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|
/*****************************************************************************
Copyright (c) 1995, 2010, Innobase Oy. All Rights Reserved.
Copyright (c) 2008, Google Inc.
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
St, Fifth Floor, Boston, MA 02110-1301 USA
*****************************************************************************/
/**************************************************//**
@file buf/buf0buf.c
The database buffer buf_pool
Created 11/5/1995 Heikki Tuuri
*******************************************************/
#include "buf0buf.h"
#ifdef UNIV_NONINL
#include "buf0buf.ic"
#endif
#include "mem0mem.h"
#include "btr0btr.h"
#include "fil0fil.h"
#ifndef UNIV_HOTBACKUP
#include "buf0buddy.h"
#include "lock0lock.h"
#include "btr0sea.h"
#include "ibuf0ibuf.h"
#include "trx0undo.h"
#include "log0log.h"
#endif /* !UNIV_HOTBACKUP */
#include "srv0srv.h"
#include "dict0dict.h"
#include "log0recv.h"
#include "page0zip.h"
/*
IMPLEMENTATION OF THE BUFFER POOL
=================================
Performance improvement:
------------------------
Thread scheduling in NT may be so slow that the OS wait mechanism should
not be used even in waiting for disk reads to complete.
Rather, we should put waiting query threads to the queue of
waiting jobs, and let the OS thread do something useful while the i/o
is processed. In this way we could remove most OS thread switches in
an i/o-intensive benchmark like TPC-C.
A possibility is to put a user space thread library between the database
and NT. User space thread libraries might be very fast.
SQL Server 7.0 can be configured to use 'fibers' which are lightweight
threads in NT. These should be studied.
Buffer frames and blocks
------------------------
Following the terminology of Gray and Reuter, we call the memory
blocks where file pages are loaded buffer frames. For each buffer
frame there is a control block, or shortly, a block, in the buffer
control array. The control info which does not need to be stored
in the file along with the file page, resides in the control block.
Buffer pool struct
------------------
The buffer buf_pool contains a single mutex which protects all the
control data structures of the buf_pool. The content of a buffer frame is
protected by a separate read-write lock in its control block, though.
These locks can be locked and unlocked without owning the buf_pool->mutex.
The OS events in the buf_pool struct can be waited for without owning the
buf_pool->mutex.
The buf_pool->mutex is a hot-spot in main memory, causing a lot of
memory bus traffic on multiprocessor systems when processors
alternately access the mutex. On our Pentium, the mutex is accessed
maybe every 10 microseconds. We gave up the solution to have mutexes
for each control block, for instance, because it seemed to be
complicated.
A solution to reduce mutex contention of the buf_pool->mutex is to
create a separate mutex for the page hash table. On Pentium,
accessing the hash table takes 2 microseconds, about half
of the total buf_pool->mutex hold time.
Control blocks
--------------
The control block contains, for instance, the bufferfix count
which is incremented when a thread wants a file page to be fixed
in a buffer frame. The bufferfix operation does not lock the
contents of the frame, however. For this purpose, the control
block contains a read-write lock.
The buffer frames have to be aligned so that the start memory
address of a frame is divisible by the universal page size, which
is a power of two.
We intend to make the buffer buf_pool size on-line reconfigurable,
that is, the buf_pool size can be changed without closing the database.
Then the database administarator may adjust it to be bigger
at night, for example. The control block array must
contain enough control blocks for the maximum buffer buf_pool size
which is used in the particular database.
If the buf_pool size is cut, we exploit the virtual memory mechanism of
the OS, and just refrain from using frames at high addresses. Then the OS
can swap them to disk.
The control blocks containing file pages are put to a hash table
according to the file address of the page.
We could speed up the access to an individual page by using
"pointer swizzling": we could replace the page references on
non-leaf index pages by direct pointers to the page, if it exists
in the buf_pool. We could make a separate hash table where we could
chain all the page references in non-leaf pages residing in the buf_pool,
using the page reference as the hash key,
and at the time of reading of a page update the pointers accordingly.
Drawbacks of this solution are added complexity and,
possibly, extra space required on non-leaf pages for memory pointers.
A simpler solution is just to speed up the hash table mechanism
in the database, using tables whose size is a power of 2.
Lists of blocks
---------------
There are several lists of control blocks.
The free list (buf_pool->free) contains blocks which are currently not
used.
The common LRU list contains all the blocks holding a file page
except those for which the bufferfix count is non-zero.
The pages are in the LRU list roughly in the order of the last
access to the page, so that the oldest pages are at the end of the
list. We also keep a pointer to near the end of the LRU list,
which we can use when we want to artificially age a page in the
buf_pool. This is used if we know that some page is not needed
again for some time: we insert the block right after the pointer,
causing it to be replaced sooner than would normally be the case.
Currently this aging mechanism is used for read-ahead mechanism
of pages, and it can also be used when there is a scan of a full
table which cannot fit in the memory. Putting the pages near the
end of the LRU list, we make sure that most of the buf_pool stays
in the main memory, undisturbed.
