign->n_fields, index,
/*check_charsets=*/TRUE, /*check_null=*/FALSE,
NULL, NULL, NULL);
if (new_index) {
ut_ad(new_index->table == index->table);
ut_ad(!new_index->to_be_dropped);
} else {
found = false;
}
foreign->foreign_index = new_index;
}
}
for (dict_foreign_set::iterator it = table->referenced_set.begin();
it != table->referenced_set.end();
++it) {
foreign = *it;
if (foreign->referenced_index == index) {
ut_ad(foreign->referenced_table == index->table);
dict_index_t* new_index = dict_foreign_find_index(
foreign->referenced_table, NULL,
foreign->referenced_col_names,
foreign->n_fields, index,
/*check_charsets=*/TRUE, /*check_null=*/FALSE,
NULL, NULL, NULL);
/* There must exist an alternative index,
since this must have been checked earlier. */
if (new_index) {
ut_ad(new_index->table == index->table);
ut_ad(!new_index->to_be_dropped);
} else {
found = false;
}
foreign->referenced_index = new_index;
}
}
return(found);
}
#ifdef UNIV_DEBUG
/**********************************************************************//**
Check for duplicate index entries in a table [using the index name] */
void
dict_table_check_for_dup_indexes(
/*=============================*/
const dict_table_t* table, /*!< in: Check for dup indexes
in this table */
enum check_name check) /*!< in: whether and when to allow
temporary index names */
{
/* Check for duplicates, ignoring indexes that are marked
as to be dropped */
const dict_index_t* index1;
const dict_index_t* index2;
ut_ad(mutex_own(&dict_sys->mutex));
/* The primary index _must_ exist */
ut_a(UT_LIST_GET_LEN(table->indexes) > 0);
index1 = UT_LIST_GET_FIRST(table->indexes);
do {
if (!index1->is_committed()) {
ut_a(!dict_index_is_clust(index1));
switch (check) {
case CHECK_ALL_COMPLETE:
ut_error;
case CHECK_ABORTED_OK:
switch (dict_index_get_online_status(index1)) {
case ONLINE_INDEX_COMPLETE:
case ONLINE_INDEX_CREATION:
ut_error;
break;
case ONLINE_INDEX_ABORTED:
case ONLINE_INDEX_ABORTED_DROPPED:
break;
}
/* fall through */
case CHECK_PARTIAL_OK:
break;
}
}
for (index2 = UT_LIST_GET_NEXT(indexes, index1);
index2 != NULL;
index2 = UT_LIST_GET_NEXT(indexes, index2)) {
ut_ad(index1->is_committed()
!= index2->is_committed()
|| strcmp(index1->name, index2->name) != 0);
}
index1 = UT_LIST_GET_NEXT(indexes, index1);
} while (index1);
}
#endif /* UNIV_DEBUG */
/** Auxiliary macro used inside dict_table_schema_check(). */
#define CREATE_TYPES_NAMES() \
dtype_sql_name((unsigned) req_schema->columns[i].mtype, \
(unsigned) req_schema->columns[i].prtype_mask, \
(unsigned) req_schema->columns[i].len, \
req_type, sizeof(req_type)); \
dtype_sql_name(table->cols[j].mtype, \
table->cols[j].prtype, \
table->cols[j].len, \
actual_type, sizeof(actual_type))
/*********************************************************************//**
Checks whether a table exists and whether it has the given structure.
The table must have the same number of columns with the same names and
types. The order of the columns does not matter.
The caller must own the dictionary mutex.
