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|
/******************************************************
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.
(c) 1994-2001 Innobase Oy
Created 10/16/1994 Heikki Tuuri
*******************************************************/
#include "btr0cur.h"
#ifdef UNIV_NONINL
#include "btr0cur.ic"
#endif
#include "page0page.h"
#include "rem0rec.h"
#include "rem0cmp.h"
#include "btr0btr.h"
#include "btr0sea.h"
#include "row0upd.h"
#include "trx0rec.h"
#include "que0que.h"
#include "row0row.h"
#include "srv0srv.h"
#include "ibuf0ibuf.h"
#include "lock0lock.h"
/* If the following is set to TRUE, this module prints a lot of
trace information of individual record operations */
ibool btr_cur_print_record_ops = FALSE;
ulint btr_cur_rnd = 0;
ulint btr_cur_n_non_sea = 0;
ulint btr_cur_n_sea = 0;
ulint btr_cur_n_non_sea_old = 0;
ulint btr_cur_n_sea_old = 0;
/* 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 (UNIV_PAGE_SIZE / 32)
/* When estimating number of different kay values in an index sample
this many index pages */
#define BTR_KEY_VAL_ESTIMATE_N_PAGES 8
/* 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
/***********************************************************************
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(
/*=========================*/
rec_t* rec, /* in: record in a clustered index */
mtr_t* mtr); /* in: mtr */
/***********************************************************************
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 */
upd_t* update, /* in: update vector */
ibool do_not_free_inherited,/* in: TRUE if called in a
rollback and we do not want to free
inherited fields */
mtr_t* mtr); /* in: mini-transaction handle which contains
an X-latch to record page and to the tree */
/***************************************************************
Gets the externally stored size of a record, in units of a database page. */
static
ulint
btr_rec_get_externally_stored_len(
/*==============================*/
/* out: externally stored part, in units of a
database page */
rec_t* rec); /* in: record */
/*==================== B-TREE SEARCH =========================*/
/************************************************************************
Latches the leaf page or pages requested. */
static
void
btr_cur_latch_leaves(
/*=================*/
page_t* page, /* in: leaf page where the search
converged */
ulint space, /* in: space id */
ulint page_no, /* in: page number of the leaf */
ulint latch_mode, /* in: BTR_SEARCH_LEAF, ... */
btr_cur_t* cursor, /* in: cursor */
mtr_t* mtr) /* in: mtr */
{
ulint left_page_no;
ulint right_page_no;
page_t* get_page;
ut_ad(page && mtr);
if (latch_mode == BTR_SEARCH_LEAF) {
get_page = btr_page_get(space, page_no, RW_S_LATCH, mtr);
buf_block_align(get_page)->check_index_page_at_flush = TRUE;
} else if (latch_mode == BTR_MODIFY_LEAF) {
get_page = btr_page_get(space, page_no, RW_X_LATCH, mtr);
buf_block_align(get_page)->check_index_page_at_flush = TRUE;
} else if (latch_mode == BTR_MODIFY_TREE) {
/* x-latch also brothers from left to right */
left_page_no = btr_page_get_prev(page, mtr);
if (left_page_no != FIL_NULL) {
get_page = btr_page_get(space, left_page_no,
RW_X_LATCH, mtr);
buf_block_align(get_page)->check_index_page_at_flush =
TRUE;
}
get_page = btr_page_get(space, page_no, RW_X_LATCH, mtr);
buf_block_align(get_page)->check_index_page_at_flush = TRUE;
right_page_no = btr_page_get_next(page, mtr);
if (right_page_no != FIL_NULL) {
get_page = btr_page_get(space, right_page_no,
RW_X_LATCH, mtr);
buf_block_align(get_page)->check_index_page_at_flush =
TRUE;
}
} else if (latch_mode == BTR_SEARCH_PREV) {
/* s-latch also left brother */
left_page_no = btr_page_get_prev(page, mtr);
if (left_page_no != FIL_NULL) {
cursor->left_page = btr_page_get(space, left_page_no,
RW_S_LATCH, mtr);
buf_block_align(
cursor->left_page)->check_index_page_at_flush = TRUE;
}
get_page = btr_page_get(space, page_no, RW_S_LATCH, mtr);
buf_block_align(get_page)->check_index_page_at_flush = TRUE;
} else if (latch_mode == BTR_MODIFY_PREV) {
/* x-latch also left brother */
left_page_no = btr_page_get_prev(page, mtr);
if (left_page_no != FIL_NULL) {
cursor->left_page = btr_page_get(space, left_page_no,
RW_X_LATCH, mtr);
buf_block_align(
cursor->left_page)->check_index_page_at_flush = TRUE;
}
get_page = btr_page_get(space, page_no, RW_X_LATCH, mtr);
buf_block_align(get_page)->check_index_page_at_flush = TRUE;
} else {
ut_error;
}
}
/************************************************************************
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. */
void
btr_cur_search_to_nth_level(
/*========================*/
dict_index_t* index, /* in: index */
ulint level, /* in: the tree level of search */
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! */
ulint 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
BTR_INSERT and BTR_ESTIMATE;
cursor->left_page is used to store a pointer
to the left neighbor page, in the cases
BTR_SEARCH_PREV and BTR_MODIFY_PREV;
NOTE that if has_search_latch
is != 0, we maybe do not have a latch set
on the cursor page, we assume
the caller uses his search latch
to protect the record! */
btr_cur_t* cursor, /* in/out: tree cursor; the cursor page is
s- or x-latched, but see also above! */
ulint has_search_latch,/* in: info on the latch mode the
caller currently has on btr_search_latch:
RW_S_LATCH, or 0 */
mtr_t* mtr) /* in: mtr */
{
dict_tree_t* tree;
page_cur_t* page_cursor;
page_t* page;
page_t* guess;
rec_t* node_ptr;
ulint page_no;
ulint space;
ulint up_match;
ulint up_bytes;
ulint low_match;
ulint low_bytes;
ulint height;
ulint savepoint;
ulint rw_latch;
ulint page_mode;
ulint insert_planned;
ulint buf_mode;
ulint estimate;
ulint ignore_sec_unique;
ulint root_height = 0; /* remove warning */
#ifdef BTR_CUR_ADAPT
btr_search_t* info;
#endif
/* Currently, PAGE_CUR_LE is the only search mode used for searches
ending to upper levels */
ut_ad(level == 0 || mode == PAGE_CUR_LE);
ut_ad(dict_tree_check_search_tuple(index->tree, tuple));
ut_ad(!(index->type & DICT_IBUF) || ibuf_inside());
ut_ad(dtuple_check_typed(tuple));
#ifdef UNIV_DEBUG
cursor->up_match = ULINT_UNDEFINED;
cursor->low_match = ULINT_UNDEFINED;
#endif
insert_planned = latch_mode & BTR_INSERT;
estimate = latch_mode & BTR_ESTIMATE;
ignore_sec_unique = latch_mode & BTR_IGNORE_SEC_UNIQUE;
latch_mode = latch_mode & ~(BTR_INSERT | BTR_ESTIMATE
| BTR_IGNORE_SEC_UNIQUE);
ut_ad(!insert_planned || (mode == PAGE_CUR_LE));
cursor->flag = BTR_CUR_BINARY;
cursor->index = index;
#ifndef BTR_CUR_ADAPT
guess = NULL;
#else
info = btr_search_get_info(index);
guess = info->root_guess;
#ifdef BTR_CUR_HASH_ADAPT
#ifdef UNIV_SEARCH_PERF_STAT
info->n_searches++;
#endif
if (btr_search_latch.writer == RW_LOCK_NOT_LOCKED
&& latch_mode <= BTR_MODIFY_LEAF && info->last_hash_succ
&& !estimate
&& mode != PAGE_CUR_LE_OR_EXTENDS
&& srv_use_adaptive_hash_indexes
&& btr_search_guess_on_hash(index, info, tuple, mode,
latch_mode, cursor,
has_search_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++;
return;
}
#endif
#endif
btr_cur_n_non_sea++;
/* If the hash search did not succeed, do binary search down the
tree */
if (has_search_latch) {
/* Release possible search latch to obey latching order */
rw_lock_s_unlock(&btr_search_latch);
}
/* 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);
tree = index->tree;
if (latch_mode == BTR_MODIFY_TREE) {
mtr_x_lock(dict_tree_get_lock(tree), mtr);
} else if (latch_mode == BTR_CONT_MODIFY_TREE) {
/* Do nothing */
ut_ad(mtr_memo_contains(mtr, dict_tree_get_lock(tree),
MTR_MEMO_X_LOCK));
} else {
mtr_s_lock(dict_tree_get_lock(tree), mtr);
}
page_cursor = btr_cur_get_page_cur(cursor);
space = dict_tree_get_space(tree);
page_no = dict_tree_get_page(tree);
up_match = 0;
up_bytes = 0;
low_match = 0;
low_bytes = 0;
height = ULINT_UNDEFINED;
rw_latch = RW_NO_LATCH;
buf_mode = BUF_GET;
/* 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:
ut_ad(mode == PAGE_CUR_L
|| mode == PAGE_CUR_LE
|| mode == PAGE_CUR_LE_OR_EXTENDS);
page_mode = mode;
break;
}
/* Loop and search until we arrive at the desired level */
for (;;) {
if ((height == 0) && (latch_mode <= BTR_MODIFY_LEAF)) {
rw_latch = latch_mode;
if (insert_planned && ibuf_should_try(index,
ignore_sec_unique)) {
/* Try insert to the insert buffer if the
page is not in the buffer pool */
buf_mode = BUF_GET_IF_IN_POOL;
}
}
retry_page_get:
page = buf_page_get_gen(space, page_no, rw_latch, guess,
buf_mode,
__FILE__, __LINE__,
mtr);
if (page == NULL) {
