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|
/*****************************************************************************
Copyright (c) 1994, 2016, Oracle and/or its affiliates. All Rights Reserved.
Copyright (c) 2008, Google Inc.
Copyright (c) 2012, Facebook Inc.
Copyright (c) 2015, 2018, MariaDB Corporation.
Portions of this file contain modifications contributed and copyrighted by
Google, Inc. Those modifications are gratefully acknowledged and are described
briefly in the InnoDB documentation. The contributions by Google are
incorporated with their permission, and subject to the conditions contained in
the file COPYING.Google.
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 btr/btr0cur.cc
The index tree cursor
All changes that row operations make to a B-tree or the records
there must go through this module! Undo log records are written here
of every modify or insert of a clustered index record.
NOTE!!!
To make sure we do not run out of disk space during a pessimistic
insert or update, we have to reserve 2 x the height of the index tree
many pages in the tablespace before we start the operation, because
if leaf splitting has been started, it is difficult to undo, except
by crashing the database and doing a roll-forward.
Created 10/16/1994 Heikki Tuuri
*******************************************************/
#include "btr0cur.h"
#include "row0upd.h"
#include "mtr0log.h"
#include "page0page.h"
#include "page0zip.h"
#include "rem0rec.h"
#include "rem0cmp.h"
#include "buf0lru.h"
#include "btr0btr.h"
#include "btr0sea.h"
#include "row0log.h"
#include "row0purge.h"
#include "row0upd.h"
#include "trx0rec.h"
#include "trx0roll.h"
#include "que0que.h"
#include "row0row.h"
#include "srv0srv.h"
#include "ibuf0ibuf.h"
#include "lock0lock.h"
#include "zlib.h"
#include "srv0start.h"
/** Buffered B-tree operation types, introduced as part of delete buffering. */
enum btr_op_t {
BTR_NO_OP = 0, /*!< Not buffered */
BTR_INSERT_OP, /*!< Insert, do not ignore UNIQUE */
BTR_INSERT_IGNORE_UNIQUE_OP, /*!< Insert, ignoring UNIQUE */
BTR_DELETE_OP, /*!< Purge a delete-marked record */
BTR_DELMARK_OP /*!< Mark a record for deletion */
};
/** Modification types for the B-tree operation.
Note that the order must be DELETE, BOTH, INSERT !!
*/
enum btr_intention_t {
BTR_INTENTION_DELETE,
BTR_INTENTION_BOTH,
BTR_INTENTION_INSERT
};
/** For the index->lock scalability improvement, only possibility of clear
performance regression observed was caused by grown huge history list length.
That is because the exclusive use of index->lock also worked as reserving
free blocks and read IO bandwidth with priority. To avoid huge glowing history
list as same level with previous implementation, prioritizes pessimistic tree
operations by purge as the previous, when it seems to be growing huge.
Experimentally, the history list length starts to affect to performance
throughput clearly from about 100000. */
#define BTR_CUR_FINE_HISTORY_LENGTH 100000
/** Number of searches down the B-tree in btr_cur_search_to_nth_level(). */
ulint btr_cur_n_non_sea;
/** Old value of btr_cur_n_non_sea. Copied by
srv_refresh_innodb_monitor_stats(). Referenced by
srv_printf_innodb_monitor(). */
ulint btr_cur_n_non_sea_old;
#ifdef BTR_CUR_HASH_ADAPT
/** Number of successful adaptive hash index lookups in
btr_cur_search_to_nth_level(). */
ulint btr_cur_n_sea;
/** Old value of btr_cur_n_sea. Copied by
srv_refresh_innodb_monitor_stats(). Referenced by
srv_printf_innodb_monitor(). */
ulint btr_cur_n_sea_old;
#endif /* BTR_CUR_HASH_ADAPT */
#ifdef UNIV_DEBUG
/* Flag to limit optimistic insert records */
uint btr_cur_limit_optimistic_insert_debug;
#endif /* UNIV_DEBUG */
/** In the optimistic insert, if the insert does not fit, but this much space
can be released by page reorganize, then it is reorganized */
#define BTR_CUR_PAGE_REORGANIZE_LIMIT (srv_page_size / 32)
/** The structure of a BLOB part header */
/* @{ */
/*--------------------------------------*/
#define BTR_BLOB_HDR_PART_LEN 0 /*!< BLOB part len on this
page */
#define BTR_BLOB_HDR_NEXT_PAGE_NO 4 /*!< next BLOB part page no,
FIL_NULL if none */
/*--------------------------------------*/
#define BTR_BLOB_HDR_SIZE 8 /*!< Size of a BLOB
part header, in bytes */
/** Estimated table level stats from sampled value.
@param value sampled stats
@param index index being sampled
@param sample number of sampled rows
@param ext_size external stored data size
@param not_empty table not empty
@return estimated table wide stats from sampled value */
#define BTR_TABLE_STATS_FROM_SAMPLE(value, index, sample, ext_size, not_empty) \
(((value) * static_cast<ib_uint64_t>(index->stat_n_leaf_pages) \
+ (sample) - 1 + (ext_size) + (not_empty)) / ((sample) + (ext_size)))
/* @} */
/*******************************************************************//**
Marks all extern fields in a record as owned by the record. This function
should be called if the delete mark of a record is removed: a not delete
marked record always owns all its extern fields. */
static
void
btr_cur_unmark_extern_fields(
/*=========================*/
page_zip_des_t* page_zip,/*!< in/out: compressed page whose uncompressed
part will be updated, or NULL */
rec_t* rec, /*!< in/out: record in a clustered index */
dict_index_t* index, /*!< in: index of the page */
const ulint* offsets,/*!< in: array returned by rec_get_offsets() */
mtr_t* mtr); /*!< in: mtr, or NULL if not logged */
/*******************************************************************//**
Adds path information to the cursor for the current page, for which
the binary search has been performed. */
static
void
btr_cur_add_path_info(
/*==================*/
btr_cur_t* cursor, /*!< in: cursor positioned on a page */
ulint height, /*!< in: height of the page in tree;
0 means leaf node */
ulint root_height); /*!< in: root node height in tree */
/***********************************************************//**
Frees the externally stored fields for a record, if the field is mentioned
in the update vector. */
static
void
btr_rec_free_updated_extern_fields(
/*===============================*/
dict_index_t* index, /*!< in: index of rec; the index tree MUST be
X-latched */
rec_t* rec, /*!< in: record */
page_zip_des_t* page_zip,/*!< in: compressed page whose uncompressed
part will be updated, or NULL */
const ulint* offsets,/*!< in: rec_get_offsets(rec, index) */
const upd_t* update, /*!< in: update vector */
bool rollback,/*!< in: performing rollback? */
mtr_t* mtr); /*!< in: mini-transaction handle which contains
an X-latch to record page and to the tree */
/***********************************************************//**
Frees the externally stored fields for a record. */
static
void
btr_rec_free_externally_stored_fields(
/*==================================*/
dict_index_t* index, /*!< in: index of the data, the index
tree MUST be X-latched */
rec_t* rec, /*!< in: record */
const ulint* offsets,/*!< in: rec_get_offsets(rec, index) */
page_zip_des_t* page_zip,/*!< in: compressed page whose uncompressed
part will be updated, or NULL */
bool rollback,/*!< in: performing rollback? */
mtr_t* mtr); /*!< in: mini-transaction handle which contains
an X-latch to record page and to the index
tree */
/*==================== B-TREE SEARCH =========================*/
/**
#if MTR_MEMO_PAGE_S_FIX != RW_S_LATCH
#error "MTR_MEMO_PAGE_S_FIX != RW_S_LATCH"
#endif
#if MTR_MEMO_PAGE_X_FIX != RW_X_LATCH
#error "MTR_MEMO_PAGE_X_FIX != RW_X_LATCH"
#endif
#if MTR_MEMO_PAGE_SX_FIX != RW_SX_LATCH
#error "MTR_MEMO_PAGE_SX_FIX != RW_SX_LATCH"
#endif
*/
/** Latches the leaf page or pages requested.
@param[in] block leaf page where the search converged
@param[in] page_id page id of the leaf
@param[in] latch_mode BTR_SEARCH_LEAF, ...
@param[in] cursor cursor
@param[in] mtr mini-transaction
@return blocks and savepoints which actually latched. */
btr_latch_leaves_t
btr_cur_latch_leaves(
buf_block_t* block,
const page_id_t& page_id,
const page_size_t& page_size,
ulint latch_mode,
btr_cur_t* cursor,
mtr_t* mtr)
{
ulint mode;
ulint left_page_no;
ulint right_page_no;
buf_block_t* get_block;
page_t* page = buf_block_get_frame(block);
bool spatial;
btr_latch_leaves_t latch_leaves = {{NULL, NULL, NULL}, {0, 0, 0}};
spatial = dict_index_is_spatial(cursor->index) && cursor->rtr_info;
ut_ad(buf_page_in_file(&block->page));
switch (latch_mode) {
case BTR_SEARCH_LEAF:
case BTR_MODIFY_LEAF:
case BTR_SEARCH_TREE:
if (spatial) {
cursor->rtr_info->tree_savepoints[RTR_MAX_LEVELS]
= mtr_set_savepoint(mtr);
}
mode = latch_mode == BTR_MODIFY_LEAF ? RW_X_LATCH : RW_S_LATCH;
latch_leaves.savepoints[1] = mtr_set_savepoint(mtr);
get_block = btr_block_get(page_id, page_size, mode,
cursor->index, mtr);
latch_leaves.blocks[1] = get_block;
#ifdef UNIV_BTR_DEBUG
ut_a(page_is_comp(get_block->frame) == page_is_comp(page));
#endif /* UNIV_BTR_DEBUG */
if (spatial) {
cursor->rtr_info->tree_blocks[RTR_MAX_LEVELS]
= get_block;
}
return(latch_leaves);
case BTR_MODIFY_TREE:
/* It is exclusive for other operations which calls
btr_page_set_prev() */
ut_ad(mtr_memo_contains_flagged(
mtr,
dict_index_get_lock(cursor->index),
MTR_MEMO_X_LOCK | MTR_MEMO_SX_LOCK));
/* x-latch also siblings from left to right */
left_page_no = btr_page_get_prev(page, mtr);
mode = latch_mode;
if (left_page_no != FIL_NULL) {
if (spatial) {
cursor->rtr_info->tree_savepoints[
RTR_MAX_LEVELS] = mtr_set_savepoint(mtr);
}
latch_leaves.savepoints[0] = mtr_set_savepoint(mtr);
get_block = btr_block_get(
page_id_t(page_id.space(), left_page_no),
page_size, RW_X_LATCH, cursor->index, mtr);
latch_leaves.blocks[0] = get_block;
if (spatial) {
cursor->rtr_info->tree_blocks[RTR_MAX_LEVELS]
= get_block;
}
}
if (spatial) {
cursor->rtr_info->tree_savepoints[RTR_MAX_LEVELS + 1]
= mtr_set_savepoint(mtr);
}
latch_leaves.savepoints[1] = mtr_set_savepoint(mtr);
get_block = btr_block_get(
page_id, page_size, RW_X_LATCH, cursor->index, mtr);
latch_leaves.blocks[1] = get_block;
#ifdef UNIV_BTR_DEBUG
/* Sanity check only after both the blocks are latched. */
if (latch_leaves.blocks[0] != NULL) {
ut_a(page_is_comp(latch_leaves.blocks[0]->frame)
== page_is_comp(page));
ut_a(btr_page_get_next(
latch_leaves.blocks[0]->frame, mtr)
== page_get_page_no(page));
}
ut_a(page_is_comp(get_block->frame) == page_is_comp(page));
#endif /* UNIV_BTR_DEBUG */
if (spatial) {
cursor->rtr_info->tree_blocks[RTR_MAX_LEVELS + 1]
= get_block;
}
right_page_no = btr_page_get_next(page, mtr);
if (right_page_no != FIL_NULL) {
if (spatial) {
cursor->rtr_info->tree_savepoints[
RTR_MAX_LEVELS + 2] = mtr_set_savepoint(
mtr);
}
latch_leaves.savepoints[2] = mtr_set_savepoint(mtr);
get_block = btr_block_get(
page_id_t(page_id.space(), right_page_no),
page_size, RW_X_LATCH, cursor->index, mtr);
latch_leaves.blocks[2] = get_block;
#ifdef UNIV_BTR_DEBUG
ut_a(page_is_comp(get_block->frame)
== page_is_comp(page));
ut_a(btr_page_get_prev(get_block->frame, mtr)
== page_get_page_no(page));
#endif /* UNIV_BTR_DEBUG */
if (spatial) {
cursor->rtr_info->tree_blocks[
RTR_MAX_LEVELS + 2] = get_block;
}
}
return(latch_leaves);
case BTR_SEARCH_PREV:
case BTR_MODIFY_PREV:
mode = latch_mode == BTR_SEARCH_PREV ? RW_S_LATCH : RW_X_LATCH;
/* latch also left sibling */
rw_lock_s_lock(&block->lock);
left_page_no = btr_page_get_prev(page, mtr);
rw_lock_s_unlock(&block->lock);
if (left_page_no != FIL_NULL) {
latch_leaves.savepoints[0] = mtr_set_savepoint(mtr);
get_block = btr_block_get(
page_id_t(page_id.space(), left_page_no),
page_size, mode, cursor->index, mtr);
latch_leaves.blocks[0] = get_block;
cursor->left_block = get_block;
#ifdef UNIV_BTR_DEBUG
ut_a(page_is_comp(get_block->frame)
== page_is_comp(page));
ut_a(btr_page_get_next(get_block->frame, mtr)
== page_get_page_no(page));
#endif /* UNIV_BTR_DEBUG */
}
latch_leaves.savepoints[1] = mtr_set_savepoint(mtr);
get_block = btr_block_get(page_id, page_size, mode,
cursor->index, mtr);
latch_leaves.blocks[1] = get_block;
#ifdef UNIV_BTR_DEBUG
ut_a(page_is_comp(get_block->frame) == page_is_comp(page));
#endif /* UNIV_BTR_DEBUG */
return(latch_leaves);
case BTR_CONT_MODIFY_TREE:
ut_ad(dict_index_is_spatial(cursor->index));
return(latch_leaves);
}
ut_error;
return(latch_leaves);
}
/** Load the instant ALTER TABLE metadata from the clustered index
when loading a table definition.
@param[in,out] index clustered index definition
@param[in,out] mtr mini-transaction
@return error code
@retval DB_SUCCESS if no error occurred
@retval DB_CORRUPTION if any corruption was noticed */
static
dberr_t
btr_cur_instant_init_low(dict_index_t* index, mtr_t* mtr)
{
ut_ad(index->is_primary());
ut_ad(index->n_core_null_bytes == dict_index_t::NO_CORE_NULL_BYTES);
ut_ad(index->table->supports_instant());
ut_ad(index->table->is_readable());
page_t* root = btr_root_get(index, mtr);
if (!root || btr_cur_instant_root_init(index, root)) {
ib::error() << "Table " << index->table->name
<< " has an unreadable root page";
index->table->corrupted = true;
return DB_CORRUPTION;
}
ut_ad(index->n_core_null_bytes != dict_index_t::NO_CORE_NULL_BYTES);
if (!index->is_instant()) {
return DB_SUCCESS;
}
btr_cur_t cur;
dberr_t err = btr_cur_open_at_index_side(true, index, BTR_SEARCH_LEAF,
&cur, 0, mtr);
if (err != DB_SUCCESS) {
index->table->corrupted = true;
return err;
}
ut_ad(page_cur_is_before_first(&cur.page_cur));
ut_ad(page_is_leaf(cur.page_cur.block->frame));
page_cur_move_to_next(&cur.page_cur);
const rec_t* rec = cur.page_cur.rec;
if (page_rec_is_supremum(rec) || !rec_is_default_row(rec, index)) {
ib::error() << "Table " << index->table->name
<< " is missing instant ALTER metadata";
index->table->corrupted = true;
return DB_CORRUPTION;
}
if (dict_table_is_comp(index->table)) {
if (rec_get_info_bits(rec, true) != REC_INFO_MIN_REC_FLAG
&& rec_get_status(rec) != REC_STATUS_COLUMNS_ADDED) {
incompatible:
ib::error() << "Table " << index->table->name
<< " contains unrecognizable "
"instant ALTER metadata";
index->table->corrupted = true;
return DB_CORRUPTION;
}
} else if (rec_get_info_bits(rec, false) != REC_INFO_MIN_REC_FLAG) {
goto incompatible;
}
/* Read the 'default row'. We can get here on server restart
or when the table was evicted from the data dictionary cache
and is now being accessed again.
Here, READ COMMITTED and REPEATABLE READ should be equivalent.
Committing the ADD COLUMN operation would acquire
MDL_EXCLUSIVE and LOCK_X|LOCK_TABLE, which would prevent any
concurrent operations on the table, including table eviction
from the cache. */
mem_heap_t* heap = NULL;
ulint* offsets = rec_get_offsets(rec, index, NULL, true,
ULINT_UNDEFINED, &heap);
if (rec_offs_any_default(offsets)) {
inconsistent:
mem_heap_free(heap);
goto incompatible;
}
/* In fact, because we only ever append fields to the 'default
value' record, it is also OK to perform READ UNCOMMITTED and
then ignore any extra fields, provided that
trx_sys.is_registered(DB_TRX_ID). */
if (rec_offs_n_fields(offsets) > index->n_fields
&& !trx_sys.is_registered(current_trx(),
row_get_rec_trx_id(rec, index,
offsets))) {
goto inconsistent;
}
for (unsigned i = index->n_core_fields; i < index->n_fields; i++) {
ulint len;
const byte* data = rec_get_nth_field(rec, offsets, i, &len);
dict_col_t* col = index->fields[i].col;
ut_ad(!col->is_instant());
ut_ad(!col->def_val.data);
col->def_val.len = len;
switch (len) {
case UNIV_SQL_NULL:
continue;
case 0:
col->def_val.data = field_ref_zero;
continue;
}
ut_ad(len != UNIV_SQL_DEFAULT);
if (!rec_offs_nth_extern(offsets, i)) {
col->def_val.data = mem_heap_dup(
index->table->heap, data, len);
} else if (len < BTR_EXTERN_FIELD_REF_SIZE
|| !memcmp(data + len - BTR_EXTERN_FIELD_REF_SIZE,
field_ref_zero,
BTR_EXTERN_FIELD_REF_SIZE)) {
col->def_val.len = UNIV_SQL_DEFAULT;
goto inconsistent;
} else {
col->def_val.data = btr_copy_externally_stored_field(
&col->def_val.len, data,
dict_table_page_size(index->table),
len, index->table->heap);
}
}
mem_heap_free(heap);
return DB_SUCCESS;
}
/** Load the instant ALTER TABLE metadata from the clustered index
when loading a table definition.
@param[in,out] table table definition from the data dictionary
@return error code
@retval DB_SUCCESS if no error occurred */
dberr_t
btr_cur_instant_init(dict_table_t* table)
{
mtr_t mtr;
dict_index_t* index = dict_table_get_first_index(table);
mtr.start();
dberr_t err = index
? btr_cur_instant_init_low(index, &mtr)
: DB_CORRUPTION;
mtr.commit();
return(err);
}
/** Initialize the n_core_null_bytes on first access to a clustered
index root page.
@param[in] index clustered index that is on its first access
@param[in] page clustered index root page
@return whether the page is corrupted */
bool
btr_cur_instant_root_init(dict_index_t* index, const page_t* page)
{
ut_ad(page_is_root(page));
ut_ad(!page_is_comp(page) == !dict_table_is_comp(index->table));
ut_ad(index->is_primary());
ut_ad(!index->is_instant());
ut_ad(index->table->supports_instant());
/* This is normally executed as part of btr_cur_instant_init()
when dict_load_table_one() is loading a table definition.
Other threads should not access or modify the n_core_null_bytes,
n_core_fields before dict_load_table_one() returns.
This can also be executed during IMPORT TABLESPACE, where the
table definition is exclusively locked. */
switch (fil_page_get_type(page)) {
default:
ut_ad(!"wrong page type");
return true;
case FIL_PAGE_INDEX:
/* The field PAGE_INSTANT is guaranteed 0 on clustered
index root pages of ROW_FORMAT=COMPACT or
ROW_FORMAT=DYNAMIC when instant ADD COLUMN is not used. */
ut_ad(!page_is_comp(page) || !page_get_instant(page));
index->n_core_null_bytes = UT_BITS_IN_BYTES(
unsigned(index->n_nullable));
return false;
case FIL_PAGE_TYPE_INSTANT:
break;
}
uint16_t n = page_get_instant(page);
if (n < index->n_uniq + DATA_ROLL_PTR || n > index->n_fields) {
/* The PRIMARY KEY (or hidden DB_ROW_ID) and
DB_TRX_ID,DB_ROLL_PTR columns must always be present
as 'core' fields. All fields, including those for
instantly added columns, must be present in the data
dictionary. */
return true;
}
index->n_core_fields = n;
ut_ad(!index->is_dummy);
ut_d(index->is_dummy = true);
index->n_core_null_bytes = n == index->n_fields
? UT_BITS_IN_BYTES(unsigned(index->n_nullable))
: UT_BITS_IN_BYTES(index->get_n_nullable(n));
ut_d(index->is_dummy = false);
return false;
}
/** Optimistically latches the leaf page or pages requested.
@param[in] block guessed buffer block
@param[in] modify_clock modify clock value
@param[in,out] latch_mode BTR_SEARCH_LEAF, ...
@param[in,out] cursor cursor
@param[in] file file name
@param[in] line line where called
@param[in] mtr mini-transaction
@return true if success */
bool
btr_cur_optimistic_latch_leaves(
buf_block_t* block,
ib_uint64_t modify_clock,
ulint* latch_mode,
btr_cur_t* cursor,
const char* file,
unsigned line,
mtr_t* mtr)
{
ulint mode;
ulint left_page_no;
switch (*latch_mode) {
case BTR_SEARCH_LEAF:
case BTR_MODIFY_LEAF:
return(buf_page_optimistic_get(*latch_mode, block,
modify_clock, file, line, mtr));
case BTR_SEARCH_PREV:
case BTR_MODIFY_PREV:
mode = *latch_mode == BTR_SEARCH_PREV
? RW_S_LATCH : RW_X_LATCH;
buf_page_mutex_enter(block);
if (buf_block_get_state(block) != BUF_BLOCK_FILE_PAGE) {
buf_page_mutex_exit(block);
return(false);
}
/* pin the block not to be relocated */
buf_block_buf_fix_inc(block, file, line);
buf_page_mutex_exit(block);
rw_lock_s_lock(&block->lock);
if (block->modify_clock != modify_clock) {
rw_lock_s_unlock(&block->lock);
goto unpin_failed;
}
left_page_no = btr_page_get_prev(
buf_block_get_frame(block), mtr);
rw_lock_s_unlock(&block->lock);
if (left_page_no != FIL_NULL) {
cursor->left_block = btr_block_get(
page_id_t(cursor->index->table->space->id,
left_page_no),
page_size_t(cursor->index->table->space
->flags),
mode, cursor->index, mtr);
} else {
cursor->left_block = NULL;
}
if (buf_page_optimistic_get(mode, block, modify_clock,
file, line, mtr)) {
if (btr_page_get_prev(buf_block_get_frame(block), mtr)
== left_page_no) {
/* adjust buf_fix_count */
buf_page_mutex_enter(block);
buf_block_buf_fix_dec(block);
buf_page_mutex_exit(block);
*latch_mode = mode;
return(true);
} else {
/* release the block */
btr_leaf_page_release(block, mode, mtr);
}
}
/* release the left block */
if (cursor->left_block != NULL) {
btr_leaf_page_release(cursor->left_block,
mode, mtr);
}
unpin_failed:
/* unpin the block */
buf_page_mutex_enter(block);
buf_block_buf_fix_dec(block);
buf_page_mutex_exit(block);
return(false);
default:
ut_error;
return(false);
}
}
/**
Gets intention in btr_intention_t from latch_mode, and cleares the intention
at the latch_mode.
@param latch_mode in/out: pointer to latch_mode
@return intention for latching tree */
static
btr_intention_t
btr_cur_get_and_clear_intention(
ulint *latch_mode)
{
btr_intention_t intention;
switch (*latch_mode & (BTR_LATCH_FOR_INSERT | BTR_LATCH_FOR_DELETE)) {
case BTR_LATCH_FOR_INSERT:
intention = BTR_INTENTION_INSERT;
break;
case BTR_LATCH_FOR_DELETE:
intention = BTR_INTENTION_DELETE;
break;
default:
/* both or unknown */
intention = BTR_INTENTION_BOTH;
}
*latch_mode &= ulint(~(BTR_LATCH_FOR_INSERT | BTR_LATCH_FOR_DELETE));
return(intention);
}
/**
Gets the desired latch type for the root leaf (root page is root leaf)
at the latch mode.
@param latch_mode in: BTR_SEARCH_LEAF, ...
@return latch type */
static
rw_lock_type_t
btr_cur_latch_for_root_leaf(
ulint latch_mode)
{
switch (latch_mode) {
case BTR_SEARCH_LEAF:
case BTR_SEARCH_TREE:
case BTR_SEARCH_PREV:
return(RW_S_LATCH);
case BTR_MODIFY_LEAF:
case BTR_MODIFY_TREE:
case BTR_MODIFY_PREV:
return(RW_X_LATCH);
case BTR_CONT_MODIFY_TREE:
case BTR_CONT_SEARCH_TREE:
/* A root page should be latched already,
and don't need to be latched here.
fall through (RW_NO_LATCH) */
case BTR_NO_LATCHES:
return(RW_NO_LATCH);
}
ut_error;
return(RW_NO_LATCH); /* avoid compiler warnings */
}
/** Detects whether the modifying record might need a modifying tree structure.
@param[in] index index
@param[in] page page
@param[in] lock_intention lock intention for the tree operation
@param[in] rec record (current node_ptr)
@param[in] rec_size size of the record or max size of node_ptr
@param[in] page_size page size
@param[in] mtr mtr
@return true if tree modification is needed */
static
bool
btr_cur_will_modify_tree(
dict_index_t* index,
const page_t* page,
btr_intention_t lock_intention,
const rec_t* rec,
ulint rec_size,
const page_size_t& page_size,
mtr_t* mtr)
{
ut_ad(!page_is_leaf(page));
ut_ad(mtr_memo_contains_flagged(mtr, dict_index_get_lock(index),
MTR_MEMO_X_LOCK | MTR_MEMO_SX_LOCK));
/* Pessimistic delete of the first record causes delete & insert
of node_ptr at upper level. And a subsequent page shrink is
possible. It causes delete of node_ptr at the upper level.
So we should pay attention also to 2nd record not only
first record and last record. Because if the "delete & insert" are
done for the different page, the 2nd record become
first record and following compress might delete the record and causes
the uppper level node_ptr modification. */
if (lock_intention <= BTR_INTENTION_BOTH) {
ulint margin;
/* check delete will cause. (BTR_INTENTION_BOTH
or BTR_INTENTION_DELETE) */
/* first, 2nd, 2nd-last and last records are 4 records */
if (page_get_n_recs(page) < 5) {
return(true);
}
/* is first, 2nd or last record */
if (page_rec_is_first(rec, page)
|| (page_has_next(page)
&& (page_rec_is_last(rec, page)
|| page_rec_is_second_last(rec, page)))
|| (page_has_prev(page)
&& page_rec_is_second(rec, page))) {
return(true);
}
if (lock_intention == BTR_INTENTION_BOTH) {
/* Delete at leftmost record in a page causes delete
& insert at its parent page. After that, the delete
might cause btr_compress() and delete record at its
parent page. Thus we should consider max 2 deletes. */
margin = rec_size * 2;
} else {
ut_ad(lock_intention == BTR_INTENTION_DELETE);
margin = rec_size;
}
/* NOTE: call mach_read_from_4() directly to avoid assertion
failure. It is safe because we already have SX latch of the
index tree */
if (page_get_data_size(page)
< margin + BTR_CUR_PAGE_COMPRESS_LIMIT(index)
|| (mach_read_from_4(page + FIL_PAGE_NEXT)
== FIL_NULL
&& mach_read_from_4(page + FIL_PAGE_PREV)
== FIL_NULL)) {
return(true);
}
}
if (lock_intention >= BTR_INTENTION_BOTH) {
/* check insert will cause. BTR_INTENTION_BOTH
or BTR_INTENTION_INSERT*/
/* Once we invoke the btr_cur_limit_optimistic_insert_debug,
we should check it here in advance, since the max allowable
records in a page is limited. */
LIMIT_OPTIMISTIC_INSERT_DEBUG(page_get_n_recs(page),
return(true));
/* needs 2 records' space for the case the single split and
insert cannot fit.
page_get_max_insert_size_after_reorganize() includes space
for page directory already */
ulint max_size
= page_get_max_insert_size_after_reorganize(page, 2);
if (max_size < BTR_CUR_PAGE_REORGANIZE_LIMIT + rec_size
|| max_size < rec_size * 2) {
return(true);
}
/* TODO: optimize this condition for compressed page.
this is based on the worst compress rate.
currently looking only uncompressed page, but we can look
also compressed page page_zip_available() if already in the
buffer pool */
/* needs 2 records' space also for worst compress rate. */
if (page_size.is_compressed()
&& page_zip_empty_size(index->n_fields,
page_size.physical())
< rec_size * 2 + page_get_data_size(page)
+ page_dir_calc_reserved_space(
ulint(page_get_n_recs(page)) + 2) + 1) {
return(true);
}
}
return(false);
}
/** Detects whether the modifying record might need a opposite modification
to the intention.
@param[in] page page
@param[in] lock_intention lock intention for the tree operation
@param[in] rec record (current node_ptr)
@return true if tree modification is needed */
static
bool
btr_cur_need_opposite_intention(
const page_t* page,
btr_intention_t lock_intention,
const rec_t* rec)
{
switch (lock_intention) {
case BTR_INTENTION_DELETE:
return (page_has_prev(page) && page_rec_is_first(rec, page)) ||
(page_has_next(page) && page_rec_is_last(rec, page));
case BTR_INTENTION_INSERT:
return page_has_next(page) && page_rec_is_last(rec, page);
case BTR_INTENTION_BOTH:
return(false);
}
ut_error;
return(false);
}
/********************************************************************//**
Searches an index tree and positions a tree cursor on a given level.
NOTE: n_fields_cmp in tuple must be set so that it cannot be compared
to node pointer page number fields on the upper levels of the tree!
Note that if mode is PAGE_CUR_LE, which is used in inserts, then
cursor->up_match and cursor->low_match both will have sensible values.
If mode is PAGE_CUR_GE, then up_match will a have a sensible value.