dict_table_schema_check() @{
@return DB_SUCCESS if the table exists and contains the necessary columns */
dberr_t
dict_table_schema_check(
/*====================*/
dict_table_schema_t* req_schema, /*!< in/out: required table
schema */
char* errstr, /*!< out: human readable error
message if != DB_SUCCESS is
returned */
size_t errstr_sz) /*!< in: errstr size */
{
char buf[MAX_FULL_NAME_LEN];
char req_type[64];
char actual_type[64];
dict_table_t* table;
ulint i;
ut_ad(mutex_own(&dict_sys->mutex));
table = dict_table_get_low(req_schema->table_name);
if (table == NULL) {
bool should_print=true;
/* no such table */
if (innobase_strcasecmp(req_schema->table_name, "mysql/innodb_table_stats") == 0) {
if (innodb_table_stats_not_found_reported == false) {
innodb_table_stats_not_found = true;
innodb_table_stats_not_found_reported = true;
} else {
should_print = false;
}
} else if (innobase_strcasecmp(req_schema->table_name, "mysql/innodb_index_stats") == 0 ) {
if (innodb_index_stats_not_found_reported == false) {
innodb_index_stats_not_found = true;
innodb_index_stats_not_found_reported = true;
} else {
should_print = false;
}
}
if (should_print) {
ut_snprintf(errstr, errstr_sz,
"Table %s not found.",
ut_format_name(req_schema->table_name,
buf, sizeof(buf)));
return(DB_TABLE_NOT_FOUND);
} else {
return(DB_STATS_DO_NOT_EXIST);
}
}
if (!table->is_readable() &&
fil_space_get(table->space) == NULL) {
/* missing tablespace */
ut_snprintf(errstr, errstr_sz,
"Tablespace for table %s is missing.",
ut_format_name(req_schema->table_name,
buf, sizeof(buf)));
return(DB_TABLE_NOT_FOUND);
}
ulint n_sys_cols = dict_table_get_n_sys_cols(table);
if ((ulint) table->n_def - n_sys_cols != req_schema->n_cols) {
/* the table has a different number of columns than required */
ut_snprintf(errstr, errstr_sz,
"%s has " ULINTPF " columns but should have "
ULINTPF ".",
ut_format_name(req_schema->table_name,
buf, sizeof(buf)),
table->n_def - n_sys_cols,
req_schema->n_cols);
return(DB_ERROR);
}
/* For each column from req_schema->columns[] search
whether it is present in table->cols[].
The following algorithm is O(n_cols^2), but is optimized to
be O(n_cols) if the columns are in the same order in both arrays. */
for (i = 0; i < req_schema->n_cols; i++) {
ulint j = dict_table_has_column(
table, req_schema->columns[i].name, i);
if (j == table->n_def) {
ut_snprintf(errstr, errstr_sz,
"required column %s"
" not found in table %s.",
req_schema->columns[i].name,
ut_format_name(
req_schema->table_name,
buf, sizeof(buf)));
return(DB_ERROR);
}
/* we found a column with the same name on j'th position,
compare column types and flags */
/* check length for exact match */
if (req_schema->columns[i].len != table->cols[j].len) {
CREATE_TYPES_NAMES();
ut_snprintf(errstr, errstr_sz,
"Column %s in table %s is %s"
" but should be %s (length mismatch).",
req_schema->columns[i].name,
ut_format_name(req_schema->table_name,
buf, sizeof(buf)),
actual_type, req_type);
return(DB_ERROR);
}
/*
check mtype for exact match.
This check is relaxed to allow use to use TIMESTAMP
(ie INT) for last_update instead of DATA_BINARY.
We have to test for both values as the innodb_table_stats
table may come from MySQL and have the old type.