/* This must be a search to perform an insert;
try insert to the insert buffer */
ut_ad(buf_mode == BUF_GET_IF_IN_POOL);
ut_ad(insert_planned);
ut_ad(cursor->thr);
if (ibuf_should_try(index, ignore_sec_unique) &&
ibuf_insert(tuple, index, space, page_no,
cursor->thr)) {
/* Insertion to the insert buffer succeeded */
cursor->flag = BTR_CUR_INSERT_TO_IBUF;
return;
}
/* Insert to the insert buffer did not succeed:
retry page get */
buf_mode = BUF_GET;
goto retry_page_get;
}
buf_block_align(page)->check_index_page_at_flush = TRUE;
#ifdef UNIV_SYNC_DEBUG
if (rw_latch != RW_NO_LATCH) {
buf_page_dbg_add_level(page, SYNC_TREE_NODE);
}
#endif
ut_ad(0 == ut_dulint_cmp(tree->id,
btr_page_get_index_id(page)));
if (height == ULINT_UNDEFINED) {
/* We are in the root node */
height = btr_page_get_level(page, mtr);
root_height = height;
cursor->tree_height = root_height + 1;
#ifdef BTR_CUR_ADAPT
if (page != guess) {
info->root_guess = page;
}
#endif
}
if (height == 0) {
if (rw_latch == RW_NO_LATCH) {
btr_cur_latch_leaves(page, space,
page_no, latch_mode, cursor,
mtr);
}
if ((latch_mode != BTR_MODIFY_TREE)
&& (latch_mode != BTR_CONT_MODIFY_TREE)) {
/* Release the tree s-latch */
mtr_release_s_latch_at_savepoint(
mtr, savepoint,
dict_tree_get_lock(tree));
}
page_mode = mode;
}
page_cur_search_with_match(page, tuple, page_mode, &up_match,
&up_bytes, &low_match, &low_bytes,
page_cursor);
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), mtr));
if (level == height) {
if (level > 0) {
/* x-latch the page */
btr_page_get(space, page_no, RW_X_LATCH, mtr);
}
break;
}
ut_ad(height > 0);
height--;
guess = NULL;
node_ptr = page_cur_get_rec(page_cursor);
/* Go to the child node */
page_no = btr_node_ptr_get_child_page_no(node_ptr);
}
if (level == 0) {
cursor->low_match = low_match;
cursor->low_bytes = low_bytes;
cursor->up_match = up_match;
cursor->up_bytes = up_bytes;
#ifdef BTR_CUR_ADAPT
if (srv_use_adaptive_hash_indexes) {
btr_search_info_update(index, cursor);
}
#endif
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);
}
if (has_search_latch) {
rw_lock_s_lock(&btr_search_latch);
}
}
/*********************************************************************
Opens a cursor at either end of an index. */
void
btr_cur_open_at_index_side(
/*=======================*/
ibool 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: cursor */
mtr_t* mtr) /* in: mtr */
{
page_cur_t* page_cursor;
dict_tree_t* tree;
page_t* page;
ulint page_no;
ulint space;
ulint height;
ulint root_height = 0; /* remove warning */
rec_t* node_ptr;
ulint estimate;
ulint savepoint;
estimate = latch_mode & BTR_ESTIMATE;
latch_mode = latch_mode & ~BTR_ESTIMATE;
tree = index->tree;
/* 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);
if (latch_mode == BTR_MODIFY_TREE) {
mtr_x_lock(dict_tree_get_lock(tree), mtr);
} else {
mtr_s_lock(dict_tree_get_lock(tree), mtr);
}
page_cursor = btr_cur_get_page_cur(cursor);
cursor->index = index;
space = dict_tree_get_space(tree);
page_no = dict_tree_get_page(tree);
height = ULINT_UNDEFINED;
for (;;) {
page = buf_page_get_gen(space, page_no, RW_NO_LATCH, NULL,
BUF_GET,
__FILE__, __LINE__,
mtr);
ut_ad(0 == ut_dulint_cmp(tree->id,
btr_page_get_index_id(page)));
buf_block_align(page)->check_index_page_at_flush = TRUE;
if (height == ULINT_UNDEFINED) {
/* We are in the root node */
height = btr_page_get_level(page, mtr);
root_height = height;
}
if (height == 0) {
btr_cur_latch_leaves(page, space, page_no,
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. */
if ((latch_mode != BTR_MODIFY_TREE)
&& (latch_mode != BTR_CONT_MODIFY_TREE)) {
/* Release the tree s-latch */
mtr_release_s_latch_at_savepoint(
mtr, savepoint,
dict_tree_get_lock(tree));
}
}
if (from_left) {
page_cur_set_before_first(page, page_cursor);
} else {
page_cur_set_after_last(page, page_cursor);
}
if (height == 0) {
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);
/* Go to the child node */
page_no = btr_node_ptr_get_child_page_no(node_ptr);
}
}
/**************************************************************************
Positions a cursor at a randomly chosen position within a B-tree. */
void
btr_cur_open_at_rnd_pos(
/*====================*/
dict_index_t* index, /* in: index */
ulint latch_mode, /* in: BTR_SEARCH_LEAF, ... */
btr_cur_t* cursor, /* in/out: B-tree cursor */
mtr_t* mtr) /* in: mtr */
{
page_cur_t* page_cursor;
dict_tree_t* tree;
page_t* page;
ulint page_no;
ulint space;
ulint height;
rec_t* node_ptr;
tree = index->tree;
if (latch_mode == BTR_MODIFY_TREE) {
mtr_x_lock(dict_tree_get_lock(tree), mtr);
} else {
mtr_s_lock(dict_tree_get_lock(tree), mtr);
}
page_cursor = btr_cur_get_page_cur(cursor);
cursor->index = index;
space = dict_tree_get_space(tree);
page_no = dict_tree_get_page(tree);
height = ULINT_UNDEFINED;
for (;;) {
page = buf_page_get_gen(space, page_no, RW_NO_LATCH, NULL,
BUF_GET,
__FILE__, __LINE__,
mtr);
ut_ad(0 == ut_dulint_cmp(tree->id,
btr_page_get_index_id(page)));
if (height == ULINT_UNDEFINED) {
/* We are in the root node */
height = btr_page_get_level(page, mtr);
}
if (height == 0) {
btr_cur_latch_leaves(page, space, page_no,
latch_mode, cursor, mtr);
}
page_cur_open_on_rnd_user_rec(page, page_cursor);
if (height == 0) {
break;
}
ut_ad(height > 0);
height--;
node_ptr = page_cur_get_rec(page_cursor);
/* Go to the child node */
page_no = btr_node_ptr_get_child_page_no(node_ptr);
}
}
/*==================== B-TREE INSERT =========================*/
/*****************************************************************
Inserts a record if there is enough space, or if enough space can
be freed by reorganizing. Differs from _optimistic_insert because
no heuristics is applied to whether it pays to use CPU time for
reorganizing the page or not. */
static
rec_t*
btr_cur_insert_if_possible(
/*=======================*/
/* out: pointer to inserted record if succeed,
else NULL */
btr_cur_t* cursor, /* in: cursor on page after which to insert;
cursor stays valid */
dtuple_t* tuple, /* in: tuple to insert; the size info need not
have been stored to tuple */
ibool* reorg, /* out: TRUE if reorganization occurred */
mtr_t* mtr) /* in: mtr */
{
page_cur_t* page_cursor;
page_t* page;
rec_t* rec;
ut_ad(dtuple_check_typed(tuple));
*reorg = FALSE;
page = btr_cur_get_page(cursor);
ut_ad(mtr_memo_contains(mtr, buf_block_align(page),
MTR_MEMO_PAGE_X_FIX));
page_cursor = btr_cur_get_page_cur(cursor);
/* Now, try the insert */
rec = page_cur_tuple_insert(page_cursor, tuple, mtr);
if (!rec) {
/* If record did not fit, reorganize */
btr_page_reorganize(page, mtr);
*reorg = TRUE;
page_cur_search(page, tuple, PAGE_CUR_LE, page_cursor);
rec = page_cur_tuple_insert(page_cursor, tuple, mtr);
}
return(rec);
}
/*****************************************************************
For an insert, checks the locks and does the undo logging if desired. */
UNIV_INLINE
ulint
btr_cur_ins_lock_and_undo(
/*======================*/
/* out: DB_SUCCESS, DB_WAIT_LOCK,
DB_FAIL, or error number */
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: entry to insert */
que_thr_t* thr, /* in: query thread or NULL */
ibool* inherit)/* out: TRUE if the inserted new record maybe
should inherit LOCK_GAP type locks from the
successor record */
{
dict_index_t* index;
ulint err;
rec_t* rec;
dulint 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;
err = lock_rec_insert_check_and_lock(flags, rec, index, thr, inherit);
if (err != DB_SUCCESS) {
return(err);
}
if ((index->type & DICT_CLUSTERED) && !(index->type & DICT_IBUF)) {
err = trx_undo_report_row_operation(flags, TRX_UNDO_INSERT_OP,
thr, index, entry, NULL, 0, NULL,
&roll_ptr);
if (err != DB_SUCCESS) {
return(err);
}
/* Now we can fill in the roll ptr field in entry */
if (!(flags & BTR_KEEP_SYS_FLAG)) {
row_upd_index_entry_sys_field(entry, index,
DATA_ROLL_PTR, roll_ptr);
}
}
return(DB_SUCCESS);
}
/*****************************************************************
Report information about a transaction. */
static
void
btr_cur_trx_report(
/*===============*/
const trx_t* trx, /* in: transaction */
const dict_index_t* index, /* in: index */
const char* op) /* in: operation */
{
fprintf(stderr, "Trx with id %lu %lu going to ",
ut_dulint_get_high(trx->id),
ut_dulint_get_low(trx->id));
fputs(op, stderr);
dict_index_name_print(stderr, index);
putc('\n', stderr);
}
/*****************************************************************
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. */
ulint
btr_cur_optimistic_insert(
/*======================*/
/* out: DB_SUCCESS, DB_WAIT_LOCK,