The unzip_LRU list contains a subset of the common LRU list. The
blocks on the unzip_LRU list hold a compressed file page and the
corresponding uncompressed page frame. A block is in unzip_LRU if and
only if the predicate buf_page_belongs_to_unzip_LRU(&block->page)
holds. The blocks in unzip_LRU will be in same order as they are in
the common LRU list. That is, each manipulation of the common LRU
list will result in the same manipulation of the unzip_LRU list.
The chain of modified blocks (buf_pool->flush_list) contains the blocks
holding file pages that have been modified in the memory
but not written to disk yet. The block with the oldest modification
which has not yet been written to disk is at the end of the chain.
The access to this list is protected by flush_list_mutex.
The chain of unmodified compressed blocks (buf_pool->zip_clean)
contains the control blocks (buf_page_t) of those compressed pages
that are not in buf_pool->flush_list and for which no uncompressed
page has been allocated in the buffer pool. The control blocks for
uncompressed pages are accessible via buf_block_t objects that are
reachable via buf_pool->chunks[].
The chains of free memory blocks (buf_pool->zip_free[]) are used by
the buddy allocator (buf0buddy.c) to keep track of currently unused
memory blocks of size sizeof(buf_page_t)..UNIV_PAGE_SIZE / 2. These
blocks are inside the UNIV_PAGE_SIZE-sized memory blocks of type
BUF_BLOCK_MEMORY that the buddy allocator requests from the buffer
pool. The buddy allocator is solely used for allocating control
blocks for compressed pages (buf_page_t) and compressed page frames.
Loading a file page
-------------------
First, a victim block for replacement has to be found in the
buf_pool. It is taken from the free list or searched for from the
end of the LRU-list. An exclusive lock is reserved for the frame,
the io_fix field is set in the block fixing the block in buf_pool,
and the io-operation for loading the page is queued. The io-handler thread
releases the X-lock on the frame and resets the io_fix field
when the io operation completes.
A thread may request the above operation using the function
buf_page_get(). It may then continue to request a lock on the frame.
The lock is granted when the io-handler releases the x-lock.
Read-ahead
----------
The read-ahead mechanism is intended to be intelligent and
isolated from the semantically higher levels of the database
index management. From the higher level we only need the
information if a file page has a natural successor or
predecessor page. On the leaf level of a B-tree index,
these are the next and previous pages in the natural
order of the pages.
Let us first explain the read-ahead mechanism when the leafs
of a B-tree are scanned in an ascending or descending order.
When a read page is the first time referenced in the buf_pool,
the buffer manager checks if it is at the border of a so-called
linear read-ahead area. The tablespace is divided into these
areas of size 64 blocks, for example. So if the page is at the
border of such an area, the read-ahead mechanism checks if
all the other blocks in the area have been accessed in an
ascending or descending order. If this is the case, the system
looks at the natural successor or predecessor of the page,
checks if that is at the border of another area, and in this case
issues read-requests for all the pages in that area. Maybe
we could relax the condition that all the pages in the area
have to be accessed: if data is deleted from a table, there may
appear holes of unused pages in the area.
A different read-ahead mechanism is used when there appears
to be a random access pattern to a file.
If a new page is referenced in the buf_pool, and several pages
of its random access area (for instance, 32 consecutive pages
in a tablespace) have recently been referenced, we may predict
that the whole area may be needed in the near future, and issue
the read requests for the whole area.
*/
#ifndef UNIV_HOTBACKUP
/** Value in microseconds */
static const int WAIT_FOR_READ = 5000;
/** Number of attemtps made to read in a page in the buffer pool */
static const ulint BUF_PAGE_READ_MAX_RETRIES = 100;
/** The buffer buf_pool of the database */
UNIV_INTERN buf_pool_t* buf_pool_ptr[MAX_BUFFER_POOLS];
#if defined UNIV_DEBUG || defined UNIV_BUF_DEBUG
static ulint buf_dbg_counter = 0; /*!< This is used to insert validation
operations in execution in the
debug version */
#endif /* UNIV_DEBUG || UNIV_BUF_DEBUG */
#ifdef UNIV_DEBUG
/** If this is set TRUE, the program prints info whenever
read-ahead or flush occurs */
UNIV_INTERN ibool buf_debug_prints = FALSE;
#endif /* UNIV_DEBUG */
#ifdef UNIV_PFS_RWLOCK
/* Keys to register buffer block related rwlocks and mutexes with
performance schema */
UNIV_INTERN mysql_pfs_key_t buf_block_lock_key;
# ifdef UNIV_SYNC_DEBUG
UNIV_INTERN mysql_pfs_key_t buf_block_debug_latch_key;
# endif /* UNIV_SYNC_DEBUG */
#endif /* UNIV_PFS_RWLOCK */
#ifdef UNIV_PFS_MUTEX
UNIV_INTERN mysql_pfs_key_t buffer_block_mutex_key;
UNIV_INTERN mysql_pfs_key_t buf_pool_mutex_key;
UNIV_INTERN mysql_pfs_key_t buf_pool_zip_mutex_key;
UNIV_INTERN mysql_pfs_key_t flush_list_mutex_key;
#endif /* UNIV_PFS_MUTEX */
#if defined UNIV_PFS_MUTEX || defined UNIV_PFS_RWLOCK
# ifndef PFS_SKIP_BUFFER_MUTEX_RWLOCK
/* Buffer block mutexes and rwlocks can be registered
in one group rather than individually. If PFS_GROUP_BUFFER_SYNC
is defined, register buffer block mutex and rwlock
in one group after their initialization. */
# define PFS_GROUP_BUFFER_SYNC
/* This define caps the number of mutexes/rwlocks can
be registered with performance schema. Developers can
modify this define if necessary. Please note, this would
be effective only if PFS_GROUP_BUFFER_SYNC is defined. */
# define PFS_MAX_BUFFER_MUTEX_LOCK_REGISTER ULINT_MAX
# endif /* !PFS_SKIP_BUFFER_MUTEX_RWLOCK */
#endif /* UNIV_PFS_MUTEX || UNIV_PFS_RWLOCK */
/** A chunk of buffers. The buffer pool is allocated in chunks. */
struct buf_chunk_struct{
ulint mem_size; /*!< allocated size of the chunk */
ulint size; /*!< size of frames[] and blocks[] */
void* mem; /*!< pointer to the memory area which
was allocated for the frames */
buf_block_t* blocks; /*!< array of buffer control blocks */
};
#endif /* !UNIV_HOTBACKUP */
/********************************************************************//**
Gets the smallest oldest_modification lsn for any page in the pool. Returns
zero if all modified pages have been flushed to disk.