*/
if (req_schema->columns[i].mtype != table->cols[j].mtype &&
!(req_schema->columns[i].mtype == DATA_INT &&
table->cols[j].mtype == DATA_FIXBINARY))
{
CREATE_TYPES_NAMES();
ut_snprintf(errstr, errstr_sz,
"Column %s in table %s is %s"
" but should be %s (type mismatch).",
req_schema->columns[i].name,
ut_format_name(req_schema->table_name,
buf, sizeof(buf)),
actual_type, req_type);
return(DB_ERROR);
}
/* check whether required prtype mask is set */
if (req_schema->columns[i].prtype_mask != 0
&& (table->cols[j].prtype
& req_schema->columns[i].prtype_mask)
!= req_schema->columns[i].prtype_mask) {
CREATE_TYPES_NAMES();
ut_snprintf(errstr, errstr_sz,
"Column %s in table %s is %s"
" but should be %s (flags mismatch).",
req_schema->columns[i].name,
ut_format_name(req_schema->table_name,
buf, sizeof(buf)),
actual_type, req_type);
return(DB_ERROR);
}
}
if (req_schema->n_foreign != table->foreign_set.size()) {
ut_snprintf(
errstr, errstr_sz,
"Table %s has " ULINTPF " foreign key(s) pointing"
" to other tables, but it must have " ULINTPF ".",
ut_format_name(req_schema->table_name,
buf, sizeof(buf)),
static_cast<ulint>(table->foreign_set.size()),
req_schema->n_foreign);
return(DB_ERROR);
}
if (req_schema->n_referenced != table->referenced_set.size()) {
ut_snprintf(
errstr, errstr_sz,
"There are " ULINTPF " foreign key(s) pointing to %s, "
"but there must be " ULINTPF ".",
static_cast<ulint>(table->referenced_set.size()),
ut_format_name(req_schema->table_name,
buf, sizeof(buf)),
req_schema->n_referenced);
return(DB_ERROR);
}
return(DB_SUCCESS);
}
/* @} */
/*********************************************************************//**
Converts a database and table name from filesystem encoding
(e.g. d@i1b/a@q1b@1Kc, same format as used in dict_table_t::name) in two
strings in UTF8 encoding (e.g. dцb and aюbØc). The output buffers must be
at least MAX_DB_UTF8_LEN and MAX_TABLE_UTF8_LEN bytes. */
void
dict_fs2utf8(
/*=========*/
const char* db_and_table, /*!< in: database and table names,
e.g. d@i1b/a@q1b@1Kc */
char* db_utf8, /*!< out: database name, e.g. dцb */
size_t db_utf8_size, /*!< in: dbname_utf8 size */
char* table_utf8, /*!< out: table name, e.g. aюbØc */
size_t table_utf8_size)/*!< in: table_utf8 size */
{
char db[MAX_DATABASE_NAME_LEN + 1];
ulint db_len;
uint errors;
db_len = dict_get_db_name_len(db_and_table);
ut_a(db_len <= sizeof(db));
memcpy(db, db_and_table, db_len);
db[db_len] = '\0';
strconvert(
&my_charset_filename, db, uint(db_len), system_charset_info,
db_utf8, uint(db_utf8_size), &errors);
/* convert each # to @0023 in table name and store the result in buf */
const char* table = dict_remove_db_name(db_and_table);
const char* table_p;
char buf[MAX_TABLE_NAME_LEN * 5 + 1];
char* buf_p;
for (table_p = table, buf_p = buf; table_p[0] != '\0'; table_p++) {
if (table_p[0] != '#') {
buf_p[0] = table_p[0];
buf_p++;
} else {
buf_p[0] = '@';
buf_p[1] = '0';
buf_p[2] = '0';
buf_p[3] = '2';
buf_p[4] = '3';
buf_p += 5;
}
ut_a((size_t) (buf_p - buf) < sizeof(buf));
}
buf_p[0] = '\0';
errors = 0;
strconvert(
&my_charset_filename, buf, (uint) (buf_p - buf),
system_charset_info,
table_utf8, uint(table_utf8_size),
&errors);
if (errors != 0) {
ut_snprintf(table_utf8, table_utf8_size, "%s%s",
srv_mysql50_table_name_prefix, table);
}
}
/** Resize the hash tables besed on the current buffer pool size. */
void
dict_resize()
{
dict_table_t* table;
mutex_enter(&dict_sys->mutex);
/* all table entries are in table_LRU and table_non_LRU lists */
hash_table_free(dict_sys->table_hash);
hash_table_free(dict_sys->table_id_hash);
dict_sys->table_hash = hash_create(
buf_pool_get_curr_size()
/ (DICT_POOL_PER_TABLE_HASH * UNIV_WORD_SIZE));
dict_sys->table_id_hash = hash_create(
buf_pool_get_curr_size()
/ (DICT_POOL_PER_TABLE_HASH * UNIV_WORD_SIZE));
for (table = UT_LIST_GET_FIRST(dict_sys->table_LRU); table;