DB_FAIL, or error number */
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 */
dtuple_t* entry, /* in: 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, or
NULL */
que_thr_t* thr, /* in: query thread or NULL */
mtr_t* mtr) /* in: mtr */
{
big_rec_t* big_rec_vec = NULL;
dict_index_t* index;
page_cur_t* page_cursor;
page_t* page;
ulint max_size;
rec_t* dummy_rec;
ulint level;
ibool reorg;
ibool inherit;
ulint rec_size;
ulint data_size;
ulint extra_size;
ulint type;
ulint err;
*big_rec = NULL;
page = btr_cur_get_page(cursor);
index = cursor->index;
if (!dtuple_check_typed_no_assert(entry)) {
fputs("InnoDB: Error in a tuple to insert into ", stderr);
dict_index_name_print(stderr, index);
}
if (btr_cur_print_record_ops && thr) {
btr_cur_trx_report(thr_get_trx(thr), index, "insert into ");
dtuple_print(stderr, entry);
}
ut_ad(mtr_memo_contains(mtr, buf_block_align(page),
MTR_MEMO_PAGE_X_FIX));
max_size = page_get_max_insert_size_after_reorganize(page, 1);
level = btr_page_get_level(page, mtr);
calculate_sizes_again:
/* Calculate the record size when entry is converted to a record */
data_size = dtuple_get_data_size(entry);
extra_size = rec_get_converted_extra_size(data_size,
dtuple_get_n_fields(entry));
rec_size = data_size + extra_size;
if ((rec_size >= page_get_free_space_of_empty() / 2)
|| (rec_size >= REC_MAX_DATA_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, entry, NULL, 0);
if (big_rec_vec == NULL) {
return(DB_TOO_BIG_RECORD);
}
goto calculate_sizes_again;
}
/* If there have been many consecutive inserts, and we are on the leaf
level, check if we have to split the page to reserve enough free space
for future updates of records. */
type = index->type;
if ((type & DICT_CLUSTERED)
&& (dict_tree_get_space_reserve(index->tree) + rec_size > max_size)
&& (page_get_n_recs(page) >= 2)
&& (0 == level)
&& (btr_page_get_split_rec_to_right(cursor, &dummy_rec)
|| btr_page_get_split_rec_to_left(cursor, &dummy_rec))) {
if (big_rec_vec) {
dtuple_convert_back_big_rec(index, entry, big_rec_vec);
}
return(DB_FAIL);
}
if (!(((max_size >= rec_size)
&& (max_size >= BTR_CUR_PAGE_REORGANIZE_LIMIT))
|| (page_get_max_insert_size(page, 1) >= rec_size)
|| (page_get_n_recs(page) <= 1))) {
if (big_rec_vec) {
dtuple_convert_back_big_rec(index, entry, big_rec_vec);
}
return(DB_FAIL);
}
/* Check locks and write to the undo log, if specified */
err = btr_cur_ins_lock_and_undo(flags, cursor, entry, thr, &inherit);
if (err != DB_SUCCESS) {
if (big_rec_vec) {
dtuple_convert_back_big_rec(index, entry, big_rec_vec);
}
return(err);
}
page_cursor = btr_cur_get_page_cur(cursor);
reorg = FALSE;
/* Now, try the insert */
*rec = page_cur_insert_rec_low(page_cursor, entry, data_size,
NULL, mtr);
if (!(*rec)) {
/* If the record did not fit, reorganize */
btr_page_reorganize(page, mtr);
ut_ad(page_get_max_insert_size(page, 1) == max_size);
reorg = TRUE;
page_cur_search(page, entry, PAGE_CUR_LE, page_cursor);
*rec = page_cur_tuple_insert(page_cursor, entry, mtr);
if (!*rec) {
fputs("InnoDB: Error: cannot insert tuple ", stderr);
dtuple_print(stderr, entry);
fputs(" into ", stderr);
dict_index_name_print(stderr, index);
fprintf(stderr, "\nInnoDB: max insert size %lu\n",
(ulong) max_size);
ut_error;
}
}
#ifdef BTR_CUR_HASH_ADAPT
if (!reorg && (0 == level) && (cursor->flag == BTR_CUR_HASH)) {
btr_search_update_hash_node_on_insert(cursor);
} else {
btr_search_update_hash_on_insert(cursor);
}
#endif
if (!(flags & BTR_NO_LOCKING_FLAG) && inherit) {
lock_update_insert(*rec);
}
/* fprintf(stderr, "Insert into page %lu, max ins size %lu,"
" rec %lu ind type %lu\n",
buf_frame_get_page_no(page), max_size,
rec_size + PAGE_DIR_SLOT_SIZE, type);
*/
if (!(type & DICT_CLUSTERED)) {
/* We have added a record to page: update its free bits */
ibuf_update_free_bits_if_full(cursor->index, page, 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. */
ulint
btr_cur_pessimistic_insert(
/*=======================*/
/* out: DB_SUCCESS or error number */
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 */
dtuple_t* entry, /* in: 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, or
NULL */
que_thr_t* thr, /* in: query thread or NULL */
mtr_t* mtr) /* in: mtr */
{
dict_index_t* index = cursor->index;
big_rec_t* big_rec_vec = NULL;
page_t* page;
ulint err;
ibool dummy_inh;
ibool success;
ulint n_extents = 0;
ulint n_reserved;
ut_ad(dtuple_check_typed(entry));
*big_rec = NULL;
page = btr_cur_get_page(cursor);
ut_ad(mtr_memo_contains(mtr,
dict_tree_get_lock(btr_cur_get_tree(cursor)),
MTR_MEMO_X_LOCK));
ut_ad(mtr_memo_contains(mtr, buf_block_align(page),
MTR_MEMO_PAGE_X_FIX));
/* Try first an optimistic insert; reset the cursor flag: we do not
assume anything of how it was positioned */
cursor->flag = BTR_CUR_BINARY;
err = btr_cur_optimistic_insert(flags, cursor, entry, rec, big_rec,
thr, mtr);
if (err != DB_FAIL) {
return(err);
}
/* Retry with a pessimistic insert. Check locks and write to undo log,
if specified */
err = btr_cur_ins_lock_and_undo(flags, cursor, entry, thr, &dummy_inh);
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 */
n_extents = cursor->tree_height / 16 + 3;
success = fsp_reserve_free_extents(&n_reserved, index->space,
n_extents, FSP_NORMAL, mtr);
if (!success) {
err = DB_OUT_OF_FILE_SPACE;
return(err);
}
}
if ((rec_get_converted_size(entry)
>= page_get_free_space_of_empty() / 2)
|| (rec_get_converted_size(entry) >= REC_MAX_DATA_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, entry, NULL, 0);
if (big_rec_vec == NULL) {
if (n_extents > 0) {
fil_space_release_free_extents(index->space,
n_reserved);
}
return(DB_TOO_BIG_RECORD);
}
}
if (dict_tree_get_page(index->tree)
== buf_frame_get_page_no(page)) {
/* The page is the root page */
*rec = btr_root_raise_and_insert(cursor, entry, mtr);
} else {
*rec = btr_page_split_and_insert(cursor, entry, mtr);
}
btr_cur_position(index, page_rec_get_prev(*rec), cursor);
#ifdef BTR_CUR_ADAPT
btr_search_update_hash_on_insert(cursor);
#endif
if (!(flags & BTR_NO_LOCKING_FLAG)) {
lock_update_insert(*rec);
}
err = DB_SUCCESS;
if (n_extents > 0) {
fil_space_release_free_extents(index->space, n_reserved);
}
*big_rec = big_rec_vec;
return(err);
}
/*==================== B-TREE UPDATE =========================*/
/*****************************************************************
For an update, checks the locks and does the undo logging. */
UNIV_INLINE
ulint
btr_cur_upd_lock_and_undo(
/*======================*/
/* out: DB_SUCCESS, DB_WAIT_LOCK, or error
number */
ulint flags, /* in: undo logging and locking flags */
btr_cur_t* cursor, /* in: cursor on record to update */
upd_t* update, /* in: update vector */
ulint cmpl_info,/* in: compiler info on secondary index
updates */
que_thr_t* thr, /* in: query thread */
dulint* roll_ptr)/* out: roll pointer */
{
dict_index_t* index;
rec_t* rec;
ulint err;
ut_ad(cursor && update && thr && roll_ptr);
rec = btr_cur_get_rec(cursor);
index = cursor->index;
if (!(index->type & DICT_CLUSTERED)) {
/* We do undo logging only when we update a clustered index
record */
return(lock_sec_rec_modify_check_and_lock(flags, rec, index,
thr));
}
/* Check if we have to wait for a lock: enqueue an explicit lock
request if yes */
err = DB_SUCCESS;
if (!(flags & BTR_NO_LOCKING_FLAG)) {
err = lock_clust_rec_modify_check_and_lock(flags, rec, index,
thr);
if (err != DB_SUCCESS) {
return(err);
}
}
/* Append the info about the update in the undo log */
err = trx_undo_report_row_operation(flags, TRX_UNDO_MODIFY_OP, thr,
index, NULL, update,
cmpl_info, rec, roll_ptr);
return(err);
}
/***************************************************************
Writes a redo log record of updating a record in-place. */
UNIV_INLINE
void
btr_cur_update_in_place_log(
/*========================*/
ulint flags, /* in: flags */
rec_t* rec, /* in: record */
dict_index_t* index, /* in: index where cursor positioned */
upd_t* update, /* in: update vector */
trx_t* trx, /* in: transaction */
dulint roll_ptr, /* in: roll ptr */
mtr_t* mtr) /* in: mtr */
{
byte* log_ptr;
log_ptr = mlog_open(mtr, 30 + MLOG_BUF_MARGIN);
log_ptr = mlog_write_initial_log_record_fast(rec,
MLOG_REC_UPDATE_IN_PLACE, log_ptr, mtr);
mach_write_to_1(log_ptr, flags);
log_ptr++;
/* The code below assumes index is a clustered index: change index to
the clustered index if we are updating a secondary index record (or we
could as well skip writing the sys col values to the log in this case
because they are not needed for a secondary index record update) */
index = dict_table_get_first_index(index->table);