If mode is PAGE_CUR_LE , cursor is left at the place where an insert of the
search tuple should be performed in the B-tree. InnoDB does an insert
immediately after the cursor. Thus, the cursor may end up on a user record,
or on a page infimum record. */
dberr_t
btr_cur_search_to_nth_level_func(
dict_index_t* index, /*!< in: index */
ulint level, /*!< in: the tree level of search */
const dtuple_t* tuple, /*!< in: data tuple; NOTE: n_fields_cmp in
tuple must be set so that it cannot get
compared to the node ptr page number field! */
page_cur_mode_t mode, /*!< in: PAGE_CUR_L, ...;
Inserts should always be made using
PAGE_CUR_LE to search the position! */
ulint latch_mode, /*!< in: BTR_SEARCH_LEAF, ..., ORed with
at most one of BTR_INSERT, BTR_DELETE_MARK,
BTR_DELETE, or BTR_ESTIMATE;
cursor->left_block is used to store a pointer
to the left neighbor page, in the cases
BTR_SEARCH_PREV and BTR_MODIFY_PREV;
NOTE that if ahi_latch, we might not have a
cursor page latch, we assume that ahi_latch
protects the record! */
btr_cur_t* cursor, /*!< in/out: tree cursor; the cursor page is
s- or x-latched, but see also above! */
#ifdef BTR_CUR_HASH_ADAPT
rw_lock_t* ahi_latch,
/*!< in: currently held btr_search_latch
(in RW_S_LATCH mode), or NULL */
#endif /* BTR_CUR_HASH_ADAPT */
const char* file, /*!< in: file name */
unsigned line, /*!< in: line where called */
mtr_t* mtr, /*!< in: mtr */
ib_uint64_t autoinc)/*!< in: PAGE_ROOT_AUTO_INC to be written
(0 if none) */
{
page_t* page = NULL; /* remove warning */
buf_block_t* block;
buf_block_t* guess;
ulint height;
ulint up_match;
ulint up_bytes;
ulint low_match;
ulint low_bytes;
ulint savepoint;
ulint rw_latch;
page_cur_mode_t page_mode;
page_cur_mode_t search_mode = PAGE_CUR_UNSUPP;
ulint buf_mode;
ulint estimate;
ulint node_ptr_max_size = srv_page_size / 2;
page_cur_t* page_cursor;
btr_op_t btr_op;
ulint root_height = 0; /* remove warning */
dberr_t err = DB_SUCCESS;
ulint upper_rw_latch, root_leaf_rw_latch;
btr_intention_t lock_intention;
bool modify_external;
buf_block_t* tree_blocks[BTR_MAX_LEVELS];
ulint tree_savepoints[BTR_MAX_LEVELS];
ulint n_blocks = 0;
ulint n_releases = 0;
bool detected_same_key_root = false;
bool retrying_for_search_prev = false;
ulint leftmost_from_level = 0;
buf_block_t** prev_tree_blocks = NULL;
ulint* prev_tree_savepoints = NULL;
ulint prev_n_blocks = 0;
ulint prev_n_releases = 0;
bool need_path = true;
bool rtree_parent_modified = false;
bool mbr_adj = false;
bool found = false;
DBUG_ENTER("btr_cur_search_to_nth_level");
#ifdef BTR_CUR_ADAPT
btr_search_t* info;
#endif /* BTR_CUR_ADAPT */
mem_heap_t* heap = NULL;
ulint offsets_[REC_OFFS_NORMAL_SIZE];
ulint* offsets = offsets_;
ulint offsets2_[REC_OFFS_NORMAL_SIZE];
ulint* offsets2 = offsets2_;
rec_offs_init(offsets_);
rec_offs_init(offsets2_);
/* Currently, PAGE_CUR_LE is the only search mode used for searches
ending to upper levels */
ut_ad(level == 0 || mode == PAGE_CUR_LE
|| RTREE_SEARCH_MODE(mode));
ut_ad(dict_index_check_search_tuple(index, tuple));
ut_ad(!dict_index_is_ibuf(index) || ibuf_inside(mtr));
ut_ad(dtuple_check_typed(tuple));
ut_ad(!(index->type & DICT_FTS));
ut_ad(index->page != FIL_NULL);
UNIV_MEM_INVALID(&cursor->up_match, sizeof cursor->up_match);
UNIV_MEM_INVALID(&cursor->up_bytes, sizeof cursor->up_bytes);
UNIV_MEM_INVALID(&cursor->low_match, sizeof cursor->low_match);
UNIV_MEM_INVALID(&cursor->low_bytes, sizeof cursor->low_bytes);
#ifdef UNIV_DEBUG
cursor->up_match = ULINT_UNDEFINED;
cursor->low_match = ULINT_UNDEFINED;
#endif /* UNIV_DEBUG */
ibool s_latch_by_caller;
s_latch_by_caller = latch_mode & BTR_ALREADY_S_LATCHED;
ut_ad(!s_latch_by_caller
|| srv_read_only_mode
|| mtr_memo_contains_flagged(mtr,
dict_index_get_lock(index),
MTR_MEMO_S_LOCK
| MTR_MEMO_SX_LOCK));
/* These flags are mutually exclusive, they are lumped together
with the latch mode for historical reasons. It's possible for
none of the flags to be set. */
switch (UNIV_EXPECT(latch_mode
& (BTR_INSERT | BTR_DELETE | BTR_DELETE_MARK),
0)) {
case 0:
btr_op = BTR_NO_OP;
break;
case BTR_INSERT:
btr_op = (latch_mode & BTR_IGNORE_SEC_UNIQUE)
? BTR_INSERT_IGNORE_UNIQUE_OP
: BTR_INSERT_OP;
break;
case BTR_DELETE:
btr_op = BTR_DELETE_OP;
ut_a(cursor->purge_node);
break;
case BTR_DELETE_MARK:
btr_op = BTR_DELMARK_OP;
break;
default:
/* only one of BTR_INSERT, BTR_DELETE, BTR_DELETE_MARK
should be specified at a time */
ut_error;
}
/* Operations on the insert buffer tree cannot be buffered. */
ut_ad(btr_op == BTR_NO_OP || !dict_index_is_ibuf(index));
/* Operations on the clustered index cannot be buffered. */
ut_ad(btr_op == BTR_NO_OP || !dict_index_is_clust(index));
/* Operations on the temporary table(indexes) cannot be buffered. */
ut_ad(btr_op == BTR_NO_OP || !dict_table_is_temporary(index->table));
/* Operation on the spatial index cannot be buffered. */
ut_ad(btr_op == BTR_NO_OP || !dict_index_is_spatial(index));
estimate = latch_mode & BTR_ESTIMATE;
lock_intention = btr_cur_get_and_clear_intention(&latch_mode);
modify_external = latch_mode & BTR_MODIFY_EXTERNAL;
/* Turn the flags unrelated to the latch mode off. */
latch_mode = BTR_LATCH_MODE_WITHOUT_FLAGS(latch_mode);
ut_ad(!modify_external || latch_mode == BTR_MODIFY_LEAF);
ut_ad(!s_latch_by_caller
|| latch_mode == BTR_SEARCH_LEAF
|| latch_mode == BTR_SEARCH_TREE
|| latch_mode == BTR_MODIFY_LEAF);
ut_ad(autoinc == 0 || dict_index_is_clust(index));
ut_ad(autoinc == 0
|| latch_mode == BTR_MODIFY_TREE
|| latch_mode == BTR_MODIFY_LEAF);
ut_ad(autoinc == 0 || level == 0);
cursor->flag = BTR_CUR_BINARY;
cursor->index = index;
#ifndef BTR_CUR_ADAPT
guess = NULL;
#else
info = btr_search_get_info(index);
if (!buf_pool_is_obsolete(info->withdraw_clock)) {
guess = info->root_guess;
} else {
guess = NULL;
}
#ifdef BTR_CUR_HASH_ADAPT
# ifdef UNIV_SEARCH_PERF_STAT
info->n_searches++;
# endif
if (autoinc == 0
&& latch_mode <= BTR_MODIFY_LEAF
&& info->last_hash_succ
# ifdef MYSQL_INDEX_DISABLE_AHI
&& !index->disable_ahi
# endif
&& !estimate
# ifdef PAGE_CUR_LE_OR_EXTENDS
&& mode != PAGE_CUR_LE_OR_EXTENDS
# endif /* PAGE_CUR_LE_OR_EXTENDS */
&& !dict_index_is_spatial(index)
/* If !ahi_latch, we do a dirty read of
btr_search_enabled below, and btr_search_guess_on_hash()
will have to check it again. */
&& btr_search_enabled
&& !modify_external
&& !(tuple->info_bits & REC_INFO_MIN_REC_FLAG)
&& btr_search_guess_on_hash(index, info, tuple, mode,
latch_mode, cursor,
ahi_latch, mtr)) {
/* Search using the hash index succeeded */
ut_ad(cursor->up_match != ULINT_UNDEFINED
|| mode != PAGE_CUR_GE);
ut_ad(cursor->up_match != ULINT_UNDEFINED
|| mode != PAGE_CUR_LE);
ut_ad(cursor->low_match != ULINT_UNDEFINED
|| mode != PAGE_CUR_LE);
btr_cur_n_sea++;
DBUG_RETURN(err);
}
# endif /* BTR_CUR_HASH_ADAPT */
#endif /* BTR_CUR_ADAPT */
btr_cur_n_non_sea++;
/* If the hash search did not succeed, do binary search down the
tree */
#ifdef BTR_CUR_HASH_ADAPT
if (ahi_latch) {
/* Release possible search latch to obey latching order */
rw_lock_s_unlock(ahi_latch);
}
#endif /* BTR_CUR_HASH_ADAPT */
/* Store the position of the tree latch we push to mtr so that we
know how to release it when we have latched leaf node(s) */
savepoint = mtr_set_savepoint(mtr);
switch (latch_mode) {
case BTR_MODIFY_TREE:
/* Most of delete-intended operations are purging.
Free blocks and read IO bandwidth should be prior
for them, when the history list is glowing huge. */
if (lock_intention == BTR_INTENTION_DELETE
&& trx_sys.history_size() > BTR_CUR_FINE_HISTORY_LENGTH
&& buf_get_n_pending_read_ios()) {
mtr_x_lock(dict_index_get_lock(index), mtr);
} else if (dict_index_is_spatial(index)
&& lock_intention <= BTR_INTENTION_BOTH) {
/* X lock the if there is possibility of
pessimistic delete on spatial index. As we could
lock upward for the tree */
mtr_x_lock(dict_index_get_lock(index), mtr);
} else {
mtr_sx_lock(dict_index_get_lock(index), mtr);
}
upper_rw_latch = RW_X_LATCH;
break;
case BTR_CONT_MODIFY_TREE:
case BTR_CONT_SEARCH_TREE:
/* Do nothing */
ut_ad(srv_read_only_mode
|| mtr_memo_contains_flagged(mtr,
dict_index_get_lock(index),
MTR_MEMO_X_LOCK
| MTR_MEMO_SX_LOCK));
if (dict_index_is_spatial(index)
&& latch_mode == BTR_CONT_MODIFY_TREE) {
/* If we are about to locating parent page for split
and/or merge operation for R-Tree index, X latch
the parent */
upper_rw_latch = RW_X_LATCH;
} else {
upper_rw_latch = RW_NO_LATCH;
}
break;
default:
if (!srv_read_only_mode) {
if (s_latch_by_caller) {
ut_ad(rw_lock_own(dict_index_get_lock(index),
RW_LOCK_S));
} else if (!modify_external) {
/* BTR_SEARCH_TREE is intended to be used with
BTR_ALREADY_S_LATCHED */
ut_ad(latch_mode != BTR_SEARCH_TREE);
mtr_s_lock(dict_index_get_lock(index), mtr);
} else {
/* BTR_MODIFY_EXTERNAL needs to be excluded */
mtr_sx_lock(dict_index_get_lock(index), mtr);
}
upper_rw_latch = RW_S_LATCH;
} else {
upper_rw_latch = RW_NO_LATCH;
}
}
root_leaf_rw_latch = btr_cur_latch_for_root_leaf(latch_mode);
page_cursor = btr_cur_get_page_cur(cursor);
const page_size_t page_size(index->table->space->flags);
/* Start with the root page. */
page_id_t page_id(index->table->space->id, index->page);
if (root_leaf_rw_latch == RW_X_LATCH) {
node_ptr_max_size = dict_index_node_ptr_max_size(index);
}
up_match = 0;
up_bytes = 0;
low_match = 0;
low_bytes = 0;
height = ULINT_UNDEFINED;
/* We use these modified search modes on non-leaf levels of the
B-tree. These let us end up in the right B-tree leaf. In that leaf
we use the original search mode. */
switch (mode) {
case PAGE_CUR_GE:
page_mode = PAGE_CUR_L;
break;
case PAGE_CUR_G:
page_mode = PAGE_CUR_LE;
break;
default:
#ifdef PAGE_CUR_LE_OR_EXTENDS
ut_ad(mode == PAGE_CUR_L || mode == PAGE_CUR_LE
|| RTREE_SEARCH_MODE(mode)
|| mode == PAGE_CUR_LE_OR_EXTENDS);
#else /* PAGE_CUR_LE_OR_EXTENDS */
ut_ad(mode == PAGE_CUR_L || mode == PAGE_CUR_LE
|| RTREE_SEARCH_MODE(mode));
#endif /* PAGE_CUR_LE_OR_EXTENDS */
page_mode = mode;
break;
}
/* Loop and search until we arrive at the desired level */
btr_latch_leaves_t latch_leaves = {{NULL, NULL, NULL}, {0, 0, 0}};
search_loop:
buf_mode = BUF_GET;
rw_latch = RW_NO_LATCH;
rtree_parent_modified = false;
if (height != 0) {
/* We are about to fetch the root or a non-leaf page. */
if ((latch_mode != BTR_MODIFY_TREE || height == level)
&& !retrying_for_search_prev) {
/* If doesn't have SX or X latch of index,
each pages should be latched before reading. */
if (height == ULINT_UNDEFINED
&& upper_rw_latch == RW_S_LATCH
&& (modify_external || autoinc)) {
/* needs sx-latch of root page
for fseg operation or for writing
PAGE_ROOT_AUTO_INC */
rw_latch = RW_SX_LATCH;
} else {
rw_latch = upper_rw_latch;
}
}
} else if (latch_mode <= BTR_MODIFY_LEAF) {
rw_latch = latch_mode;
if (btr_op != BTR_NO_OP
&& ibuf_should_try(index, btr_op != BTR_INSERT_OP)) {
/* Try to buffer the operation if the leaf
page is not in the buffer pool. */
buf_mode = btr_op == BTR_DELETE_OP
? BUF_GET_IF_IN_POOL_OR_WATCH
: BUF_GET_IF_IN_POOL;
}
}
retry_page_get:
ut_ad(n_blocks < BTR_MAX_LEVELS);
tree_savepoints[n_blocks] = mtr_set_savepoint(mtr);
block = buf_page_get_gen(page_id, page_size, rw_latch, guess,
buf_mode, file, line, mtr, &err);
tree_blocks[n_blocks] = block;
/* Note that block==NULL signifies either an error or change
buffering. */
if (err != DB_SUCCESS) {
ut_ad(block == NULL);
if (err == DB_DECRYPTION_FAILED) {
ib_push_warning((void *)NULL,
DB_DECRYPTION_FAILED,
"Table %s is encrypted but encryption service or"
" used key_id is not available. "
" Can't continue reading table.",
index->table->name);
index->table->file_unreadable = true;
}
goto func_exit;
}
if (block == NULL) {
/* This must be a search to perform an insert/delete
mark/ delete; try using the insert/delete buffer */
ut_ad(height == 0);
ut_ad(cursor->thr);
switch (btr_op) {
case BTR_INSERT_OP:
case BTR_INSERT_IGNORE_UNIQUE_OP:
ut_ad(buf_mode == BUF_GET_IF_IN_POOL);
ut_ad(!dict_index_is_spatial(index));
if (ibuf_insert(IBUF_OP_INSERT, tuple, index,
page_id, page_size, cursor->thr)) {
cursor->flag = BTR_CUR_INSERT_TO_IBUF;
goto func_exit;
}
break;
case BTR_DELMARK_OP:
ut_ad(buf_mode == BUF_GET_IF_IN_POOL);
ut_ad(!dict_index_is_spatial(index));
if (ibuf_insert(IBUF_OP_DELETE_MARK, tuple,
index, page_id, page_size,
cursor->thr)) {
cursor->flag = BTR_CUR_DEL_MARK_IBUF;
goto func_exit;
}
break;
case BTR_DELETE_OP:
ut_ad(buf_mode == BUF_GET_IF_IN_POOL_OR_WATCH);
ut_ad(!dict_index_is_spatial(index));
if (!row_purge_poss_sec(cursor->purge_node,
index, tuple)) {
/* The record cannot be purged yet. */
cursor->flag = BTR_CUR_DELETE_REF;
} else if (ibuf_insert(IBUF_OP_DELETE, tuple,
index, page_id, page_size,
cursor->thr)) {
/* The purge was buffered. */
cursor->flag = BTR_CUR_DELETE_IBUF;
} else {
/* The purge could not be buffered. */
buf_pool_watch_unset(page_id);
break;
}
buf_pool_watch_unset(page_id);
goto func_exit;
default:
ut_error;
}
/* Insert to the insert/delete buffer did not succeed, we
must read the page from disk. */
buf_mode = BUF_GET;
goto retry_page_get;
}
if (retrying_for_search_prev && height != 0) {
/* also latch left sibling */
ulint left_page_no;
buf_block_t* get_block;
ut_ad(rw_latch == RW_NO_LATCH);
rw_latch = upper_rw_latch;
rw_lock_s_lock(&block->lock);
left_page_no = btr_page_get_prev(
buf_block_get_frame(block), mtr);
rw_lock_s_unlock(&block->lock);
if (left_page_no != FIL_NULL) {
ut_ad(prev_n_blocks < leftmost_from_level);
prev_tree_savepoints[prev_n_blocks]
= mtr_set_savepoint(mtr);
get_block = buf_page_get_gen(
page_id_t(page_id.space(), left_page_no),
page_size, rw_latch, NULL, buf_mode,
file, line, mtr, &err);
prev_tree_blocks[prev_n_blocks] = get_block;
prev_n_blocks++;
if (err != DB_SUCCESS) {
if (err == DB_DECRYPTION_FAILED) {
ib_push_warning((void *)NULL,
DB_DECRYPTION_FAILED,
"Table %s is encrypted but encryption service or"
" used key_id is not available. "
" Can't continue reading table.",
index->table->name);
index->table->file_unreadable = true;
}
goto func_exit;
}
/* BTR_MODIFY_TREE doesn't update prev/next_page_no,
without their parent page's lock. So, not needed to
retry here, because we have the parent page's lock. */
}
/* release RW_NO_LATCH page and lock with RW_S_LATCH */
mtr_release_block_at_savepoint(
mtr, tree_savepoints[n_blocks],
tree_blocks[n_blocks]);
tree_savepoints[n_blocks] = mtr_set_savepoint(mtr);
block = buf_page_get_gen(page_id, page_size, rw_latch, NULL,
buf_mode, file, line, mtr, &err);
tree_blocks[n_blocks] = block;
if (err != DB_SUCCESS) {
if (err == DB_DECRYPTION_FAILED) {
ib_push_warning((void *)NULL,
DB_DECRYPTION_FAILED,
"Table %s is encrypted but encryption service or"
" used key_id is not available. "
" Can't continue reading table.",
index->table->name);
index->table->file_unreadable = true;
}
goto func_exit;
}
}
page = buf_block_get_frame(block);
if (height == ULINT_UNDEFINED
&& page_is_leaf(page)
&& rw_latch != RW_NO_LATCH
&& rw_latch != root_leaf_rw_latch) {
/* The root page is also a leaf page (root_leaf).
We should reacquire the page, because the root page
is latched differently from leaf pages. */
ut_ad(root_leaf_rw_latch != RW_NO_LATCH);
ut_ad(rw_latch == RW_S_LATCH || rw_latch == RW_SX_LATCH);
ut_ad(rw_latch == RW_S_LATCH || modify_external || autoinc);
ut_ad(!autoinc || root_leaf_rw_latch == RW_X_LATCH);
ut_ad(n_blocks == 0);
mtr_release_block_at_savepoint(
mtr, tree_savepoints[n_blocks],
tree_blocks[n_blocks]);
upper_rw_latch = root_leaf_rw_latch;
goto search_loop;
}
if (rw_latch != RW_NO_LATCH) {
#ifdef UNIV_ZIP_DEBUG
const page_zip_des_t* page_zip
= buf_block_get_page_zip(block);
ut_a(!page_zip || page_zip_validate(page_zip, page, index));
#endif /* UNIV_ZIP_DEBUG */
buf_block_dbg_add_level(
block, dict_index_is_ibuf(index)
? SYNC_IBUF_TREE_NODE : SYNC_TREE_NODE);
}
ut_ad(fil_page_index_page_check(page));
ut_ad(index->id == btr_page_get_index_id(page));
if (height == ULINT_UNDEFINED) {
/* We are in the root node */
height = btr_page_get_level(page);
root_height = height;
cursor->tree_height = root_height + 1;
if (dict_index_is_spatial(index)) {
ut_ad(cursor->rtr_info);
node_seq_t seq_no = rtr_get_current_ssn_id(index);
/* If SSN in memory is not initialized, fetch
it from root page */
if (seq_no < 1) {
node_seq_t root_seq_no;
root_seq_no = page_get_ssn_id(page);
mutex_enter(&(index->rtr_ssn.mutex));
index->rtr_ssn.seq_no = root_seq_no + 1;
mutex_exit(&(index->rtr_ssn.mutex));
}
/* Save the MBR */
cursor->rtr_info->thr = cursor->thr;
rtr_get_mbr_from_tuple(tuple, &cursor->rtr_info->mbr);
}
#ifdef BTR_CUR_ADAPT
if (block != guess) {
info->root_guess = block;
info->withdraw_clock = buf_withdraw_clock;
}
#endif
}
if (height == 0) {
if (rw_latch == RW_NO_LATCH) {
latch_leaves = btr_cur_latch_leaves(
block, page_id, page_size, latch_mode,
cursor, mtr);
}
switch (latch_mode) {
case BTR_MODIFY_TREE:
case BTR_CONT_MODIFY_TREE:
case BTR_CONT_SEARCH_TREE:
break;
default:
if (!s_latch_by_caller
&& !srv_read_only_mode
&& !modify_external) {
/* Release the tree s-latch */
/* NOTE: BTR_MODIFY_EXTERNAL
needs to keep tree sx-latch */
mtr_release_s_latch_at_savepoint(
mtr, savepoint,
dict_index_get_lock(index));
}
/* release upper blocks */
if (retrying_for_search_prev) {
ut_ad(!autoinc);
for (;
prev_n_releases < prev_n_blocks;
prev_n_releases++) {
mtr_release_block_at_savepoint(
mtr,
prev_tree_savepoints[
prev_n_releases],
prev_tree_blocks[
prev_n_releases]);
}
}
for (; n_releases < n_blocks; n_releases++) {
if (n_releases == 0
&& (modify_external || autoinc)) {
/* keep the root page latch */
ut_ad(mtr_memo_contains_flagged(
mtr, tree_blocks[n_releases],
MTR_MEMO_PAGE_SX_FIX
| MTR_MEMO_PAGE_X_FIX));
continue;
}
mtr_release_block_at_savepoint(
mtr, tree_savepoints[n_releases],
tree_blocks[n_releases]);
}
}
page_mode = mode;
}
if (dict_index_is_spatial(index)) {
/* Remember the page search mode */
search_mode = page_mode;
/* Some adjustment on search mode, when the
page search mode is PAGE_CUR_RTREE_LOCATE
or PAGE_CUR_RTREE_INSERT, as we are searching
with MBRs. When it is not the target level, we
should search all sub-trees that "CONTAIN" the
search range/MBR. When it is at the target
level, the search becomes PAGE_CUR_LE */
if (page_mode == PAGE_CUR_RTREE_LOCATE
&& level == height) {
if (level == 0) {
page_mode = PAGE_CUR_LE;
} else {
page_mode = PAGE_CUR_RTREE_GET_FATHER;
}
}
if (page_mode == PAGE_CUR_RTREE_INSERT) {
page_mode = (level == height)
? PAGE_CUR_LE
: PAGE_CUR_RTREE_INSERT;
ut_ad(!page_is_leaf(page) || page_mode == PAGE_CUR_LE);
}
/* "need_path" indicates if we need to tracking the parent
pages, if it is not spatial comparison, then no need to
track it */
if (page_mode < PAGE_CUR_CONTAIN) {
need_path = false;
}
up_match = 0;
low_match = 0;
if (latch_mode == BTR_MODIFY_TREE
|| latch_mode == BTR_CONT_MODIFY_TREE
|| latch_mode == BTR_CONT_SEARCH_TREE) {
/* Tree are locked, no need for Page Lock to protect
the "path" */
cursor->rtr_info->need_page_lock = false;
}
}
if (dict_index_is_spatial(index) && page_mode >= PAGE_CUR_CONTAIN) {
ut_ad(need_path);
found = rtr_cur_search_with_match(
block, index, tuple, page_mode, page_cursor,
cursor->rtr_info);
/* Need to use BTR_MODIFY_TREE to do the MBR adjustment */
if (search_mode == PAGE_CUR_RTREE_INSERT
&& cursor->rtr_info->mbr_adj) {
if (latch_mode & BTR_MODIFY_LEAF) {
/* Parent MBR needs updated, should retry
with BTR_MODIFY_TREE */
goto func_exit;
} else if (latch_mode & BTR_MODIFY_TREE) {
rtree_parent_modified = true;
cursor->rtr_info->mbr_adj = false;
mbr_adj = true;
} else {
ut_ad(0);
}
}
if (found && page_mode == PAGE_CUR_RTREE_GET_FATHER) {
cursor->low_match =
DICT_INDEX_SPATIAL_NODEPTR_SIZE + 1;
}
#ifdef BTR_CUR_HASH_ADAPT
} else if (height == 0 && btr_search_enabled
&& !(tuple->info_bits & REC_INFO_MIN_REC_FLAG)
&& !dict_index_is_spatial(index)) {
/* The adaptive hash index is only used when searching
for leaf pages (height==0), but not in r-trees.
We only need the byte prefix comparison for the purpose
of updating the adaptive hash index. */
page_cur_search_with_match_bytes(
block, index, tuple, page_mode, &up_match, &up_bytes,
&low_match, &low_bytes, page_cursor);
#endif /* BTR_CUR_HASH_ADAPT */
} else {
/* Search for complete index fields. */
up_bytes = low_bytes = 0;
page_cur_search_with_match(
block, index, tuple, page_mode, &up_match,
&low_match, page_cursor,
need_path ? cursor->rtr_info : NULL);
}
if (estimate) {
btr_cur_add_path_info(cursor, height, root_height);
}
/* If this is the desired level, leave the loop */
ut_ad(height == btr_page_get_level(page_cur_get_page(page_cursor)));
/* Add Predicate lock if it is serializable isolation
and only if it is in the search case */
if (dict_index_is_spatial(index)
&& cursor->rtr_info->need_prdt_lock
&& mode != PAGE_CUR_RTREE_INSERT
&& mode != PAGE_CUR_RTREE_LOCATE
&& mode >= PAGE_CUR_CONTAIN) {
trx_t* trx = thr_get_trx(cursor->thr);
lock_prdt_t prdt;
lock_mutex_enter();
lock_init_prdt_from_mbr(
&prdt, &cursor->rtr_info->mbr, mode,
trx->lock.lock_heap);
lock_mutex_exit();
if (rw_latch == RW_NO_LATCH && height != 0) {
rw_lock_s_lock(&(block->lock));
}
lock_prdt_lock(block, &prdt, index, LOCK_S,
LOCK_PREDICATE, cursor->thr, mtr);
if (rw_latch == RW_NO_LATCH && height != 0) {
rw_lock_s_unlock(&(block->lock));
}
}
if (level != height) {
const rec_t* node_ptr;
ut_ad(height > 0);
height--;
guess = NULL;
node_ptr = page_cur_get_rec(page_cursor);
offsets = rec_get_offsets(node_ptr, index, offsets, false,
ULINT_UNDEFINED, &heap);
/* If the rec is the first or last in the page for
pessimistic delete intention, it might cause node_ptr insert
for the upper level. We should change the intention and retry.
*/
if (latch_mode == BTR_MODIFY_TREE
&& btr_cur_need_opposite_intention(
page, lock_intention, node_ptr)) {
need_opposite_intention:
ut_ad(upper_rw_latch == RW_X_LATCH);
if (n_releases > 0) {
/* release root block */
mtr_release_block_at_savepoint(
mtr, tree_savepoints[0],
tree_blocks[0]);
}
/* release all blocks */
for (; n_releases <= n_blocks; n_releases++) {
mtr_release_block_at_savepoint(
mtr, tree_savepoints[n_releases],
tree_blocks[n_releases]);
}
lock_intention = BTR_INTENTION_BOTH;
page_id.set_page_no(index->page);
up_match = 0;
low_match = 0;
height = ULINT_UNDEFINED;
n_blocks = 0;
n_releases = 0;
goto search_loop;
}
if (dict_index_is_spatial(index)) {
if (page_rec_is_supremum(node_ptr)) {
cursor->low_match = 0;
cursor->up_match = 0;
goto func_exit;
}
/* If we are doing insertion or record locating,
remember the tree nodes we visited */
if (page_mode == PAGE_CUR_RTREE_INSERT
|| (search_mode == PAGE_CUR_RTREE_LOCATE
&& (latch_mode != BTR_MODIFY_LEAF))) {
bool add_latch = false;
if (latch_mode == BTR_MODIFY_TREE
&& rw_latch == RW_NO_LATCH) {
ut_ad(mtr_memo_contains_flagged(
mtr, dict_index_get_lock(index),
MTR_MEMO_X_LOCK
| MTR_MEMO_SX_LOCK));
rw_lock_s_lock(&block->lock);
add_latch = true;
}
/* Store the parent cursor location */
#ifdef UNIV_DEBUG
ulint num_stored = rtr_store_parent_path(
block, cursor, latch_mode,
height + 1, mtr);
#else
rtr_store_parent_path(
block, cursor, latch_mode,
height + 1, mtr);
#endif
if (page_mode == PAGE_CUR_RTREE_INSERT) {
btr_pcur_t* r_cursor =
rtr_get_parent_cursor(
cursor, height + 1,
true);
/* If it is insertion, there should
be only one parent for each level
traverse */
#ifdef UNIV_DEBUG
ut_ad(num_stored == 1);
#endif
node_ptr = btr_pcur_get_rec(r_cursor);
}
if (add_latch) {
rw_lock_s_unlock(&block->lock);
}
ut_ad(!page_rec_is_supremum(node_ptr));
}
ut_ad(page_mode == search_mode
|| (page_mode == PAGE_CUR_WITHIN
&& search_mode == PAGE_CUR_RTREE_LOCATE));
page_mode = search_mode;
}
/* If the first or the last record of the page
or the same key value to the first record or last record,
the another page might be choosen when BTR_CONT_MODIFY_TREE.
So, the parent page should not released to avoiding deadlock
with blocking the another search with the same key value. */
if (!detected_same_key_root
&& lock_intention == BTR_INTENTION_BOTH
&& !dict_index_is_unique(index)
&& latch_mode == BTR_MODIFY_TREE
&& (up_match >= rec_offs_n_fields(offsets) - 1
|| low_match >= rec_offs_n_fields(offsets) - 1)) {
const rec_t* first_rec = page_rec_get_next_const(
page_get_infimum_rec(page));
ulint matched_fields;
ut_ad(upper_rw_latch == RW_X_LATCH);
if (node_ptr == first_rec
|| page_rec_is_last(node_ptr, page)) {
detected_same_key_root = true;
} else {
matched_fields = 0;
offsets2 = rec_get_offsets(
first_rec, index, offsets2,
false, ULINT_UNDEFINED, &heap);
cmp_rec_rec_with_match(node_ptr, first_rec,
offsets, offsets2, index, FALSE,
&matched_fields);
if (matched_fields
>= rec_offs_n_fields(offsets) - 1) {
detected_same_key_root = true;
} else {
const rec_t* last_rec;
last_rec = page_rec_get_prev_const(
page_get_supremum_rec(page));
matched_fields = 0;
offsets2 = rec_get_offsets(
last_rec, index, offsets2,
false, ULINT_UNDEFINED, &heap);
cmp_rec_rec_with_match(
node_ptr, last_rec,
offsets, offsets2, index,
FALSE, &matched_fields);
if (matched_fields
>= rec_offs_n_fields(offsets) - 1) {
detected_same_key_root = true;
}
}
}
}
/* If the page might cause modify_tree,
we should not release the parent page's lock. */
if (!detected_same_key_root
&& latch_mode == BTR_MODIFY_TREE
&& !btr_cur_will_modify_tree(
index, page, lock_intention, node_ptr,
node_ptr_max_size, page_size, mtr)
&& !rtree_parent_modified) {
ut_ad(upper_rw_latch == RW_X_LATCH);
ut_ad(n_releases <= n_blocks);
/* we can release upper blocks */
for (; n_releases < n_blocks; n_releases++) {
if (n_releases == 0) {
/* we should not release root page
to pin to same block. */
continue;
}
/* release unused blocks to unpin */
mtr_release_block_at_savepoint(
mtr, tree_savepoints[n_releases],
tree_blocks[n_releases]);
}
}
if (height == level
&& latch_mode == BTR_MODIFY_TREE) {
ut_ad(upper_rw_latch == RW_X_LATCH);
/* we should sx-latch root page, if released already.