table = UT_LIST_GET_NEXT(table_LRU, table)) {
ulint fold = ut_fold_string(table->name.m_name);
ulint id_fold = ut_fold_ull(table->id);
HASH_INSERT(dict_table_t, name_hash, dict_sys->table_hash,
fold, table);
HASH_INSERT(dict_table_t, id_hash, dict_sys->table_id_hash,
id_fold, table);
}
for (table = UT_LIST_GET_FIRST(dict_sys->table_non_LRU); table;
table = UT_LIST_GET_NEXT(table_LRU, table)) {
ulint fold = ut_fold_string(table->name.m_name);
ulint id_fold = ut_fold_ull(table->id);
HASH_INSERT(dict_table_t, name_hash, dict_sys->table_hash,
fold, table);
HASH_INSERT(dict_table_t, id_hash, dict_sys->table_id_hash,
id_fold, table);
}
mutex_exit(&dict_sys->mutex);
}
/**********************************************************************//**
Closes the data dictionary module. */
void
dict_close(void)
/*============*/
{
ulint i;
/* Free the hash elements. We don't remove them from the table
because we are going to destroy the table anyway. */
for (i = 0; i < hash_get_n_cells(dict_sys->table_hash); i++) {
dict_table_t* table;
table = static_cast<dict_table_t*>(
HASH_GET_FIRST(dict_sys->table_hash, i));
while (table) {
dict_table_t* prev_table = table;
table = static_cast<dict_table_t*>(
HASH_GET_NEXT(name_hash, prev_table));
ut_ad(prev_table->magic_n == DICT_TABLE_MAGIC_N);
/* Acquire only because it's a pre-condition. */
mutex_enter(&dict_sys->mutex);
dict_table_remove_from_cache(prev_table);
mutex_exit(&dict_sys->mutex);
}
}
hash_table_free(dict_sys->table_hash);
/* The elements are the same instance as in dict_sys->table_hash,
therefore we don't delete the individual elements. */
hash_table_free(dict_sys->table_id_hash);
mutex_free(&dict_sys->mutex);
rw_lock_free(dict_operation_lock);
ut_free(dict_operation_lock);
dict_operation_lock = NULL;
mutex_free(&dict_foreign_err_mutex);
ut_free(dict_sys);
dict_sys = NULL;
}
#ifdef UNIV_DEBUG
/**********************************************************************//**
Validate the dictionary table LRU list.
@return TRUE if valid */
static
ibool
dict_lru_validate(void)
/*===================*/
{
dict_table_t* table;
ut_ad(mutex_own(&dict_sys->mutex));
for (table = UT_LIST_GET_FIRST(dict_sys->table_LRU);
table != NULL;
table = UT_LIST_GET_NEXT(table_LRU, table)) {
ut_a(table->can_be_evicted);
}
for (table = UT_LIST_GET_FIRST(dict_sys->table_non_LRU);
table != NULL;
table = UT_LIST_GET_NEXT(table_LRU, table)) {
ut_a(!table->can_be_evicted);
}
return(TRUE);
}
/**********************************************************************//**
Check if a table exists in the dict table LRU list.
@return TRUE if table found in LRU list */
static
ibool
dict_lru_find_table(
/*================*/
const dict_table_t* find_table) /*!< in: table to find */
{
dict_table_t* table;
ut_ad(find_table != NULL);
ut_ad(mutex_own(&dict_sys->mutex));
for (table = UT_LIST_GET_FIRST(dict_sys->table_LRU);
table != NULL;
table = UT_LIST_GET_NEXT(table_LRU, table)) {
ut_a(table->can_be_evicted);
if (table == find_table) {
return(TRUE);
}
}
return(FALSE);
}
/**********************************************************************//**
Check if a table exists in the dict table non-LRU list.
@return TRUE if table found in non-LRU list */
static
ibool
dict_non_lru_find_table(
/*====================*/
const dict_table_t* find_table) /*!< in: table to find */
{
dict_table_t* table;
ut_ad(find_table != NULL);
ut_ad(mutex_own(&dict_sys->mutex));
for (table = UT_LIST_GET_FIRST(dict_sys->table_non_LRU);
table != NULL;
table = UT_LIST_GET_NEXT(table_LRU, table)) {
ut_a(!table->can_be_evicted);
if (table == find_table) {
return(TRUE);
}
}
return(FALSE);
}
#endif /* UNIV_DEBUG */
/*********************************************************************//**
Check an index to see whether its first fields are the columns in the array,
in the same order and is not marked for deletion and is not the same
as types_idx.