log_ptr = row_upd_write_sys_vals_to_log(index, trx, roll_ptr, log_ptr,
mtr);
mach_write_to_2(log_ptr, rec - buf_frame_align(rec));
log_ptr += 2;
row_upd_index_write_log(update, log_ptr, mtr);
}
/***************************************************************
Parses a redo log record of updating a record in-place. */
byte*
btr_cur_parse_update_in_place(
/*==========================*/
/* out: end of log record or NULL */
byte* ptr, /* in: buffer */
byte* end_ptr,/* in: buffer end */
page_t* page) /* in: page or NULL */
{
ulint flags;
rec_t* rec;
upd_t* update;
ulint pos;
dulint trx_id;
dulint roll_ptr;
ulint rec_offset;
mem_heap_t* heap;
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 <= UNIV_PAGE_SIZE);
heap = mem_heap_create(256);
ptr = row_upd_index_parse(ptr, end_ptr, heap, &update);
if (ptr == NULL) {
mem_heap_free(heap);
return(NULL);
}
if (!page) {
mem_heap_free(heap);
return(ptr);
}
rec = page + rec_offset;
/* We do not need to reserve btr_search_latch, as the page is only
being recovered, and there cannot be a hash index to it. */
if (!(flags & BTR_KEEP_SYS_FLAG)) {
row_upd_rec_sys_fields_in_recovery(rec, pos, trx_id, roll_ptr);
}
row_upd_rec_in_place(rec, update);
mem_heap_free(heap);
return(ptr);
}
/*****************************************************************
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. */
ulint
btr_cur_update_in_place(
/*====================*/
/* out: DB_SUCCESS or error number */
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 */
upd_t* update, /* in: update vector */
ulint cmpl_info,/* in: compiler info on secondary index
updates */
que_thr_t* thr, /* in: query thread */
mtr_t* mtr) /* in: mtr */
{
dict_index_t* index;
buf_block_t* block;
ulint err;
rec_t* rec;
dulint roll_ptr = ut_dulint_zero;
trx_t* trx;
ibool was_delete_marked;
rec = btr_cur_get_rec(cursor);
index = cursor->index;
trx = thr_get_trx(thr);
if (btr_cur_print_record_ops && thr) {
btr_cur_trx_report(trx, index, "update ");
rec_print(stderr, rec);
}
/* Do lock checking and undo logging */
err = btr_cur_upd_lock_and_undo(flags, cursor, update, cmpl_info,
thr, &roll_ptr);
if (err != DB_SUCCESS) {
return(err);
}
block = buf_block_align(rec);
if (block->is_hashed) {
/* The function row_upd_changes_ord_field_binary works only
if the update vector was built for a clustered index, we must
NOT call it if index is secondary */
if (!(index->type & DICT_CLUSTERED)
|| row_upd_changes_ord_field_binary(NULL, index, update)) {
/* Remove possible hash index pointer to this record */
btr_search_update_hash_on_delete(cursor);
}
rw_lock_x_lock(&btr_search_latch);
}
if (!(flags & BTR_KEEP_SYS_FLAG)) {
row_upd_rec_sys_fields(rec, index, trx, roll_ptr);
}
/* FIXME: in a mixed tree, all records may not have enough ordering
fields for btr search: */
was_delete_marked = rec_get_deleted_flag(rec);
row_upd_rec_in_place(rec, update);
if (block->is_hashed) {
rw_lock_x_unlock(&btr_search_latch);
}
btr_cur_update_in_place_log(flags, rec, index, update, trx, roll_ptr,
mtr);
if (was_delete_marked && !rec_get_deleted_flag(rec)) {
/* The new updated record owns its possible externally
stored fields */
btr_cur_unmark_extern_fields(rec, mtr);
}
return(DB_SUCCESS);
}
/*****************************************************************
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. */
ulint
btr_cur_optimistic_update(
/*======================*/
/* out: DB_SUCCESS, or DB_OVERFLOW if the
updated record does not fit, DB_UNDERFLOW
if the page would become too empty */
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 */
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 */
mtr_t* mtr) /* in: mtr */
{
dict_index_t* index;
page_cur_t* page_cursor;
ulint err;
page_t* page;
rec_t* rec;
ulint max_size;
ulint new_rec_size;
ulint old_rec_size;
dtuple_t* new_entry;
dulint roll_ptr;
trx_t* trx;
mem_heap_t* heap;
ibool reorganized = FALSE;
ulint i;
page = btr_cur_get_page(cursor);
rec = btr_cur_get_rec(cursor);
index = cursor->index;
if (btr_cur_print_record_ops && thr) {
btr_cur_trx_report(thr_get_trx(thr), index, "update ");
rec_print(stderr, rec);
}
ut_ad(mtr_memo_contains(mtr, buf_block_align(page),
MTR_MEMO_PAGE_X_FIX));
if (!row_upd_changes_field_size_or_external(rec, index, 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 */
return(btr_cur_update_in_place(flags, cursor, update,
cmpl_info, thr, mtr));
}
for (i = 0; i < upd_get_n_fields(update); i++) {
if (upd_get_nth_field(update, i)->extern_storage) {
/* Externally stored fields are treated in pessimistic
update */
return(DB_OVERFLOW);
}
}
if (rec_contains_externally_stored_field(btr_cur_get_rec(cursor))) {
/* Externally stored fields are treated in pessimistic
update */
return(DB_OVERFLOW);
}
page_cursor = btr_cur_get_page_cur(cursor);
heap = mem_heap_create(1024);
new_entry = row_rec_to_index_entry(ROW_COPY_DATA, index, rec, heap);
row_upd_index_replace_new_col_vals_index_pos(new_entry, index, update,
NULL);
old_rec_size = rec_get_size(rec);
new_rec_size = rec_get_converted_size(new_entry);
if (new_rec_size >= page_get_free_space_of_empty() / 2) {
mem_heap_free(heap);
return(DB_OVERFLOW);
}
max_size = old_rec_size
+ page_get_max_insert_size_after_reorganize(page, 1);
if (page_get_data_size(page) - old_rec_size + new_rec_size
< BTR_CUR_PAGE_COMPRESS_LIMIT) {
/* The page would become too empty */
mem_heap_free(heap);
return(DB_UNDERFLOW);
}
if (!(((max_size >= BTR_CUR_PAGE_REORGANIZE_LIMIT)
&& (max_size >= new_rec_size))
|| (page_get_n_recs(page) <= 1))) {
/* 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 */
mem_heap_free(heap);
return(DB_OVERFLOW);
}
/* Do lock checking and undo logging */
err = btr_cur_upd_lock_and_undo(flags, cursor, update, cmpl_info, thr,
&roll_ptr);
if (err != DB_SUCCESS) {
mem_heap_free(heap);
return(err);
}
/* Ok, we may do the replacement. Store on the page infimum the
explicit locks on rec, before deleting rec (see the comment in
.._pessimistic_update). */
lock_rec_store_on_page_infimum(rec);
btr_search_update_hash_on_delete(cursor);
page_cur_delete_rec(page_cursor, mtr);
page_cur_move_to_prev(page_cursor);
trx = thr_get_trx(thr);
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);
}
rec = btr_cur_insert_if_possible(cursor, new_entry, &reorganized, mtr);
ut_a(rec); /* <- We calculated above the insert would fit */
if (!rec_get_deleted_flag(rec)) {
/* The new inserted record owns its possible externally
stored fields */
btr_cur_unmark_extern_fields(rec, mtr);
}
/* Restore the old explicit lock state on the record */
lock_rec_restore_from_page_infimum(rec, page);
page_cur_move_to_next(page_cursor);
mem_heap_free(heap);
return(DB_SUCCESS);
}
/*****************************************************************
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(
/*==============================*/
rec_t* rec, /* in: updated record */
mtr_t* mtr) /* in: mtr */
{
page_t* page;
page_t* prev_page;
ulint space;
ulint prev_page_no;
page = buf_frame_align(rec);
if (page_rec_get_next(page_get_infimum_rec(page)) != rec) {
/* Updated record is not the first user record on its page */
return;
}
space = buf_frame_get_space_id(page);
prev_page_no = btr_page_get_prev(page, mtr);
ut_ad(prev_page_no != FIL_NULL);
prev_page = buf_page_get_with_no_latch(space, prev_page_no, mtr);
/* We must already have an x-latch to prev_page! */
ut_ad(mtr_memo_contains(mtr, buf_block_align(prev_page),
MTR_MEMO_PAGE_X_FIX));
lock_rec_reset_and_inherit_gap_locks(page_get_supremum_rec(prev_page),
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. */
ulint
btr_cur_pessimistic_update(
/*=======================*/
/* out: DB_SUCCESS or error code */
ulint flags, /* in: undo logging, locking, and rollback
flags */
btr_cur_t* cursor, /* in: cursor on the record to update */
big_rec_t** big_rec,/* out: big rec vector whose fields have to
be stored externally by the caller, or NULL */
upd_t* update, /* in: update vector; this is allowed also
contain trx id and roll ptr fields, but
the values in update vector have no effect */
ulint cmpl_info,/* in: compiler info on secondary index
updates */
que_thr_t* thr, /* in: query thread */
mtr_t* mtr) /* in: mtr */
{
big_rec_t* big_rec_vec = NULL;
big_rec_t* dummy_big_rec;
dict_index_t* index;
page_t* page;
dict_tree_t* tree;
rec_t* rec;
page_cur_t* page_cursor;
dtuple_t* new_entry;
mem_heap_t* heap;
ulint err;
ulint optim_err;
ibool dummy_reorganized;
dulint roll_ptr;
trx_t* trx;
ibool was_first;
ibool success;
ulint n_extents = 0;
ulint n_reserved;
ulint* ext_vect;
ulint n_ext_vect;
ulint reserve_flag;