It contains seg_header. */
if (n_releases > 0) {
mtr_block_sx_latch_at_savepoint(
mtr, tree_savepoints[0],
tree_blocks[0]);
}
/* x-latch the branch blocks not released yet. */
for (ulint i = n_releases; i <= n_blocks; i++) {
mtr_block_x_latch_at_savepoint(
mtr, tree_savepoints[i],
tree_blocks[i]);
}
}
/* We should consider prev_page of parent page, if the node_ptr
is the leftmost of the page. because BTR_SEARCH_PREV and
BTR_MODIFY_PREV latches prev_page of the leaf page. */
if ((latch_mode == BTR_SEARCH_PREV
|| latch_mode == BTR_MODIFY_PREV)
&& !retrying_for_search_prev) {
/* block should be latched for consistent
btr_page_get_prev() */
ut_ad(mtr_memo_contains_flagged(mtr, block,
MTR_MEMO_PAGE_S_FIX
| MTR_MEMO_PAGE_X_FIX));
if (page_has_prev(page)
&& page_rec_is_first(node_ptr, page)) {
if (leftmost_from_level == 0) {
leftmost_from_level = height + 1;
}
} else {
leftmost_from_level = 0;
}
if (height == 0 && leftmost_from_level > 0) {
/* should retry to get also prev_page
from level==leftmost_from_level. */
retrying_for_search_prev = true;
prev_tree_blocks = static_cast<buf_block_t**>(
ut_malloc_nokey(sizeof(buf_block_t*)
* leftmost_from_level));
prev_tree_savepoints = static_cast<ulint*>(
ut_malloc_nokey(sizeof(ulint)
* leftmost_from_level));
/* back to the level (leftmost_from_level+1) */
ulint idx = n_blocks
- (leftmost_from_level - 1);
page_id.set_page_no(
tree_blocks[idx]->page.id.page_no());
for (ulint i = n_blocks
- (leftmost_from_level - 1);
i <= n_blocks; i++) {
mtr_release_block_at_savepoint(
mtr, tree_savepoints[i],
tree_blocks[i]);
}
n_blocks -= (leftmost_from_level - 1);
height = leftmost_from_level;
ut_ad(n_releases == 0);
/* replay up_match, low_match */
up_match = 0;
low_match = 0;
rtr_info_t* rtr_info = need_path
? cursor->rtr_info : NULL;
for (ulint i = 0; i < n_blocks; i++) {
page_cur_search_with_match(
tree_blocks[i], index, tuple,
page_mode, &up_match,
&low_match, page_cursor,
rtr_info);
}
goto search_loop;
}
}
/* Go to the child node */
page_id.set_page_no(
btr_node_ptr_get_child_page_no(node_ptr, offsets));
n_blocks++;
if (UNIV_UNLIKELY(height == 0 && dict_index_is_ibuf(index))) {
/* We're doing a search on an ibuf tree and we're one
level above the leaf page. */
ut_ad(level == 0);
buf_mode = BUF_GET;
rw_latch = RW_NO_LATCH;
goto retry_page_get;
}
if (dict_index_is_spatial(index)
&& page_mode >= PAGE_CUR_CONTAIN
&& page_mode != PAGE_CUR_RTREE_INSERT) {
ut_ad(need_path);
rtr_node_path_t* path =
cursor->rtr_info->path;
if (!path->empty() && found) {
ut_ad(path->back().page_no
== page_id.page_no());
path->pop_back();
#ifdef UNIV_DEBUG
if (page_mode == PAGE_CUR_RTREE_LOCATE
&& (latch_mode != BTR_MODIFY_LEAF)) {
btr_pcur_t* cur
= cursor->rtr_info->parent_path->back(
).cursor;
rec_t* my_node_ptr
= btr_pcur_get_rec(cur);
offsets = rec_get_offsets(
my_node_ptr, index, offsets,
false, ULINT_UNDEFINED, &heap);
ulint my_page_no
= btr_node_ptr_get_child_page_no(
my_node_ptr, offsets);
ut_ad(page_id.page_no() == my_page_no);
}
#endif
}
}
goto search_loop;
} else if (!dict_index_is_spatial(index)
&& latch_mode == BTR_MODIFY_TREE
&& lock_intention == BTR_INTENTION_INSERT
&& page_has_next(page)
&& page_rec_is_last(page_cur_get_rec(page_cursor), page)) {
/* btr_insert_into_right_sibling() might cause
deleting node_ptr at upper level */
guess = NULL;
if (height == 0) {
/* release the leaf pages if latched */
for (uint i = 0; i < 3; i++) {
if (latch_leaves.blocks[i] != NULL) {
mtr_release_block_at_savepoint(
mtr, latch_leaves.savepoints[i],
latch_leaves.blocks[i]);
latch_leaves.blocks[i] = NULL;
}
}
}
goto need_opposite_intention;
}
if (level != 0) {
ut_ad(!autoinc);
if (upper_rw_latch == RW_NO_LATCH) {
/* latch the page */
buf_block_t* child_block;
if (latch_mode == BTR_CONT_MODIFY_TREE) {
child_block = btr_block_get(
page_id, page_size, RW_X_LATCH,
index, mtr);
} else {
ut_ad(latch_mode == BTR_CONT_SEARCH_TREE);
child_block = btr_block_get(
page_id, page_size, RW_SX_LATCH,
index, mtr);
}
btr_assert_not_corrupted(child_block, index);
} else {
ut_ad(mtr_memo_contains(mtr, block, upper_rw_latch));
btr_assert_not_corrupted(block, index);
if (s_latch_by_caller) {
ut_ad(latch_mode == BTR_SEARCH_TREE);
/* to exclude modifying tree operations
should sx-latch the index. */
ut_ad(mtr_memo_contains(
mtr, dict_index_get_lock(index),
MTR_MEMO_SX_LOCK));
/* because has sx-latch of index,
can release upper blocks. */
for (; n_releases < n_blocks; n_releases++) {
mtr_release_block_at_savepoint(
mtr,
tree_savepoints[n_releases],
tree_blocks[n_releases]);
}
}
}
if (page_mode <= PAGE_CUR_LE) {
cursor->low_match = low_match;
cursor->up_match = up_match;
}
} else {
cursor->low_match = low_match;
cursor->low_bytes = low_bytes;
cursor->up_match = up_match;
cursor->up_bytes = up_bytes;
if (autoinc) {
page_set_autoinc(tree_blocks[0],
index, autoinc, mtr, false);
}
#ifdef BTR_CUR_HASH_ADAPT
/* We do a dirty read of btr_search_enabled here. We
will properly check btr_search_enabled again in
btr_search_build_page_hash_index() before building a
page hash index, while holding search latch. */
if (!btr_search_enabled) {
# ifdef MYSQL_INDEX_DISABLE_AHI
} else if (index->disable_ahi) {
# endif
} else if (tuple->info_bits & REC_INFO_MIN_REC_FLAG) {
ut_ad(index->is_instant());
/* This may be a search tuple for
btr_pcur_restore_position(). */
ut_ad(tuple->info_bits == REC_INFO_DEFAULT_ROW
|| tuple->info_bits == REC_INFO_MIN_REC_FLAG);
} else if (rec_is_default_row(btr_cur_get_rec(cursor),
index)) {
/* Only user records belong in the adaptive
hash index. */
} else {
btr_search_info_update(index, cursor);
}
#endif /* BTR_CUR_HASH_ADAPT */
ut_ad(cursor->up_match != ULINT_UNDEFINED
|| mode != PAGE_CUR_GE);
ut_ad(cursor->up_match != ULINT_UNDEFINED
|| mode != PAGE_CUR_LE);
ut_ad(cursor->low_match != ULINT_UNDEFINED
|| mode != PAGE_CUR_LE);
}
/* For spatial index, remember what blocks are still latched */
if (dict_index_is_spatial(index)
&& (latch_mode == BTR_MODIFY_TREE
|| latch_mode == BTR_MODIFY_LEAF)) {
for (ulint i = 0; i < n_releases; i++) {
cursor->rtr_info->tree_blocks[i] = NULL;
cursor->rtr_info->tree_savepoints[i] = 0;
}
for (ulint i = n_releases; i <= n_blocks; i++) {
cursor->rtr_info->tree_blocks[i] = tree_blocks[i];
cursor->rtr_info->tree_savepoints[i] = tree_savepoints[i];
}
}
func_exit:
if (UNIV_LIKELY_NULL(heap)) {
mem_heap_free(heap);
}
if (retrying_for_search_prev) {
ut_free(prev_tree_blocks);
ut_free(prev_tree_savepoints);
}
if (mbr_adj) {
/* remember that we will need to adjust parent MBR */
cursor->rtr_info->mbr_adj = true;
}
#ifdef BTR_CUR_HASH_ADAPT
if (ahi_latch) {
rw_lock_s_lock(ahi_latch);
}
#endif /* BTR_CUR_HASH_ADAPT */
DBUG_RETURN(err);
}
/*****************************************************************//**
Opens a cursor at either end of an index. */
dberr_t
btr_cur_open_at_index_side_func(
/*============================*/
bool from_left, /*!< in: true if open to the low end,
false if to the high end */
dict_index_t* index, /*!< in: index */
ulint latch_mode, /*!< in: latch mode */
btr_cur_t* cursor, /*!< in/out: cursor */
ulint level, /*!< in: level to search for
(0=leaf). */
const char* file, /*!< in: file name */
unsigned line, /*!< in: line where called */
mtr_t* mtr) /*!< in/out: mini-transaction */
{
page_cur_t* page_cursor;
ulint node_ptr_max_size = srv_page_size / 2;
ulint height;
ulint root_height = 0; /* remove warning */
rec_t* node_ptr;
ulint estimate;
ulint savepoint;
ulint upper_rw_latch, root_leaf_rw_latch;
btr_intention_t lock_intention;
buf_block_t* tree_blocks[BTR_MAX_LEVELS];
ulint tree_savepoints[BTR_MAX_LEVELS];
ulint n_blocks = 0;
ulint n_releases = 0;
mem_heap_t* heap = NULL;
ulint offsets_[REC_OFFS_NORMAL_SIZE];
ulint* offsets = offsets_;
dberr_t err = DB_SUCCESS;
rec_offs_init(offsets_);
estimate = latch_mode & BTR_ESTIMATE;
latch_mode &= ulint(~BTR_ESTIMATE);
ut_ad(level != ULINT_UNDEFINED);
bool s_latch_by_caller;
s_latch_by_caller = latch_mode & BTR_ALREADY_S_LATCHED;
latch_mode &= ulint(~BTR_ALREADY_S_LATCHED);
lock_intention = btr_cur_get_and_clear_intention(&latch_mode);
ut_ad(!(latch_mode & BTR_MODIFY_EXTERNAL));
/* This function doesn't need to lock left page of the leaf page */
if (latch_mode == BTR_SEARCH_PREV) {
latch_mode = BTR_SEARCH_LEAF;
} else if (latch_mode == BTR_MODIFY_PREV) {
latch_mode = BTR_MODIFY_LEAF;
}
/* Store the position of the tree latch we push to mtr so that we
know how to release it when we have latched the leaf node */
savepoint = mtr_set_savepoint(mtr);
switch (latch_mode) {
case BTR_CONT_MODIFY_TREE:
case BTR_CONT_SEARCH_TREE:
upper_rw_latch = RW_NO_LATCH;
break;
case BTR_MODIFY_TREE:
/* Most of delete-intended operations are purging.
Free blocks and read IO bandwidth should be prior
for them, when the history list is glowing huge. */
if (lock_intention == BTR_INTENTION_DELETE
&& trx_sys.history_size() > BTR_CUR_FINE_HISTORY_LENGTH
&& buf_get_n_pending_read_ios()) {
mtr_x_lock(dict_index_get_lock(index), mtr);
} else {
mtr_sx_lock(dict_index_get_lock(index), mtr);
}
upper_rw_latch = RW_X_LATCH;
break;
default:
ut_ad(!s_latch_by_caller
|| mtr_memo_contains_flagged(mtr,
dict_index_get_lock(index),
MTR_MEMO_SX_LOCK
| MTR_MEMO_S_LOCK));
if (!srv_read_only_mode) {
if (!s_latch_by_caller) {
/* BTR_SEARCH_TREE is intended to be used with
BTR_ALREADY_S_LATCHED */
ut_ad(latch_mode != BTR_SEARCH_TREE);
mtr_s_lock(dict_index_get_lock(index), mtr);
}
upper_rw_latch = RW_S_LATCH;
} else {
upper_rw_latch = RW_NO_LATCH;
}
}
root_leaf_rw_latch = btr_cur_latch_for_root_leaf(latch_mode);
page_cursor = btr_cur_get_page_cur(cursor);
cursor->index = index;
page_id_t page_id(index->table->space->id, index->page);
const page_size_t page_size(index->table->space->flags);
if (root_leaf_rw_latch == RW_X_LATCH) {
node_ptr_max_size = dict_index_node_ptr_max_size(index);
}
height = ULINT_UNDEFINED;
for (;;) {
buf_block_t* block;
ulint rw_latch;
ut_ad(n_blocks < BTR_MAX_LEVELS);
if (height != 0
&& (latch_mode != BTR_MODIFY_TREE
|| height == level)) {
rw_latch = upper_rw_latch;
} else {
rw_latch = RW_NO_LATCH;
}
tree_savepoints[n_blocks] = mtr_set_savepoint(mtr);
block = buf_page_get_gen(page_id, page_size, rw_latch, NULL,
BUF_GET, file, line, mtr, &err);
ut_ad((block != NULL) == (err == DB_SUCCESS));
tree_blocks[n_blocks] = block;
if (err != DB_SUCCESS) {
if (err == DB_DECRYPTION_FAILED) {
ib_push_warning((void *)NULL,
DB_DECRYPTION_FAILED,
"Table %s is encrypted but encryption service or"
" used key_id is not available. "
" Can't continue reading table.",
index->table->name);
index->table->file_unreadable = true;
}
goto exit_loop;
}
const page_t* page = buf_block_get_frame(block);
if (height == ULINT_UNDEFINED
&& page_is_leaf(page)
&& rw_latch != RW_NO_LATCH
&& rw_latch != root_leaf_rw_latch) {
/* We should retry to get the page, because the root page
is latched with different level as a leaf page. */
ut_ad(root_leaf_rw_latch != RW_NO_LATCH);
ut_ad(rw_latch == RW_S_LATCH);
ut_ad(n_blocks == 0);
mtr_release_block_at_savepoint(
mtr, tree_savepoints[n_blocks],
tree_blocks[n_blocks]);
upper_rw_latch = root_leaf_rw_latch;
continue;
}
ut_ad(fil_page_index_page_check(page));
ut_ad(index->id == btr_page_get_index_id(page));
if (height == ULINT_UNDEFINED) {
/* We are in the root node */
height = btr_page_get_level(page);
root_height = height;
ut_a(height >= level);
} else {
/* TODO: flag the index corrupted if this fails */
ut_ad(height == btr_page_get_level(page));
}
if (height == level) {
if (srv_read_only_mode) {
btr_cur_latch_leaves(
block, page_id, page_size,
latch_mode, cursor, mtr);
} else if (height == 0) {
if (rw_latch == RW_NO_LATCH) {
btr_cur_latch_leaves(
block, page_id, page_size,
latch_mode, cursor, mtr);
}
/* In versions <= 3.23.52 we had
forgotten to release the tree latch
here. If in an index scan we had to
scan far to find a record visible to
the current transaction, that could
starve others waiting for the tree
latch. */
switch (latch_mode) {
case BTR_MODIFY_TREE:
case BTR_CONT_MODIFY_TREE:
case BTR_CONT_SEARCH_TREE:
break;
default:
if (!s_latch_by_caller) {
/* Release the tree s-latch */
mtr_release_s_latch_at_savepoint(
mtr, savepoint,
dict_index_get_lock(
index));
}
/* release upper blocks */
for (; n_releases < n_blocks;
n_releases++) {
mtr_release_block_at_savepoint(
mtr,
tree_savepoints[
n_releases],
tree_blocks[
n_releases]);
}
}
} else { /* height != 0 */
/* We already have the block latched. */
ut_ad(latch_mode == BTR_SEARCH_TREE);
ut_ad(s_latch_by_caller);
ut_ad(upper_rw_latch == RW_S_LATCH);
ut_ad(mtr_memo_contains(mtr, block,
upper_rw_latch));
if (s_latch_by_caller) {
/* to exclude modifying tree operations
should sx-latch the index. */
ut_ad(mtr_memo_contains(
mtr,
dict_index_get_lock(index),
MTR_MEMO_SX_LOCK));
/* because has sx-latch of index,
can release upper blocks. */
for (; n_releases < n_blocks;
n_releases++) {
mtr_release_block_at_savepoint(
mtr,
tree_savepoints[
n_releases],
tree_blocks[
n_releases]);
}
}
}
}
if (from_left) {
page_cur_set_before_first(block, page_cursor);
} else {
page_cur_set_after_last(block, page_cursor);
}
if (height == level) {
if (estimate) {
btr_cur_add_path_info(cursor, height,
root_height);
}
break;
}
ut_ad(height > 0);
if (from_left) {
page_cur_move_to_next(page_cursor);
} else {
page_cur_move_to_prev(page_cursor);
}
if (estimate) {
btr_cur_add_path_info(cursor, height, root_height);
}
height--;
node_ptr = page_cur_get_rec(page_cursor);
offsets = rec_get_offsets(node_ptr, cursor->index, offsets,
false, ULINT_UNDEFINED, &heap);
/* If the rec is the first or last in the page for
pessimistic delete intention, it might cause node_ptr insert
for the upper level. We should change the intention and retry.
*/
if (latch_mode == BTR_MODIFY_TREE
&& btr_cur_need_opposite_intention(
page, lock_intention, node_ptr)) {
ut_ad(upper_rw_latch == RW_X_LATCH);
/* release all blocks */
for (; n_releases <= n_blocks; n_releases++) {
mtr_release_block_at_savepoint(
mtr, tree_savepoints[n_releases],
tree_blocks[n_releases]);
}
lock_intention = BTR_INTENTION_BOTH;
page_id.set_page_no(dict_index_get_page(index));
height = ULINT_UNDEFINED;
n_blocks = 0;
n_releases = 0;
continue;
}
if (latch_mode == BTR_MODIFY_TREE
&& !btr_cur_will_modify_tree(
cursor->index, page, lock_intention, node_ptr,
node_ptr_max_size, page_size, mtr)) {
ut_ad(upper_rw_latch == RW_X_LATCH);
ut_ad(n_releases <= n_blocks);
/* we can release upper blocks */
for (; n_releases < n_blocks; n_releases++) {
if (n_releases == 0) {
/* we should not release root page
to pin to same block. */
continue;
}
/* release unused blocks to unpin */
mtr_release_block_at_savepoint(
mtr, tree_savepoints[n_releases],
tree_blocks[n_releases]);
}
}
if (height == level
&& latch_mode == BTR_MODIFY_TREE) {
ut_ad(upper_rw_latch == RW_X_LATCH);
/* we should sx-latch root page, if released already.
It contains seg_header. */
if (n_releases > 0) {
mtr_block_sx_latch_at_savepoint(
mtr, tree_savepoints[0],
tree_blocks[0]);
}
/* x-latch the branch blocks not released yet. */
for (ulint i = n_releases; i <= n_blocks; i++) {
mtr_block_x_latch_at_savepoint(
mtr, tree_savepoints[i],
tree_blocks[i]);
}
}
/* Go to the child node */
page_id.set_page_no(
btr_node_ptr_get_child_page_no(node_ptr, offsets));
n_blocks++;
}
exit_loop:
if (heap) {
mem_heap_free(heap);
}
return err;
}
/**********************************************************************//**
Positions a cursor at a randomly chosen position within a B-tree.
@return true if the index is available and we have put the cursor, false
if the index is unavailable */
bool
btr_cur_open_at_rnd_pos_func(
/*=========================*/
dict_index_t* index, /*!< in: index */
ulint latch_mode, /*!< in: BTR_SEARCH_LEAF, ... */
btr_cur_t* cursor, /*!< in/out: B-tree cursor */
const char* file, /*!< in: file name */
unsigned line, /*!< in: line where called */
mtr_t* mtr) /*!< in: mtr */
{
page_cur_t* page_cursor;
ulint node_ptr_max_size = srv_page_size / 2;
ulint height;
rec_t* node_ptr;
ulint savepoint;
ulint upper_rw_latch, root_leaf_rw_latch;
btr_intention_t lock_intention;
buf_block_t* tree_blocks[BTR_MAX_LEVELS];
ulint tree_savepoints[BTR_MAX_LEVELS];
ulint n_blocks = 0;
ulint n_releases = 0;
mem_heap_t* heap = NULL;
ulint offsets_[REC_OFFS_NORMAL_SIZE];
ulint* offsets = offsets_;
rec_offs_init(offsets_);
ut_ad(!dict_index_is_spatial(index));
lock_intention = btr_cur_get_and_clear_intention(&latch_mode);
ut_ad(!(latch_mode & BTR_MODIFY_EXTERNAL));
savepoint = mtr_set_savepoint(mtr);
switch (latch_mode) {
case BTR_MODIFY_TREE:
/* Most of delete-intended operations are purging.
Free blocks and read IO bandwidth should be prior
for them, when the history list is glowing huge. */
if (lock_intention == BTR_INTENTION_DELETE
&& trx_sys.history_size() > BTR_CUR_FINE_HISTORY_LENGTH
&& buf_get_n_pending_read_ios()) {
mtr_x_lock(dict_index_get_lock(index), mtr);
} else {
mtr_sx_lock(dict_index_get_lock(index), mtr);
}
upper_rw_latch = RW_X_LATCH;
break;
case BTR_SEARCH_PREV:
case BTR_MODIFY_PREV:
/* This function doesn't support left uncle
page lock for left leaf page lock, when
needed. */
case BTR_SEARCH_TREE:
case BTR_CONT_MODIFY_TREE:
case BTR_CONT_SEARCH_TREE:
ut_ad(0);
/* fall through */
default:
if (!srv_read_only_mode) {
mtr_s_lock(dict_index_get_lock(index), mtr);
upper_rw_latch = RW_S_LATCH;
} else {
upper_rw_latch = RW_NO_LATCH;
}
}
DBUG_EXECUTE_IF("test_index_is_unavailable",
return(false););
if (index->page == FIL_NULL) {
/* Since we don't hold index lock until just now, the index
could be modified by others, for example, if this is a
statistics updater for referenced table, it could be marked
as unavailable by 'DROP TABLE' in the mean time, since
we don't hold lock for statistics updater */
return(false);
}
root_leaf_rw_latch = btr_cur_latch_for_root_leaf(latch_mode);
page_cursor = btr_cur_get_page_cur(cursor);
cursor->index = index;
page_id_t page_id(index->table->space->id, index->page);
const page_size_t page_size(index->table->space->flags);
dberr_t err = DB_SUCCESS;
if (root_leaf_rw_latch == RW_X_LATCH) {
node_ptr_max_size = dict_index_node_ptr_max_size(index);
}
height = ULINT_UNDEFINED;
for (;;) {
buf_block_t* block;
page_t* page;
ulint rw_latch;
ut_ad(n_blocks < BTR_MAX_LEVELS);
if (height != 0
&& latch_mode != BTR_MODIFY_TREE) {
rw_latch = upper_rw_latch;
} else {
rw_latch = RW_NO_LATCH;
}
tree_savepoints[n_blocks] = mtr_set_savepoint(mtr);
block = buf_page_get_gen(page_id, page_size, rw_latch, NULL,
BUF_GET, file, line, mtr, &err);
tree_blocks[n_blocks] = block;
ut_ad((block != NULL) == (err == DB_SUCCESS));
if (err != DB_SUCCESS) {
if (err == DB_DECRYPTION_FAILED) {
ib_push_warning((void *)NULL,
DB_DECRYPTION_FAILED,
"Table %s is encrypted but encryption service or"
" used key_id is not available. "
" Can't continue reading table.",
index->table->name);
index->table->file_unreadable = true;
}
goto exit_loop;
}
page = buf_block_get_frame(block);
if (height == ULINT_UNDEFINED
&& page_is_leaf(page)
&& rw_latch != RW_NO_LATCH
&& rw_latch != root_leaf_rw_latch) {
/* We should retry to get the page, because the root page
is latched with different level as a leaf page. */
ut_ad(root_leaf_rw_latch != RW_NO_LATCH);
ut_ad(rw_latch == RW_S_LATCH);
ut_ad(n_blocks == 0);
mtr_release_block_at_savepoint(
mtr, tree_savepoints[n_blocks],
tree_blocks[n_blocks]);
upper_rw_latch = root_leaf_rw_latch;
continue;
}
ut_ad(fil_page_index_page_check(page));
ut_ad(index->id == btr_page_get_index_id(page));
if (height == ULINT_UNDEFINED) {
/* We are in the root node */
height = btr_page_get_level(page);
}
if (height == 0) {
if (rw_latch == RW_NO_LATCH
|| srv_read_only_mode) {
btr_cur_latch_leaves(
block, page_id, page_size,
latch_mode, cursor, mtr);
}
/* btr_cur_open_at_index_side_func() and
btr_cur_search_to_nth_level() release
tree s-latch here.*/
switch (latch_mode) {
case BTR_MODIFY_TREE:
case BTR_CONT_MODIFY_TREE:
case BTR_CONT_SEARCH_TREE:
break;
default:
/* Release the tree s-latch */
if (!srv_read_only_mode) {
mtr_release_s_latch_at_savepoint(
mtr, savepoint,
dict_index_get_lock(index));
}
/* release upper blocks */
for (; n_releases < n_blocks; n_releases++) {
mtr_release_block_at_savepoint(
mtr,
tree_savepoints[n_releases],
tree_blocks[n_releases]);
}
}
}
page_cur_open_on_rnd_user_rec(block, page_cursor);
if (height == 0) {
break;
}
ut_ad(height > 0);
height--;
node_ptr = page_cur_get_rec(page_cursor);
offsets = rec_get_offsets(node_ptr, cursor->index, offsets,
false, ULINT_UNDEFINED, &heap);
/* If the rec is the first or last in the page for
pessimistic delete intention, it might cause node_ptr insert
for the upper level. We should change the intention and retry.
*/
if (latch_mode == BTR_MODIFY_TREE
&& btr_cur_need_opposite_intention(
page, lock_intention, node_ptr)) {
ut_ad(upper_rw_latch == RW_X_LATCH);
/* release all blocks */
for (; n_releases <= n_blocks; n_releases++) {
mtr_release_block_at_savepoint(
mtr, tree_savepoints[n_releases],
tree_blocks[n_releases]);
}
lock_intention = BTR_INTENTION_BOTH;
page_id.set_page_no(dict_index_get_page(index));
height = ULINT_UNDEFINED;
n_blocks = 0;
n_releases = 0;
continue;
}
if (latch_mode == BTR_MODIFY_TREE
&& !btr_cur_will_modify_tree(
cursor->index, page, lock_intention, node_ptr,
node_ptr_max_size, page_size, mtr)) {
ut_ad(upper_rw_latch == RW_X_LATCH);
ut_ad(n_releases <= n_blocks);
/* we can release upper blocks */
for (; n_releases < n_blocks; n_releases++) {
if (n_releases == 0) {
/* we should not release root page
to pin to same block. */
continue;
}
/* release unused blocks to unpin */
mtr_release_block_at_savepoint(
mtr, tree_savepoints[n_releases],
tree_blocks[n_releases]);
}
}
if (height == 0
&& latch_mode == BTR_MODIFY_TREE) {
ut_ad(upper_rw_latch == RW_X_LATCH);
/* we should sx-latch root page, if released already.
It contains seg_header. */
if (n_releases > 0) {
mtr_block_sx_latch_at_savepoint(
mtr, tree_savepoints[0],
tree_blocks[0]);
}
/* x-latch the branch blocks not released yet. */
for (ulint i = n_releases; i <= n_blocks; i++) {
mtr_block_x_latch_at_savepoint(
mtr, tree_savepoints[i],
tree_blocks[i]);
}
}
/* Go to the child node */
page_id.set_page_no(
btr_node_ptr_get_child_page_no(node_ptr, offsets));
n_blocks++;
}
exit_loop:
if (UNIV_LIKELY_NULL(heap)) {
mem_heap_free(heap);
}
return(true);
}
/*==================== B-TREE INSERT =========================*/
/*************************************************************//**
Inserts a record if there is enough space, or if enough space can
be freed by reorganizing. Differs from btr_cur_optimistic_insert because
no heuristics is applied to whether it pays to use CPU time for
reorganizing the page or not.
IMPORTANT: The caller will have to update IBUF_BITMAP_FREE
if this is a compressed leaf page in a secondary index.
This has to be done either within the same mini-transaction,
or by invoking ibuf_reset_free_bits() before mtr_commit().
@return pointer to inserted record if succeed, else NULL */
static MY_ATTRIBUTE((nonnull, warn_unused_result))
rec_t*
btr_cur_insert_if_possible(
/*=======================*/
btr_cur_t* cursor, /*!< in: cursor on page after which to insert;
cursor stays valid */
const dtuple_t* tuple, /*!< in: tuple to insert; the size info need not
have been stored to tuple */
ulint** offsets,/*!< out: offsets on *rec */
mem_heap_t** heap, /*!< in/out: pointer to memory heap, or NULL */
ulint n_ext, /*!< in: number of externally stored columns */
mtr_t* mtr) /*!< in/out: mini-transaction */
{
page_cur_t* page_cursor;
rec_t* rec;
ut_ad(dtuple_check_typed(tuple));
ut_ad(mtr_is_block_fix(
mtr, btr_cur_get_block(cursor),
MTR_MEMO_PAGE_X_FIX, cursor->index->table));
page_cursor = btr_cur_get_page_cur(cursor);
/* Now, try the insert */
rec = page_cur_tuple_insert(page_cursor, tuple, cursor->index,
offsets, heap, n_ext, mtr);
/* If the record did not fit, reorganize.
For compressed pages, page_cur_tuple_insert()
attempted this already. */
if (!rec && !page_cur_get_page_zip(page_cursor)
&& btr_page_reorganize(page_cursor, cursor->index, mtr)) {
rec = page_cur_tuple_insert(
page_cursor, tuple, cursor->index,
offsets, heap, n_ext, mtr);
}
ut_ad(!rec || rec_offs_validate(rec, cursor->index, *offsets));
return(rec);
}
/*************************************************************//**
For an insert, checks the locks and does the undo logging if desired.
@return DB_SUCCESS, DB_WAIT_LOCK, DB_FAIL, or error number */
UNIV_INLINE MY_ATTRIBUTE((warn_unused_result, nonnull(2,3,5,6)))
dberr_t
btr_cur_ins_lock_and_undo(
/*======================*/
ulint flags, /*!< in: undo logging and locking flags: if
not zero, the parameters index and thr
should be specified */
btr_cur_t* cursor, /*!< in: cursor on page after which to insert */
dtuple_t* entry, /*!< in/out: entry to insert */
que_thr_t* thr, /*!< in: query thread or NULL */
mtr_t* mtr, /*!< in/out: mini-transaction */
bool* inherit)/*!< out: true if the inserted new record maybe
should inherit LOCK_GAP type locks from the
successor record */
{
dict_index_t* index;
dberr_t err = DB_SUCCESS;
rec_t* rec;
roll_ptr_t roll_ptr;
/* Check if we have to wait for a lock: enqueue an explicit lock
request if yes */
rec = btr_cur_get_rec(cursor);
index = cursor->index;
ut_ad(!dict_index_is_online_ddl(index)
|| dict_index_is_clust(index)
|| (flags & BTR_CREATE_FLAG));
ut_ad(mtr->is_named_space(index->table->space));
/* Check if there is predicate or GAP lock preventing the insertion */
if (!(flags & BTR_NO_LOCKING_FLAG)) {
if (dict_index_is_spatial(index)) {
lock_prdt_t prdt;
rtr_mbr_t mbr;
rtr_get_mbr_from_tuple(entry, &mbr);
/* Use on stack MBR variable to test if a lock is
needed. If so, the predicate (MBR) will be allocated
from lock heap in lock_prdt_insert_check_and_lock() */
lock_init_prdt_from_mbr(
&prdt, &mbr, 0, NULL);
err = lock_prdt_insert_check_and_lock(
flags, rec, btr_cur_get_block(cursor),
index, thr, mtr, &prdt);
*inherit = false;
} else {
err = lock_rec_insert_check_and_lock(
flags, rec, btr_cur_get_block(cursor),
index, thr, mtr, inherit);
}
}
if (err != DB_SUCCESS
|| !(~flags | (BTR_NO_UNDO_LOG_FLAG | BTR_KEEP_SYS_FLAG))
|| !dict_index_is_clust(index) || dict_index_is_ibuf(index)) {
return(err);
}
if (flags & BTR_NO_UNDO_LOG_FLAG) {
roll_ptr = roll_ptr_t(1) << ROLL_PTR_INSERT_FLAG_POS;
if (!(flags & BTR_KEEP_SYS_FLAG)) {
upd_sys:
row_upd_index_entry_sys_field(entry, index,
DATA_ROLL_PTR, roll_ptr);
}
} else {
err = trx_undo_report_row_operation(thr, index, entry,
NULL, 0, NULL, NULL,
&roll_ptr);
if (err == DB_SUCCESS) {
goto upd_sys;
}
}
return(err);
}
/**
Prefetch siblings of the leaf for the pessimistic operation.
@param block leaf page */
static
void
btr_cur_prefetch_siblings(
buf_block_t* block)
{
page_t* page = buf_block_get_frame(block);
ut_ad(page_is_leaf(page));
ulint left_page_no = fil_page_get_prev(page);
ulint right_page_no = fil_page_get_next(page);
if (left_page_no != FIL_NULL) {
buf_read_page_background(
page_id_t(block->page.id.space(), left_page_no),
block->page.size, false);
}
if (right_page_no != FIL_NULL) {
buf_read_page_background(
page_id_t(block->page.id.space(), right_page_no),
block->page.size, false);
}
if (left_page_no != FIL_NULL
|| right_page_no != FIL_NULL) {
os_aio_simulated_wake_handler_threads();
}
}
/*************************************************************//**
Tries to perform an insert to a page in an index tree, next to cursor.
It is assumed that mtr holds an x-latch on the page. The operation does
not succeed if there is too little space on the page. If there is just
one record on the page, the insert will always succeed; this is to
prevent trying to split a page with just one record.