@return true if the index qualifies, otherwise false */
bool
dict_foreign_qualify_index(
/*=======================*/
const dict_table_t* table, /*!< in: table */
const char** col_names,
/*!< in: column names, or NULL
to use table->col_names */
const char** columns,/*!< in: array of column names */
ulint n_cols, /*!< in: number of columns */
const dict_index_t* index, /*!< in: index to check */
const dict_index_t* types_idx,
/*!< in: NULL or an index
whose types the column types
must match */
bool check_charsets,
/*!< in: whether to check
charsets. only has an effect
if types_idx != NULL */
ulint check_null,
/*!< in: nonzero if none of
the columns must be declared
NOT NULL */
ulint* error, /*!< out: error code */
ulint* err_col_no,
/*!< out: column number where
error happened */
dict_index_t** err_index)
/*!< out: index where error
happened */
{
if (dict_index_get_n_fields(index) < n_cols) {
return(false);
}
for (ulint i = 0; i < n_cols; i++) {
dict_field_t* field;
const char* col_name;
ulint col_no;
field = dict_index_get_nth_field(index, i);
col_no = dict_col_get_no(field->col);
if (field->prefix_len != 0) {
/* We do not accept column prefix
indexes here */
if (error && err_col_no && err_index) {
*error = DB_FOREIGN_KEY_IS_PREFIX_INDEX;
*err_col_no = i;
*err_index = (dict_index_t*)index;
}
return(false);
}
if (check_null
&& (field->col->prtype & DATA_NOT_NULL)) {
if (error && err_col_no && err_index) {
*error = DB_FOREIGN_KEY_COL_NOT_NULL;
*err_col_no = i;
*err_index = (dict_index_t*)index;
}
return(false);
}
col_name = col_names
? col_names[col_no]
: dict_table_get_col_name(table, col_no);
if (dict_col_is_virtual(field->col)) {
for (ulint j = 0; j < table->n_v_def; j++) {
col_name = dict_table_get_v_col_name(table, j);
if (innobase_strcasecmp(field->name,col_name) == 0) {
break;
}
}
}
if (0 != innobase_strcasecmp(columns[i], col_name)) {
return(false);
}
if (types_idx && !cmp_cols_are_equal(
dict_index_get_nth_col(index, i),
dict_index_get_nth_col(types_idx, i),
check_charsets)) {
if (error && err_col_no && err_index) {
*error = DB_FOREIGN_KEY_COLS_NOT_EQUAL;
*err_col_no = i;
*err_index = (dict_index_t*)index;
}
return(false);
}
}
return(true);
}
/*********************************************************************//**
Update the state of compression failure padding heuristics. This is
called whenever a compression operation succeeds or fails.
The caller must be holding info->mutex */
static
void
dict_index_zip_pad_update(
/*======================*/
zip_pad_info_t* info, /*<! in/out: info to be updated */
ulint zip_threshold) /*<! in: zip threshold value */
{
ulint total;
ulint fail_pct;
ut_ad(info);
total = info->success + info->failure;
ut_ad(total > 0);
if (zip_threshold == 0) {
/* User has just disabled the padding. */
return;
}
if (total < ZIP_PAD_ROUND_LEN) {
/* We are in middle of a round. Do nothing. */
return;
}
/* We are at a 'round' boundary. Reset the values but first
calculate fail rate for our heuristic. */
fail_pct = (info->failure * 100) / total;
info->failure = 0;
info->success = 0;
if (fail_pct > zip_threshold) {
/* Compression failures are more then user defined
threshold. Increase the pad size to reduce chances of
compression failures. */
ut_ad(info->pad % ZIP_PAD_INCR == 0);
/* Only do increment if it won't increase padding
beyond max pad size. */
if (info->pad + ZIP_PAD_INCR
< (UNIV_PAGE_SIZE * zip_pad_max) / 100) {
/* Use atomics even though we have the mutex.