*big_rec = NULL;
page = btr_cur_get_page(cursor);
rec = btr_cur_get_rec(cursor);
index = cursor->index;
tree = index->tree;
ut_ad(mtr_memo_contains(mtr, dict_tree_get_lock(tree),
MTR_MEMO_X_LOCK));
ut_ad(mtr_memo_contains(mtr, buf_block_align(page),
MTR_MEMO_PAGE_X_FIX));
optim_err = btr_cur_optimistic_update(flags, cursor, update,
cmpl_info, thr, mtr);
if (optim_err != DB_UNDERFLOW && optim_err != DB_OVERFLOW) {
return(optim_err);
}
/* Do lock checking and undo logging */
err = btr_cur_upd_lock_and_undo(flags, cursor, update, cmpl_info,
thr, &roll_ptr);
if (err != DB_SUCCESS) {
return(err);
}
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 */
n_extents = cursor->tree_height / 16 + 3;
if (flags & BTR_NO_UNDO_LOG_FLAG) {
reserve_flag = FSP_CLEANING;
} else {
reserve_flag = FSP_NORMAL;
}
success = fsp_reserve_free_extents(&n_reserved,
cursor->index->space,
n_extents, reserve_flag, mtr);
if (!success) {
err = DB_OUT_OF_FILE_SPACE;
return(err);
}
}
heap = mem_heap_create(1024);
trx = thr_get_trx(thr);
new_entry = row_rec_to_index_entry(ROW_COPY_DATA, index, rec, heap);
row_upd_index_replace_new_col_vals_index_pos(new_entry, index, update,
heap);
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 (flags & BTR_NO_UNDO_LOG_FLAG) {
/* 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_a(big_rec_vec == NULL);
btr_rec_free_updated_extern_fields(index, rec, update,
TRUE, mtr);
}
/* We have to set appropriate extern storage bits in the new
record to be inserted: we have to remember which fields were such */
ext_vect = mem_heap_alloc(heap, sizeof(ulint) * rec_get_n_fields(rec));
n_ext_vect = btr_push_update_extern_fields(ext_vect, rec, update);
if ((rec_get_converted_size(new_entry) >=
page_get_free_space_of_empty() / 2)
|| (rec_get_converted_size(new_entry) >= REC_MAX_DATA_SIZE)) {
big_rec_vec = dtuple_convert_big_rec(index, new_entry,
ext_vect, n_ext_vect);
if (big_rec_vec == NULL) {
mem_heap_free(heap);
err = DB_TOO_BIG_RECORD;
goto return_after_reservations;
}
}
page_cursor = btr_cur_get_page_cur(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. */
lock_rec_store_on_page_infimum(rec);
btr_search_update_hash_on_delete(cursor);
page_cur_delete_rec(page_cursor, mtr);
page_cur_move_to_prev(page_cursor);
rec = btr_cur_insert_if_possible(cursor, new_entry,
&dummy_reorganized, mtr);
ut_a(rec || optim_err != DB_UNDERFLOW);
if (rec) {
lock_rec_restore_from_page_infimum(rec, page);
rec_set_field_extern_bits(rec, ext_vect, n_ext_vect, mtr);
if (!rec_get_deleted_flag(rec)) {
/* The new inserted record owns its possible externally
stored fields */
btr_cur_unmark_extern_fields(rec, mtr);
}
btr_cur_compress_if_useful(cursor, mtr);
err = DB_SUCCESS;
mem_heap_free(heap);
goto return_after_reservations;
}
if (page_cur_is_before_first(page_cursor)) {
/* The record to be updated was positioned as the first user
record on its page */
was_first = TRUE;
} else {
was_first = FALSE;
}
/* The first parameter means that no lock checking and undo logging
is made in the insert */
err = btr_cur_pessimistic_insert(BTR_NO_UNDO_LOG_FLAG
| BTR_NO_LOCKING_FLAG
| BTR_KEEP_SYS_FLAG,
cursor, new_entry, &rec,
&dummy_big_rec, NULL, mtr);
ut_a(rec);
ut_a(err == DB_SUCCESS);
ut_a(dummy_big_rec == NULL);
rec_set_field_extern_bits(rec, ext_vect, n_ext_vect, mtr);
if (!rec_get_deleted_flag(rec)) {
/* The new inserted record owns its possible externally
stored fields */
btr_cur_unmark_extern_fields(rec, mtr);
}
lock_rec_restore_from_page_infimum(rec, page);
/* 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) {
btr_cur_pess_upd_restore_supremum(rec, mtr);
}
mem_heap_free(heap);
return_after_reservations:
if (n_extents > 0) {
fil_space_release_free_extents(cursor->index->space,
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(
/*===============================*/
ulint flags, /* in: flags */
rec_t* rec, /* in: record */
dict_index_t* index, /* in: index of the record */
ibool val, /* in: value to set */
trx_t* trx, /* in: deleting transaction */
dulint roll_ptr,/* in: roll ptr to the undo log record */
mtr_t* mtr) /* in: mtr */
{
byte* log_ptr;
log_ptr = mlog_open(mtr, 30);
log_ptr = mlog_write_initial_log_record_fast(rec,
MLOG_REC_CLUST_DELETE_MARK, log_ptr, mtr);
mach_write_to_1(log_ptr, flags);
log_ptr++;
mach_write_to_1(log_ptr, val);
log_ptr++;
log_ptr = row_upd_write_sys_vals_to_log(index, trx, roll_ptr, log_ptr,
mtr);
mach_write_to_2(log_ptr, rec - buf_frame_align(rec));
log_ptr += 2;
mlog_close(mtr, log_ptr);
}
/********************************************************************
Parses the redo log record for delete marking or unmarking of a clustered
index record. */
byte*
btr_cur_parse_del_mark_set_clust_rec(
/*=================================*/
/* out: end of log record or NULL */
byte* ptr, /* in: buffer */
byte* end_ptr,/* in: buffer end */
page_t* page) /* in: page or NULL */
{
ulint flags;
ibool val;
ulint pos;
dulint trx_id;
dulint roll_ptr;
ulint offset;
rec_t* rec;
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 <= UNIV_PAGE_SIZE);
if (page) {
rec = page + offset;
if (!(flags & BTR_KEEP_SYS_FLAG)) {
row_upd_rec_sys_fields_in_recovery(rec, pos, trx_id,
roll_ptr);
}
/* We do not need to reserve btr_search_latch, as the page
is only being recovered, and there cannot be a hash index to
it. */
rec_set_deleted_flag(rec, val);
}
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. */
ulint
btr_cur_del_mark_set_clust_rec(
/*===========================*/
/* out: DB_SUCCESS, DB_LOCK_WAIT, or error
number */
ulint flags, /* in: undo logging and locking flags */
btr_cur_t* cursor, /* in: cursor */
ibool val, /* in: value to set */
que_thr_t* thr, /* in: query thread */
mtr_t* mtr) /* in: mtr */
{
dict_index_t* index;
buf_block_t* block;
dulint roll_ptr;
ulint err;
rec_t* rec;
trx_t* trx;
rec = btr_cur_get_rec(cursor);
index = cursor->index;
if (btr_cur_print_record_ops && thr) {
btr_cur_trx_report(thr_get_trx(thr), index, "del mark ");
rec_print(stderr, rec);
}
ut_ad(index->type & DICT_CLUSTERED);
ut_ad(rec_get_deleted_flag(rec) == FALSE);
err = lock_clust_rec_modify_check_and_lock(flags, rec, index, thr);
if (err != DB_SUCCESS) {
return(err);
}
err = trx_undo_report_row_operation(flags, TRX_UNDO_MODIFY_OP, thr,
index, NULL, NULL, 0, rec,
&roll_ptr);
if (err != DB_SUCCESS) {
return(err);
}
block = buf_block_align(rec);
if (block->is_hashed) {
rw_lock_x_lock(&btr_search_latch);
}
rec_set_deleted_flag(rec, val);
trx = thr_get_trx(thr);
if (!(flags & BTR_KEEP_SYS_FLAG)) {
row_upd_rec_sys_fields(rec, index, trx, roll_ptr);
}
if (block->is_hashed) {
rw_lock_x_unlock(&btr_search_latch);
}
btr_cur_del_mark_set_clust_rec_log(flags, rec, index, val, trx,
roll_ptr, mtr);
return(DB_SUCCESS);
}
/********************************************************************
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;
log_ptr = mlog_open(mtr, 30);
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, rec - buf_frame_align(rec));
log_ptr += 2;
mlog_close(mtr, log_ptr);
}
/********************************************************************
Parses the redo log record for delete marking or unmarking of a secondary
index record. */
byte*
btr_cur_parse_del_mark_set_sec_rec(
/*===============================*/
/* out: end of log record or NULL */
byte* ptr, /* in: buffer */
byte* end_ptr,/* in: buffer end */
page_t* page) /* in: page or NULL */
{
ibool 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 <= UNIV_PAGE_SIZE);
if (page) {
rec = page + offset;
/* We do not need to reserve btr_search_latch, as the page
is only being recovered, and there cannot be a hash index to
it. */
rec_set_deleted_flag(rec, val);
}
return(ptr);
}
/***************************************************************
Sets a secondary index record delete mark to TRUE or FALSE. */
ulint
btr_cur_del_mark_set_sec_rec(
/*=========================*/
/* out: DB_SUCCESS, DB_LOCK_WAIT, or error
number */
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: mtr */
{
buf_block_t* block;
rec_t* rec;
ulint err;
rec = btr_cur_get_rec(cursor);
if (btr_cur_print_record_ops && thr) {
btr_cur_trx_report(thr_get_trx(thr), cursor->index,
"del mark ");
rec_print(stderr, rec);
}
err = lock_sec_rec_modify_check_and_lock(flags, rec, cursor->index,
thr);
if (err != DB_SUCCESS) {
return(err);
}
block = buf_block_align(rec);
if (block->is_hashed) {
rw_lock_x_lock(&btr_search_latch);
}
rec_set_deleted_flag(rec, val);
if (block->is_hashed) {
rw_lock_x_unlock(&btr_search_latch);
}
btr_cur_del_mark_set_sec_rec_log(rec, val, mtr);
return(DB_SUCCESS);