@return DB_SUCCESS, DB_WAIT_LOCK, DB_FAIL, or error number */
dberr_t
btr_cur_optimistic_insert(
/*======================*/
ulint flags, /*!< in: undo logging and locking flags: if not
zero, the parameters index and thr should be
specified */
btr_cur_t* cursor, /*!< in: cursor on page after which to insert;
cursor stays valid */
ulint** offsets,/*!< out: offsets on *rec */
mem_heap_t** heap, /*!< in/out: pointer to memory heap */
dtuple_t* entry, /*!< in/out: entry to insert */
rec_t** rec, /*!< out: pointer to inserted record if
succeed */
big_rec_t** big_rec,/*!< out: big rec vector whose fields have to
be stored externally by the caller */
ulint n_ext, /*!< in: number of externally stored columns */
que_thr_t* thr, /*!< in/out: query thread; can be NULL if
!(~flags
& (BTR_NO_LOCKING_FLAG
| BTR_NO_UNDO_LOG_FLAG)) */
mtr_t* mtr) /*!< in/out: mini-transaction;
if this function returns DB_SUCCESS on
a leaf page of a secondary index in a
compressed tablespace, the caller must
mtr_commit(mtr) before latching
any further pages */
{
big_rec_t* big_rec_vec = NULL;
dict_index_t* index;
page_cur_t* page_cursor;
buf_block_t* block;
page_t* page;
rec_t* dummy;
bool leaf;
bool reorg;
bool inherit = true;
ulint rec_size;
dberr_t err;
ut_ad(thr || !(~flags & (BTR_NO_LOCKING_FLAG | BTR_NO_UNDO_LOG_FLAG)));
*big_rec = NULL;
block = btr_cur_get_block(cursor);
page = buf_block_get_frame(block);
index = cursor->index;
ut_ad(mtr_is_block_fix(mtr, block, MTR_MEMO_PAGE_X_FIX, index->table));
ut_ad(!dict_index_is_online_ddl(index)
|| dict_index_is_clust(index)
|| (flags & BTR_CREATE_FLAG));
ut_ad(dtuple_check_typed(entry));
const page_size_t& page_size = block->page.size;
#ifdef UNIV_DEBUG_VALGRIND
if (page_size.is_compressed()) {
UNIV_MEM_ASSERT_RW(page, page_size.logical());
UNIV_MEM_ASSERT_RW(block->page.zip.data, page_size.physical());
}
#endif /* UNIV_DEBUG_VALGRIND */
leaf = page_is_leaf(page);
/* Calculate the record size when entry is converted to a record */
rec_size = rec_get_converted_size(index, entry, n_ext);
if (page_zip_rec_needs_ext(rec_size, page_is_comp(page),
dtuple_get_n_fields(entry), page_size)) {
/* The record is so big that we have to store some fields
externally on separate database pages */
big_rec_vec = dtuple_convert_big_rec(index, 0, entry, &n_ext);
if (UNIV_UNLIKELY(big_rec_vec == NULL)) {
return(DB_TOO_BIG_RECORD);
}
rec_size = rec_get_converted_size(index, entry, n_ext);
}
if (page_size.is_compressed() && page_zip_is_too_big(index, entry)) {
if (big_rec_vec != NULL) {
dtuple_convert_back_big_rec(index, entry, big_rec_vec);
}
return(DB_TOO_BIG_RECORD);
}
LIMIT_OPTIMISTIC_INSERT_DEBUG(page_get_n_recs(page),
goto fail);
if (leaf && page_size.is_compressed()
&& (page_get_data_size(page) + rec_size
>= dict_index_zip_pad_optimal_page_size(index))) {
/* If compression padding tells us that insertion will
result in too packed up page i.e.: which is likely to
cause compression failure then don't do an optimistic
insertion. */
fail:
err = DB_FAIL;
/* prefetch siblings of the leaf for the pessimistic
operation, if the page is leaf. */
if (page_is_leaf(page)) {
btr_cur_prefetch_siblings(block);
}
fail_err:
if (big_rec_vec) {
dtuple_convert_back_big_rec(index, entry, big_rec_vec);
}
return(err);
}
ulint max_size = page_get_max_insert_size_after_reorganize(page, 1);
if (page_has_garbage(page)) {
if ((max_size < rec_size
|| max_size < BTR_CUR_PAGE_REORGANIZE_LIMIT)
&& page_get_n_recs(page) > 1
&& page_get_max_insert_size(page, 1) < rec_size) {
goto fail;
}
} else if (max_size < rec_size) {
goto fail;
}
/* If there have been many consecutive inserts to the
clustered index leaf page of an uncompressed table, check if
we have to split the page to reserve enough free space for
future updates of records. */
if (leaf && !page_size.is_compressed() && dict_index_is_clust(index)
&& page_get_n_recs(page) >= 2
&& dict_index_get_space_reserve() + rec_size > max_size
&& (btr_page_get_split_rec_to_right(cursor, &dummy)
|| btr_page_get_split_rec_to_left(cursor, &dummy))) {
goto fail;
}
page_cursor = btr_cur_get_page_cur(cursor);
DBUG_LOG("ib_cur",
"insert " << index->name << " (" << index->id << ") by "
<< ib::hex(thr ? thr->graph->trx->id : 0)
<< ' ' << rec_printer(entry).str());
DBUG_EXECUTE_IF("do_page_reorganize",
btr_page_reorganize(page_cursor, index, mtr););
/* Now, try the insert */
{
const rec_t* page_cursor_rec = page_cur_get_rec(page_cursor);
/* Check locks and write to the undo log,
if specified */
err = btr_cur_ins_lock_and_undo(flags, cursor, entry,
thr, mtr, &inherit);
if (err != DB_SUCCESS) {
goto fail_err;
}
#ifdef UNIV_DEBUG
if (!(flags & BTR_CREATE_FLAG)
&& index->is_primary() && page_is_leaf(page)) {
const dfield_t* trx_id = dtuple_get_nth_field(
entry, dict_col_get_clust_pos(
dict_table_get_sys_col(index->table,
DATA_TRX_ID),
index));
ut_ad(trx_id->len == DATA_TRX_ID_LEN);
ut_ad(trx_id[1].len == DATA_ROLL_PTR_LEN);
ut_ad(*static_cast<const byte*>
(trx_id[1].data) & 0x80);
if (flags & BTR_NO_UNDO_LOG_FLAG) {
ut_ad(!memcmp(trx_id->data, reset_trx_id,
DATA_TRX_ID_LEN));
} else {
ut_ad(thr->graph->trx->id);
ut_ad(thr->graph->trx->id
== trx_read_trx_id(
static_cast<const byte*>(
trx_id->data)));
}
}
#endif
*rec = page_cur_tuple_insert(
page_cursor, entry, index, offsets, heap,
n_ext, mtr);
reorg = page_cursor_rec != page_cur_get_rec(page_cursor);
}
if (*rec) {
} else if (page_size.is_compressed()) {
ut_ad(!dict_table_is_temporary(index->table));
/* Reset the IBUF_BITMAP_FREE bits, because
page_cur_tuple_insert() will have attempted page
reorganize before failing. */
if (leaf
&& !dict_index_is_clust(index)) {
ibuf_reset_free_bits(block);
}
goto fail;
} else {
ut_ad(!reorg);
/* If the record did not fit, reorganize */
if (!btr_page_reorganize(page_cursor, index, mtr)) {
ut_ad(0);
goto fail;
}
ut_ad(page_get_max_insert_size(page, 1) == max_size);
reorg = TRUE;
*rec = page_cur_tuple_insert(page_cursor, entry, index,
offsets, heap, n_ext, mtr);
if (UNIV_UNLIKELY(!*rec)) {
ib::fatal() << "Cannot insert tuple " << *entry
<< "into index " << index->name
<< " of table " << index->table->name
<< ". Max size: " << max_size;
}
}
#ifdef BTR_CUR_HASH_ADAPT
if (!leaf) {
# ifdef MYSQL_INDEX_DISABLE_AHI
} else if (index->disable_ahi) {
# endif
} else if (entry->info_bits & REC_INFO_MIN_REC_FLAG) {
ut_ad(entry->info_bits == REC_INFO_DEFAULT_ROW);
ut_ad(index->is_instant());
ut_ad(flags == BTR_NO_LOCKING_FLAG);
} else {
rw_lock_t* ahi_latch = btr_get_search_latch(index);
if (!reorg && cursor->flag == BTR_CUR_HASH) {
btr_search_update_hash_node_on_insert(
cursor, ahi_latch);
} else {
btr_search_update_hash_on_insert(cursor, ahi_latch);
}
}
#endif /* BTR_CUR_HASH_ADAPT */
if (!(flags & BTR_NO_LOCKING_FLAG) && inherit) {
lock_update_insert(block, *rec);
}
if (leaf
&& !dict_index_is_clust(index)
&& !dict_table_is_temporary(index->table)) {
/* Update the free bits of the B-tree page in the
insert buffer bitmap. */
/* The free bits in the insert buffer bitmap must
never exceed the free space on a page. It is safe to
decrement or reset the bits in the bitmap in a
mini-transaction that is committed before the
mini-transaction that affects the free space. */
/* It is unsafe to increment the bits in a separately
committed mini-transaction, because in crash recovery,
the free bits could momentarily be set too high. */
if (page_size.is_compressed()) {
/* Update the bits in the same mini-transaction. */
ibuf_update_free_bits_zip(block, mtr);
} else {
/* Decrement the bits in a separate
mini-transaction. */
ibuf_update_free_bits_if_full(
block, max_size,
rec_size + PAGE_DIR_SLOT_SIZE);
}
}
*big_rec = big_rec_vec;
return(DB_SUCCESS);
}
/*************************************************************//**
Performs an insert on a page of an index tree. It is assumed that mtr
holds an x-latch on the tree and on the cursor page. If the insert is
made on the leaf level, to avoid deadlocks, mtr must also own x-latches
to brothers of page, if those brothers exist.
@return DB_SUCCESS or error number */
dberr_t
btr_cur_pessimistic_insert(
/*=======================*/
ulint flags, /*!< in: undo logging and locking flags: if not
zero, the parameter thr should be
specified; if no undo logging is specified,
then the caller must have reserved enough
free extents in the file space so that the
insertion will certainly succeed */
btr_cur_t* cursor, /*!< in: cursor after which to insert;
cursor stays valid */
ulint** offsets,/*!< out: offsets on *rec */
mem_heap_t** heap, /*!< in/out: pointer to memory heap
that can be emptied */
dtuple_t* entry, /*!< in/out: entry to insert */
rec_t** rec, /*!< out: pointer to inserted record if
succeed */
big_rec_t** big_rec,/*!< out: big rec vector whose fields have to
be stored externally by the caller */
ulint n_ext, /*!< in: number of externally stored columns */
que_thr_t* thr, /*!< in/out: query thread; can be NULL if
!(~flags
& (BTR_NO_LOCKING_FLAG
| BTR_NO_UNDO_LOG_FLAG)) */
mtr_t* mtr) /*!< in/out: mini-transaction */
{
dict_index_t* index = cursor->index;
big_rec_t* big_rec_vec = NULL;
dberr_t err;
bool inherit = false;
bool success;
ulint n_reserved = 0;
ut_ad(dtuple_check_typed(entry));
ut_ad(thr || !(~flags & (BTR_NO_LOCKING_FLAG | BTR_NO_UNDO_LOG_FLAG)));
*big_rec = NULL;
ut_ad(mtr_memo_contains_flagged(
mtr, dict_index_get_lock(btr_cur_get_index(cursor)),
MTR_MEMO_X_LOCK | MTR_MEMO_SX_LOCK));
ut_ad(mtr_is_block_fix(
mtr, btr_cur_get_block(cursor),
MTR_MEMO_PAGE_X_FIX, cursor->index->table));
ut_ad(!dict_index_is_online_ddl(index)
|| dict_index_is_clust(index)
|| (flags & BTR_CREATE_FLAG));
cursor->flag = BTR_CUR_BINARY;
/* Check locks and write to undo log, if specified */
err = btr_cur_ins_lock_and_undo(flags, cursor, entry,
thr, mtr, &inherit);
if (err != DB_SUCCESS) {
return(err);
}
if (!(flags & BTR_NO_UNDO_LOG_FLAG)) {
/* First reserve enough free space for the file segments
of the index tree, so that the insert will not fail because
of lack of space */
ulint n_extents = cursor->tree_height / 16 + 3;
success = fsp_reserve_free_extents(&n_reserved,
index->table->space,
n_extents, FSP_NORMAL, mtr);
if (!success) {
return(DB_OUT_OF_FILE_SPACE);
}
}
if (page_zip_rec_needs_ext(rec_get_converted_size(index, entry, n_ext),
dict_table_is_comp(index->table),
dtuple_get_n_fields(entry),
dict_table_page_size(index->table))) {
/* The record is so big that we have to store some fields
externally on separate database pages */
if (UNIV_LIKELY_NULL(big_rec_vec)) {
/* This should never happen, but we handle
the situation in a robust manner. */
ut_ad(0);
dtuple_convert_back_big_rec(index, entry, big_rec_vec);
}
big_rec_vec = dtuple_convert_big_rec(index, 0, entry, &n_ext);
if (big_rec_vec == NULL) {
index->table->space->release_free_extents(n_reserved);
return(DB_TOO_BIG_RECORD);
}
}
if (dict_index_get_page(index)
== btr_cur_get_block(cursor)->page.id.page_no()) {
/* The page is the root page */
*rec = btr_root_raise_and_insert(
flags, cursor, offsets, heap, entry, n_ext, mtr);
} else {
*rec = btr_page_split_and_insert(
flags, cursor, offsets, heap, entry, n_ext, mtr);
}
if (*rec == NULL && os_has_said_disk_full) {
return(DB_OUT_OF_FILE_SPACE);
}
ut_ad(page_rec_get_next(btr_cur_get_rec(cursor)) == *rec
|| dict_index_is_spatial(index));
if (!(flags & BTR_NO_LOCKING_FLAG)) {
ut_ad(!dict_table_is_temporary(index->table));
if (dict_index_is_spatial(index)) {
/* Do nothing */
} else {
/* The cursor might be moved to the other page
and the max trx id field should be updated after
the cursor was fixed. */
if (!dict_index_is_clust(index)) {
page_update_max_trx_id(
btr_cur_get_block(cursor),
btr_cur_get_page_zip(cursor),
thr_get_trx(thr)->id, mtr);
}
if (!page_rec_is_infimum(btr_cur_get_rec(cursor))
|| btr_page_get_prev(
buf_block_get_frame(
btr_cur_get_block(cursor)), mtr)
== FIL_NULL) {
/* split and inserted need to call
lock_update_insert() always. */
inherit = true;
}
}
}
if (!page_is_leaf(btr_cur_get_page(cursor))) {
ut_ad(!big_rec_vec);
} else {
#ifdef BTR_CUR_HASH_ADAPT
# ifdef MYSQL_INDEX_DISABLE_AHI
if (index->disable_ahi); else
# endif
if (entry->info_bits & REC_INFO_MIN_REC_FLAG) {
ut_ad(entry->info_bits == REC_INFO_DEFAULT_ROW);
ut_ad(index->is_instant());
ut_ad((flags & ulint(~BTR_KEEP_IBUF_BITMAP))
== BTR_NO_LOCKING_FLAG);
} else {
btr_search_update_hash_on_insert(
cursor, btr_get_search_latch(index));
}
#endif /* BTR_CUR_HASH_ADAPT */
if (inherit && !(flags & BTR_NO_LOCKING_FLAG)) {
lock_update_insert(btr_cur_get_block(cursor), *rec);
}
}
index->table->space->release_free_extents(n_reserved);
*big_rec = big_rec_vec;
return(DB_SUCCESS);
}
/*==================== B-TREE UPDATE =========================*/
/*************************************************************//**
For an update, checks the locks and does the undo logging.
@return DB_SUCCESS, DB_WAIT_LOCK, or error number */
UNIV_INLINE MY_ATTRIBUTE((warn_unused_result))
dberr_t
btr_cur_upd_lock_and_undo(
/*======================*/
ulint flags, /*!< in: undo logging and locking flags */
btr_cur_t* cursor, /*!< in: cursor on record to update */
const ulint* offsets,/*!< in: rec_get_offsets() on cursor */
const upd_t* update, /*!< in: update vector */
ulint cmpl_info,/*!< in: compiler info on secondary index
updates */
que_thr_t* thr, /*!< in: query thread
(can be NULL if BTR_NO_LOCKING_FLAG) */
mtr_t* mtr, /*!< in/out: mini-transaction */
roll_ptr_t* roll_ptr)/*!< out: roll pointer */
{
dict_index_t* index;
const rec_t* rec;
dberr_t err;
ut_ad((thr != NULL) || (flags & BTR_NO_LOCKING_FLAG));
rec = btr_cur_get_rec(cursor);
index = cursor->index;
ut_ad(rec_offs_validate(rec, index, offsets));
ut_ad(mtr->is_named_space(index->table->space));
if (!dict_index_is_clust(index)) {
ut_ad(dict_index_is_online_ddl(index)
== !!(flags & BTR_CREATE_FLAG));
/* We do undo logging only when we update a clustered index
record */
return(lock_sec_rec_modify_check_and_lock(
flags, btr_cur_get_block(cursor), rec,
index, thr, mtr));
}
/* Check if we have to wait for a lock: enqueue an explicit lock
request if yes */
if (!(flags & BTR_NO_LOCKING_FLAG)) {
err = lock_clust_rec_modify_check_and_lock(
flags, btr_cur_get_block(cursor), rec, index,
offsets, thr);
if (err != DB_SUCCESS) {
return(err);
}
}
/* Append the info about the update in the undo log */
return((flags & BTR_NO_UNDO_LOG_FLAG)
? DB_SUCCESS
: trx_undo_report_row_operation(
thr, index, NULL, update,
cmpl_info, rec, offsets, roll_ptr));
}
/***********************************************************//**
Writes a redo log record of updating a record in-place. */
void
btr_cur_update_in_place_log(
/*========================*/
ulint flags, /*!< in: flags */
const rec_t* rec, /*!< in: record */
dict_index_t* index, /*!< in: index of the record */
const upd_t* update, /*!< in: update vector */
trx_id_t trx_id, /*!< in: transaction id */
roll_ptr_t roll_ptr, /*!< in: roll ptr */
mtr_t* mtr) /*!< in: mtr */
{
byte* log_ptr;
const page_t* page = page_align(rec);
ut_ad(flags < 256);
ut_ad(!!page_is_comp(page) == dict_table_is_comp(index->table));
log_ptr = mlog_open_and_write_index(mtr, rec, index, page_is_comp(page)
? MLOG_COMP_REC_UPDATE_IN_PLACE
: MLOG_REC_UPDATE_IN_PLACE,
1 + DATA_ROLL_PTR_LEN + 14 + 2
+ MLOG_BUF_MARGIN);
if (!log_ptr) {
/* Logging in mtr is switched off during crash recovery */
return;
}
/* For secondary indexes, we could skip writing the dummy system fields
to the redo log but we have to change redo log parsing of
MLOG_REC_UPDATE_IN_PLACE/MLOG_COMP_REC_UPDATE_IN_PLACE or we have to add
new redo log record. For now, just write dummy sys fields to the redo
log if we are updating a secondary index record.
*/
mach_write_to_1(log_ptr, flags);
log_ptr++;
if (dict_index_is_clust(index)) {
log_ptr = row_upd_write_sys_vals_to_log(
index, trx_id, roll_ptr, log_ptr, mtr);
} else {
/* Dummy system fields for a secondary index */
/* TRX_ID Position */
log_ptr += mach_write_compressed(log_ptr, 0);
/* ROLL_PTR */
trx_write_roll_ptr(log_ptr, 0);
log_ptr += DATA_ROLL_PTR_LEN;
/* TRX_ID */
log_ptr += mach_u64_write_compressed(log_ptr, 0);
}
mach_write_to_2(log_ptr, page_offset(rec));
log_ptr += 2;
row_upd_index_write_log(update, log_ptr, mtr);
}
/***********************************************************//**
Parses a redo log record of updating a record in-place.
@return end of log record or NULL */
byte*
btr_cur_parse_update_in_place(
/*==========================*/
byte* ptr, /*!< in: buffer */
byte* end_ptr,/*!< in: buffer end */
page_t* page, /*!< in/out: page or NULL */
page_zip_des_t* page_zip,/*!< in/out: compressed page, or NULL */
dict_index_t* index) /*!< in: index corresponding to page */
{
ulint flags;
rec_t* rec;
upd_t* update;
ulint pos;
trx_id_t trx_id;
roll_ptr_t roll_ptr;
ulint rec_offset;
mem_heap_t* heap;
ulint* offsets;
if (end_ptr < ptr + 1) {
return(NULL);
}
flags = mach_read_from_1(ptr);
ptr++;
ptr = row_upd_parse_sys_vals(ptr, end_ptr, &pos, &trx_id, &roll_ptr);
if (ptr == NULL) {
return(NULL);
}
if (end_ptr < ptr + 2) {
return(NULL);
}
rec_offset = mach_read_from_2(ptr);
ptr += 2;
ut_a(rec_offset <= srv_page_size);
heap = mem_heap_create(256);
ptr = row_upd_index_parse(ptr, end_ptr, heap, &update);
if (!ptr || !page) {
goto func_exit;
}
ut_a((ibool)!!page_is_comp(page) == dict_table_is_comp(index->table));
rec = page + rec_offset;
/* We do not need to reserve search latch, as the page is only
being recovered, and there cannot be a hash index to it. */
/* The function rtr_update_mbr_field_in_place() is generating
these records on node pointer pages; therefore we have to
check if this is a leaf page. */
offsets = rec_get_offsets(rec, index, NULL,
flags != (BTR_NO_UNDO_LOG_FLAG
| BTR_NO_LOCKING_FLAG
| BTR_KEEP_SYS_FLAG)
|| page_is_leaf(page),
ULINT_UNDEFINED, &heap);
if (!(flags & BTR_KEEP_SYS_FLAG)) {
row_upd_rec_sys_fields_in_recovery(rec, page_zip, offsets,
pos, trx_id, roll_ptr);
}
row_upd_rec_in_place(rec, index, offsets, update, page_zip);
func_exit:
mem_heap_free(heap);
return(ptr);
}
/*************************************************************//**
See if there is enough place in the page modification log to log
an update-in-place.
@retval false if out of space; IBUF_BITMAP_FREE will be reset
outside mtr if the page was recompressed
@retval true if enough place;
IMPORTANT: The caller will have to update IBUF_BITMAP_FREE if this is
a secondary index leaf page. This has to be done either within the
same mini-transaction, or by invoking ibuf_reset_free_bits() before
mtr_commit(mtr). */
bool
btr_cur_update_alloc_zip_func(
/*==========================*/
page_zip_des_t* page_zip,/*!< in/out: compressed page */
page_cur_t* cursor, /*!< in/out: B-tree page cursor */
dict_index_t* index, /*!< in: the index corresponding to cursor */
#ifdef UNIV_DEBUG
ulint* offsets,/*!< in/out: offsets of the cursor record */
#endif /* UNIV_DEBUG */
ulint length, /*!< in: size needed */
bool create, /*!< in: true=delete-and-insert,
false=update-in-place */
mtr_t* mtr) /*!< in/out: mini-transaction */
{
/* Have a local copy of the variables as these can change
dynamically. */
const page_t* page = page_cur_get_page(cursor);
ut_ad(page_zip == page_cur_get_page_zip(cursor));
ut_ad(!dict_index_is_ibuf(index));
ut_ad(rec_offs_validate(page_cur_get_rec(cursor), index, offsets));
if (page_zip_available(page_zip, dict_index_is_clust(index),
length, create)) {
return(true);
}
if (!page_zip->m_nonempty && !page_has_garbage(page)) {
/* The page has been freshly compressed, so
reorganizing it will not help. */
return(false);
}
if (create && page_is_leaf(page)
&& (length + page_get_data_size(page)
>= dict_index_zip_pad_optimal_page_size(index))) {
return(false);
}
if (!btr_page_reorganize(cursor, index, mtr)) {
goto out_of_space;
}
rec_offs_make_valid(page_cur_get_rec(cursor), index,
page_is_leaf(page), offsets);
/* After recompressing a page, we must make sure that the free
bits in the insert buffer bitmap will not exceed the free
space on the page. Because this function will not attempt
recompression unless page_zip_available() fails above, it is
safe to reset the free bits if page_zip_available() fails
again, below. The free bits can safely be reset in a separate
mini-transaction. If page_zip_available() succeeds below, we
can be sure that the btr_page_reorganize() above did not reduce
the free space available on the page. */
if (page_zip_available(page_zip, dict_index_is_clust(index),
length, create)) {
return(true);
}
out_of_space:
ut_ad(rec_offs_validate(page_cur_get_rec(cursor), index, offsets));
/* Out of space: reset the free bits. */
if (!dict_index_is_clust(index)
&& !dict_table_is_temporary(index->table)
&& page_is_leaf(page)) {
ibuf_reset_free_bits(page_cur_get_block(cursor));
}
return(false);
}
/*************************************************************//**
Updates a record when the update causes no size changes in its fields.
We assume here that the ordering fields of the record do not change.
@return locking or undo log related error code, or
@retval DB_SUCCESS on success
@retval DB_ZIP_OVERFLOW if there is not enough space left
on the compressed page (IBUF_BITMAP_FREE was reset outside mtr) */
dberr_t
btr_cur_update_in_place(
/*====================*/
ulint flags, /*!< in: undo logging and locking flags */
btr_cur_t* cursor, /*!< in: cursor on the record to update;
cursor stays valid and positioned on the
same record */
ulint* offsets,/*!< in/out: offsets on cursor->page_cur.rec */
const upd_t* update, /*!< in: update vector */
ulint cmpl_info,/*!< in: compiler info on secondary index
updates */
que_thr_t* thr, /*!< in: query thread */
trx_id_t trx_id, /*!< in: transaction id */
mtr_t* mtr) /*!< in/out: mini-transaction; if this
is a secondary index, the caller must
mtr_commit(mtr) before latching any
further pages */
{
dict_index_t* index;
buf_block_t* block;
page_zip_des_t* page_zip;
dberr_t err;
rec_t* rec;
roll_ptr_t roll_ptr = 0;
ulint was_delete_marked;
ut_ad(page_is_leaf(cursor->page_cur.block->frame));
rec = btr_cur_get_rec(cursor);
index = cursor->index;
ut_ad(rec_offs_validate(rec, index, offsets));
ut_ad(!!page_rec_is_comp(rec) == dict_table_is_comp(index->table));
ut_ad(trx_id > 0 || (flags & BTR_KEEP_SYS_FLAG));
/* The insert buffer tree should never be updated in place. */
ut_ad(!dict_index_is_ibuf(index));
ut_ad(dict_index_is_online_ddl(index) == !!(flags & BTR_CREATE_FLAG)
|| dict_index_is_clust(index));
ut_ad(thr_get_trx(thr)->id == trx_id
|| (flags & ulint(~(BTR_KEEP_POS_FLAG | BTR_KEEP_IBUF_BITMAP)))
== (BTR_NO_UNDO_LOG_FLAG | BTR_NO_LOCKING_FLAG
| BTR_CREATE_FLAG | BTR_KEEP_SYS_FLAG));
ut_ad(fil_page_index_page_check(btr_cur_get_page(cursor)));
ut_ad(btr_page_get_index_id(btr_cur_get_page(cursor)) == index->id);
ut_ad(!(update->info_bits & REC_INFO_MIN_REC_FLAG));
DBUG_LOG("ib_cur",
"update-in-place " << index->name << " (" << index->id
<< ") by " << ib::hex(trx_id) << ": "
<< rec_printer(rec, offsets).str());
block = btr_cur_get_block(cursor);
page_zip = buf_block_get_page_zip(block);
/* Check that enough space is available on the compressed page. */
if (page_zip) {
ut_ad(!dict_table_is_temporary(index->table));
if (!btr_cur_update_alloc_zip(
page_zip, btr_cur_get_page_cur(cursor),
index, offsets, rec_offs_size(offsets),
false, mtr)) {
return(DB_ZIP_OVERFLOW);
}
rec = btr_cur_get_rec(cursor);
}
/* Do lock checking and undo logging */
err = btr_cur_upd_lock_and_undo(flags, cursor, offsets,
update, cmpl_info,
thr, mtr, &roll_ptr);
if (UNIV_UNLIKELY(err != DB_SUCCESS)) {
/* We may need to update the IBUF_BITMAP_FREE
bits after a reorganize that was done in
btr_cur_update_alloc_zip(). */
goto func_exit;
}
if (!(flags & BTR_KEEP_SYS_FLAG)) {
row_upd_rec_sys_fields(rec, NULL, index, offsets,
thr_get_trx(thr), roll_ptr);
}
was_delete_marked = rec_get_deleted_flag(
rec, page_is_comp(buf_block_get_frame(block)));
/* In delete-marked records, DB_TRX_ID must always refer to an
existing undo log record. */
ut_ad(!was_delete_marked
|| !dict_index_is_clust(index)
|| row_get_rec_trx_id(rec, index, offsets));
#ifdef BTR_CUR_HASH_ADAPT
{
rw_lock_t* ahi_latch = block->index
? btr_get_search_latch(index) : NULL;
if (ahi_latch) {
/* TO DO: Can we skip this if none of the fields
index->search_info->curr_n_fields
are being updated? */
/* The function row_upd_changes_ord_field_binary
does not work on a secondary index. */
if (!dict_index_is_clust(index)
|| row_upd_changes_ord_field_binary(
index, update, thr, NULL, NULL)) {
ut_ad(!(update->info_bits
& REC_INFO_MIN_REC_FLAG));
/* Remove possible hash index pointer
to this record */
btr_search_update_hash_on_delete(cursor);
}
rw_lock_x_lock(ahi_latch);
}
assert_block_ahi_valid(block);
#endif /* BTR_CUR_HASH_ADAPT */
row_upd_rec_in_place(rec, index, offsets, update, page_zip);
#ifdef BTR_CUR_HASH_ADAPT
if (ahi_latch) {
rw_lock_x_unlock(ahi_latch);
}
}
#endif /* BTR_CUR_HASH_ADAPT */
btr_cur_update_in_place_log(flags, rec, index, update,
trx_id, roll_ptr, mtr);
if (was_delete_marked
&& !rec_get_deleted_flag(
rec, page_is_comp(buf_block_get_frame(block)))) {
/* The new updated record owns its possible externally
stored fields */
btr_cur_unmark_extern_fields(page_zip,
rec, index, offsets, mtr);
}
ut_ad(err == DB_SUCCESS);
func_exit:
if (page_zip
&& !(flags & BTR_KEEP_IBUF_BITMAP)
&& !dict_index_is_clust(index)
&& page_is_leaf(buf_block_get_frame(block))) {
/* Update the free bits in the insert buffer. */
ut_ad(!dict_table_is_temporary(index->table));
ibuf_update_free_bits_zip(block, mtr);
}
return(err);
}
/** Trim an update tuple due to instant ADD COLUMN, if needed.
For normal records, the trailing instantly added fields that match
the 'default row' are omitted.
For the special 'default row' record on a table on which instant
ADD COLUMN has already been executed, both ADD COLUMN and the
rollback of ADD COLUMN need to be handled specially.
@param[in,out] entry index entry
@param[in] index index
@param[in] update update vector
@param[in] thr execution thread */
static inline
void
btr_cur_trim(
dtuple_t* entry,
const dict_index_t* index,
const upd_t* update,
const que_thr_t* thr)
{
if (!index->is_instant()) {
} else if (UNIV_UNLIKELY(update->info_bits == REC_INFO_DEFAULT_ROW)) {
/* We are either updating a 'default row'
(instantly adding columns to a table where instant ADD was
already executed) or rolling back such an operation. */
ut_ad(!upd_get_nth_field(update, 0)->orig_len);
ut_ad(upd_get_nth_field(update, 0)->field_no
> index->n_core_fields);
if (thr->graph->trx->in_rollback) {
/* This rollback can occur either as part of
ha_innobase::commit_inplace_alter_table() rolling
back after a failed innobase_add_instant_try(),
or as part of crash recovery. Either way, the
table will be in the data dictionary cache, with
the instantly added columns going to be removed
later in the rollback. */
ut_ad(index->table->cached);
/* The DB_TRX_ID,DB_ROLL_PTR are always last,
and there should be some change to roll back.
The first field in the update vector is the
first instantly added column logged by
innobase_add_instant_try(). */
ut_ad(update->n_fields > 2);
ulint n_fields = upd_get_nth_field(update, 0)
->field_no;
ut_ad(n_fields + 1 >= entry->n_fields);
entry->n_fields = n_fields;
}
} else {
entry->trim(*index);
}
}
/*************************************************************//**
Tries to update a record on a page in an index tree. It is assumed that mtr
holds an x-latch on the page. The operation does not succeed if there is too
little space on the page or if the update would result in too empty a page,
so that tree compression is recommended. We assume here that the ordering
fields of the record do not change.