This is to ensure that we are able to read
info->pad atomically. */
my_atomic_addlint(&info->pad, ZIP_PAD_INCR);
MONITOR_INC(MONITOR_PAD_INCREMENTS);
}
info->n_rounds = 0;
} else {
/* Failure rate was OK. Another successful round
completed. */
++info->n_rounds;
/* If enough successful rounds are completed with
compression failure rate in control, decrease the
padding. */
if (info->n_rounds >= ZIP_PAD_SUCCESSFUL_ROUND_LIMIT
&& info->pad > 0) {
ut_ad(info->pad % ZIP_PAD_INCR == 0);
/* Use atomics even though we have the mutex.
This is to ensure that we are able to read
info->pad atomically. */
my_atomic_addlint(&info->pad, -ZIP_PAD_INCR);
info->n_rounds = 0;
MONITOR_INC(MONITOR_PAD_DECREMENTS);
}
}
}
/*********************************************************************//**
This function should be called whenever a page is successfully
compressed. Updates the compression padding information. */
void
dict_index_zip_success(
/*===================*/
dict_index_t* index) /*!< in/out: index to be updated. */
{
ut_ad(index);
ulint zip_threshold = zip_failure_threshold_pct;
if (!zip_threshold) {
/* Disabled by user. */
return;
}
dict_index_zip_pad_lock(index);
++index->zip_pad.success;
dict_index_zip_pad_update(&index->zip_pad, zip_threshold);
dict_index_zip_pad_unlock(index);
}
/*********************************************************************//**
This function should be called whenever a page compression attempt
fails. Updates the compression padding information. */
void
dict_index_zip_failure(
/*===================*/
dict_index_t* index) /*!< in/out: index to be updated. */
{
ut_ad(index);
ulint zip_threshold = zip_failure_threshold_pct;
if (!zip_threshold) {
/* Disabled by user. */
return;
}
dict_index_zip_pad_lock(index);
++index->zip_pad.failure;
dict_index_zip_pad_update(&index->zip_pad, zip_threshold);
dict_index_zip_pad_unlock(index);
}
/*********************************************************************//**
Return the optimal page size, for which page will likely compress.
@return page size beyond which page might not compress */
ulint
dict_index_zip_pad_optimal_page_size(
/*=================================*/
dict_index_t* index) /*!< in: index for which page size
is requested */
{
ulint pad;
ulint min_sz;
ulint sz;
ut_ad(index);
if (!zip_failure_threshold_pct) {
/* Disabled by user. */
return(UNIV_PAGE_SIZE);
}
pad = my_atomic_loadlint(&index->zip_pad.pad);
ut_ad(pad < UNIV_PAGE_SIZE);
sz = UNIV_PAGE_SIZE - pad;
/* Min size allowed by user. */
ut_ad(zip_pad_max < 100);
min_sz = (UNIV_PAGE_SIZE * (100 - zip_pad_max)) / 100;
return(ut_max(sz, min_sz));
}
/*************************************************************//**
Convert table flag to row format string.
@return row format name. */
const char*
dict_tf_to_row_format_string(
/*=========================*/
ulint table_flag) /*!< in: row format setting */
{
switch (dict_tf_get_rec_format(table_flag)) {
case REC_FORMAT_REDUNDANT:
return("ROW_TYPE_REDUNDANT");
case REC_FORMAT_COMPACT:
return("ROW_TYPE_COMPACT");
case REC_FORMAT_COMPRESSED:
return("ROW_TYPE_COMPRESSED");
case REC_FORMAT_DYNAMIC:
return("ROW_TYPE_DYNAMIC");
}
ut_error;
return(0);
}
/** Calculate the used memory occupied by the data dictionary
table and index objects.