}
/***************************************************************
Sets a secondary index record delete mark to FALSE. This function is only
used by the insert buffer insert merge mechanism. */
void
btr_cur_del_unmark_for_ibuf(
/*========================*/
rec_t* rec, /* in: record to delete unmark */
mtr_t* mtr) /* in: mtr */
{
/* We do not need to reserve btr_search_latch, as the page has just
been read to the buffer pool and there cannot be a hash index to it. */
rec_set_deleted_flag(rec, FALSE);
btr_cur_del_mark_set_sec_rec_log(rec, FALSE, mtr);
}
/*==================== B-TREE RECORD REMOVE =========================*/
/*****************************************************************
Tries to compress a page of the tree on the leaf 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. NOTE: it is assumed that the caller has reserved enough
free extents so that the compression will always succeed if done! */
void
btr_cur_compress(
/*=============*/
btr_cur_t* cursor, /* in: cursor on the page to compress;
cursor does not stay valid */
mtr_t* mtr) /* in: mtr */
{
ut_ad(mtr_memo_contains(mtr,
dict_tree_get_lock(btr_cur_get_tree(cursor)),
MTR_MEMO_X_LOCK));
ut_ad(mtr_memo_contains(mtr, buf_block_align(
btr_cur_get_page(cursor)),
MTR_MEMO_PAGE_X_FIX));
ut_ad(btr_page_get_level(btr_cur_get_page(cursor), mtr) == 0);
btr_compress(cursor, mtr);
}
/*****************************************************************
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! */
ibool
btr_cur_compress_if_useful(
/*=======================*/
/* out: TRUE if compression occurred */
btr_cur_t* cursor, /* in: cursor on the page to compress;
cursor does not stay valid if compression
occurs */
mtr_t* mtr) /* in: mtr */
{
ut_ad(mtr_memo_contains(mtr,
dict_tree_get_lock(btr_cur_get_tree(cursor)),
MTR_MEMO_X_LOCK));
ut_ad(mtr_memo_contains(mtr, buf_block_align(
btr_cur_get_page(cursor)),
MTR_MEMO_PAGE_X_FIX));
if (btr_cur_compress_recommendation(cursor, mtr)) {
btr_compress(cursor, mtr);
return(TRUE);
}
return(FALSE);
}
/***********************************************************
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. */
ibool
btr_cur_optimistic_delete(
/*======================*/
/* out: TRUE if success, i.e., the page
did not become too empty */
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 */
mtr_t* mtr) /* in: mtr */
{
page_t* page;
ulint max_ins_size;
ut_ad(mtr_memo_contains(mtr, buf_block_align(btr_cur_get_page(cursor)),
MTR_MEMO_PAGE_X_FIX));
/* This is intended only for leaf page deletions */
page = btr_cur_get_page(cursor);
ut_ad(btr_page_get_level(page, mtr) == 0);
if (rec_contains_externally_stored_field(btr_cur_get_rec(cursor))) {
return(FALSE);
}
if (btr_cur_can_delete_without_compress(cursor, mtr)) {
lock_update_delete(btr_cur_get_rec(cursor));
btr_search_update_hash_on_delete(cursor);
max_ins_size = page_get_max_insert_size_after_reorganize(page,
1);
page_cur_delete_rec(btr_cur_get_page_cur(cursor), mtr);
ibuf_update_free_bits_low(cursor->index, page, max_ins_size,
mtr);
return(TRUE);
}
return(FALSE);
}
/*****************************************************************
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. */
ibool
btr_cur_pessimistic_delete(
/*=======================*/
/* out: TRUE if compression occurred */
ulint* 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 */
ibool in_rollback,/* in: TRUE if called in rollback */
mtr_t* mtr) /* in: mtr */
{
page_t* page;
dict_tree_t* tree;
rec_t* rec;
dtuple_t* node_ptr;
ulint n_extents = 0;
ulint n_reserved;
ibool success;
ibool ret = FALSE;
mem_heap_t* heap;
page = btr_cur_get_page(cursor);
tree = btr_cur_get_tree(cursor);
ut_ad(mtr_memo_contains(mtr, dict_tree_get_lock(tree),
MTR_MEMO_X_LOCK));
ut_ad(mtr_memo_contains(mtr, buf_block_align(page),
MTR_MEMO_PAGE_X_FIX));
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 */
n_extents = cursor->tree_height / 32 + 1;
success = fsp_reserve_free_extents(&n_reserved,
cursor->index->space,
n_extents, FSP_CLEANING, mtr);
if (!success) {
*err = DB_OUT_OF_FILE_SPACE;
return(FALSE);
}
}
btr_rec_free_externally_stored_fields(cursor->index,
btr_cur_get_rec(cursor), in_rollback, mtr);
if ((page_get_n_recs(page) < 2)
&& (dict_tree_get_page(btr_cur_get_tree(cursor))
!= buf_frame_get_page_no(page))) {
/* If there is only one record, drop the whole page in
btr_discard_page, if this is not the root page */
btr_discard_page(cursor, mtr);
*err = DB_SUCCESS;
ret = TRUE;
goto return_after_reservations;
}
rec = btr_cur_get_rec(cursor);
lock_update_delete(rec);
if ((btr_page_get_level(page, mtr) > 0)
&& (page_rec_get_next(page_get_infimum_rec(page)) == rec)) {
if (btr_page_get_prev(page, mtr) == FIL_NULL) {
/* 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 */
btr_set_min_rec_mark(page_rec_get_next(rec), mtr);
} else {
/* Otherwise, if we delete the leftmost node pointer
on a page, we have to change the father node pointer
so that it is equal to the new leftmost node pointer
on the page */
btr_node_ptr_delete(tree, page, mtr);
heap = mem_heap_create(256);
node_ptr = dict_tree_build_node_ptr(
tree, page_rec_get_next(rec),
buf_frame_get_page_no(page),
heap, btr_page_get_level(page, mtr));
btr_insert_on_non_leaf_level(tree,
btr_page_get_level(page, mtr) + 1,
node_ptr, mtr);
mem_heap_free(heap);
}
}
btr_search_update_hash_on_delete(cursor);
page_cur_delete_rec(btr_cur_get_page_cur(cursor), mtr);
ut_ad(btr_check_node_ptr(tree, page, mtr));
*err = DB_SUCCESS;
return_after_reservations:
if (ret == FALSE) {
ret = btr_cur_compress_if_useful(cursor, mtr);
}
if (n_extents > 0) {
fil_space_release_free_extents(cursor->index->space,
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;
rec_t* rec;
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);
slot->nth_rec = page_rec_get_n_recs_before(rec);
slot->n_recs = page_get_n_recs(buf_frame_align(rec));
}
/***********************************************************************
Estimates the number of rows in a given index range. */
ib_longlong
btr_estimate_n_rows_in_range(
/*=========================*/
/* out: estimated number of rows */
dict_index_t* index, /* in: index */
dtuple_t* tuple1, /* in: range start, may also be empty tuple */
ulint mode1, /* in: search mode for range start */
dtuple_t* tuple2, /* in: range end, may also be empty tuple */
ulint mode2) /* in: search mode for range end */
{
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;
ibool diverged;
ibool diverged_lot;
ulint divergence_level;
ib_longlong n_rows;
ulint i;
mtr_t mtr;
mtr_start(&mtr);
cursor.path_arr = path1;
if (dtuple_get_n_fields(tuple1) > 0) {
btr_cur_search_to_nth_level(index, 0, tuple1, mode1,
BTR_SEARCH_LEAF | BTR_ESTIMATE,
&cursor, 0, &mtr);
} else {
btr_cur_open_at_index_side(TRUE, index,
BTR_SEARCH_LEAF | BTR_ESTIMATE,
&cursor, &mtr);
}
mtr_commit(&mtr);
mtr_start(&mtr);
cursor.path_arr = path2;
if (dtuple_get_n_fields(tuple2) > 0) {
btr_cur_search_to_nth_level(index, 0, tuple2, mode2,
BTR_SEARCH_LEAF | BTR_ESTIMATE,
&cursor, 0, &mtr);
} else {
btr_cur_open_at_index_side(FALSE, index,
BTR_SEARCH_LEAF | BTR_ESTIMATE,
&cursor, &mtr);
}
mtr_commit(&mtr);
/* We have the path information for the range in path1 and path2 */
n_rows = 1;
diverged = FALSE; /* This becomes true when the path is not
the same any more */
diverged_lot = FALSE; /* This becomes true when the paths are
not the same or adjacent any more */
divergence_level = 1000000; /* This is the level where paths diverged
a lot */
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) {
if (i > divergence_level + 1) {
/* In trees whose height is > 1 our algorithm
tends to underestimate: multiply the estimate
by 2: */
n_rows = n_rows * 2;
}
/* 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 > index->table->stat_n_rows / 2) {
n_rows = index->table->stat_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 = index->table->stat_n_rows;
}
}
return(n_rows);
}
if (!diverged && slot1->nth_rec != slot2->nth_rec) {
diverged = TRUE;
if (slot1->nth_rec < slot2->nth_rec) {
n_rows = slot2->nth_rec - slot1->nth_rec;
if (n_rows > 1) {
diverged_lot = TRUE;
divergence_level = i;
}
} else {
/* Maybe the tree has changed between
searches */
return(10);
}
} 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 = (n_rows * (slot1->n_recs + slot2->n_recs))
/ 2;
}
}
}
/***********************************************************************
Estimates the number of different key values in a given index, for
each n-column prefix of the index where n <= dict_index_get_n_unique(index).