@return error code, including
@retval DB_SUCCESS on success
@retval DB_OVERFLOW if the updated record does not fit
@retval DB_UNDERFLOW if the page would become too empty
@retval DB_ZIP_OVERFLOW if there is not enough space left
on the compressed page (IBUF_BITMAP_FREE was reset outside mtr) */
dberr_t
btr_cur_optimistic_update(
/*======================*/
ulint flags, /*!< in: undo logging and locking flags */
btr_cur_t* cursor, /*!< in: cursor on the record to update;
cursor stays valid and positioned on the
same record */
ulint** offsets,/*!< out: offsets on cursor->page_cur.rec */
mem_heap_t** heap, /*!< in/out: pointer to NULL or memory heap */
const upd_t* update, /*!< in: update vector; this must also
contain trx id and roll ptr fields */
ulint cmpl_info,/*!< in: compiler info on secondary index
updates */
que_thr_t* thr, /*!< in: query thread */
trx_id_t trx_id, /*!< in: transaction id */
mtr_t* mtr) /*!< in/out: mini-transaction; if this
is a secondary index, the caller must
mtr_commit(mtr) before latching any
further pages */
{
dict_index_t* index;
page_cur_t* page_cursor;
dberr_t err;
buf_block_t* block;
page_t* page;
page_zip_des_t* page_zip;
rec_t* rec;
ulint max_size;
ulint new_rec_size;
ulint old_rec_size;
ulint max_ins_size = 0;
dtuple_t* new_entry;
roll_ptr_t roll_ptr;
ulint i;
ulint n_ext;
block = btr_cur_get_block(cursor);
page = buf_block_get_frame(block);
rec = btr_cur_get_rec(cursor);
index = cursor->index;
ut_ad(trx_id > 0 || (flags & BTR_KEEP_SYS_FLAG));
ut_ad(!!page_rec_is_comp(rec) == dict_table_is_comp(index->table));
ut_ad(mtr_is_block_fix(mtr, block, MTR_MEMO_PAGE_X_FIX, index->table));
/* This is intended only for leaf page updates */
ut_ad(page_is_leaf(page));
/* The insert buffer tree should never be updated in place. */
ut_ad(!dict_index_is_ibuf(index));
ut_ad(dict_index_is_online_ddl(index) == !!(flags & BTR_CREATE_FLAG)
|| dict_index_is_clust(index));
ut_ad(thr_get_trx(thr)->id == trx_id
|| (flags & ulint(~(BTR_KEEP_POS_FLAG | BTR_KEEP_IBUF_BITMAP)))
== (BTR_NO_UNDO_LOG_FLAG | BTR_NO_LOCKING_FLAG
| BTR_CREATE_FLAG | BTR_KEEP_SYS_FLAG));
ut_ad(fil_page_index_page_check(page));
ut_ad(btr_page_get_index_id(page) == index->id);
*offsets = rec_get_offsets(rec, index, *offsets, true,
ULINT_UNDEFINED, heap);
#if defined UNIV_DEBUG || defined UNIV_BLOB_LIGHT_DEBUG
ut_a(!rec_offs_any_null_extern(rec, *offsets)
|| trx_is_recv(thr_get_trx(thr)));
#endif /* UNIV_DEBUG || UNIV_BLOB_LIGHT_DEBUG */
const bool is_default_row = update->info_bits == REC_INFO_DEFAULT_ROW;
if (UNIV_LIKELY(!is_default_row)
&& !row_upd_changes_field_size_or_external(index, *offsets,
update)) {
/* The simplest and the most common case: the update does not
change the size of any field and none of the updated fields is
externally stored in rec or update, and there is enough space
on the compressed page to log the update. */
return(btr_cur_update_in_place(
flags, cursor, *offsets, update,
cmpl_info, thr, trx_id, mtr));
}
if (rec_offs_any_extern(*offsets)) {
any_extern:
/* Externally stored fields are treated in pessimistic
update */
/* prefetch siblings of the leaf for the pessimistic
operation. */
btr_cur_prefetch_siblings(block);
return(DB_OVERFLOW);
}
for (i = 0; i < upd_get_n_fields(update); i++) {
if (dfield_is_ext(&upd_get_nth_field(update, i)->new_val)) {
goto any_extern;
}
}
DBUG_LOG("ib_cur",
"update " << index->name << " (" << index->id << ") by "
<< ib::hex(trx_id) << ": "
<< rec_printer(rec, *offsets).str());
page_cursor = btr_cur_get_page_cur(cursor);
if (!*heap) {
*heap = mem_heap_create(
rec_offs_size(*offsets)
+ DTUPLE_EST_ALLOC(rec_offs_n_fields(*offsets)));
}
new_entry = row_rec_to_index_entry(rec, index, *offsets,
&n_ext, *heap);
/* We checked above that there are no externally stored fields. */
ut_a(!n_ext);
/* The page containing the clustered index record
corresponding to new_entry is latched in mtr.
Thus the following call is safe. */
row_upd_index_replace_new_col_vals_index_pos(new_entry, index, update,
*heap);
btr_cur_trim(new_entry, index, update, thr);
old_rec_size = rec_offs_size(*offsets);
new_rec_size = rec_get_converted_size(index, new_entry, 0);
page_zip = buf_block_get_page_zip(block);
#ifdef UNIV_ZIP_DEBUG
ut_a(!page_zip || page_zip_validate(page_zip, page, index));
#endif /* UNIV_ZIP_DEBUG */
if (page_zip) {
ut_ad(!dict_table_is_temporary(index->table));
if (page_zip_rec_needs_ext(new_rec_size, page_is_comp(page),
dict_index_get_n_fields(index),
dict_table_page_size(index->table))) {
goto any_extern;
}
if (!btr_cur_update_alloc_zip(
page_zip, page_cursor, index, *offsets,
new_rec_size, true, mtr)) {
return(DB_ZIP_OVERFLOW);
}
rec = page_cur_get_rec(page_cursor);
}
/* We limit max record size to 16k even for 64k page size. */
if (new_rec_size >= COMPRESSED_REC_MAX_DATA_SIZE ||
(!dict_table_is_comp(index->table)
&& new_rec_size >= REDUNDANT_REC_MAX_DATA_SIZE)) {
err = DB_OVERFLOW;
goto func_exit;
}
if (UNIV_UNLIKELY(new_rec_size
>= (page_get_free_space_of_empty(page_is_comp(page))
/ 2))) {
/* We may need to update the IBUF_BITMAP_FREE
bits after a reorganize that was done in
btr_cur_update_alloc_zip(). */
err = DB_OVERFLOW;
goto func_exit;
}
if (UNIV_UNLIKELY(page_get_data_size(page)
- old_rec_size + new_rec_size
< BTR_CUR_PAGE_COMPRESS_LIMIT(index))) {
/* We may need to update the IBUF_BITMAP_FREE
bits after a reorganize that was done in
btr_cur_update_alloc_zip(). */
/* The page would become too empty */
err = DB_UNDERFLOW;
goto func_exit;
}
/* We do not attempt to reorganize if the page is compressed.
This is because the page may fail to compress after reorganization. */
max_size = page_zip
? page_get_max_insert_size(page, 1)
: (old_rec_size
+ page_get_max_insert_size_after_reorganize(page, 1));
if (!page_zip) {
max_ins_size = page_get_max_insert_size_after_reorganize(
page, 1);
}
if (!(((max_size >= BTR_CUR_PAGE_REORGANIZE_LIMIT)
&& (max_size >= new_rec_size))
|| (page_get_n_recs(page) <= 1))) {
/* We may need to update the IBUF_BITMAP_FREE
bits after a reorganize that was done in
btr_cur_update_alloc_zip(). */
/* There was not enough space, or it did not pay to
reorganize: for simplicity, we decide what to do assuming a
reorganization is needed, though it might not be necessary */
err = DB_OVERFLOW;
goto func_exit;
}
/* Do lock checking and undo logging */
err = btr_cur_upd_lock_and_undo(flags, cursor, *offsets,
update, cmpl_info,
thr, mtr, &roll_ptr);
if (err != DB_SUCCESS) {
/* We may need to update the IBUF_BITMAP_FREE
bits after a reorganize that was done in
btr_cur_update_alloc_zip(). */
goto func_exit;
}
/* Ok, we may do the replacement. Store on the page infimum the
explicit locks on rec, before deleting rec (see the comment in
btr_cur_pessimistic_update). */
if (!dict_table_is_locking_disabled(index->table)) {
lock_rec_store_on_page_infimum(block, rec);
}
if (UNIV_UNLIKELY(is_default_row)) {
ut_ad(new_entry->info_bits == REC_INFO_DEFAULT_ROW);
ut_ad(index->is_instant());
/* This can be innobase_add_instant_try() performing a
subsequent instant ADD COLUMN, or its rollback by
row_undo_mod_clust_low(). */
ut_ad(flags & BTR_NO_LOCKING_FLAG);
} else {
btr_search_update_hash_on_delete(cursor);
}
page_cur_delete_rec(page_cursor, index, *offsets, mtr);
page_cur_move_to_prev(page_cursor);
if (!(flags & BTR_KEEP_SYS_FLAG)) {
row_upd_index_entry_sys_field(new_entry, index, DATA_ROLL_PTR,
roll_ptr);
row_upd_index_entry_sys_field(new_entry, index, DATA_TRX_ID,
trx_id);
}
/* There are no externally stored columns in new_entry */
rec = btr_cur_insert_if_possible(
cursor, new_entry, offsets, heap, 0/*n_ext*/, mtr);
ut_a(rec); /* <- We calculated above the insert would fit */
if (UNIV_UNLIKELY(is_default_row)) {
/* We must empty the PAGE_FREE list, because if this
was a rollback, the shortened 'default row' record
would have too many fields, and we would be unable to
know the size of the freed record. */
btr_page_reorganize(page_cursor, index, mtr);
} else if (!dict_table_is_locking_disabled(index->table)) {
/* Restore the old explicit lock state on the record */
lock_rec_restore_from_page_infimum(block, rec, block);
}
page_cur_move_to_next(page_cursor);
ut_ad(err == DB_SUCCESS);
func_exit:
if (!(flags & BTR_KEEP_IBUF_BITMAP)
&& !dict_index_is_clust(index)) {
/* Update the free bits in the insert buffer. */
if (page_zip) {
ut_ad(!dict_table_is_temporary(index->table));
ibuf_update_free_bits_zip(block, mtr);
} else if (!dict_table_is_temporary(index->table)) {
ibuf_update_free_bits_low(block, max_ins_size, mtr);
}
}
if (err != DB_SUCCESS) {
/* prefetch siblings of the leaf for the pessimistic
operation. */
btr_cur_prefetch_siblings(block);
}
return(err);
}
/*************************************************************//**
If, in a split, a new supremum record was created as the predecessor of the
updated record, the supremum record must inherit exactly the locks on the
updated record. In the split it may have inherited locks from the successor
of the updated record, which is not correct. This function restores the
right locks for the new supremum. */
static
void
btr_cur_pess_upd_restore_supremum(
/*==============================*/
buf_block_t* block, /*!< in: buffer block of rec */
const rec_t* rec, /*!< in: updated record */
mtr_t* mtr) /*!< in: mtr */
{
page_t* page;
buf_block_t* prev_block;
page = buf_block_get_frame(block);
if (page_rec_get_next(page_get_infimum_rec(page)) != rec) {
/* Updated record is not the first user record on its page */
return;
}
const ulint prev_page_no = btr_page_get_prev(page, mtr);
const page_id_t page_id(block->page.id.space(), prev_page_no);
ut_ad(prev_page_no != FIL_NULL);
prev_block = buf_page_get_with_no_latch(page_id, block->page.size, mtr);
#ifdef UNIV_BTR_DEBUG
ut_a(btr_page_get_next(prev_block->frame, mtr)
== page_get_page_no(page));
#endif /* UNIV_BTR_DEBUG */
/* We must already have an x-latch on prev_block! */
ut_ad(mtr_memo_contains(mtr, prev_block, MTR_MEMO_PAGE_X_FIX));
lock_rec_reset_and_inherit_gap_locks(prev_block, block,
PAGE_HEAP_NO_SUPREMUM,
page_rec_get_heap_no(rec));
}
/*************************************************************//**
Performs an update of a record on a page of a tree. It is assumed
that mtr holds an x-latch on the tree and on the cursor page. If the
update is made on the leaf level, to avoid deadlocks, mtr must also
own x-latches to brothers of page, if those brothers exist. We assume
here that the ordering fields of the record do not change.
@return DB_SUCCESS or error code */
dberr_t
btr_cur_pessimistic_update(
/*=======================*/
ulint flags, /*!< in: undo logging, locking, and rollback
flags */
btr_cur_t* cursor, /*!< in/out: cursor on the record to update;
cursor may become invalid if *big_rec == NULL
|| !(flags & BTR_KEEP_POS_FLAG) */
ulint** offsets,/*!< out: offsets on cursor->page_cur.rec */
mem_heap_t** offsets_heap,
/*!< in/out: pointer to memory heap
that can be emptied */
mem_heap_t* entry_heap,
/*!< in/out: memory heap for allocating
big_rec and the index tuple */
big_rec_t** big_rec,/*!< out: big rec vector whose fields have to
be stored externally by the caller */
upd_t* update, /*!< in/out: update vector; this is allowed to
also contain trx id and roll ptr fields.
Non-updated columns that are moved offpage will
be appended to this. */
ulint cmpl_info,/*!< in: compiler info on secondary index
updates */
que_thr_t* thr, /*!< in: query thread */
trx_id_t trx_id, /*!< in: transaction id */
mtr_t* mtr) /*!< in/out: mini-transaction; must be
committed before latching any further pages */
{
big_rec_t* big_rec_vec = NULL;
big_rec_t* dummy_big_rec;
dict_index_t* index;
buf_block_t* block;
page_t* page;
page_zip_des_t* page_zip;
rec_t* rec;
page_cur_t* page_cursor;
dberr_t err;
dberr_t optim_err;
roll_ptr_t roll_ptr;
ibool was_first;
ulint n_reserved = 0;
ulint n_ext;
ulint max_ins_size = 0;
*offsets = NULL;
*big_rec = NULL;
block = btr_cur_get_block(cursor);
page = buf_block_get_frame(block);
page_zip = buf_block_get_page_zip(block);
index = cursor->index;
ut_ad(mtr_memo_contains_flagged(mtr, dict_index_get_lock(index),
MTR_MEMO_X_LOCK |
MTR_MEMO_SX_LOCK));
ut_ad(mtr_is_block_fix(mtr, block, MTR_MEMO_PAGE_X_FIX, index->table));
#ifdef UNIV_ZIP_DEBUG
ut_a(!page_zip || page_zip_validate(page_zip, page, index));
#endif /* UNIV_ZIP_DEBUG */
ut_ad(!page_zip || !dict_table_is_temporary(index->table));
/* The insert buffer tree should never be updated in place. */
ut_ad(!dict_index_is_ibuf(index));
ut_ad(trx_id > 0
|| (flags & BTR_KEEP_SYS_FLAG));
ut_ad(dict_index_is_online_ddl(index) == !!(flags & BTR_CREATE_FLAG)
|| dict_index_is_clust(index));
ut_ad(thr_get_trx(thr)->id == trx_id
|| (flags & ulint(~BTR_KEEP_POS_FLAG))
== (BTR_NO_UNDO_LOG_FLAG | BTR_NO_LOCKING_FLAG
| BTR_CREATE_FLAG | BTR_KEEP_SYS_FLAG));
err = optim_err = btr_cur_optimistic_update(
flags | BTR_KEEP_IBUF_BITMAP,
cursor, offsets, offsets_heap, update,
cmpl_info, thr, trx_id, mtr);
switch (err) {
case DB_ZIP_OVERFLOW:
case DB_UNDERFLOW:
case DB_OVERFLOW:
break;
default:
err_exit:
/* We suppressed this with BTR_KEEP_IBUF_BITMAP.
For DB_ZIP_OVERFLOW, the IBUF_BITMAP_FREE bits were
already reset by btr_cur_update_alloc_zip() if the
page was recompressed. */
if (page_zip
&& optim_err != DB_ZIP_OVERFLOW
&& !dict_index_is_clust(index)
&& page_is_leaf(page)) {
ut_ad(!dict_table_is_temporary(index->table));
ibuf_update_free_bits_zip(block, mtr);
}
if (big_rec_vec != NULL) {
dtuple_big_rec_free(big_rec_vec);
}
return(err);
}
rec = btr_cur_get_rec(cursor);
*offsets = rec_get_offsets(
rec, index, *offsets, page_is_leaf(page),
ULINT_UNDEFINED, offsets_heap);
dtuple_t* new_entry = row_rec_to_index_entry(
rec, index, *offsets, &n_ext, entry_heap);
/* The page containing the clustered index record
corresponding to new_entry is latched in mtr. If the
clustered index record is delete-marked, then its externally
stored fields cannot have been purged yet, because then the
purge would also have removed the clustered index record
itself. Thus the following call is safe. */
row_upd_index_replace_new_col_vals_index_pos(new_entry, index, update,
entry_heap);
btr_cur_trim(new_entry, index, update, thr);
const bool is_default_row = new_entry->info_bits
& REC_INFO_MIN_REC_FLAG;
/* We have to set appropriate extern storage bits in the new
record to be inserted: we have to remember which fields were such */
ut_ad(!page_is_comp(page) || !rec_get_node_ptr_flag(rec));
ut_ad(rec_offs_validate(rec, index, *offsets));
n_ext += btr_push_update_extern_fields(new_entry, update, entry_heap);
if ((flags & BTR_NO_UNDO_LOG_FLAG)
&& rec_offs_any_extern(*offsets)) {
/* We are in a transaction rollback undoing a row
update: we must free possible externally stored fields
which got new values in the update, if they are not
inherited values. They can be inherited if we have
updated the primary key to another value, and then
update it back again. */
ut_ad(big_rec_vec == NULL);
ut_ad(dict_index_is_clust(index));
ut_ad(thr_get_trx(thr)->in_rollback);
DBUG_EXECUTE_IF("ib_blob_update_rollback", DBUG_SUICIDE(););
btr_rec_free_updated_extern_fields(
index, rec, page_zip, *offsets, update, true, mtr);
}
if (page_zip_rec_needs_ext(
rec_get_converted_size(index, new_entry, n_ext),
page_is_comp(page),
dict_index_get_n_fields(index),
block->page.size)) {
big_rec_vec = dtuple_convert_big_rec(index, update, new_entry, &n_ext);
if (UNIV_UNLIKELY(big_rec_vec == NULL)) {
/* We cannot goto return_after_reservations,
because we may need to update the
IBUF_BITMAP_FREE bits, which was suppressed by
BTR_KEEP_IBUF_BITMAP. */
#ifdef UNIV_ZIP_DEBUG
ut_a(!page_zip
|| page_zip_validate(page_zip, page, index));
#endif /* UNIV_ZIP_DEBUG */
index->table->space->release_free_extents(n_reserved);
err = DB_TOO_BIG_RECORD;
goto err_exit;
}
ut_ad(page_is_leaf(page));
ut_ad(dict_index_is_clust(index));
ut_ad(flags & BTR_KEEP_POS_FLAG);
}
/* Do lock checking and undo logging */
err = btr_cur_upd_lock_and_undo(flags, cursor, *offsets,
update, cmpl_info,
thr, mtr, &roll_ptr);
if (err != DB_SUCCESS) {
goto err_exit;
}
if (optim_err == DB_OVERFLOW) {
/* First reserve enough free space for the file segments
of the index tree, so that the update will not fail because
of lack of space */
ulint n_extents = cursor->tree_height / 16 + 3;
if (!fsp_reserve_free_extents(
&n_reserved, index->table->space, n_extents,
flags & BTR_NO_UNDO_LOG_FLAG
? FSP_CLEANING : FSP_NORMAL,
mtr)) {
err = DB_OUT_OF_FILE_SPACE;
goto err_exit;
}
}
if (!(flags & BTR_KEEP_SYS_FLAG)) {
row_upd_index_entry_sys_field(new_entry, index, DATA_ROLL_PTR,
roll_ptr);
row_upd_index_entry_sys_field(new_entry, index, DATA_TRX_ID,
trx_id);
}
if (!page_zip) {
max_ins_size = page_get_max_insert_size_after_reorganize(
page, 1);
}
if (UNIV_UNLIKELY(is_default_row)) {
ut_ad(new_entry->info_bits == REC_INFO_DEFAULT_ROW);
ut_ad(index->is_instant());
/* This can be innobase_add_instant_try() performing a
subsequent instant ADD COLUMN, or its rollback by
row_undo_mod_clust_low(). */
ut_ad(flags & BTR_NO_LOCKING_FLAG);
} else {
btr_search_update_hash_on_delete(cursor);
/* Store state of explicit locks on rec on the page
infimum record, before deleting rec. The page infimum
acts as a dummy carrier of the locks, taking care also
of lock releases, before we can move the locks back on
the actual record. There is a special case: if we are
inserting on the root page and the insert causes a
call of btr_root_raise_and_insert. Therefore we cannot
in the lock system delete the lock structs set on the
root page even if the root page carries just node
pointers. */
if (!dict_table_is_locking_disabled(index->table)) {
lock_rec_store_on_page_infimum(block, rec);
}
}
#ifdef UNIV_ZIP_DEBUG
ut_a(!page_zip || page_zip_validate(page_zip, page, index));
#endif /* UNIV_ZIP_DEBUG */
page_cursor = btr_cur_get_page_cur(cursor);
page_cur_delete_rec(page_cursor, index, *offsets, mtr);
page_cur_move_to_prev(page_cursor);
rec = btr_cur_insert_if_possible(cursor, new_entry,
offsets, offsets_heap, n_ext, mtr);
if (rec) {
page_cursor->rec = rec;
if (UNIV_UNLIKELY(is_default_row)) {
/* We must empty the PAGE_FREE list, because if this
was a rollback, the shortened 'default row' record
would have too many fields, and we would be unable to
know the size of the freed record. */
btr_page_reorganize(page_cursor, index, mtr);
rec = page_cursor->rec;
} else if (!dict_table_is_locking_disabled(index->table)) {
lock_rec_restore_from_page_infimum(
btr_cur_get_block(cursor), rec, block);
}
if (!rec_get_deleted_flag(rec, rec_offs_comp(*offsets))) {
/* The new inserted record owns its possible externally
stored fields */
btr_cur_unmark_extern_fields(
page_zip, rec, index, *offsets, mtr);
} else {
/* In delete-marked records, DB_TRX_ID must
always refer to an existing undo log record. */
ut_ad(row_get_rec_trx_id(rec, index, *offsets));
}
bool adjust = big_rec_vec && (flags & BTR_KEEP_POS_FLAG);
ut_ad(!adjust || page_is_leaf(page));
if (btr_cur_compress_if_useful(cursor, adjust, mtr)) {
if (adjust) {
rec_offs_make_valid(page_cursor->rec, index,
true, *offsets);
}
} else if (!dict_index_is_clust(index)
&& page_is_leaf(page)) {
/* Update the free bits in the insert buffer.
This is the same block which was skipped by
BTR_KEEP_IBUF_BITMAP. */
if (page_zip) {
ut_ad(!dict_table_is_temporary(index->table));
ibuf_update_free_bits_zip(block, mtr);
} else if (!dict_table_is_temporary(index->table)) {
ibuf_update_free_bits_low(block, max_ins_size,
mtr);
}
}
if (!srv_read_only_mode
&& !big_rec_vec
&& page_is_leaf(page)
&& !dict_index_is_online_ddl(index)) {
mtr_memo_release(mtr, dict_index_get_lock(index),
MTR_MEMO_X_LOCK | MTR_MEMO_SX_LOCK);
/* NOTE: We cannot release root block latch here, because it
has segment header and already modified in most of cases.*/
}
err = DB_SUCCESS;
goto return_after_reservations;
} else {
/* If the page is compressed and it initially
compresses very well, and there is a subsequent insert
of a badly-compressing record, it is possible for
btr_cur_optimistic_update() to return DB_UNDERFLOW and
btr_cur_insert_if_possible() to return FALSE. */
ut_a(page_zip || optim_err != DB_UNDERFLOW);
/* Out of space: reset the free bits.
This is the same block which was skipped by
BTR_KEEP_IBUF_BITMAP. */
if (!dict_index_is_clust(index)
&& !dict_table_is_temporary(index->table)
&& page_is_leaf(page)) {
ibuf_reset_free_bits(block);
}
}
if (big_rec_vec != NULL) {
ut_ad(page_is_leaf(page));
ut_ad(dict_index_is_clust(index));
ut_ad(flags & BTR_KEEP_POS_FLAG);
/* btr_page_split_and_insert() in
btr_cur_pessimistic_insert() invokes
mtr_memo_release(mtr, index->lock, MTR_MEMO_SX_LOCK).
We must keep the index->lock when we created a
big_rec, so that row_upd_clust_rec() can store the
big_rec in the same mini-transaction. */
ut_ad(mtr_memo_contains_flagged(mtr,
dict_index_get_lock(index),
MTR_MEMO_X_LOCK |
MTR_MEMO_SX_LOCK));
mtr_sx_lock(dict_index_get_lock(index), mtr);
}
/* Was the record to be updated positioned as the first user
record on its page? */
was_first = page_cur_is_before_first(page_cursor);
/* Lock checks and undo logging were already performed by
btr_cur_upd_lock_and_undo(). We do not try
btr_cur_optimistic_insert() because
btr_cur_insert_if_possible() already failed above. */
err = btr_cur_pessimistic_insert(BTR_NO_UNDO_LOG_FLAG
| BTR_NO_LOCKING_FLAG
| BTR_KEEP_SYS_FLAG,
cursor, offsets, offsets_heap,
new_entry, &rec,
&dummy_big_rec, n_ext, NULL, mtr);
ut_a(rec);
ut_a(err == DB_SUCCESS);
ut_a(dummy_big_rec == NULL);
ut_ad(rec_offs_validate(rec, cursor->index, *offsets));
page_cursor->rec = rec;
/* Multiple transactions cannot simultaneously operate on the
same temp-table in parallel.
max_trx_id is ignored for temp tables because it not required
for MVCC. */
if (dict_index_is_sec_or_ibuf(index)
&& !dict_table_is_temporary(index->table)) {
/* Update PAGE_MAX_TRX_ID in the index page header.
It was not updated by btr_cur_pessimistic_insert()
because of BTR_NO_LOCKING_FLAG. */
buf_block_t* rec_block;
rec_block = btr_cur_get_block(cursor);
page_update_max_trx_id(rec_block,
buf_block_get_page_zip(rec_block),
trx_id, mtr);
}
if (!rec_get_deleted_flag(rec, rec_offs_comp(*offsets))) {
/* The new inserted record owns its possible externally
stored fields */
buf_block_t* rec_block = btr_cur_get_block(cursor);
#ifdef UNIV_ZIP_DEBUG
ut_a(!page_zip || page_zip_validate(page_zip, page, index));
page = buf_block_get_frame(rec_block);
#endif /* UNIV_ZIP_DEBUG */
page_zip = buf_block_get_page_zip(rec_block);
btr_cur_unmark_extern_fields(page_zip,
rec, index, *offsets, mtr);
} else {
/* In delete-marked records, DB_TRX_ID must
always refer to an existing undo log record. */
ut_ad(row_get_rec_trx_id(rec, index, *offsets));
}
if (UNIV_UNLIKELY(is_default_row)) {
/* We must empty the PAGE_FREE list, because if this
was a rollback, the shortened 'default row' record
would have too many fields, and we would be unable to
know the size of the freed record. */
btr_page_reorganize(page_cursor, index, mtr);
rec = page_cursor->rec;
} else if (!dict_table_is_locking_disabled(index->table)) {
lock_rec_restore_from_page_infimum(
btr_cur_get_block(cursor), rec, block);
}
/* If necessary, restore also the correct lock state for a new,
preceding supremum record created in a page split. While the old
record was nonexistent, the supremum might have inherited its locks
from a wrong record. */
if (!was_first && !dict_table_is_locking_disabled(index->table)) {
btr_cur_pess_upd_restore_supremum(btr_cur_get_block(cursor),
rec, mtr);
}
return_after_reservations:
#ifdef UNIV_ZIP_DEBUG
ut_a(!page_zip || page_zip_validate(page_zip, page, index));
#endif /* UNIV_ZIP_DEBUG */
index->table->space->release_free_extents(n_reserved);
*big_rec = big_rec_vec;
return(err);
}
/*==================== B-TREE DELETE MARK AND UNMARK ===============*/
/****************************************************************//**
Writes the redo log record for delete marking or unmarking of an index
record. */
UNIV_INLINE
void
btr_cur_del_mark_set_clust_rec_log(
/*===============================*/
rec_t* rec, /*!< in: record */
dict_index_t* index, /*!< in: index of the record */
trx_id_t trx_id, /*!< in: transaction id */
roll_ptr_t roll_ptr,/*!< in: roll ptr to the undo log record */
mtr_t* mtr) /*!< in: mtr */
{
byte* log_ptr;
ut_ad(!!page_rec_is_comp(rec) == dict_table_is_comp(index->table));
ut_ad(mtr->is_named_space(index->table->space));
log_ptr = mlog_open_and_write_index(mtr, rec, index,
page_rec_is_comp(rec)
? MLOG_COMP_REC_CLUST_DELETE_MARK
: MLOG_REC_CLUST_DELETE_MARK,
1 + 1 + DATA_ROLL_PTR_LEN
+ 14 + 2);
if (!log_ptr) {
/* Logging in mtr is switched off during crash recovery */
return;
}
*log_ptr++ = 0;
*log_ptr++ = 1;
log_ptr = row_upd_write_sys_vals_to_log(
index, trx_id, roll_ptr, log_ptr, mtr);
mach_write_to_2(log_ptr, page_offset(rec));
log_ptr += 2;
mlog_close(mtr, log_ptr);
}
/****************************************************************//**
Parses the redo log record for delete marking or unmarking of a clustered
index record.
@return end of log record or NULL */
byte*
btr_cur_parse_del_mark_set_clust_rec(
/*=================================*/
byte* ptr, /*!< in: buffer */
byte* end_ptr,/*!< in: buffer end */
page_t* page, /*!< in/out: page or NULL */
page_zip_des_t* page_zip,/*!< in/out: compressed page, or NULL */
dict_index_t* index) /*!< in: index corresponding to page */
{
ulint flags;
ulint val;
ulint pos;
trx_id_t trx_id;
roll_ptr_t roll_ptr;
ulint offset;
rec_t* rec;
ut_ad(!page
|| !!page_is_comp(page) == dict_table_is_comp(index->table));
if (end_ptr < ptr + 2) {
return(NULL);
}
flags = mach_read_from_1(ptr);
ptr++;
val = mach_read_from_1(ptr);
ptr++;
ptr = row_upd_parse_sys_vals(ptr, end_ptr, &pos, &trx_id, &roll_ptr);
if (ptr == NULL) {
return(NULL);
}
if (end_ptr < ptr + 2) {
return(NULL);
}
offset = mach_read_from_2(ptr);
ptr += 2;
ut_a(offset <= srv_page_size);
/* In delete-marked records, DB_TRX_ID must
always refer to an existing undo log record. */
ut_ad(trx_id || (flags & BTR_KEEP_SYS_FLAG));
if (page) {
rec = page + offset;
/* We do not need to reserve search latch, as the page
is only being recovered, and there cannot be a hash index to
it. Besides, these fields are being updated in place
and the adaptive hash index does not depend on them. */
btr_rec_set_deleted_flag(rec, page_zip, val);
/* pos is the offset of DB_TRX_ID in the clustered index.
Debug assertions may also access DB_ROLL_PTR at pos+1.
Therefore, we must compute offsets for the first pos+2
clustered index fields. */
ut_ad(pos <= MAX_REF_PARTS);
ulint offsets[REC_OFFS_HEADER_SIZE + MAX_REF_PARTS + 2];
rec_offs_init(offsets);
mem_heap_t* heap = NULL;
if (!(flags & BTR_KEEP_SYS_FLAG)) {
row_upd_rec_sys_fields_in_recovery(
rec, page_zip,
rec_get_offsets(rec, index, offsets, true,
pos + 2, &heap),
pos, trx_id, roll_ptr);
} else {
/* In delete-marked records, DB_TRX_ID must
always refer to an existing undo log record. */
ut_ad(memcmp(rec_get_nth_field(
rec,
rec_get_offsets(rec, index,
offsets, true,
pos, &heap),
pos, &offset),
field_ref_zero, DATA_TRX_ID_LEN));
ut_ad(offset == DATA_TRX_ID_LEN);
}
if (UNIV_LIKELY_NULL(heap)) {
mem_heap_free(heap);
}
}
return(ptr);
}
/***********************************************************//**
Marks a clustered index record deleted. Writes an undo log record to
undo log on this delete marking. Writes in the trx id field the id
of the deleting transaction, and in the roll ptr field pointer to the
undo log record created.
@return DB_SUCCESS, DB_LOCK_WAIT, or error number */
dberr_t
btr_cur_del_mark_set_clust_rec(
/*===========================*/
buf_block_t* block, /*!< in/out: buffer block of the record */
rec_t* rec, /*!< in/out: record */
dict_index_t* index, /*!< in: clustered index of the record */
const ulint* offsets,/*!< in: rec_get_offsets(rec) */
que_thr_t* thr, /*!< in: query thread */
const dtuple_t* entry, /*!< in: dtuple for the deleting record, also
contains the virtual cols if there are any */
mtr_t* mtr) /*!< in/out: mini-transaction */
{
roll_ptr_t roll_ptr;
dberr_t err;
page_zip_des_t* page_zip;
trx_t* trx;
ut_ad(dict_index_is_clust(index));
ut_ad(rec_offs_validate(rec, index, offsets));
ut_ad(!!page_rec_is_comp(rec) == dict_table_is_comp(index->table));
ut_ad(buf_block_get_frame(block) == page_align(rec));
ut_ad(page_rec_is_leaf(rec));
ut_ad(mtr->is_named_space(index->table->space));
if (rec_get_deleted_flag(rec, rec_offs_comp(offsets))) {
/* We may already have delete-marked this record
when executing an ON DELETE CASCADE operation. */
ut_ad(row_get_rec_trx_id(rec, index, offsets)
== thr_get_trx(thr)->id);
return(DB_SUCCESS);
}
err = lock_clust_rec_modify_check_and_lock(BTR_NO_LOCKING_FLAG, block,
rec, index, offsets, thr);
if (err != DB_SUCCESS) {
return(err);
}
err = trx_undo_report_row_operation(thr, index,
entry, NULL, 0, rec, offsets,
&roll_ptr);
if (err != DB_SUCCESS) {
return(err);
}
/* The search latch is not needed here, because
the adaptive hash index does not depend on the delete-mark
and the delete-mark is being updated in place. */
page_zip = buf_block_get_page_zip(block);
btr_rec_set_deleted_flag(rec, page_zip, TRUE);
trx = thr_get_trx(thr);
DBUG_LOG("ib_cur",
"delete-mark clust " << index->table->name
<< " (" << index->id << ") by "
<< ib::hex(trx_get_id_for_print(trx)) << ": "
<< rec_printer(rec, offsets).str());
if (dict_index_is_online_ddl(index)) {
row_log_table_delete(rec, index, offsets, NULL);
}
row_upd_rec_sys_fields(rec, page_zip, index, offsets, trx, roll_ptr);
btr_cur_del_mark_set_clust_rec_log(rec, index, trx->id,
roll_ptr, mtr);
return(err);
}
/****************************************************************//**
Writes the redo log record for a delete mark setting of a secondary
index record. */
UNIV_INLINE
void
btr_cur_del_mark_set_sec_rec_log(
/*=============================*/
rec_t* rec, /*!< in: record */
ibool val, /*!< in: value to set */
mtr_t* mtr) /*!< in: mtr */
{
byte* log_ptr;
ut_ad(val <= 1);
log_ptr = mlog_open(mtr, 11 + 1 + 2);
if (!log_ptr) {
/* Logging in mtr is switched off during crash recovery:
in that case mlog_open returns NULL */
return;
}
log_ptr = mlog_write_initial_log_record_fast(
rec, MLOG_REC_SEC_DELETE_MARK, log_ptr, mtr);
mach_write_to_1(log_ptr, val);
log_ptr++;
mach_write_to_2(log_ptr, page_offset(rec));
log_ptr += 2;
mlog_close(mtr, log_ptr);
}
/****************************************************************//**
Parses the redo log record for delete marking or unmarking of a secondary
index record.