@return number of bytes occupied. */
UNIV_INTERN
ulint
dict_sys_get_size()
{
ulint size = 0;
ut_ad(dict_sys);
mutex_enter(&dict_sys->mutex);
for(ulint i = 0; i < hash_get_n_cells(dict_sys->table_hash); i++) {
dict_table_t* table;
for (table = static_cast<dict_table_t*>(HASH_GET_FIRST(dict_sys->table_hash,i));
table != NULL;
table = static_cast<dict_table_t*>(HASH_GET_NEXT(name_hash, table))) {
dict_index_t* index;
size += mem_heap_get_size(table->heap) + strlen(table->name.m_name) +1;
for(index = dict_table_get_first_index(table);
index != NULL;
index = dict_table_get_next_index(index)) {
size += mem_heap_get_size(index->heap);
}
}
}
mutex_exit(&dict_sys->mutex);
return (size);
}
/** Look for any dictionary objects that are found in the given tablespace.
@param[in] space_id Tablespace ID to search for.
@return true if tablespace is empty. */
bool
dict_space_is_empty(
ulint space_id)
{
btr_pcur_t pcur;
const rec_t* rec;
mtr_t mtr;
bool found = false;
rw_lock_x_lock(dict_operation_lock);
mutex_enter(&dict_sys->mutex);
mtr_start(&mtr);
for (rec = dict_startscan_system(&pcur, &mtr, SYS_TABLES);
rec != NULL;
rec = dict_getnext_system(&pcur, &mtr)) {
const byte* field;
ulint len;
ulint space_id_for_table;
field = rec_get_nth_field_old(
rec, DICT_FLD__SYS_TABLES__SPACE, &len);
ut_ad(len == 4);
space_id_for_table = mach_read_from_4(field);
if (space_id_for_table == space_id) {
found = true;
}
}
mtr_commit(&mtr);
mutex_exit(&dict_sys->mutex);
rw_lock_x_unlock(dict_operation_lock);
return(!found);
}
/** Find the space_id for the given name in sys_tablespaces.
@param[in] name Tablespace name to search for.
@return the tablespace ID. */
ulint
dict_space_get_id(
const char* name)
{
btr_pcur_t pcur;
const rec_t* rec;
mtr_t mtr;
ulint name_len = strlen(name);
ulint id = ULINT_UNDEFINED;
rw_lock_x_lock(dict_operation_lock);
mutex_enter(&dict_sys->mutex);
mtr_start(&mtr);
for (rec = dict_startscan_system(&pcur, &mtr, SYS_TABLESPACES);
rec != NULL;
rec = dict_getnext_system(&pcur, &mtr)) {
const byte* field;
ulint len;
field = rec_get_nth_field_old(
rec, DICT_FLD__SYS_TABLESPACES__NAME, &len);
ut_ad(len > 0);
ut_ad(len < OS_FILE_MAX_PATH);
if (len == name_len && ut_memcmp(name, field, len) == 0) {
field = rec_get_nth_field_old(
rec, DICT_FLD__SYS_TABLESPACES__SPACE, &len);
ut_ad(len == 4);
id = mach_read_from_4(field);
/* This is normally called by dict_getnext_system()
at the end of the index. */
btr_pcur_close(&pcur);
break;
}
}
mtr_commit(&mtr);
mutex_exit(&dict_sys->mutex);
rw_lock_x_unlock(dict_operation_lock);
return(id);
}
/** Determine the extent size (in pages) for the given table
@param[in] table the table whose extent size is being
calculated.
@return extent size in pages (256, 128 or 64) */
ulint
dict_table_extent_size(
const dict_table_t* table)
{
const ulint mb_1 = 1024 * 1024;
const ulint mb_2 = 2 * mb_1;
const ulint mb_4 = 4 * mb_1;
page_size_t page_size = dict_table_page_size(table);
ulint pages_in_extent = FSP_EXTENT_SIZE;
if (page_size.is_compressed()) {
ulint disk_page_size = page_size.physical();
switch (disk_page_size) {
case 1024:
pages_in_extent = mb_1/1024;
break;
case 2048:
pages_in_extent = mb_1/2048;
break;
case 4096:
pages_in_extent = mb_1/4096;
break;
case 8192:
pages_in_extent = mb_1/8192;
break;
case 16384:
pages_in_extent = mb_1/16384;
break;
case 32768:
pages_in_extent = mb_2/32768;
break;
case 65536:
pages_in_extent = mb_4/65536;
break;
default:
ut_ad(0);
}
}
return(pages_in_extent);
}
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