The estimates are stored in the array index->stat_n_diff_key_vals. */
void
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;
ulint matched_fields;
ulint matched_bytes;
ib_longlong* n_diff;
ulint not_empty_flag = 0;
ulint total_external_size = 0;
ulint i;
ulint j;
ulint add_on;
mtr_t mtr;
n_cols = dict_index_get_n_unique(index);
n_diff = mem_alloc((n_cols + 1) * sizeof(ib_longlong));
for (j = 0; j <= n_cols; j++) {
n_diff[j] = 0;
}
/* We sample some pages in the index to get an estimate */
for (i = 0; i < BTR_KEY_VAL_ESTIMATE_N_PAGES; i++) {
mtr_start(&mtr);
btr_cur_open_at_rnd_pos(index, BTR_SEARCH_LEAF, &cursor, &mtr);
/* 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 te 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. */
page = btr_cur_get_page(&cursor);
rec = page_get_infimum_rec(page);
rec = page_rec_get_next(rec);
if (rec != page_get_supremum_rec(page)) {
not_empty_flag = 1;
}
while (rec != page_get_supremum_rec(page)
&& page_rec_get_next(rec)
!= page_get_supremum_rec(page)) {
matched_fields = 0;
matched_bytes = 0;
cmp_rec_rec_with_match(rec, page_rec_get_next(rec),
index, &matched_fields,
&matched_bytes);
for (j = matched_fields + 1; j <= n_cols; j++) {
/* We add one if this index record has
a different prefix from the previous */
n_diff[j]++;
}
total_external_size +=
btr_rec_get_externally_stored_len(rec);
rec = page_rec_get_next(rec);
}
if (n_cols == dict_index_get_n_unique_in_tree(index)) {
/* 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]++;
}
total_external_size +=
btr_rec_get_externally_stored_len(rec);
mtr_commit(&mtr);
}
/* If we saw k borders between different key values on
BTR_KEY_VAL_ESTIMATE_N_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] =
(n_diff[j]
* (ib_longlong)index->stat_n_leaf_pages
+ BTR_KEY_VAL_ESTIMATE_N_PAGES - 1
+ total_external_size
+ not_empty_flag)
/ (BTR_KEY_VAL_ESTIMATE_N_PAGES
+ total_external_size);
/* If the tree is small, smaller than <
10 * BTR_KEY_VAL_ESTIMATE_N_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 BTR_KEY_VAL_ESTIMATE_N_PAGES
different key values, or even more. Let us try to approximate
that: */
add_on = index->stat_n_leaf_pages /
(10 * (BTR_KEY_VAL_ESTIMATE_N_PAGES + total_external_size));
if (add_on > BTR_KEY_VAL_ESTIMATE_N_PAGES) {
add_on = BTR_KEY_VAL_ESTIMATE_N_PAGES;
}
index->stat_n_diff_key_vals[j] += add_on;
}
mem_free(n_diff);
}
/*================== EXTERNAL STORAGE OF BIG FIELDS ===================*/
/***************************************************************
Gets the externally stored size of a record, in units of a database page. */
static
ulint
btr_rec_get_externally_stored_len(
/*==============================*/
/* out: externally stored part, in units of a
database page */
rec_t* rec) /* in: record */
{
ulint n_fields;
byte* data;
ulint local_len;
ulint extern_len;
ulint total_extern_len = 0;
ulint i;
if (rec_get_data_size(rec) <= REC_1BYTE_OFFS_LIMIT) {
return(0);
}
n_fields = rec_get_n_fields(rec);
for (i = 0; i < n_fields; i++) {
if (rec_get_nth_field_extern_bit(rec, i)) {
data = rec_get_nth_field(rec, i, &local_len);
local_len -= BTR_EXTERN_FIELD_REF_SIZE;
extern_len = mach_read_from_4(data + local_len
+ BTR_EXTERN_LEN + 4);
total_extern_len += ut_calc_align(extern_len,
UNIV_PAGE_SIZE);
}
}
return(total_extern_len / UNIV_PAGE_SIZE);
}
/***********************************************************************
Sets the ownership bit of an externally stored field in a record. */
static
void
btr_cur_set_ownership_of_extern_field(
/*==================================*/
rec_t* rec, /* in: clustered index record */
ulint i, /* in: field number */
ibool val, /* in: value to set */
mtr_t* mtr) /* in: mtr */
{
byte* data;
ulint local_len;
ulint byte_val;
data = rec_get_nth_field(rec, i, &local_len);
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 = byte_val & (~BTR_EXTERN_OWNER_FLAG);
} else {
byte_val = byte_val | BTR_EXTERN_OWNER_FLAG;
}
mlog_write_ulint(data + local_len + BTR_EXTERN_LEN, byte_val,
MLOG_1BYTE, mtr);
}
/***********************************************************************
Marks not updated extern fields as not-owned by this record. The ownership
is 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_mark_extern_inherited_fields(
/*=================================*/
rec_t* rec, /* in: record in a clustered index */
upd_t* update, /* in: update vector */
mtr_t* mtr) /* in: mtr */
{
ibool is_updated;
ulint n;
ulint j;
ulint i;
n = rec_get_n_fields(rec);
for (i = 0; i < n; i++) {
if (rec_get_nth_field_extern_bit(rec, i)) {
/* Check it is not in updated fields */
is_updated = FALSE;
if (update) {
for (j = 0; j < upd_get_n_fields(update);
j++) {
if (upd_get_nth_field(update, j)
->field_no == i) {
is_updated = TRUE;
}
}
}
if (!is_updated) {
btr_cur_set_ownership_of_extern_field(rec, i,
FALSE, mtr);
}
}
}
}
/***********************************************************************
The complement of the previous function: in an update entry may inherit
some externally stored fields from a record. We must mark them as inherited
in entry, so that they are not freed in a rollback. */
void
btr_cur_mark_dtuple_inherited_extern(
/*=================================*/
dtuple_t* entry, /* in: updated entry to be inserted to
clustered index */
ulint* ext_vec, /* in: array of extern fields in the
original record */
ulint n_ext_vec, /* in: number of elements in ext_vec */
upd_t* update) /* in: update vector */
{
dfield_t* dfield;
ulint byte_val;
byte* data;
ulint len;
ibool is_updated;
ulint j;
ulint i;
if (ext_vec == NULL) {
return;
}
for (i = 0; i < n_ext_vec; i++) {
/* Check ext_vec[i] is in updated fields */
is_updated = FALSE;
for (j = 0; j < upd_get_n_fields(update); j++) {
if (upd_get_nth_field(update, j)->field_no
== ext_vec[i]) {
is_updated = TRUE;
}
}
if (!is_updated) {
dfield = dtuple_get_nth_field(entry, ext_vec[i]);
data = dfield_get_data(dfield);
len = dfield_get_len(dfield);
len -= BTR_EXTERN_FIELD_REF_SIZE;
byte_val = mach_read_from_1(data + len
+ BTR_EXTERN_LEN);
byte_val = byte_val | BTR_EXTERN_INHERITED_FLAG;
mach_write_to_1(data + len + BTR_EXTERN_LEN, byte_val);
}
}
}
/***********************************************************************
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(
/*=========================*/
rec_t* rec, /* in: record in a clustered index */
mtr_t* mtr) /* in: mtr */
{
ulint n;
ulint i;
n = rec_get_n_fields(rec);
for (i = 0; i < n; i++) {
if (rec_get_nth_field_extern_bit(rec, i)) {
btr_cur_set_ownership_of_extern_field(rec, i,
TRUE, mtr);
}
}
}
/***********************************************************************
Marks all extern fields in a dtuple as owned by the record. */
void
btr_cur_unmark_dtuple_extern_fields(
/*================================*/
dtuple_t* entry, /* in: clustered index entry */
ulint* ext_vec, /* in: array of numbers of fields
which have been stored externally */
ulint n_ext_vec) /* in: number of elements in ext_vec */
{
dfield_t* dfield;
ulint byte_val;
byte* data;
ulint len;
ulint i;
for (i = 0; i < n_ext_vec; i++) {
dfield = dtuple_get_nth_field(entry, ext_vec[i]);
data = dfield_get_data(dfield);
len = dfield_get_len(dfield);
len -= BTR_EXTERN_FIELD_REF_SIZE;
byte_val = mach_read_from_1(data + len + BTR_EXTERN_LEN);
byte_val = byte_val & (~BTR_EXTERN_OWNER_FLAG);
mach_write_to_1(data + len + BTR_EXTERN_LEN, byte_val);
}
}
/***********************************************************************
Stores the positions of the fields marked as extern storage in the update
vector, and also those fields who are marked as extern storage in rec
and not mentioned in updated fields. We use this function to remember
which fields we must mark as extern storage in a record inserted for an
update. */
ulint
btr_push_update_extern_fields(
/*==========================*/
/* out: number of values stored in ext_vect */
ulint* ext_vect, /* in: array of ulints, must be preallocated
to have space for all fields in rec */
rec_t* rec, /* in: record */
upd_t* update) /* in: update vector or NULL */
{
ulint n_pushed = 0;
ibool is_updated;
ulint n;
ulint j;
ulint i;
if (update) {
n = upd_get_n_fields(update);
for (i = 0; i < n; i++) {
if (upd_get_nth_field(update, i)->extern_storage) {
ext_vect[n_pushed] =
upd_get_nth_field(update, i)->field_no;
n_pushed++;
}
}
}
n = rec_get_n_fields(rec);
for (i = 0; i < n; i++) {
if (rec_get_nth_field_extern_bit(rec, i)) {
/* Check it is not in updated fields */
is_updated = FALSE;
if (update) {
for (j = 0; j < upd_get_n_fields(update);
j++) {
if (upd_get_nth_field(update, j)
->field_no == i) {
is_updated = TRUE;
}
}
}
if (!is_updated) {
ext_vect[n_pushed] = i;
n_pushed++;
}
}
}
return(n_pushed);
}
/***********************************************************************
Returns the length of a BLOB part stored on the header page. */
static
ulint
btr_blob_get_part_len(
/*==================*/
/* out: part length */
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. */
static
ulint
btr_blob_get_next_page_no(
/*======================*/
/* out: page number or FIL_NULL if
no more pages */
byte* blob_header) /* in: blob header */
{
return(mach_read_from_4(blob_header + BTR_BLOB_HDR_NEXT_PAGE_NO));
}
/***********************************************************************
Stores the fields in big_rec_vec to the tablespace and puts pointers to
them in rec. The fields are stored on pages allocated from leaf node
file segment of the index tree. */
ulint
btr_store_big_rec_extern_fields(
/*============================*/
/* out: DB_SUCCESS or error */
dict_index_t* index, /* in: index of rec; the index tree
MUST be X-latched */
rec_t* rec, /* in: record */