@return end of log record or NULL */
byte*
btr_cur_parse_del_mark_set_sec_rec(
/*===============================*/
byte* ptr, /*!< in: buffer */
byte* end_ptr,/*!< in: buffer end */
page_t* page, /*!< in/out: page or NULL */
page_zip_des_t* page_zip)/*!< in/out: compressed page, or NULL */
{
ulint val;
ulint offset;
rec_t* rec;
if (end_ptr < ptr + 3) {
return(NULL);
}
val = mach_read_from_1(ptr);
ptr++;
offset = mach_read_from_2(ptr);
ptr += 2;
ut_a(offset <= srv_page_size);
if (page) {
rec = page + offset;
/* We do not need to reserve search latch, as the page
is only being recovered, and there cannot be a hash index to
it. Besides, the delete-mark flag is being updated in place
and the adaptive hash index does not depend on it. */
btr_rec_set_deleted_flag(rec, page_zip, val);
}
return(ptr);
}
/***********************************************************//**
Sets a secondary index record delete mark to TRUE or FALSE.
@return DB_SUCCESS, DB_LOCK_WAIT, or error number */
dberr_t
btr_cur_del_mark_set_sec_rec(
/*=========================*/
ulint flags, /*!< in: locking flag */
btr_cur_t* cursor, /*!< in: cursor */
ibool val, /*!< in: value to set */
que_thr_t* thr, /*!< in: query thread */
mtr_t* mtr) /*!< in/out: mini-transaction */
{
buf_block_t* block;
rec_t* rec;
dberr_t err;
block = btr_cur_get_block(cursor);
rec = btr_cur_get_rec(cursor);
err = lock_sec_rec_modify_check_and_lock(flags,
btr_cur_get_block(cursor),
rec, cursor->index, thr, mtr);
if (err != DB_SUCCESS) {
return(err);
}
ut_ad(!!page_rec_is_comp(rec)
== dict_table_is_comp(cursor->index->table));
DBUG_PRINT("ib_cur", ("delete-mark=%u sec %u:%u:%u in %s("
IB_ID_FMT ") by " TRX_ID_FMT,
unsigned(val),
block->page.id.space(), block->page.id.page_no(),
unsigned(page_rec_get_heap_no(rec)),
cursor->index->name(), cursor->index->id,
trx_get_id_for_print(thr_get_trx(thr))));
/* We do not need to reserve search latch, as the
delete-mark flag is being updated in place and the adaptive
hash index does not depend on it. */
btr_rec_set_deleted_flag(rec, buf_block_get_page_zip(block), val);
btr_cur_del_mark_set_sec_rec_log(rec, val, mtr);
return(DB_SUCCESS);
}
/***********************************************************//**
Sets a secondary index record's delete mark to the given value. This
function is only used by the insert buffer merge mechanism. */
void
btr_cur_set_deleted_flag_for_ibuf(
/*==============================*/
rec_t* rec, /*!< in/out: record */
page_zip_des_t* page_zip, /*!< in/out: compressed page
corresponding to rec, or NULL
when the tablespace is
uncompressed */
ibool val, /*!< in: value to set */
mtr_t* mtr) /*!< in/out: mini-transaction */
{
/* We do not need to reserve search latch, as the page
has just been read to the buffer pool and there cannot be
a hash index to it. Besides, the delete-mark flag is being
updated in place and the adaptive hash index does not depend
on it. */
btr_rec_set_deleted_flag(rec, page_zip, val);
btr_cur_del_mark_set_sec_rec_log(rec, val, mtr);
}
/*==================== B-TREE RECORD REMOVE =========================*/
/*************************************************************//**
Tries to compress a page of the tree if it seems useful. It is assumed
that mtr holds an x-latch on the tree and on the cursor page. To avoid
deadlocks, mtr must also own x-latches to brothers of page, if those
brothers exist. NOTE: it is assumed that the caller has reserved enough
free extents so that the compression will always succeed if done!
@return TRUE if compression occurred */
ibool
btr_cur_compress_if_useful(
/*=======================*/
btr_cur_t* cursor, /*!< in/out: cursor on the page to compress;
cursor does not stay valid if !adjust and
compression occurs */
ibool adjust, /*!< in: TRUE if should adjust the
cursor position even if compression occurs */
mtr_t* mtr) /*!< in/out: mini-transaction */
{
ut_ad(mtr_memo_contains_flagged(
mtr, dict_index_get_lock(btr_cur_get_index(cursor)),
MTR_MEMO_X_LOCK | MTR_MEMO_SX_LOCK));
ut_ad(mtr_is_block_fix(
mtr, btr_cur_get_block(cursor),
MTR_MEMO_PAGE_X_FIX, cursor->index->table));
if (dict_index_is_spatial(cursor->index)) {
const page_t* page = btr_cur_get_page(cursor);
const trx_t* trx = NULL;
if (cursor->rtr_info->thr != NULL) {
trx = thr_get_trx(cursor->rtr_info->thr);
}
/* Check whether page lock prevents the compression */
if (!lock_test_prdt_page_lock(trx, page_get_space_id(page),
page_get_page_no(page))) {
return(false);
}
}
return(btr_cur_compress_recommendation(cursor, mtr)
&& btr_compress(cursor, adjust, mtr));
}
/*******************************************************//**
Removes the record on which the tree cursor is positioned on a leaf page.
It is assumed that the mtr has an x-latch on the page where the cursor is
positioned, but no latch on the whole tree.
@return TRUE if success, i.e., the page did not become too empty */
ibool
btr_cur_optimistic_delete_func(
/*===========================*/
btr_cur_t* cursor, /*!< in: cursor on leaf page, on the record to
delete; cursor stays valid: if deletion
succeeds, on function exit it points to the
successor of the deleted record */
#ifdef UNIV_DEBUG
ulint flags, /*!< in: BTR_CREATE_FLAG or 0 */
#endif /* UNIV_DEBUG */
mtr_t* mtr) /*!< in: mtr; if this function returns
TRUE on a leaf page of a secondary
index, the mtr must be committed
before latching any further pages */
{
buf_block_t* block;
rec_t* rec;
mem_heap_t* heap = NULL;
ulint offsets_[REC_OFFS_NORMAL_SIZE];
ulint* offsets = offsets_;
ibool no_compress_needed;
rec_offs_init(offsets_);
ut_ad(flags == 0 || flags == BTR_CREATE_FLAG);
ut_ad(mtr_memo_contains(mtr, btr_cur_get_block(cursor),
MTR_MEMO_PAGE_X_FIX));
ut_ad(mtr_is_block_fix(mtr, btr_cur_get_block(cursor),
MTR_MEMO_PAGE_X_FIX, cursor->index->table));
ut_ad(mtr->is_named_space(cursor->index->table->space));
/* This is intended only for leaf page deletions */
block = btr_cur_get_block(cursor);
ut_ad(page_is_leaf(buf_block_get_frame(block)));
ut_ad(!dict_index_is_online_ddl(cursor->index)
|| dict_index_is_clust(cursor->index)
|| (flags & BTR_CREATE_FLAG));
rec = btr_cur_get_rec(cursor);
if (UNIV_UNLIKELY(page_is_root(block->frame)
&& page_get_n_recs(block->frame) == 1
+ (cursor->index->is_instant()
&& !rec_is_default_row(rec, cursor->index)))) {
/* The whole index (and table) becomes logically empty.
Empty the whole page. That is, if we are deleting the
only user record, also delete the 'default row' record
if one exists (it exists if and only if is_instant()).
If we are deleting the 'default row' record and the
table becomes empty, clean up the whole page. */
dict_index_t* index = cursor->index;
ut_ad(!index->is_instant()
|| rec_is_default_row(
page_rec_get_next_const(
page_get_infimum_rec(block->frame)),
index));
if (UNIV_UNLIKELY(rec_get_info_bits(rec, page_rec_is_comp(rec))
& REC_INFO_MIN_REC_FLAG)) {
/* This should be rolling back instant ADD COLUMN.
If this is a recovered transaction, then
index->is_instant() will hold until the
insert into SYS_COLUMNS is rolled back. */
ut_ad(index->table->supports_instant());
ut_ad(index->is_primary());
} else {
lock_update_delete(block, rec);
}
btr_page_empty(block, buf_block_get_page_zip(block),
index, 0, mtr);
page_cur_set_after_last(block, btr_cur_get_page_cur(cursor));
if (index->is_primary()) {
/* Concurrent access is prevented by
root_block->lock X-latch, so this should be
safe. */
index->remove_instant();
}
return true;
}
offsets = rec_get_offsets(rec, cursor->index, offsets, true,
ULINT_UNDEFINED, &heap);
no_compress_needed = !rec_offs_any_extern(offsets)
&& btr_cur_can_delete_without_compress(
cursor, rec_offs_size(offsets), mtr);
if (no_compress_needed) {
page_t* page = buf_block_get_frame(block);
page_zip_des_t* page_zip= buf_block_get_page_zip(block);
if (UNIV_UNLIKELY(rec_get_info_bits(rec, page_rec_is_comp(rec))
& REC_INFO_MIN_REC_FLAG)) {
/* This should be rolling back instant ADD COLUMN.
If this is a recovered transaction, then
index->is_instant() will hold until the
insert into SYS_COLUMNS is rolled back. */
ut_ad(cursor->index->table->supports_instant());
ut_ad(cursor->index->is_primary());
ut_ad(!page_zip);
page_cur_delete_rec(btr_cur_get_page_cur(cursor),
cursor->index, offsets, mtr);
/* We must empty the PAGE_FREE list, because
after rollback, this deleted 'default row' record
would have too many fields, and we would be
unable to know the size of the freed record. */
btr_page_reorganize(btr_cur_get_page_cur(cursor),
cursor->index, mtr);
goto func_exit;
} else {
lock_update_delete(block, rec);
btr_search_update_hash_on_delete(cursor);
}
if (page_zip) {
#ifdef UNIV_ZIP_DEBUG
ut_a(page_zip_validate(page_zip, page, cursor->index));
#endif /* UNIV_ZIP_DEBUG */
page_cur_delete_rec(btr_cur_get_page_cur(cursor),
cursor->index, offsets, mtr);
#ifdef UNIV_ZIP_DEBUG
ut_a(page_zip_validate(page_zip, page, cursor->index));
#endif /* UNIV_ZIP_DEBUG */
/* On compressed pages, the IBUF_BITMAP_FREE
space is not affected by deleting (purging)
records, because it is defined as the minimum
of space available *without* reorganize, and
space available in the modification log. */
} else {
const ulint max_ins
= page_get_max_insert_size_after_reorganize(
page, 1);
page_cur_delete_rec(btr_cur_get_page_cur(cursor),
cursor->index, offsets, mtr);
/* The change buffer does not handle inserts
into non-leaf pages, into clustered indexes,
or into the change buffer. */
if (!dict_index_is_clust(cursor->index)
&& !dict_table_is_temporary(cursor->index->table)
&& !dict_index_is_ibuf(cursor->index)) {
ibuf_update_free_bits_low(block, max_ins, mtr);
}
}
} else {
/* prefetch siblings of the leaf for the pessimistic
operation. */
btr_cur_prefetch_siblings(block);
}
func_exit:
if (UNIV_LIKELY_NULL(heap)) {
mem_heap_free(heap);
}
return(no_compress_needed);
}
/*************************************************************//**
Removes the record on which the tree cursor is positioned. Tries
to compress the page if its fillfactor drops below a threshold
or if it is the only page on the level. It is assumed that mtr holds
an x-latch on the tree and on the cursor page. To avoid deadlocks,
mtr must also own x-latches to brothers of page, if those brothers
exist.
@return TRUE if compression occurred and FALSE if not or something
wrong. */
ibool
btr_cur_pessimistic_delete(
/*=======================*/
dberr_t* err, /*!< out: DB_SUCCESS or DB_OUT_OF_FILE_SPACE;
the latter may occur because we may have
to update node pointers on upper levels,
and in the case of variable length keys
these may actually grow in size */
ibool has_reserved_extents, /*!< in: TRUE if the
caller has already reserved enough free
extents so that he knows that the operation
will succeed */
btr_cur_t* cursor, /*!< in: cursor on the record to delete;
if compression does not occur, the cursor
stays valid: it points to successor of
deleted record on function exit */
ulint flags, /*!< in: BTR_CREATE_FLAG or 0 */
bool rollback,/*!< in: performing rollback? */
mtr_t* mtr) /*!< in: mtr */
{
buf_block_t* block;
page_t* page;
page_zip_des_t* page_zip;
dict_index_t* index;
rec_t* rec;
ulint n_reserved = 0;
bool success;
ibool ret = FALSE;
mem_heap_t* heap;
ulint* offsets;
#ifdef UNIV_DEBUG
bool parent_latched = false;
#endif /* UNIV_DEBUG */
block = btr_cur_get_block(cursor);
page = buf_block_get_frame(block);
index = btr_cur_get_index(cursor);
ut_ad(flags == 0 || flags == BTR_CREATE_FLAG);
ut_ad(!dict_index_is_online_ddl(index)
|| dict_index_is_clust(index)
|| (flags & BTR_CREATE_FLAG));
ut_ad(mtr_memo_contains_flagged(mtr, dict_index_get_lock(index),
MTR_MEMO_X_LOCK
| MTR_MEMO_SX_LOCK));
ut_ad(mtr_is_block_fix(mtr, block, MTR_MEMO_PAGE_X_FIX, index->table));
ut_ad(mtr->is_named_space(index->table->space));
if (!has_reserved_extents) {
/* First reserve enough free space for the file segments
of the index tree, so that the node pointer updates will
not fail because of lack of space */
ulint n_extents = cursor->tree_height / 32 + 1;
success = fsp_reserve_free_extents(&n_reserved,
index->table->space,
n_extents,
FSP_CLEANING, mtr);
if (!success) {
*err = DB_OUT_OF_FILE_SPACE;
return(FALSE);
}
}
heap = mem_heap_create(1024);
rec = btr_cur_get_rec(cursor);
page_zip = buf_block_get_page_zip(block);
#ifdef UNIV_ZIP_DEBUG
ut_a(!page_zip || page_zip_validate(page_zip, page, index));
#endif /* UNIV_ZIP_DEBUG */
offsets = rec_get_offsets(rec, index, NULL, page_is_leaf(page),
ULINT_UNDEFINED, &heap);
if (rec_offs_any_extern(offsets)) {
btr_rec_free_externally_stored_fields(index,
rec, offsets, page_zip,
rollback, mtr);
#ifdef UNIV_ZIP_DEBUG
ut_a(!page_zip || page_zip_validate(page_zip, page, index));
#endif /* UNIV_ZIP_DEBUG */
}
if (page_is_leaf(page)) {
const bool is_default_row = rec_get_info_bits(
rec, page_rec_is_comp(rec)) & REC_INFO_MIN_REC_FLAG;
if (UNIV_UNLIKELY(is_default_row)) {
/* This should be rolling back instant ADD COLUMN.
If this is a recovered transaction, then
index->is_instant() will hold until the
insert into SYS_COLUMNS is rolled back. */
ut_ad(rollback);
ut_ad(index->table->supports_instant());
ut_ad(index->is_primary());
} else if (flags == 0) {
lock_update_delete(block, rec);
}
if (!page_is_root(page)) {
if (page_get_n_recs(page) < 2) {
goto discard_page;
}
} else if (page_get_n_recs(page) == 1
+ (index->is_instant()
&& !rec_is_default_row(rec, index))) {
/* The whole index (and table) becomes logically empty.
Empty the whole page. That is, if we are deleting the
only user record, also delete the 'default row' record
if one exists (it exists if and only if is_instant()).
If we are deleting the 'default row' record and the
table becomes empty, clean up the whole page. */
ut_ad(!index->is_instant()
|| rec_is_default_row(
page_rec_get_next_const(
page_get_infimum_rec(page)),
index));
btr_page_empty(block, page_zip, index, 0, mtr);
page_cur_set_after_last(block,
btr_cur_get_page_cur(cursor));
if (index->is_primary()) {
/* Concurrent access is prevented by
index->lock and root_block->lock
X-latch, so this should be safe. */
index->remove_instant();
}
ret = TRUE;
goto return_after_reservations;
}
if (UNIV_LIKELY(!is_default_row)) {
btr_search_update_hash_on_delete(cursor);
} else {
page_cur_delete_rec(btr_cur_get_page_cur(cursor),
index, offsets, mtr);
/* We must empty the PAGE_FREE list, because
after rollback, this deleted 'default row' record
would carry too many fields, and we would be
unable to know the size of the freed record. */
btr_page_reorganize(btr_cur_get_page_cur(cursor),
index, mtr);
ut_ad(!ret);
goto return_after_reservations;
}
} else if (UNIV_UNLIKELY(page_rec_is_first(rec, page))) {
if (page_rec_is_last(rec, page)) {
discard_page:
ut_ad(page_get_n_recs(page) == 1);
/* If there is only one record, drop
the whole page. */
btr_discard_page(cursor, mtr);
ret = TRUE;
goto return_after_reservations;
}
rec_t* next_rec = page_rec_get_next(rec);
if (!page_has_prev(page)) {
/* If we delete the leftmost node pointer on a
non-leaf level, we must mark the new leftmost node
pointer as the predefined minimum record */
/* This will make page_zip_validate() fail until
page_cur_delete_rec() completes. This is harmless,
because everything will take place within a single
mini-transaction and because writing to the redo log
is an atomic operation (performed by mtr_commit()). */
btr_set_min_rec_mark(next_rec, mtr);
} else if (dict_index_is_spatial(index)) {
/* For rtree, if delete the leftmost node pointer,
we need to update parent page. */
rtr_mbr_t father_mbr;
rec_t* father_rec;
btr_cur_t father_cursor;
ulint* offsets;
bool upd_ret;
ulint len;
rtr_page_get_father_block(NULL, heap, index,
block, mtr, NULL,
&father_cursor);
offsets = rec_get_offsets(
btr_cur_get_rec(&father_cursor), index, NULL,
false, ULINT_UNDEFINED, &heap);
father_rec = btr_cur_get_rec(&father_cursor);
rtr_read_mbr(rec_get_nth_field(
father_rec, offsets, 0, &len), &father_mbr);
upd_ret = rtr_update_mbr_field(&father_cursor, offsets,
NULL, page, &father_mbr,
next_rec, mtr);
if (!upd_ret) {
*err = DB_ERROR;
mem_heap_free(heap);
return(FALSE);
}
ut_d(parent_latched = true);
} else {
/* Otherwise, if we delete the leftmost node pointer
on a page, we have to change the parent node pointer
so that it is equal to the new leftmost node pointer
on the page */
btr_node_ptr_delete(index, block, mtr);
const ulint level = btr_page_get_level(page);
dtuple_t* node_ptr = dict_index_build_node_ptr(
index, next_rec, block->page.id.page_no(),
heap, level);
btr_insert_on_non_leaf_level(
flags, index, level + 1, node_ptr, mtr);
ut_d(parent_latched = true);
}
}
page_cur_delete_rec(btr_cur_get_page_cur(cursor), index, offsets, mtr);
#ifdef UNIV_ZIP_DEBUG
ut_a(!page_zip || page_zip_validate(page_zip, page, index));
#endif /* UNIV_ZIP_DEBUG */
return_after_reservations:
/* btr_check_node_ptr() needs parent block latched */
ut_ad(!parent_latched || btr_check_node_ptr(index, block, mtr));
*err = DB_SUCCESS;
mem_heap_free(heap);
if (ret == FALSE) {
ret = btr_cur_compress_if_useful(cursor, FALSE, mtr);
}
if (!srv_read_only_mode
&& page_is_leaf(page)
&& !dict_index_is_online_ddl(index)) {
mtr_memo_release(mtr, dict_index_get_lock(index),
MTR_MEMO_X_LOCK | MTR_MEMO_SX_LOCK);
/* NOTE: We cannot release root block latch here, because it
has segment header and already modified in most of cases.*/
}
index->table->space->release_free_extents(n_reserved);
return(ret);
}
/*******************************************************************//**
Adds path information to the cursor for the current page, for which
the binary search has been performed. */
static
void
btr_cur_add_path_info(
/*==================*/
btr_cur_t* cursor, /*!< in: cursor positioned on a page */
ulint height, /*!< in: height of the page in tree;
0 means leaf node */
ulint root_height) /*!< in: root node height in tree */
{
btr_path_t* slot;
const rec_t* rec;
const page_t* page;
ut_a(cursor->path_arr);
if (root_height >= BTR_PATH_ARRAY_N_SLOTS - 1) {
/* Do nothing; return empty path */
slot = cursor->path_arr;
slot->nth_rec = ULINT_UNDEFINED;
return;
}
if (height == 0) {
/* Mark end of slots for path */
slot = cursor->path_arr + root_height + 1;
slot->nth_rec = ULINT_UNDEFINED;
}
rec = btr_cur_get_rec(cursor);
slot = cursor->path_arr + (root_height - height);
page = page_align(rec);
slot->nth_rec = page_rec_get_n_recs_before(rec);
slot->n_recs = page_get_n_recs(page);
slot->page_no = page_get_page_no(page);
slot->page_level = btr_page_get_level(page);
}
/*******************************************************************//**
Estimate the number of rows between slot1 and slot2 for any level on a
B-tree. This function starts from slot1->page and reads a few pages to
the right, counting their records. If we reach slot2->page quickly then
we know exactly how many records there are between slot1 and slot2 and
we set is_n_rows_exact to TRUE. If we cannot reach slot2->page quickly
then we calculate the average number of records in the pages scanned
so far and assume that all pages that we did not scan up to slot2->page
contain the same number of records, then we multiply that average to
the number of pages between slot1->page and slot2->page (which is
n_rows_on_prev_level). In this case we set is_n_rows_exact to FALSE.
@return number of rows, not including the borders (exact or estimated) */
static
ha_rows
btr_estimate_n_rows_in_range_on_level(
/*==================================*/
dict_index_t* index, /*!< in: index */
btr_path_t* slot1, /*!< in: left border */
btr_path_t* slot2, /*!< in: right border */
ha_rows n_rows_on_prev_level, /*!< in: number of rows
on the previous level for the
same descend paths; used to
determine the number of pages
on this level */
bool* is_n_rows_exact) /*!< out: TRUE if the returned
value is exact i.e. not an
estimation */
{
ha_rows n_rows = 0;
uint n_pages_read = 0;
ulint level;
/* Assume by default that we will scan all pages between
slot1->page_no and slot2->page_no. */
*is_n_rows_exact = true;
/* Add records from slot1->page_no which are to the right of
the record which serves as a left border of the range, if any
(we don't include the record itself in this count). */
if (slot1->nth_rec <= slot1->n_recs) {
n_rows += slot1->n_recs - slot1->nth_rec;
}
/* Add records from slot2->page_no which are to the left of
the record which servers as a right border of the range, if any
(we don't include the record itself in this count). */
if (slot2->nth_rec > 1) {
n_rows += slot2->nth_rec - 1;
}
/* Count the records in the pages between slot1->page_no and
slot2->page_no (non inclusive), if any. */
/* Do not read more than this number of pages in order not to hurt
performance with this code which is just an estimation. If we read
this many pages before reaching slot2->page_no then we estimate the
average from the pages scanned so far. */
# define N_PAGES_READ_LIMIT 10
const fil_space_t* space = index->table->space;
page_id_t page_id(space->id, slot1->page_no);
const page_size_t page_size(space->flags);
level = slot1->page_level;
do {
mtr_t mtr;
page_t* page;
buf_block_t* block;
dberr_t err=DB_SUCCESS;
mtr_start(&mtr);
/* Fetch the page. Because we are not holding the
index->lock, the tree may have changed and we may be
attempting to read a page that is no longer part of
the B-tree. We pass BUF_GET_POSSIBLY_FREED in order to
silence a debug assertion about this. */
block = buf_page_get_gen(page_id, page_size, RW_S_LATCH,
NULL, BUF_GET_POSSIBLY_FREED,
__FILE__, __LINE__, &mtr, &err);
ut_ad((block != NULL) == (err == DB_SUCCESS));
if (err != DB_SUCCESS) {
if (err == DB_DECRYPTION_FAILED) {
ib_push_warning((void *)NULL,
DB_DECRYPTION_FAILED,
"Table %s is encrypted but encryption service or"
" used key_id is not available. "
" Can't continue reading table.",
index->table->name);
index->table->file_unreadable = true;
}
mtr_commit(&mtr);
goto inexact;
}
page = buf_block_get_frame(block);
/* It is possible that the tree has been reorganized in the
meantime and this is a different page. If this happens the
calculated estimate will be bogus, which is not fatal as
this is only an estimate. We are sure that a page with
page_no exists because InnoDB never frees pages, only
reuses them. */
if (!fil_page_index_page_check(page)
|| btr_page_get_index_id(page) != index->id
|| btr_page_get_level(page) != level) {
/* The page got reused for something else */
mtr_commit(&mtr);
goto inexact;
}
/* It is possible but highly unlikely that the page was
originally written by an old version of InnoDB that did
not initialize FIL_PAGE_TYPE on other than B-tree pages.
For example, this could be an almost-empty BLOB page
that happens to contain the magic values in the fields
that we checked above. */
n_pages_read++;
if (page_id.page_no() != slot1->page_no) {
/* Do not count the records on slot1->page_no,
we already counted them before this loop. */
n_rows += page_get_n_recs(page);
}
page_id.set_page_no(btr_page_get_next(page, &mtr));
mtr_commit(&mtr);
if (n_pages_read == N_PAGES_READ_LIMIT
|| page_id.page_no() == FIL_NULL) {
/* Either we read too many pages or
we reached the end of the level without passing
through slot2->page_no, the tree must have changed
in the meantime */
goto inexact;
}
} while (page_id.page_no() != slot2->page_no);
return(n_rows);
inexact:
*is_n_rows_exact = false;
/* We did interrupt before reaching slot2->page */
if (n_pages_read > 0) {
/* The number of pages on this level is
n_rows_on_prev_level, multiply it by the
average number of recs per page so far */
n_rows = n_rows_on_prev_level * n_rows / n_pages_read;
} else {
/* The tree changed before we could even
start with slot1->page_no */
n_rows = 10;
}
return(n_rows);
}
/** If the tree gets changed too much between the two dives for the left
and right boundary then btr_estimate_n_rows_in_range_low() will retry
that many times before giving up and returning the value stored in
rows_in_range_arbitrary_ret_val. */
static const unsigned rows_in_range_max_retries = 4;
/** We pretend that a range has that many records if the tree keeps changing
for rows_in_range_max_retries retries while we try to estimate the records
in a given range. */
static const ha_rows rows_in_range_arbitrary_ret_val = 10;
/** Estimates the number of rows in a given index range.
@param[in] index index
@param[in] tuple1 range start, may also be empty tuple
@param[in] mode1 search mode for range start
@param[in] tuple2 range end, may also be empty tuple
@param[in] mode2 search mode for range end
@param[in] nth_attempt if the tree gets modified too much while
we are trying to analyze it, then we will retry (this function will call
itself, incrementing this parameter)
@return estimated number of rows; if after rows_in_range_max_retries
retries the tree keeps changing, then we will just return
rows_in_range_arbitrary_ret_val as a result (if
nth_attempt >= rows_in_range_max_retries and the tree is modified between
the two dives). */
static
ha_rows
btr_estimate_n_rows_in_range_low(
dict_index_t* index,
const dtuple_t* tuple1,
page_cur_mode_t mode1,
const dtuple_t* tuple2,
page_cur_mode_t mode2,
unsigned nth_attempt)
{
btr_path_t path1[BTR_PATH_ARRAY_N_SLOTS];
btr_path_t path2[BTR_PATH_ARRAY_N_SLOTS];
btr_cur_t cursor;
btr_path_t* slot1;
btr_path_t* slot2;
bool diverged;
bool diverged_lot;
ulint divergence_level;
ha_rows n_rows;
bool is_n_rows_exact;
ulint i;
mtr_t mtr;
ha_rows table_n_rows;
table_n_rows = dict_table_get_n_rows(index->table);
/* Below we dive to the two records specified by tuple1 and tuple2 and
we remember the entire dive paths from the tree root. The place where
the tuple1 path ends on the leaf level we call "left border" of our
interval and the place where the tuple2 path ends on the leaf level -
"right border". We take care to either include or exclude the interval
boundaries depending on whether <, <=, > or >= was specified. For
example if "5 < x AND x <= 10" then we should not include the left
boundary, but should include the right one. */
mtr_start(&mtr);
cursor.path_arr = path1;
bool should_count_the_left_border;
if (dtuple_get_n_fields(tuple1) > 0) {
btr_cur_search_to_nth_level(index, 0, tuple1, mode1,
BTR_SEARCH_LEAF | BTR_ESTIMATE,
&cursor, 0,
__FILE__, __LINE__, &mtr);
ut_ad(!page_rec_is_infimum(btr_cur_get_rec(&cursor)));
/* We should count the border if there are any records to
match the criteria, i.e. if the maximum record on the tree is
5 and x > 3 is specified then the cursor will be positioned at
5 and we should count the border, but if x > 7 is specified,
then the cursor will be positioned at 'sup' on the rightmost
leaf page in the tree and we should not count the border. */
should_count_the_left_border
= !page_rec_is_supremum(btr_cur_get_rec(&cursor));
} else {
dberr_t err = DB_SUCCESS;
err = btr_cur_open_at_index_side(true, index,
BTR_SEARCH_LEAF | BTR_ESTIMATE,
&cursor, 0, &mtr);
if (err != DB_SUCCESS) {
ib::warn() << " Error code: " << err
<< " btr_estimate_n_rows_in_range_low "
<< " called from file: "
<< __FILE__ << " line: " << __LINE__
<< " table: " << index->table->name
<< " index: " << index->name;
}
ut_ad(page_rec_is_infimum(btr_cur_get_rec(&cursor)));
/* The range specified is wihout a left border, just
'x < 123' or 'x <= 123' and btr_cur_open_at_index_side()
positioned the cursor on the infimum record on the leftmost
page, which must not be counted. */
should_count_the_left_border = false;
}
mtr_commit(&mtr);
if (!index->is_readable()) {
return 0;
}
mtr_start(&mtr);
cursor.path_arr = path2;
bool should_count_the_right_border;
if (dtuple_get_n_fields(tuple2) > 0) {
btr_cur_search_to_nth_level(index, 0, tuple2, mode2,
BTR_SEARCH_LEAF | BTR_ESTIMATE,
&cursor, 0,
__FILE__, __LINE__, &mtr);
const rec_t* rec = btr_cur_get_rec(&cursor);
ut_ad(!(mode2 == PAGE_CUR_L && page_rec_is_supremum(rec)));
should_count_the_right_border
= (mode2 == PAGE_CUR_LE /* if the range is '<=' */
/* and the record was found */
&& cursor.low_match >= dtuple_get_n_fields(tuple2))
|| (mode2 == PAGE_CUR_L /* or if the range is '<' */
/* and there are any records to match the criteria,
i.e. if the minimum record on the tree is 5 and
x < 7 is specified then the cursor will be
positioned at 5 and we should count the border, but
if x < 2 is specified, then the cursor will be
positioned at 'inf' and we should not count the
border */
&& !page_rec_is_infimum(rec));
/* Notice that for "WHERE col <= 'foo'" MySQL passes to
ha_innobase::records_in_range():
min_key=NULL (left-unbounded) which is expected
max_key='foo' flag=HA_READ_AFTER_KEY (PAGE_CUR_G), which is
unexpected - one would expect
flag=HA_READ_KEY_OR_PREV (PAGE_CUR_LE). In this case the
cursor will be positioned on the first record to the right of
the requested one (can also be positioned on the 'sup') and
we should not count the right border. */
} else {
dberr_t err = DB_SUCCESS;
err = btr_cur_open_at_index_side(false, index,
BTR_SEARCH_LEAF | BTR_ESTIMATE,
&cursor, 0, &mtr);
if (err != DB_SUCCESS) {
ib::warn() << " Error code: " << err
<< " btr_estimate_n_rows_in_range_low "
<< " called from file: "
<< __FILE__ << " line: " << __LINE__
<< " table: " << index->table->name
<< " index: " << index->name;
}
ut_ad(page_rec_is_supremum(btr_cur_get_rec(&cursor)));
/* The range specified is wihout a right border, just
'x > 123' or 'x >= 123' and btr_cur_open_at_index_side()
positioned the cursor on the supremum record on the rightmost
page, which must not be counted. */
should_count_the_right_border = false;
}
mtr_commit(&mtr);
/* We have the path information for the range in path1 and path2 */
n_rows = 0;
is_n_rows_exact = true;
/* This becomes true when the two paths do not pass through the
same pages anymore. */
diverged = false;
/* This becomes true when the paths are not the same or adjacent
any more. This means that they pass through the same or
neighboring-on-the-same-level pages only. */
diverged_lot = false;
/* This is the level where paths diverged a lot. */
divergence_level = 1000000;
for (i = 0; ; i++) {
ut_ad(i < BTR_PATH_ARRAY_N_SLOTS);
slot1 = path1 + i;
slot2 = path2 + i;
if (slot1->nth_rec == ULINT_UNDEFINED
|| slot2->nth_rec == ULINT_UNDEFINED) {
/* Here none of the borders were counted. For example,
if on the leaf level we descended to:
(inf, a, b, c, d, e, f, sup)
^ ^
path1 path2
then n_rows will be 2 (c and d). */
if (is_n_rows_exact) {
/* Only fiddle to adjust this off-by-one
if the number is exact, otherwise we do
much grosser adjustments below. */
btr_path_t* last1 = &path1[i - 1];
btr_path_t* last2 = &path2[i - 1];
/* If both paths end up on the same record on
the leaf level. */
if (last1->page_no == last2->page_no
&& last1->nth_rec == last2->nth_rec) {
/* n_rows can be > 0 here if the paths
were first different and then converged
to the same record on the leaf level.
For example:
SELECT ... LIKE 'wait/synch/rwlock%'
mode1=PAGE_CUR_GE,
tuple1="wait/synch/rwlock"
path1[0]={nth_rec=58, n_recs=58,
page_no=3, page_level=1}
path1[1]={nth_rec=56, n_recs=55,
page_no=119, page_level=0}
mode2=PAGE_CUR_G
tuple2="wait/synch/rwlock"
path2[0]={nth_rec=57, n_recs=57,
page_no=3, page_level=1}
path2[1]={nth_rec=56, n_recs=55,
page_no=119, page_level=0} */
/* If the range is such that we should
count both borders, then avoid
counting that record twice - once as a
left border and once as a right
border. */
if (should_count_the_left_border
&& should_count_the_right_border) {
n_rows = 1;
} else {
/* Some of the borders should
not be counted, e.g. [3,3). */
n_rows = 0;
}
} else {
if (should_count_the_left_border) {
n_rows++;
}
if (should_count_the_right_border) {
n_rows++;
}
}
}
if (i > divergence_level + 1 && !is_n_rows_exact) {
/* In trees whose height is > 1 our algorithm
tends to underestimate: multiply the estimate
by 2: */
n_rows = n_rows * 2;
}
DBUG_EXECUTE_IF("bug14007649", return(n_rows););
/* Do not estimate the number of rows in the range
to over 1 / 2 of the estimated rows in the whole
table */
if (n_rows > table_n_rows / 2 && !is_n_rows_exact) {
n_rows = table_n_rows / 2;
/* If there are just 0 or 1 rows in the table,
then we estimate all rows are in the range */
if (n_rows == 0) {
n_rows = table_n_rows;
}
}
return(n_rows);
}
if (!diverged && slot1->nth_rec != slot2->nth_rec) {
/* If both slots do not point to the same page,
this means that the tree must have changed between
the dive for slot1 and the dive for slot2 at the
beginning of this function. */
if (slot1->page_no != slot2->page_no
|| slot1->page_level != slot2->page_level) {
/* If the tree keeps changing even after a
few attempts, then just return some arbitrary
number. */
if (nth_attempt >= rows_in_range_max_retries) {
return(rows_in_range_arbitrary_ret_val);
}
return btr_estimate_n_rows_in_range_low(
index, tuple1, mode1,
tuple2, mode2, nth_attempt + 1);
}
diverged = true;
if (slot1->nth_rec < slot2->nth_rec) {
/* We do not count the borders (nor the left
nor the right one), thus "- 1". */
n_rows = slot2->nth_rec - slot1->nth_rec - 1;
if (n_rows > 0) {
/* There is at least one row between
the two borders pointed to by slot1
and slot2, so on the level below the
slots will point to non-adjacent
pages. */
diverged_lot = true;
divergence_level = i;
}
} else {
/* It is possible that
slot1->nth_rec >= slot2->nth_rec
if, for example, we have a single page
tree which contains (inf, 5, 6, supr)
and we select where x > 20 and x < 30;
in this case slot1->nth_rec will point
to the supr record and slot2->nth_rec
will point to 6. */
n_rows = 0;
should_count_the_left_border = false;
should_count_the_right_border = false;
}
} else if (diverged && !diverged_lot) {
if (slot1->nth_rec < slot1->n_recs
|| slot2->nth_rec > 1) {
diverged_lot = true;
divergence_level = i;
n_rows = 0;
if (slot1->nth_rec < slot1->n_recs) {
n_rows += slot1->n_recs
- slot1->nth_rec;
}
if (slot2->nth_rec > 1) {
n_rows += slot2->nth_rec - 1;
}
}
} else if (diverged_lot) {
n_rows = btr_estimate_n_rows_in_range_on_level(
index, slot1, slot2, n_rows,
&is_n_rows_exact);
}
}
}
/** Estimates the number of rows in a given index range.
@param[in] index index
@param[in] tuple1 range start, may also be empty tuple
@param[in] mode1 search mode for range start
@param[in] tuple2 range end, may also be empty tuple
@param[in] mode2 search mode for range end
@return estimated number of rows */
ha_rows
btr_estimate_n_rows_in_range(
dict_index_t* index,
const dtuple_t* tuple1,
page_cur_mode_t mode1,
const dtuple_t* tuple2,
page_cur_mode_t mode2)
{
return btr_estimate_n_rows_in_range_low(
index, tuple1, mode1, tuple2, mode2, 1);
}
/*******************************************************************//**
Record the number of non_null key values in a given index for
each n-column prefix of the index where 1 <= n <= dict_index_get_n_unique(index).
The estimates are eventually stored in the array:
index->stat_n_non_null_key_vals[], which is indexed from 0 to n-1. */
static
void
btr_record_not_null_field_in_rec(
/*=============================*/
ulint n_unique, /*!< in: dict_index_get_n_unique(index),
number of columns uniquely determine
an index entry */
const ulint* offsets, /*!< in: rec_get_offsets(rec, index),
its size could be for all fields or
that of "n_unique" */
ib_uint64_t* n_not_null) /*!< in/out: array to record number of
not null rows for n-column prefix */
{
ulint i;
ut_ad(rec_offs_n_fields(offsets) >= n_unique);
if (n_not_null == NULL) {
return;
}
for (i = 0; i < n_unique; i++) {
if (rec_offs_nth_sql_null(offsets, i)) {
break;
}
n_not_null[i]++;
}
}
/*******************************************************************//**
Estimates the number of different key values in a given index, for
each n-column prefix of the index where 1 <= n <= dict_index_get_n_unique(index).
The estimates are stored in the array index->stat_n_diff_key_vals[] (indexed
0..n_uniq-1) and the number of pages that were sampled is saved in
index->stat_n_sample_sizes[].
If innodb_stats_method is nulls_ignored, we also record the number of
non-null values for each prefix and stored the estimates in
array index->stat_n_non_null_key_vals.
@return true if the index is available and we get the estimated numbers,
false if the index is unavailable. */
bool
btr_estimate_number_of_different_key_vals(
/*======================================*/
dict_index_t* index) /*!< in: index */
{
btr_cur_t cursor;
page_t* page;
rec_t* rec;
ulint n_cols;
ib_uint64_t* n_diff;
ib_uint64_t* n_not_null;
ibool stats_null_not_equal;
uintmax_t n_sample_pages=1; /* number of pages to sample */
ulint not_empty_flag = 0;
ulint total_external_size = 0;
ulint i;
ulint j;
uintmax_t add_on;
mtr_t mtr;
mem_heap_t* heap = NULL;
ulint* offsets_rec = NULL;
ulint* offsets_next_rec = NULL;
/* For spatial index, there is no such stats can be
fetched. */
if (dict_index_is_spatial(index)) {
return(false);
}
n_cols = dict_index_get_n_unique(index);
heap = mem_heap_create((sizeof *n_diff + sizeof *n_not_null)
* n_cols
+ dict_index_get_n_fields(index)
* (sizeof *offsets_rec
+ sizeof *offsets_next_rec));
n_diff = (ib_uint64_t*) mem_heap_zalloc(
heap, n_cols * sizeof(n_diff[0]));
n_not_null = NULL;
/* Check srv_innodb_stats_method setting, and decide whether we
need to record non-null value and also decide if NULL is
considered equal (by setting stats_null_not_equal value) */
switch (srv_innodb_stats_method) {
case SRV_STATS_NULLS_IGNORED:
n_not_null = (ib_uint64_t*) mem_heap_zalloc(
heap, n_cols * sizeof *n_not_null);
/* fall through */
case SRV_STATS_NULLS_UNEQUAL:
/* for both SRV_STATS_NULLS_IGNORED and SRV_STATS_NULLS_UNEQUAL
case, we will treat NULLs as unequal value */
stats_null_not_equal = TRUE;
break;
case SRV_STATS_NULLS_EQUAL:
stats_null_not_equal = FALSE;
break;
default:
ut_error;
}
if (srv_stats_sample_traditional) {
/* It makes no sense to test more pages than are contained
in the index, thus we lower the number if it is too high */
if (srv_stats_transient_sample_pages > index->stat_index_size) {
if (index->stat_index_size > 0) {
n_sample_pages = index->stat_index_size;
}
} else {
n_sample_pages = srv_stats_transient_sample_pages;
}
} else {
/* New logaritmic number of pages that are estimated.
Number of pages estimated should be between 1 and
index->stat_index_size.
If we have only 0 or 1 index pages then we can only take 1
sample. We have already initialized n_sample_pages to 1.
So taking index size as I and sample as S and log(I)*S as L
requirement 1) we want the out limit of the expression to not exceed I;
requirement 2) we want the ideal pages to be at least S;
so the current expression is min(I, max( min(S,I), L)
looking for simplifications:
case 1: assume S < I
min(I, max( min(S,I), L) -> min(I , max( S, L))
but since L=LOG2(I)*S and log2(I) >=1 L>S always so max(S,L) = L.
so we have: min(I , L)
case 2: assume I < S
min(I, max( min(S,I), L) -> min(I, max( I, L))
case 2a: L > I
min(I, max( I, L)) -> min(I, L) -> I
case 2b: when L < I
min(I, max( I, L)) -> min(I, I ) -> I
so taking all case2 paths is I, our expression is:
n_pages = S < I? min(I,L) : I
*/
if (index->stat_index_size > 1) {
n_sample_pages = (srv_stats_transient_sample_pages < index->stat_index_size) ?
ut_min(static_cast<ulint>(index->stat_index_size),
static_cast<ulint>(log2(index->stat_index_size)*srv_stats_transient_sample_pages))
: index->stat_index_size;
}
}
/* Sanity check */
ut_ad(n_sample_pages > 0 && n_sample_pages <= (index->stat_index_size <= 1 ? 1 : index->stat_index_size));
/* We sample some pages in the index to get an estimate */
for (i = 0; i < n_sample_pages; i++) {
mtr_start(&mtr);
bool available;
available = btr_cur_open_at_rnd_pos(index, BTR_SEARCH_LEAF,
&cursor, &mtr);
if (!available) {
mtr_commit(&mtr);
mem_heap_free(heap);
return(false);
}
/* Count the number of different key values for each prefix of
the key on this index page. If the prefix does not determine
the index record uniquely in the B-tree, then we subtract one
because otherwise our algorithm would give a wrong estimate
for an index where there is just one key value. */
if (!index->is_readable()) {
mtr_commit(&mtr);
goto exit_loop;
}
page = btr_cur_get_page(&cursor);
rec = page_rec_get_next(page_get_infimum_rec(page));
const bool is_leaf = page_is_leaf(page);
if (!page_rec_is_supremum(rec)) {
not_empty_flag = 1;
offsets_rec = rec_get_offsets(rec, index, offsets_rec,
is_leaf,
ULINT_UNDEFINED, &heap);
if (n_not_null != NULL) {
btr_record_not_null_field_in_rec(
n_cols, offsets_rec, n_not_null);
}
}
while (!page_rec_is_supremum(rec)) {
ulint matched_fields;
rec_t* next_rec = page_rec_get_next(rec);
if (page_rec_is_supremum(next_rec)) {
total_external_size +=
btr_rec_get_externally_stored_len(
rec, offsets_rec);
break;
}
offsets_next_rec = rec_get_offsets(next_rec, index,
offsets_next_rec,
is_leaf,
ULINT_UNDEFINED,
&heap);
cmp_rec_rec_with_match(rec, next_rec,
offsets_rec, offsets_next_rec,
index, stats_null_not_equal,
&matched_fields);
for (j = matched_fields; j < n_cols; j++) {
/* We add one if this index record has
a different prefix from the previous */
n_diff[j]++;
}
if (n_not_null != NULL) {
btr_record_not_null_field_in_rec(
n_cols, offsets_next_rec, n_not_null);
}
total_external_size
+= btr_rec_get_externally_stored_len(
rec, offsets_rec);
rec = next_rec;
/* Initialize offsets_rec for the next round
and assign the old offsets_rec buffer to
offsets_next_rec. */
{
ulint* offsets_tmp = offsets_rec;
offsets_rec = offsets_next_rec;
offsets_next_rec = offsets_tmp;
}
}
if (n_cols == dict_index_get_n_unique_in_tree(index)
&& page_has_siblings(page)) {
/* If there is more than one leaf page in the tree,
we add one because we know that the first record
on the page certainly had a different prefix than the
last record on the previous index page in the
alphabetical order. Before this fix, if there was
just one big record on each clustered index page, the
algorithm grossly underestimated the number of rows
in the table. */
n_diff[n_cols - 1]++;
}
mtr_commit(&mtr);
}
exit_loop:
/* If we saw k borders between different key values on
n_sample_pages leaf pages, we can estimate how many
there will be in index->stat_n_leaf_pages */
/* We must take into account that our sample actually represents
also the pages used for external storage of fields (those pages are
included in index->stat_n_leaf_pages) */
for (j = 0; j < n_cols; j++) {
index->stat_n_diff_key_vals[j]
= BTR_TABLE_STATS_FROM_SAMPLE(
n_diff[j], index, n_sample_pages,
total_external_size, not_empty_flag);
/* If the tree is small, smaller than
10 * n_sample_pages + total_external_size, then
the above estimate is ok. For bigger trees it is common that we
do not see any borders between key values in the few pages
we pick. But still there may be n_sample_pages
different key values, or even more. Let us try to approximate
that: */
add_on = index->stat_n_leaf_pages
/ (10 * (n_sample_pages
+ total_external_size));
if (add_on > n_sample_pages) {
add_on = n_sample_pages;
}
index->stat_n_diff_key_vals[j] += add_on;
index->stat_n_sample_sizes[j] = n_sample_pages;
/* Update the stat_n_non_null_key_vals[] with our
sampled result. stat_n_non_null_key_vals[] is created
and initialized to zero in dict_index_add_to_cache(),
along with stat_n_diff_key_vals[] array */
if (n_not_null != NULL) {
index->stat_n_non_null_key_vals[j] =
BTR_TABLE_STATS_FROM_SAMPLE(
n_not_null[j], index, n_sample_pages,
total_external_size, not_empty_flag);
}
}
mem_heap_free(heap);
return(true);
}
/*================== EXTERNAL STORAGE OF BIG FIELDS ===================*/
/***********************************************************//**
Gets the offset of the pointer to the externally stored part of a field.
@return offset of the pointer to the externally stored part */
static
ulint
btr_rec_get_field_ref_offs(
/*=======================*/
const ulint* offsets,/*!< in: array returned by rec_get_offsets() */
ulint n) /*!< in: index of the external field */
{
ulint field_ref_offs;
ulint local_len;
ut_a(rec_offs_nth_extern(offsets, n));
field_ref_offs = rec_get_nth_field_offs(offsets, n, &local_len);
ut_a(len_is_stored(local_len));
ut_a(local_len >= BTR_EXTERN_FIELD_REF_SIZE);
return(field_ref_offs + local_len - BTR_EXTERN_FIELD_REF_SIZE);
}
/** Gets a pointer to the externally stored part of a field.
@param rec record
@param offsets rec_get_offsets(rec)
@param n index of the externally stored field
@return pointer to the externally stored part */
#define btr_rec_get_field_ref(rec, offsets, n) \
((rec) + btr_rec_get_field_ref_offs(offsets, n))
/** Gets the externally stored size of a record, in units of a database page.
@param[in] rec record
@param[in] offsets array returned by rec_get_offsets()
@return externally stored part, in units of a database page */
ulint
btr_rec_get_externally_stored_len(
const rec_t* rec,
const ulint* offsets)
{
ulint n_fields;
ulint total_extern_len = 0;
ulint i;
ut_ad(!rec_offs_comp(offsets) || !rec_get_node_ptr_flag(rec));
if (!rec_offs_any_extern(offsets)) {
return(0);
}
n_fields = rec_offs_n_fields(offsets);
for (i = 0; i < n_fields; i++) {
if (rec_offs_nth_extern(offsets, i)) {
ulint extern_len = mach_read_from_4(
btr_rec_get_field_ref(rec, offsets, i)
+ BTR_EXTERN_LEN + 4);
total_extern_len += ut_calc_align(
extern_len, ulint(srv_page_size));
}
}
return total_extern_len >> srv_page_size_shift;
}
/*******************************************************************//**
Sets the ownership bit of an externally stored field in a record. */
static
void
btr_cur_set_ownership_of_extern_field(
/*==================================*/
page_zip_des_t* page_zip,/*!< in/out: compressed page whose uncompressed
part will be updated, or NULL */
rec_t* rec, /*!< in/out: clustered index record */
dict_index_t* index, /*!< in: index of the page */
const ulint* offsets,/*!< in: array returned by rec_get_offsets() */
ulint i, /*!< in: field number */
ibool val, /*!< in: value to set */
mtr_t* mtr) /*!< in: mtr, or NULL if not logged */
{
byte* data;
ulint local_len;
ulint byte_val;
data = rec_get_nth_field(rec, offsets, i, &local_len);
ut_ad(rec_offs_nth_extern(offsets, i));
ut_a(local_len >= BTR_EXTERN_FIELD_REF_SIZE);
local_len -= BTR_EXTERN_FIELD_REF_SIZE;
byte_val = mach_read_from_1(data + local_len + BTR_EXTERN_LEN);
if (val) {
byte_val &= ~BTR_EXTERN_OWNER_FLAG;
} else {
#if defined UNIV_DEBUG || defined UNIV_BLOB_LIGHT_DEBUG
ut_a(!(byte_val & BTR_EXTERN_OWNER_FLAG));
#endif /* UNIV_DEBUG || UNIV_BLOB_LIGHT_DEBUG */
byte_val |= BTR_EXTERN_OWNER_FLAG;
}
if (page_zip) {
mach_write_to_1(data + local_len + BTR_EXTERN_LEN, byte_val);
page_zip_write_blob_ptr(page_zip, rec, index, offsets, i, mtr);
} else if (mtr != NULL) {
mlog_write_ulint(data + local_len + BTR_EXTERN_LEN, byte_val,
MLOG_1BYTE, mtr);
} else {
mach_write_to_1(data + local_len + BTR_EXTERN_LEN, byte_val);
}
}
/*******************************************************************//**
Marks non-updated off-page fields as disowned by this record. The ownership
must be transferred to the updated record which is inserted elsewhere in the
index tree. In purge only the owner of externally stored field is allowed
to free the field. */
void
btr_cur_disown_inherited_fields(
/*============================*/
page_zip_des_t* page_zip,/*!< in/out: compressed page whose uncompressed
part will be updated, or NULL */
rec_t* rec, /*!< in/out: record in a clustered index */
dict_index_t* index, /*!< in: index of the page */
const ulint* offsets,/*!< in: array returned by rec_get_offsets() */
const upd_t* update, /*!< in: update vector */
mtr_t* mtr) /*!< in/out: mini-transaction */
{
ulint i;
ut_ad(rec_offs_validate(rec, index, offsets));
ut_ad(!rec_offs_comp(offsets) || !rec_get_node_ptr_flag(rec));
ut_ad(rec_offs_any_extern(offsets));
for (i = 0; i < rec_offs_n_fields(offsets); i++) {
if (rec_offs_nth_extern(offsets, i)
&& !upd_get_field_by_field_no(update, i, false)) {
btr_cur_set_ownership_of_extern_field(
page_zip, rec, index, offsets, i, FALSE, mtr);
}
}
}
/*******************************************************************//**
Marks all extern fields in a record as owned by the record. This function
should be called if the delete mark of a record is removed: a not delete
marked record always owns all its extern fields. */
static
void
btr_cur_unmark_extern_fields(
/*=========================*/
page_zip_des_t* page_zip,/*!< in/out: compressed page whose uncompressed
part will be updated, or NULL */
rec_t* rec, /*!< in/out: record in a clustered index */
dict_index_t* index, /*!< in: index of the page */
const ulint* offsets,/*!< in: array returned by rec_get_offsets() */
mtr_t* mtr) /*!< in: mtr, or NULL if not logged */
{
ulint n;
ulint i;
ut_ad(!rec_offs_comp(offsets) || !rec_get_node_ptr_flag(rec));
n = rec_offs_n_fields(offsets);
if (!rec_offs_any_extern(offsets)) {
return;
}
for (i = 0; i < n; i++) {
if (rec_offs_nth_extern(offsets, i)) {
btr_cur_set_ownership_of_extern_field(
page_zip, rec, index, offsets, i, TRUE, mtr);
}
}
}
/*******************************************************************//**
Flags the data tuple fields that are marked as extern storage in the
update vector. We use this function to remember which fields we must
mark as extern storage in a record inserted for an update.
@return number of flagged external columns */
ulint
btr_push_update_extern_fields(
/*==========================*/
dtuple_t* tuple, /*!< in/out: data tuple */
const upd_t* update, /*!< in: update vector */
mem_heap_t* heap) /*!< in: memory heap */
{
ulint n_pushed = 0;
ulint n;
const upd_field_t* uf;
uf = update->fields;
n = upd_get_n_fields(update);
for (; n--; uf++) {
if (dfield_is_ext(&uf->new_val)) {
dfield_t* field
= dtuple_get_nth_field(tuple, uf->field_no);
if (!dfield_is_ext(field)) {
dfield_set_ext(field);
n_pushed++;
}
switch (uf->orig_len) {
byte* data;
ulint len;
byte* buf;
case 0:
break;
case BTR_EXTERN_FIELD_REF_SIZE:
/* Restore the original locally stored
part of the column. In the undo log,
InnoDB writes a longer prefix of externally
stored columns, so that column prefixes
in secondary indexes can be reconstructed. */
dfield_set_data(field,
(byte*) dfield_get_data(field)
+ dfield_get_len(field)
- BTR_EXTERN_FIELD_REF_SIZE,
BTR_EXTERN_FIELD_REF_SIZE);
dfield_set_ext(field);
break;
default:
/* Reconstruct the original locally
stored part of the column. The data
will have to be copied. */
ut_a(uf->orig_len > BTR_EXTERN_FIELD_REF_SIZE);
data = (byte*) dfield_get_data(field);
len = dfield_get_len(field);
buf = (byte*) mem_heap_alloc(heap,
uf->orig_len);
/* Copy the locally stored prefix. */
memcpy(buf, data,
unsigned(uf->orig_len)
- BTR_EXTERN_FIELD_REF_SIZE);
/* Copy the BLOB pointer. */
memcpy(buf + unsigned(uf->orig_len)
- BTR_EXTERN_FIELD_REF_SIZE,
data + len - BTR_EXTERN_FIELD_REF_SIZE,
BTR_EXTERN_FIELD_REF_SIZE);
dfield_set_data(field, buf, uf->orig_len);
dfield_set_ext(field);
}
}
}
return(n_pushed);
}
/*******************************************************************//**
Returns the length of a BLOB part stored on the header page.
@return part length */
static
ulint
btr_blob_get_part_len(
/*==================*/
const byte* blob_header) /*!< in: blob header */
{
return(mach_read_from_4(blob_header + BTR_BLOB_HDR_PART_LEN));
}
/*******************************************************************//**
Returns the page number where the next BLOB part is stored.
@return page number or FIL_NULL if no more pages */
static
ulint
btr_blob_get_next_page_no(
/*======================*/
const byte* blob_header) /*!< in: blob header */
{
return(mach_read_from_4(blob_header + BTR_BLOB_HDR_NEXT_PAGE_NO));
}
/*******************************************************************//**
Deallocate a buffer block that was reserved for a BLOB part. */
static
void
btr_blob_free(
/*==========*/
dict_index_t* index, /*!< in: index */
buf_block_t* block, /*!< in: buffer block */
ibool all, /*!< in: TRUE=remove also the compressed page
if there is one */
mtr_t* mtr) /*!< in: mini-transaction to commit */
{
buf_pool_t* buf_pool = buf_pool_from_block(block);
ulint space = block->page.id.space();
ulint page_no = block->page.id.page_no();
ut_ad(mtr_is_block_fix(mtr, block, MTR_MEMO_PAGE_X_FIX, index->table));
mtr_commit(mtr);
buf_pool_mutex_enter(buf_pool);
/* Only free the block if it is still allocated to
the same file page. */
if (buf_block_get_state(block)
== BUF_BLOCK_FILE_PAGE
&& block->page.id.space() == space
&& block->page.id.page_no() == page_no) {
if (!buf_LRU_free_page(&block->page, all)
&& all && block->page.zip.data) {
/* Attempt to deallocate the uncompressed page
if the whole block cannot be deallocted. */
buf_LRU_free_page(&block->page, false);
}
}
buf_pool_mutex_exit(buf_pool);
}
/** Helper class used while writing blob pages, during insert or update. */
struct btr_blob_log_check_t {
/** Persistent cursor on a clusterex index record with blobs. */
btr_pcur_t* m_pcur;
/** Mini transaction holding the latches for m_pcur */
mtr_t* m_mtr;
/** rec_get_offsets(rec, index); offset of clust_rec */
const ulint* m_offsets;
/** The block containing clustered record */
buf_block_t** m_block;
/** The clustered record pointer */
rec_t** m_rec;
/** The blob operation code */
enum blob_op m_op;
/** Constructor
@param[in] pcur persistent cursor on a clustered
index record with blobs.
@param[in] mtr mini-transaction holding latches for
pcur.
@param[in] offsets offsets of the clust_rec
@param[in,out] block record block containing pcur record
@param[in,out] rec the clustered record pointer
@param[in] op the blob operation code */
btr_blob_log_check_t(
btr_pcur_t* pcur,
mtr_t* mtr,
const ulint* offsets,
buf_block_t** block,
rec_t** rec,
enum blob_op op)
: m_pcur(pcur),
m_mtr(mtr),
m_offsets(offsets),
m_block(block),
m_rec(rec),
m_op(op)
{
ut_ad(rec_offs_validate(*m_rec, m_pcur->index(), m_offsets));
ut_ad((*m_block)->frame == page_align(*m_rec));
ut_ad(*m_rec == btr_pcur_get_rec(m_pcur));
}
/** Check if there is enough space in log file. Commit and re-start the
mini transaction. */
void check()
{
dict_index_t* index = m_pcur->index();
ulint offs = 0;
ulint page_no = ULINT_UNDEFINED;
FlushObserver* observer = m_mtr->get_flush_observer();
if (m_op == BTR_STORE_INSERT_BULK) {
offs = page_offset(*m_rec);
page_no = page_get_page_no(
buf_block_get_frame(*m_block));
buf_block_buf_fix_inc(*m_block, __FILE__, __LINE__);
} else {
btr_pcur_store_position(m_pcur, m_mtr);
}
m_mtr->commit();
DEBUG_SYNC_C("blob_write_middle");
log_free_check();
DEBUG_SYNC_C("blob_write_middle_after_check");
const mtr_log_t log_mode = m_mtr->get_log_mode();
m_mtr->start();
m_mtr->set_log_mode(log_mode);
index->set_modified(*m_mtr);
m_mtr->set_flush_observer(observer);
if (m_op == BTR_STORE_INSERT_BULK) {
mtr_x_lock(dict_index_get_lock(index), m_mtr);
m_pcur->btr_cur.page_cur.block = btr_block_get(
page_id_t(index->table->space->id, page_no),
page_size_t(index->table->space->flags),
RW_X_LATCH, index, m_mtr);
m_pcur->btr_cur.page_cur.rec
= m_pcur->btr_cur.page_cur.block->frame
+ offs;
buf_block_buf_fix_dec(m_pcur->btr_cur.page_cur.block);
} else {
ut_ad(m_pcur->rel_pos == BTR_PCUR_ON);
bool ret = btr_pcur_restore_position(
BTR_MODIFY_LEAF | BTR_MODIFY_EXTERNAL,
m_pcur, m_mtr);
ut_a(ret);
}
*m_block = btr_pcur_get_block(m_pcur);
*m_rec = btr_pcur_get_rec(m_pcur);
rec_offs_make_valid(*m_rec, index, true,
const_cast<ulint*>(m_offsets));
ut_ad(m_mtr->memo_contains_page_flagged(
*m_rec,
MTR_MEMO_PAGE_X_FIX | MTR_MEMO_PAGE_SX_FIX));
ut_ad(mtr_memo_contains_flagged(m_mtr,
dict_index_get_lock(index),
MTR_MEMO_SX_LOCK | MTR_MEMO_X_LOCK));
}
};
/*******************************************************************//**
Stores the fields in big_rec_vec to the tablespace and puts pointers to
them in rec. The extern flags in rec will have to be set beforehand.
The fields are stored on pages allocated from leaf node
file segment of the index tree.
TODO: If the allocation extends the tablespace, it will not be redo logged, in
any mini-transaction. Tablespace extension should be redo-logged, so that
recovery will not fail when the big_rec was written to the extended portion of
the file, in case the file was somehow truncated in the crash.