big_rec_t* big_rec_vec, /* in: vector containing fields
to be stored externally */
mtr_t* local_mtr __attribute__((unused))) /* in: mtr
containing the latch to rec and to the
tree */
{
byte* data;
ulint local_len;
ulint extern_len;
ulint store_len;
ulint page_no;
page_t* page;
ulint space_id;
page_t* prev_page;
page_t* rec_page;
ulint prev_page_no;
ulint hint_page_no;
ulint i;
mtr_t mtr;
ut_ad(mtr_memo_contains(local_mtr, dict_tree_get_lock(index->tree),
MTR_MEMO_X_LOCK));
ut_ad(mtr_memo_contains(local_mtr, buf_block_align(rec),
MTR_MEMO_PAGE_X_FIX));
ut_a(index->type & DICT_CLUSTERED);
space_id = buf_frame_get_space_id(rec);
/* 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++) {
data = rec_get_nth_field(rec, big_rec_vec->fields[i].field_no,
&local_len);
ut_a(local_len >= BTR_EXTERN_FIELD_REF_SIZE);
local_len -= BTR_EXTERN_FIELD_REF_SIZE;
extern_len = big_rec_vec->fields[i].len;
ut_a(extern_len > 0);
prev_page_no = FIL_NULL;
while (extern_len > 0) {
mtr_start(&mtr);
if (prev_page_no == FIL_NULL) {
hint_page_no = buf_frame_get_page_no(rec) + 1;
} else {
hint_page_no = prev_page_no + 1;
}
page = btr_page_alloc(index->tree, hint_page_no,
FSP_NO_DIR, 0, &mtr);
if (page == NULL) {
mtr_commit(&mtr);
return(DB_OUT_OF_FILE_SPACE);
}
page_no = buf_frame_get_page_no(page);
if (prev_page_no != FIL_NULL) {
prev_page = buf_page_get(space_id,
prev_page_no,
RW_X_LATCH, &mtr);
#ifdef UNIV_SYNC_DEBUG
buf_page_dbg_add_level(prev_page,
SYNC_EXTERN_STORAGE);
#endif /* UNIV_SYNC_DEBUG */
mlog_write_ulint(prev_page + FIL_PAGE_DATA
+ BTR_BLOB_HDR_NEXT_PAGE_NO,
page_no, MLOG_4BYTES, &mtr);
}
if (extern_len > (UNIV_PAGE_SIZE - FIL_PAGE_DATA
- BTR_BLOB_HDR_SIZE
- FIL_PAGE_DATA_END)) {
store_len = UNIV_PAGE_SIZE - FIL_PAGE_DATA
- BTR_BLOB_HDR_SIZE
- FIL_PAGE_DATA_END;
} else {
store_len = extern_len;
}
mlog_write_string(page + FIL_PAGE_DATA
+ BTR_BLOB_HDR_SIZE,
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;
rec_page = buf_page_get(space_id,
buf_frame_get_page_no(data),
RW_X_LATCH, &mtr);
#ifdef UNIV_SYNC_DEBUG
buf_page_dbg_add_level(rec_page, SYNC_NO_ORDER_CHECK);
#endif /* UNIV_SYNC_DEBUG */
mlog_write_ulint(data + local_len + BTR_EXTERN_LEN, 0,
MLOG_4BYTES, &mtr);
mlog_write_ulint(data + local_len + BTR_EXTERN_LEN + 4,
big_rec_vec->fields[i].len
- extern_len,
MLOG_4BYTES, &mtr);
if (prev_page_no == FIL_NULL) {
mlog_write_ulint(data + local_len
+ BTR_EXTERN_SPACE_ID,
space_id,
MLOG_4BYTES, &mtr);
mlog_write_ulint(data + local_len
+ BTR_EXTERN_PAGE_NO,
page_no,
MLOG_4BYTES, &mtr);
mlog_write_ulint(data + local_len
+ BTR_EXTERN_OFFSET,
FIL_PAGE_DATA,
MLOG_4BYTES, &mtr);
/* Set the bit denoting that this field
in rec is stored externally */
rec_set_nth_field_extern_bit(rec,
big_rec_vec->fields[i].field_no,
TRUE, &mtr);
}
prev_page_no = page_no;
mtr_commit(&mtr);
}
}
return(DB_SUCCESS);
}
/***********************************************************************
Frees the space in an externally stored field to the file space
management if the field in data is owned 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* data, /* in: internally stored data
+ reference to the externally
stored part */
ulint local_len, /* in: length of data */
ibool do_not_free_inherited,/* in: TRUE if called in a
rollback and we do not want to free
inherited fields */
mtr_t* local_mtr __attribute__((unused))) /* in: mtr
containing the latch to data an an
X-latch to the index tree */
{
page_t* page;
page_t* rec_page;
ulint space_id;
ulint page_no;
ulint offset;
ulint extern_len;
ulint next_page_no;
ulint part_len;
mtr_t mtr;
ut_a(local_len >= BTR_EXTERN_FIELD_REF_SIZE);
ut_ad(mtr_memo_contains(local_mtr, dict_tree_get_lock(index->tree),
MTR_MEMO_X_LOCK));
ut_ad(mtr_memo_contains(local_mtr, buf_block_align(data),
MTR_MEMO_PAGE_X_FIX));
ut_a(local_len >= BTR_EXTERN_FIELD_REF_SIZE);
local_len -= BTR_EXTERN_FIELD_REF_SIZE;
for (;;) {
mtr_start(&mtr);
rec_page = buf_page_get(buf_frame_get_space_id(data),
buf_frame_get_page_no(data), RW_X_LATCH, &mtr);
#ifdef UNIV_SYNC_DEBUG
buf_page_dbg_add_level(rec_page, SYNC_NO_ORDER_CHECK);
#endif /* UNIV_SYNC_DEBUG */
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);
extern_len = mach_read_from_4(data + local_len
+ BTR_EXTERN_LEN + 4);
/* If extern len is 0, then there is no external storage data
at all */
if (extern_len == 0) {
mtr_commit(&mtr);
return;
}
if (mach_read_from_1(data + local_len + BTR_EXTERN_LEN)
& BTR_EXTERN_OWNER_FLAG) {
/* This field does not own the externally
stored field: do not free! */
mtr_commit(&mtr);
return;
}
if (do_not_free_inherited
&& mach_read_from_1(data + local_len + BTR_EXTERN_LEN)
& BTR_EXTERN_INHERITED_FLAG) {
/* Rollback and inherited field: do not free! */
mtr_commit(&mtr);
return;
}
page = buf_page_get(space_id, page_no, RW_X_LATCH, &mtr);
#ifdef UNIV_SYNC_DEBUG
buf_page_dbg_add_level(page, SYNC_EXTERN_STORAGE);
#endif /* UNIV_SYNC_DEBUG */
next_page_no = mach_read_from_4(page + FIL_PAGE_DATA
+ BTR_BLOB_HDR_NEXT_PAGE_NO);
part_len = btr_blob_get_part_len(page + FIL_PAGE_DATA);
ut_a(extern_len >= part_len);
/* 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->tree, page, 0, &mtr);
mlog_write_ulint(data + local_len + BTR_EXTERN_PAGE_NO,
next_page_no,
MLOG_4BYTES, &mtr);
mlog_write_ulint(data + local_len + BTR_EXTERN_LEN + 4,
extern_len - part_len,
MLOG_4BYTES, &mtr);
if (next_page_no == FIL_NULL) {
ut_a(extern_len - part_len == 0);
}
if (extern_len - part_len == 0) {
ut_a(next_page_no == FIL_NULL);
}
mtr_commit(&mtr);
}
}
/***************************************************************
Frees the externally stored fields for a record. */
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 */
ibool do_not_free_inherited,/* in: TRUE if called in a
rollback and we do not want to free
inherited fields */
mtr_t* mtr) /* in: mini-transaction handle which contains
an X-latch to record page and to the index
tree */
{
ulint n_fields;
byte* data;
ulint len;
ulint i;
ut_ad(mtr_memo_contains(mtr, buf_block_align(rec),
MTR_MEMO_PAGE_X_FIX));
if (rec_get_data_size(rec) <= REC_1BYTE_OFFS_LIMIT) {
return;
}
/* Free possible externally stored fields in the record */
n_fields = rec_get_n_fields(rec);
for (i = 0; i < n_fields; i++) {
if (rec_get_nth_field_extern_bit(rec, i)) {
data = rec_get_nth_field(rec, i, &len);
btr_free_externally_stored_field(index, data, len,
do_not_free_inherited, 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: record */
upd_t* update, /* in: update vector */
ibool do_not_free_inherited,/* in: TRUE if called in a
rollback and we do not want to free
inherited fields */
mtr_t* mtr) /* in: mini-transaction handle which contains
an X-latch to record page and to the tree */
{
upd_field_t* ufield;
ulint n_fields;
byte* data;
ulint len;
ulint i;
ut_ad(mtr_memo_contains(mtr, buf_block_align(rec),
MTR_MEMO_PAGE_X_FIX));
if (rec_get_data_size(rec) <= REC_1BYTE_OFFS_LIMIT) {
return;
}
/* Free possible externally stored fields in the record */
n_fields = upd_get_n_fields(update);
for (i = 0; i < n_fields; i++) {
ufield = upd_get_nth_field(update, i);
if (rec_get_nth_field_extern_bit(rec, ufield->field_no)) {
data = rec_get_nth_field(rec, ufield->field_no, &len);
btr_free_externally_stored_field(index, data, len,
do_not_free_inherited, mtr);
}
}
}
/***********************************************************************
Copies an externally stored field of a record to mem heap. Parameter
data contains a pointer to 'internally' stored part of the field:
possibly some data, and the reference to the externally stored part in
the last 20 bytes of data. */
byte*
btr_copy_externally_stored_field(
/*=============================*/
/* out: the whole field copied to heap */
ulint* len, /* out: length of the whole field */
byte* data, /* in: 'internally' stored part of the
field containing also the reference to
the external part */
ulint local_len,/* in: length of data */
mem_heap_t* heap) /* in: mem heap */
{
page_t* page;
ulint space_id;
ulint page_no;
ulint offset;
ulint extern_len;
byte* blob_header;
ulint part_len;
byte* buf;
ulint copied_len;
mtr_t mtr;
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 that 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 = mem_heap_alloc(heap, local_len + extern_len);
ut_memcpy(buf, data, local_len);
copied_len = local_len;
if (extern_len == 0) {
*len = copied_len;
return(buf);
}
for (;;) {
mtr_start(&mtr);
page = buf_page_get(space_id, page_no, RW_S_LATCH, &mtr);
#ifdef UNIV_SYNC_DEBUG
buf_page_dbg_add_level(page, SYNC_EXTERN_STORAGE);
#endif /* UNIV_SYNC_DEBUG */
blob_header = page + offset;
part_len = btr_blob_get_part_len(blob_header);
ut_memcpy(buf + copied_len, blob_header + BTR_BLOB_HDR_SIZE,
part_len);
copied_len += part_len;
page_no = btr_blob_get_next_page_no(blob_header);
/* On other BLOB pages except the first the BLOB header
always is at the page data start: */
offset = FIL_PAGE_DATA;
mtr_commit(&mtr);
if (page_no == FIL_NULL) {
ut_a(copied_len == local_len + extern_len);
*len = copied_len;
return(buf);
}
ut_a(copied_len < local_len + extern_len);
}
}
/***********************************************************************
Copies an externally stored field of a record to mem heap. */
byte*
btr_rec_copy_externally_stored_field(
/*=================================*/
/* out: the field copied to heap */
rec_t* rec, /* in: record */
ulint no, /* in: field number */
ulint* len, /* out: length of the field */
mem_heap_t* heap) /* in: mem heap */
{
ulint local_len;
byte* data;
ut_a(rec_get_nth_field_extern_bit(rec, 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, no, &local_len);
return(btr_copy_externally_stored_field(len, data, local_len, heap));
}
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