@return DB_SUCCESS or DB_OUT_OF_FILE_SPACE */
dberr_t
btr_store_big_rec_extern_fields(
/*============================*/
btr_pcur_t* pcur, /*!< in/out: a persistent cursor. if
btr_mtr is restarted, then this can
be repositioned. */
ulint* offsets, /*!< in/out: rec_get_offsets() on
pcur. the "external storage" flags
in offsets will correctly correspond
to rec when this function returns */
const big_rec_t*big_rec_vec, /*!< in: vector containing fields
to be stored externally */
mtr_t* btr_mtr, /*!< in/out: mtr containing the
latches to the clustered index. can be
committed and restarted. */
enum blob_op op) /*! in: operation code */
{
ulint rec_page_no;
byte* field_ref;
ulint extern_len;
ulint store_len;
ulint page_no;
ulint space_id;
ulint prev_page_no;
ulint hint_page_no;
ulint i;
mtr_t mtr;
mtr_t mtr_bulk;
mem_heap_t* heap = NULL;
page_zip_des_t* page_zip;
z_stream c_stream;
dberr_t error = DB_SUCCESS;
dict_index_t* index = pcur->index();
buf_block_t* rec_block = btr_pcur_get_block(pcur);
rec_t* rec = btr_pcur_get_rec(pcur);
ut_ad(rec_offs_validate(rec, index, offsets));
ut_ad(rec_offs_any_extern(offsets));
ut_ad(mtr_memo_contains_flagged(btr_mtr, dict_index_get_lock(index),
MTR_MEMO_X_LOCK | MTR_MEMO_SX_LOCK));
ut_ad(mtr_is_block_fix(
btr_mtr, rec_block, MTR_MEMO_PAGE_X_FIX, index->table));
ut_ad(buf_block_get_frame(rec_block) == page_align(rec));
ut_a(dict_index_is_clust(index));
ut_a(dict_table_page_size(index->table)
.equals_to(rec_block->page.size));
btr_blob_log_check_t redo_log(pcur, btr_mtr, offsets, &rec_block,
&rec, op);
page_zip = buf_block_get_page_zip(rec_block);
space_id = rec_block->page.id.space();
rec_page_no = rec_block->page.id.page_no();
ut_a(fil_page_index_page_check(page_align(rec))
|| op == BTR_STORE_INSERT_BULK);
if (page_zip) {
int err;
/* Zlib deflate needs 128 kilobytes for the default
window size, plus 512 << memLevel, plus a few
kilobytes for small objects. We use reduced memLevel
to limit the memory consumption, and preallocate the
heap, hoping to avoid memory fragmentation. */
heap = mem_heap_create(250000);
page_zip_set_alloc(&c_stream, heap);
err = deflateInit2(&c_stream, int(page_zip_level),
Z_DEFLATED, 15, 7, Z_DEFAULT_STRATEGY);
ut_a(err == Z_OK);
}
#if defined UNIV_DEBUG || defined UNIV_BLOB_LIGHT_DEBUG
/* All pointers to externally stored columns in the record
must either be zero or they must be pointers to inherited
columns, owned by this record or an earlier record version. */
for (i = 0; i < big_rec_vec->n_fields; i++) {
field_ref = btr_rec_get_field_ref(
rec, offsets, big_rec_vec->fields[i].field_no);
ut_a(!(field_ref[BTR_EXTERN_LEN] & BTR_EXTERN_OWNER_FLAG));
/* Either this must be an update in place,
or the BLOB must be inherited, or the BLOB pointer
must be zero (will be written in this function). */
ut_a(op == BTR_STORE_UPDATE
|| (field_ref[BTR_EXTERN_LEN] & BTR_EXTERN_INHERITED_FLAG)
|| !memcmp(field_ref, field_ref_zero,
BTR_EXTERN_FIELD_REF_SIZE));
}
#endif /* UNIV_DEBUG || UNIV_BLOB_LIGHT_DEBUG */
const page_size_t page_size(dict_table_page_size(index->table));
/* Space available in compressed page to carry blob data */
const ulint payload_size_zip = page_size.physical()
- FIL_PAGE_DATA;
/* Space available in uncompressed page to carry blob data */
const ulint payload_size = page_size.physical()
- FIL_PAGE_DATA - BTR_BLOB_HDR_SIZE - FIL_PAGE_DATA_END;
/* We have to create a file segment to the tablespace
for each field and put the pointer to the field in rec */
for (i = 0; i < big_rec_vec->n_fields; i++) {
const ulint field_no = big_rec_vec->fields[i].field_no;
field_ref = btr_rec_get_field_ref(rec, offsets, field_no);
#if defined UNIV_DEBUG || defined UNIV_BLOB_LIGHT_DEBUG
/* A zero BLOB pointer should have been initially inserted. */
ut_a(!memcmp(field_ref, field_ref_zero,
BTR_EXTERN_FIELD_REF_SIZE));
#endif /* UNIV_DEBUG || UNIV_BLOB_LIGHT_DEBUG */
extern_len = big_rec_vec->fields[i].len;
UNIV_MEM_ASSERT_RW(big_rec_vec->fields[i].data,
extern_len);
ut_a(extern_len > 0);
prev_page_no = FIL_NULL;
if (page_zip) {
int err = deflateReset(&c_stream);
ut_a(err == Z_OK);
c_stream.next_in = (Bytef*)
big_rec_vec->fields[i].data;
c_stream.avail_in = static_cast<uInt>(extern_len);
}
for (ulint blob_npages = 0;; ++blob_npages) {
buf_block_t* block;
page_t* page;
const ulint commit_freq = 4;
ulint r_extents;
ut_ad(page_align(field_ref) == page_align(rec));
if (!(blob_npages % commit_freq)) {
redo_log.check();
field_ref = btr_rec_get_field_ref(
rec, offsets, field_no);
page_zip = buf_block_get_page_zip(rec_block);
rec_page_no = rec_block->page.id.page_no();
}
mtr.start();
index->set_modified(mtr);
mtr.set_log_mode(btr_mtr->get_log_mode());
mtr.set_flush_observer(btr_mtr->get_flush_observer());
buf_page_get(rec_block->page.id,
rec_block->page.size, RW_X_LATCH, &mtr);
if (prev_page_no == FIL_NULL) {
hint_page_no = 1 + rec_page_no;
} else {
hint_page_no = prev_page_no + 1;
}
mtr_t *alloc_mtr;
if (op == BTR_STORE_INSERT_BULK) {
mtr_bulk.start();
mtr_bulk.set_spaces(mtr);
alloc_mtr = &mtr_bulk;
} else {
alloc_mtr = &mtr;
}
if (!fsp_reserve_free_extents(&r_extents,
index->table->space, 1,
FSP_BLOB, alloc_mtr,
1)) {
alloc_mtr->commit();
error = DB_OUT_OF_FILE_SPACE;
goto func_exit;
}
block = btr_page_alloc(index, hint_page_no, FSP_NO_DIR,
0, alloc_mtr, &mtr);
index->table->space->release_free_extents(r_extents);
if (op == BTR_STORE_INSERT_BULK) {
mtr_bulk.commit();
}
ut_a(block != NULL);
page_no = block->page.id.page_no();
page = buf_block_get_frame(block);
if (prev_page_no != FIL_NULL) {
buf_block_t* prev_block;
page_t* prev_page;
prev_block = buf_page_get(
page_id_t(space_id, prev_page_no),
rec_block->page.size,
RW_X_LATCH, &mtr);
buf_block_dbg_add_level(prev_block,
SYNC_EXTERN_STORAGE);
prev_page = buf_block_get_frame(prev_block);
if (page_zip) {
mlog_write_ulint(
prev_page + FIL_PAGE_NEXT,
page_no, MLOG_4BYTES, &mtr);
memcpy(buf_block_get_page_zip(
prev_block)
->data + FIL_PAGE_NEXT,
prev_page + FIL_PAGE_NEXT, 4);
} else {
mlog_write_ulint(
prev_page + FIL_PAGE_DATA
+ BTR_BLOB_HDR_NEXT_PAGE_NO,
page_no, MLOG_4BYTES, &mtr);
}
} else if (dict_index_is_online_ddl(index)) {
row_log_table_blob_alloc(index, page_no);
}
if (page_zip) {
int err;
page_zip_des_t* blob_page_zip;
/* Write FIL_PAGE_TYPE to the redo log
separately, before logging any other
changes to the page, so that the debug
assertions in
recv_parse_or_apply_log_rec_body() can
be made simpler. Before InnoDB Plugin
1.0.4, the initialization of
FIL_PAGE_TYPE was logged as part of
the mlog_log_string() below. */
mlog_write_ulint(page + FIL_PAGE_TYPE,
prev_page_no == FIL_NULL
? FIL_PAGE_TYPE_ZBLOB
: FIL_PAGE_TYPE_ZBLOB2,
MLOG_2BYTES, &mtr);
c_stream.next_out = page
+ FIL_PAGE_DATA;
c_stream.avail_out = static_cast<uInt>(
payload_size_zip);
err = deflate(&c_stream, Z_FINISH);
ut_a(err == Z_OK || err == Z_STREAM_END);
ut_a(err == Z_STREAM_END
|| c_stream.avail_out == 0);
/* Write the "next BLOB page" pointer */
mlog_write_ulint(page + FIL_PAGE_NEXT,
FIL_NULL, MLOG_4BYTES, &mtr);
/* Initialize the unused "prev page" pointer */
mlog_write_ulint(page + FIL_PAGE_PREV,
FIL_NULL, MLOG_4BYTES, &mtr);
/* Write a back pointer to the record
into the otherwise unused area. This
information could be useful in
debugging. Later, we might want to
implement the possibility to relocate
BLOB pages. Then, we would need to be
able to adjust the BLOB pointer in the
record. We do not store the heap
number of the record, because it can
change in page_zip_reorganize() or
btr_page_reorganize(). However, also
the page number of the record may
change when B-tree nodes are split or
merged.
NOTE: FIL_PAGE_FILE_FLUSH_LSN space is
used by R-tree index for a Split Sequence
Number */
ut_ad(!dict_index_is_spatial(index));
mlog_write_ulint(page
+ FIL_PAGE_FILE_FLUSH_LSN_OR_KEY_VERSION,
space_id,
MLOG_4BYTES, &mtr);
mlog_write_ulint(page
+ FIL_PAGE_FILE_FLUSH_LSN_OR_KEY_VERSION + 4,
rec_page_no,
MLOG_4BYTES, &mtr);
/* Zero out the unused part of the page. */
memset(page + page_zip_get_size(page_zip)
- c_stream.avail_out,
0, c_stream.avail_out);
mlog_log_string(page
+ FIL_PAGE_FILE_FLUSH_LSN_OR_KEY_VERSION,
page_zip_get_size(page_zip)
- FIL_PAGE_FILE_FLUSH_LSN_OR_KEY_VERSION,
&mtr);
/* Copy the page to compressed storage,
because it will be flushed to disk
from there. */
blob_page_zip = buf_block_get_page_zip(block);
ut_ad(blob_page_zip);
ut_ad(page_zip_get_size(blob_page_zip)
== page_zip_get_size(page_zip));
memcpy(blob_page_zip->data, page,
page_zip_get_size(page_zip));
if (err == Z_OK && prev_page_no != FIL_NULL) {
goto next_zip_page;
}
if (err == Z_STREAM_END) {
mach_write_to_4(field_ref
+ BTR_EXTERN_LEN, 0);
mach_write_to_4(field_ref
+ BTR_EXTERN_LEN + 4,
c_stream.total_in);
} else {
memset(field_ref + BTR_EXTERN_LEN,
0, 8);
}
if (prev_page_no == FIL_NULL) {
ut_ad(blob_npages == 0);
mach_write_to_4(field_ref
+ BTR_EXTERN_SPACE_ID,
space_id);
mach_write_to_4(field_ref
+ BTR_EXTERN_PAGE_NO,
page_no);
mach_write_to_4(field_ref
+ BTR_EXTERN_OFFSET,
FIL_PAGE_NEXT);
}
/* We compress a page when finish bulk insert.*/
if (op != BTR_STORE_INSERT_BULK) {
page_zip_write_blob_ptr(
page_zip, rec, index, offsets,
field_no, &mtr);
}
next_zip_page:
prev_page_no = page_no;
/* Commit mtr and release the
uncompressed page frame to save memory. */
btr_blob_free(index, block, FALSE, &mtr);
if (err == Z_STREAM_END) {
break;
}
} else {
mlog_write_ulint(page + FIL_PAGE_TYPE,
FIL_PAGE_TYPE_BLOB,
MLOG_2BYTES, &mtr);
if (extern_len > payload_size) {
store_len = payload_size;
} else {
store_len = extern_len;
}
mlog_write_string(page + FIL_PAGE_DATA
+ BTR_BLOB_HDR_SIZE,
(const byte*)
big_rec_vec->fields[i].data
+ big_rec_vec->fields[i].len
- extern_len,
store_len, &mtr);
mlog_write_ulint(page + FIL_PAGE_DATA
+ BTR_BLOB_HDR_PART_LEN,
store_len, MLOG_4BYTES, &mtr);
mlog_write_ulint(page + FIL_PAGE_DATA
+ BTR_BLOB_HDR_NEXT_PAGE_NO,
FIL_NULL, MLOG_4BYTES, &mtr);
extern_len -= store_len;
mlog_write_ulint(field_ref + BTR_EXTERN_LEN, 0,
MLOG_4BYTES, &mtr);
mlog_write_ulint(field_ref
+ BTR_EXTERN_LEN + 4,
big_rec_vec->fields[i].len
- extern_len,
MLOG_4BYTES, &mtr);
if (prev_page_no == FIL_NULL) {
ut_ad(blob_npages == 0);
mlog_write_ulint(field_ref
+ BTR_EXTERN_SPACE_ID,
space_id, MLOG_4BYTES,
&mtr);
mlog_write_ulint(field_ref
+ BTR_EXTERN_PAGE_NO,
page_no, MLOG_4BYTES,
&mtr);
mlog_write_ulint(field_ref
+ BTR_EXTERN_OFFSET,
FIL_PAGE_DATA,
MLOG_4BYTES,
&mtr);
}
prev_page_no = page_no;
mtr.commit();
if (extern_len == 0) {
break;
}
}
}
DBUG_EXECUTE_IF("btr_store_big_rec_extern",
error = DB_OUT_OF_FILE_SPACE;
goto func_exit;);
rec_offs_make_nth_extern(offsets, field_no);
}
func_exit:
if (page_zip) {
deflateEnd(&c_stream);
}
if (heap != NULL) {
mem_heap_free(heap);
}
#if defined UNIV_DEBUG || defined UNIV_BLOB_LIGHT_DEBUG
/* All pointers to externally stored columns in the record
must be valid. */
for (i = 0; i < rec_offs_n_fields(offsets); i++) {
if (!rec_offs_nth_extern(offsets, i)) {
continue;
}
field_ref = btr_rec_get_field_ref(rec, offsets, i);
/* The pointer must not be zero if the operation
succeeded. */
ut_a(0 != memcmp(field_ref, field_ref_zero,
BTR_EXTERN_FIELD_REF_SIZE)
|| error != DB_SUCCESS);
/* The column must not be disowned by this record. */
ut_a(!(field_ref[BTR_EXTERN_LEN] & BTR_EXTERN_OWNER_FLAG));
}
#endif /* UNIV_DEBUG || UNIV_BLOB_LIGHT_DEBUG */
return(error);
}
/*******************************************************************//**
Check the FIL_PAGE_TYPE on an uncompressed BLOB page. */
static
void
btr_check_blob_fil_page_type(
/*=========================*/
ulint space_id, /*!< in: space id */
ulint page_no, /*!< in: page number */
const page_t* page, /*!< in: page */
ibool read) /*!< in: TRUE=read, FALSE=purge */
{
ulint type = fil_page_get_type(page);
ut_a(space_id == page_get_space_id(page));
ut_a(page_no == page_get_page_no(page));
if (UNIV_UNLIKELY(type != FIL_PAGE_TYPE_BLOB)) {
ulint flags = fil_space_get_flags(space_id);
#ifndef UNIV_DEBUG /* Improve debug test coverage */
if (!DICT_TF_HAS_ATOMIC_BLOBS(flags)) {
/* Old versions of InnoDB did not initialize
FIL_PAGE_TYPE on BLOB pages. Do not print
anything about the type mismatch when reading
a BLOB page that may be from old versions. */
return;
}
#endif /* !UNIV_DEBUG */
ib::fatal() << "FIL_PAGE_TYPE=" << type
<< " on BLOB " << (read ? "read" : "purge")
<< " space " << space_id << " page " << page_no
<< " flags " << flags;
}
}
/*******************************************************************//**
Frees the space in an externally stored field to the file space
management if the field in data is owned by the externally stored field,
in a rollback we may have the additional condition that the field must
not be inherited. */
void
btr_free_externally_stored_field(
/*=============================*/
dict_index_t* index, /*!< in: index of the data, the index
tree MUST be X-latched; if the tree
height is 1, then also the root page
must be X-latched! (this is relevant
in the case this function is called
from purge where 'data' is located on
an undo log page, not an index
page) */
byte* field_ref, /*!< in/out: field reference */
const rec_t* rec, /*!< in: record containing field_ref, for
page_zip_write_blob_ptr(), or NULL */
const ulint* offsets, /*!< in: rec_get_offsets(rec, index),
or NULL */
page_zip_des_t* page_zip, /*!< in: compressed page corresponding
to rec, or NULL if rec == NULL */
ulint i, /*!< in: field number of field_ref;
ignored if rec == NULL */
bool rollback, /*!< in: performing rollback? */
mtr_t* local_mtr) /*!< in: mtr
containing the latch to data an an
X-latch to the index tree */
{
page_t* page;
const ulint space_id = mach_read_from_4(
field_ref + BTR_EXTERN_SPACE_ID);
const ulint start_page = mach_read_from_4(
field_ref + BTR_EXTERN_PAGE_NO);
ulint page_no;
ulint next_page_no;
mtr_t mtr;
ut_ad(dict_index_is_clust(index));
ut_ad(mtr_memo_contains_flagged(local_mtr, dict_index_get_lock(index),
MTR_MEMO_X_LOCK | MTR_MEMO_SX_LOCK));
ut_ad(mtr_is_page_fix(
local_mtr, field_ref, MTR_MEMO_PAGE_X_FIX, index->table));
ut_ad(!rec || rec_offs_validate(rec, index, offsets));
ut_ad(!rec || field_ref == btr_rec_get_field_ref(rec, offsets, i));
ut_ad(local_mtr->is_named_space(
page_get_space_id(page_align(field_ref))));
if (UNIV_UNLIKELY(!memcmp(field_ref, field_ref_zero,
BTR_EXTERN_FIELD_REF_SIZE))) {
/* In the rollback, we may encounter a clustered index
record with some unwritten off-page columns. There is
nothing to free then. */
ut_a(rollback);
return;
}
ut_ad(!(mach_read_from_4(field_ref + BTR_EXTERN_LEN)
& ~((BTR_EXTERN_OWNER_FLAG
| BTR_EXTERN_INHERITED_FLAG) << 24)));
ut_ad(space_id == index->table->space->id);
const page_size_t ext_page_size(dict_table_page_size(index->table));
const page_size_t& rec_page_size(rec == NULL
? univ_page_size
: ext_page_size);
if (rec == NULL) {
/* This is a call from row_purge_upd_exist_or_extern(). */
ut_ad(!page_zip);
}
for (;;) {
#ifdef UNIV_DEBUG
buf_block_t* rec_block;
#endif /* UNIV_DEBUG */
buf_block_t* ext_block;
mtr_start(&mtr);
mtr.set_spaces(*local_mtr);
mtr.set_log_mode(local_mtr->get_log_mode());
ut_ad(!dict_table_is_temporary(index->table)
|| local_mtr->get_log_mode() == MTR_LOG_NO_REDO);
const page_t* p = page_align(field_ref);
const page_id_t page_id(page_get_space_id(p),
page_get_page_no(p));
#ifdef UNIV_DEBUG
rec_block =
#endif /* UNIV_DEBUG */
buf_page_get(page_id, rec_page_size, RW_X_LATCH, &mtr);
buf_block_dbg_add_level(rec_block, SYNC_NO_ORDER_CHECK);
page_no = mach_read_from_4(field_ref + BTR_EXTERN_PAGE_NO);
if (/* There is no external storage data */
page_no == FIL_NULL
/* This field does not own the externally stored field */
|| (mach_read_from_1(field_ref + BTR_EXTERN_LEN)
& BTR_EXTERN_OWNER_FLAG)
/* Rollback and inherited field */
|| (rollback
&& (mach_read_from_1(field_ref + BTR_EXTERN_LEN)
& BTR_EXTERN_INHERITED_FLAG))) {
/* Do not free */
mtr_commit(&mtr);
return;
}
if (page_no == start_page && dict_index_is_online_ddl(index)) {
row_log_table_blob_free(index, start_page);
}
ext_block = buf_page_get(
page_id_t(space_id, page_no), ext_page_size,
RW_X_LATCH, &mtr);
buf_block_dbg_add_level(ext_block, SYNC_EXTERN_STORAGE);
page = buf_block_get_frame(ext_block);
if (ext_page_size.is_compressed()) {
/* Note that page_zip will be NULL
in row_purge_upd_exist_or_extern(). */
switch (fil_page_get_type(page)) {
case FIL_PAGE_TYPE_ZBLOB:
case FIL_PAGE_TYPE_ZBLOB2:
break;
default:
ut_error;
}
next_page_no = mach_read_from_4(page + FIL_PAGE_NEXT);
btr_page_free_low(index, ext_block, 0,
true, &mtr);
if (page_zip != NULL) {
mach_write_to_4(field_ref + BTR_EXTERN_PAGE_NO,
next_page_no);
mach_write_to_4(field_ref + BTR_EXTERN_LEN + 4,
0);
page_zip_write_blob_ptr(page_zip, rec, index,
offsets, i, &mtr);
} else {
mlog_write_ulint(field_ref
+ BTR_EXTERN_PAGE_NO,
next_page_no,
MLOG_4BYTES, &mtr);
mlog_write_ulint(field_ref
+ BTR_EXTERN_LEN + 4, 0,
MLOG_4BYTES, &mtr);
}
} else {
ut_a(!page_zip);
btr_check_blob_fil_page_type(space_id, page_no, page,
FALSE);
next_page_no = mach_read_from_4(
page + FIL_PAGE_DATA
+ BTR_BLOB_HDR_NEXT_PAGE_NO);
/* We must supply the page level (= 0) as an argument
because we did not store it on the page (we save the
space overhead from an index page header. */
btr_page_free_low(index, ext_block, 0,
true, &mtr);
mlog_write_ulint(field_ref + BTR_EXTERN_PAGE_NO,
next_page_no,
MLOG_4BYTES, &mtr);
/* Zero out the BLOB length. If the server
crashes during the execution of this function,
trx_rollback_all_recovered() could
dereference the half-deleted BLOB, fetching a
wrong prefix for the BLOB. */
mlog_write_ulint(field_ref + BTR_EXTERN_LEN + 4,
0,
MLOG_4BYTES, &mtr);
}
/* Commit mtr and release the BLOB block to save memory. */
btr_blob_free(index, ext_block, TRUE, &mtr);
}
}
/***********************************************************//**
Frees the externally stored fields for a record. */
static
void
btr_rec_free_externally_stored_fields(
/*==================================*/
dict_index_t* index, /*!< in: index of the data, the index
tree MUST be X-latched */
rec_t* rec, /*!< in/out: record */
const ulint* offsets,/*!< in: rec_get_offsets(rec, index) */
page_zip_des_t* page_zip,/*!< in: compressed page whose uncompressed
part will be updated, or NULL */
bool rollback,/*!< in: performing rollback? */
mtr_t* mtr) /*!< in: mini-transaction handle which contains
an X-latch to record page and to the index
tree */
{
ulint n_fields;
ulint i;
ut_ad(rec_offs_validate(rec, index, offsets));
ut_ad(mtr_is_page_fix(mtr, rec, MTR_MEMO_PAGE_X_FIX, index->table));
ut_ad(dict_index_is_clust(index));
ut_ad(page_rec_is_leaf(rec));
/* Free possible externally stored fields in the record */
ut_ad(dict_table_is_comp(index->table) == !!rec_offs_comp(offsets));
n_fields = rec_offs_n_fields(offsets);
for (i = 0; i < n_fields; i++) {
if (rec_offs_nth_extern(offsets, i)) {
btr_free_externally_stored_field(
index, btr_rec_get_field_ref(rec, offsets, i),
rec, offsets, page_zip, i, rollback, mtr);
}
}
}
/***********************************************************//**
Frees the externally stored fields for a record, if the field is mentioned
in the update vector. */
static
void
btr_rec_free_updated_extern_fields(
/*===============================*/
dict_index_t* index, /*!< in: index of rec; the index tree MUST be
X-latched */
rec_t* rec, /*!< in/out: record */
page_zip_des_t* page_zip,/*!< in: compressed page whose uncompressed
part will be updated, or NULL */
const ulint* offsets,/*!< in: rec_get_offsets(rec, index) */
const upd_t* update, /*!< in: update vector */
bool rollback,/*!< in: performing rollback? */
mtr_t* mtr) /*!< in: mini-transaction handle which contains
an X-latch to record page and to the tree */
{
ulint n_fields;
ulint i;
ut_ad(rec_offs_validate(rec, index, offsets));
ut_ad(mtr_is_page_fix(mtr, rec, MTR_MEMO_PAGE_X_FIX, index->table));
/* Free possible externally stored fields in the record */
n_fields = upd_get_n_fields(update);
for (i = 0; i < n_fields; i++) {
const upd_field_t* ufield = upd_get_nth_field(update, i);
if (rec_offs_nth_extern(offsets, ufield->field_no)) {
ulint len;
byte* data = rec_get_nth_field(
rec, offsets, ufield->field_no, &len);
ut_a(len >= BTR_EXTERN_FIELD_REF_SIZE);
btr_free_externally_stored_field(
index, data + len - BTR_EXTERN_FIELD_REF_SIZE,
rec, offsets, page_zip,
ufield->field_no, rollback, mtr);
}
}
}
/*******************************************************************//**
Copies the prefix of an uncompressed BLOB. The clustered index record
that points to this BLOB must be protected by a lock or a page latch.
@return number of bytes written to buf */
static
ulint
btr_copy_blob_prefix(
/*=================*/
byte* buf, /*!< out: the externally stored part of
the field, or a prefix of it */
ulint len, /*!< in: length of buf, in bytes */
ulint space_id,/*!< in: space id of the BLOB pages */
ulint page_no,/*!< in: page number of the first BLOB page */
ulint offset) /*!< in: offset on the first BLOB page */
{
ulint copied_len = 0;
for (;;) {
mtr_t mtr;
buf_block_t* block;
const page_t* page;
const byte* blob_header;
ulint part_len;
ulint copy_len;
mtr_start(&mtr);
block = buf_page_get(page_id_t(space_id, page_no),
univ_page_size, RW_S_LATCH, &mtr);
buf_block_dbg_add_level(block, SYNC_EXTERN_STORAGE);
page = buf_block_get_frame(block);
btr_check_blob_fil_page_type(space_id, page_no, page, TRUE);
blob_header = page + offset;
part_len = btr_blob_get_part_len(blob_header);
copy_len = ut_min(part_len, len - copied_len);
memcpy(buf + copied_len,
blob_header + BTR_BLOB_HDR_SIZE, copy_len);
copied_len += copy_len;
page_no = btr_blob_get_next_page_no(blob_header);
mtr_commit(&mtr);
if (page_no == FIL_NULL || copy_len != part_len) {
UNIV_MEM_ASSERT_RW(buf, copied_len);
return(copied_len);
}
/* On other BLOB pages except the first the BLOB header
always is at the page data start: */
offset = FIL_PAGE_DATA;
ut_ad(copied_len <= len);
}
}
/** Copies the prefix of a compressed BLOB.
The clustered index record that points to this BLOB must be protected
by a lock or a page latch.
@param[out] buf the externally stored part of the field,
or a prefix of it
@param[in] len length of buf, in bytes
@param[in] page_size compressed BLOB page size
@param[in] space_id space id of the BLOB pages
@param[in] offset offset on the first BLOB page
@return number of bytes written to buf */
static
ulint
btr_copy_zblob_prefix(
byte* buf,
ulint len,
const page_size_t& page_size,
ulint space_id,
ulint page_no,
ulint offset)
{
ulint page_type = FIL_PAGE_TYPE_ZBLOB;
mem_heap_t* heap;
int err;
z_stream d_stream;
d_stream.next_out = buf;
d_stream.avail_out = static_cast<uInt>(len);
d_stream.next_in = Z_NULL;
d_stream.avail_in = 0;
/* Zlib inflate needs 32 kilobytes for the default
window size, plus a few kilobytes for small objects. */
heap = mem_heap_create(40000);
page_zip_set_alloc(&d_stream, heap);
ut_ad(page_size.is_compressed());
ut_ad(space_id);
err = inflateInit(&d_stream);
ut_a(err == Z_OK);
for (;;) {
buf_page_t* bpage;
ulint next_page_no;
/* There is no latch on bpage directly. Instead,
bpage is protected by the B-tree page latch that
is being held on the clustered index record, or,
in row_merge_copy_blobs(), by an exclusive table lock. */
bpage = buf_page_get_zip(page_id_t(space_id, page_no),
page_size);
if (UNIV_UNLIKELY(!bpage)) {
ib::error() << "Cannot load compressed BLOB "
<< page_id_t(space_id, page_no);
goto func_exit;
}
if (UNIV_UNLIKELY
(fil_page_get_type(bpage->zip.data) != page_type)) {
ib::error() << "Unexpected type "
<< fil_page_get_type(bpage->zip.data)
<< " of compressed BLOB page "
<< page_id_t(space_id, page_no);
ut_ad(0);
goto end_of_blob;
}
next_page_no = mach_read_from_4(bpage->zip.data + offset);
if (UNIV_LIKELY(offset == FIL_PAGE_NEXT)) {
/* When the BLOB begins at page header,
the compressed data payload does not
immediately follow the next page pointer. */
offset = FIL_PAGE_DATA;
} else {
offset += 4;
}
d_stream.next_in = bpage->zip.data + offset;
d_stream.avail_in = static_cast<uInt>(page_size.physical()
- offset);
err = inflate(&d_stream, Z_NO_FLUSH);
switch (err) {
case Z_OK:
if (!d_stream.avail_out) {
goto end_of_blob;
}
break;
case Z_STREAM_END:
if (next_page_no == FIL_NULL) {
goto end_of_blob;
}
/* fall through */
default:
inflate_error:
ib::error() << "inflate() of compressed BLOB page "
<< page_id_t(space_id, page_no)
<< " returned " << err
<< " (" << d_stream.msg << ")";
case Z_BUF_ERROR:
goto end_of_blob;
}
if (next_page_no == FIL_NULL) {
if (!d_stream.avail_in) {
ib::error()
<< "Unexpected end of compressed "
<< "BLOB page "
<< page_id_t(space_id, page_no);
} else {
err = inflate(&d_stream, Z_FINISH);
switch (err) {
case Z_STREAM_END:
case Z_BUF_ERROR:
break;
default:
goto inflate_error;
}
}
end_of_blob:
buf_page_release_zip(bpage);
goto func_exit;
}
buf_page_release_zip(bpage);
/* On other BLOB pages except the first
the BLOB header always is at the page header: */
page_no = next_page_no;
offset = FIL_PAGE_NEXT;
page_type = FIL_PAGE_TYPE_ZBLOB2;
}
func_exit:
inflateEnd(&d_stream);
mem_heap_free(heap);
UNIV_MEM_ASSERT_RW(buf, d_stream.total_out);
return(d_stream.total_out);
}
/** Copies the prefix of an externally stored field of a record.
The clustered index record that points to this BLOB must be protected
by a lock or a page latch.
@param[out] buf the externally stored part of the
field, or a prefix of it
@param[in] len length of buf, in bytes
@param[in] page_size BLOB page size
@param[in] space_id space id of the first BLOB page
@param[in] page_no page number of the first BLOB page
@param[in] offset offset on the first BLOB page
@return number of bytes written to buf */
static
ulint
btr_copy_externally_stored_field_prefix_low(
byte* buf,
ulint len,
const page_size_t& page_size,
ulint space_id,
ulint page_no,
ulint offset)
{
if (len == 0) {
return(0);
}
if (page_size.is_compressed()) {
return(btr_copy_zblob_prefix(buf, len, page_size,
space_id, page_no, offset));
} else {
ut_ad(page_size.equals_to(univ_page_size));
return(btr_copy_blob_prefix(buf, len, space_id,
page_no, offset));
}
}
/** Copies the prefix of an externally stored field of a record.
The clustered index record must be protected by a lock or a page latch.
@param[out] buf the field, or a prefix of it
@param[in] len length of buf, in bytes
@param[in] page_size BLOB page size
@param[in] data 'internally' stored part of the field
containing also the reference to the external part; must be protected by
a lock or a page latch
@param[in] local_len length of data, in bytes
@return the length of the copied field, or 0 if the column was being
or has been deleted */
ulint
btr_copy_externally_stored_field_prefix(
byte* buf,
ulint len,
const page_size_t& page_size,
const byte* data,
ulint local_len)
{
ulint space_id;
ulint page_no;
ulint offset;
ut_a(local_len >= BTR_EXTERN_FIELD_REF_SIZE);
local_len -= BTR_EXTERN_FIELD_REF_SIZE;
if (UNIV_UNLIKELY(local_len >= len)) {
memcpy(buf, data, len);
return(len);
}
memcpy(buf, data, local_len);
data += local_len;
ut_a(memcmp(data, field_ref_zero, BTR_EXTERN_FIELD_REF_SIZE));
if (!mach_read_from_4(data + BTR_EXTERN_LEN + 4)) {
/* The externally stored part of the column has been
(partially) deleted. Signal the half-deleted BLOB
to the caller. */
return(0);
}
space_id = mach_read_from_4(data + BTR_EXTERN_SPACE_ID);
page_no = mach_read_from_4(data + BTR_EXTERN_PAGE_NO);
offset = mach_read_from_4(data + BTR_EXTERN_OFFSET);
return(local_len
+ btr_copy_externally_stored_field_prefix_low(buf + local_len,
len - local_len,
page_size,
space_id, page_no,
offset));
}
/** Copies an externally stored field of a record to mem heap.
The clustered index record must be protected by a lock or a page latch.
@param[out] len length of the whole field
@param[in] data 'internally' stored part of the field
containing also the reference to the external part; must be protected by
a lock or a page latch
@param[in] page_size BLOB page size
@param[in] local_len length of data
@param[in,out] heap mem heap
@return the whole field copied to heap */
byte*
btr_copy_externally_stored_field(
ulint* len,
const byte* data,
const page_size_t& page_size,
ulint local_len,
mem_heap_t* heap)
{
ulint space_id;
ulint page_no;
ulint offset;
ulint extern_len;
byte* buf;
ut_a(local_len >= BTR_EXTERN_FIELD_REF_SIZE);
local_len -= BTR_EXTERN_FIELD_REF_SIZE;
space_id = mach_read_from_4(data + local_len + BTR_EXTERN_SPACE_ID);
page_no = mach_read_from_4(data + local_len + BTR_EXTERN_PAGE_NO);
offset = mach_read_from_4(data + local_len + BTR_EXTERN_OFFSET);
/* Currently a BLOB cannot be bigger than 4 GB; we
leave the 4 upper bytes in the length field unused */
extern_len = mach_read_from_4(data + local_len + BTR_EXTERN_LEN + 4);
buf = (byte*) mem_heap_alloc(heap, local_len + extern_len);
memcpy(buf, data, local_len);
*len = local_len
+ btr_copy_externally_stored_field_prefix_low(buf + local_len,
extern_len,
page_size,
space_id,
page_no, offset);
return(buf);
}
/** Copies an externally stored field of a record to mem heap.
@param[in] rec record in a clustered index; must be
protected by a lock or a page latch
@param[in] offset array returned by rec_get_offsets()
@param[in] page_size BLOB page size
@param[in] no field number
@param[out] len length of the field
@param[in,out] heap mem heap
@return the field copied to heap, or NULL if the field is incomplete */
byte*
btr_rec_copy_externally_stored_field(
const rec_t* rec,
const ulint* offsets,
const page_size_t& page_size,
ulint no,
ulint* len,
mem_heap_t* heap)
{
ulint local_len;
const byte* data;
ut_a(rec_offs_nth_extern(offsets, no));
/* An externally stored field can contain some initial
data from the field, and in the last 20 bytes it has the
space id, page number, and offset where the rest of the
field data is stored, and the data length in addition to
the data stored locally. We may need to store some data
locally to get the local record length above the 128 byte
limit so that field offsets are stored in two bytes, and
the extern bit is available in those two bytes. */
data = rec_get_nth_field(rec, offsets, no, &local_len);
ut_a(local_len >= BTR_EXTERN_FIELD_REF_SIZE);
if (UNIV_UNLIKELY
(!memcmp(data + local_len - BTR_EXTERN_FIELD_REF_SIZE,
field_ref_zero, BTR_EXTERN_FIELD_REF_SIZE))) {
/* The externally stored field was not written yet.
This record should only be seen by
recv_recovery_rollback_active() or any
TRX_ISO_READ_UNCOMMITTED transactions. */
return(NULL);
}
return(btr_copy_externally_stored_field(len, data,
page_size, local_len, heap));
}
|