@return oldest modification in pool, zero if none */
UNIV_INTERN
ib_uint64_t
buf_pool_get_oldest_modification(void)
/*==================================*/
{
ulint i;
buf_page_t* bpage;
ib_uint64_t lsn = 0;
ib_uint64_t oldest_lsn = 0;
/* When we traverse all the flush lists we don't want another
thread to add a dirty page to any flush list. */
log_flush_order_mutex_enter();
for (i = 0; i < srv_buf_pool_instances; i++) {
buf_pool_t* buf_pool;
buf_pool = buf_pool_from_array(i);
buf_flush_list_mutex_enter(buf_pool);
bpage = UT_LIST_GET_LAST(buf_pool->flush_list);
if (bpage != NULL) {
ut_ad(bpage->in_flush_list);
lsn = bpage->oldest_modification;
}
buf_flush_list_mutex_exit(buf_pool);
if (!oldest_lsn || oldest_lsn > lsn) {
oldest_lsn = lsn;
}
}
log_flush_order_mutex_exit();
/* The returned answer may be out of date: the flush_list can
change after the mutex has been released. */
return(oldest_lsn);
}
/********************************************************************//**
Get total buffer pool statistics. */
UNIV_INTERN
void
buf_get_total_list_len(
/*===================*/
ulint* LRU_len, /*!< out: length of all LRU lists */
ulint* free_len, /*!< out: length of all free lists */
ulint* flush_list_len) /*!< out: length of all flush lists */
{
ulint i;
*LRU_len = 0;
*free_len = 0;
*flush_list_len = 0;
for (i = 0; i < srv_buf_pool_instances; i++) {
buf_pool_t* buf_pool;
buf_pool = buf_pool_from_array(i);
*LRU_len += UT_LIST_GET_LEN(buf_pool->LRU);
*free_len += UT_LIST_GET_LEN(buf_pool->free);
*flush_list_len += UT_LIST_GET_LEN(buf_pool->flush_list);
}
}
/********************************************************************//**
Get total buffer pool statistics. */
UNIV_INTERN
void
buf_get_total_stat(
/*===============*/
buf_pool_stat_t* tot_stat) /*!< out: buffer pool stats */
{
ulint i;
memset(tot_stat, 0, sizeof(*tot_stat));
for (i = 0; i < srv_buf_pool_instances; i++) {
buf_pool_stat_t*buf_stat;
buf_pool_t* buf_pool;
buf_pool = buf_pool_from_array(i);
buf_stat = &buf_pool->stat;
tot_stat->n_page_gets += buf_stat->n_page_gets;
tot_stat->n_pages_read += buf_stat->n_pages_read;
tot_stat->n_pages_written += buf_stat->n_pages_written;
tot_stat->n_pages_created += buf_stat->n_pages_created;
tot_stat->n_ra_pages_read += buf_stat->n_ra_pages_read;
tot_stat->n_ra_pages_evicted += buf_stat->n_ra_pages_evicted;
tot_stat->n_pages_made_young += buf_stat->n_pages_made_young;
tot_stat->n_pages_not_made_young +=
buf_stat->n_pages_not_made_young;
}
}
/********************************************************************//**
Allocates a buffer block.
@return own: the allocated block, in state BUF_BLOCK_MEMORY */
UNIV_INTERN
buf_block_t*
buf_block_alloc(
/*============*/
buf_pool_t* buf_pool, /*!< in: buffer pool instance */
ulint zip_size) /*!< in: compressed page size in bytes,
or 0 if uncompressed tablespace */
{
buf_block_t* block;
ulint index;
static ulint buf_pool_index;
if (buf_pool == NULL) {
/* We are allocating memory from any buffer pool, ensure
we spread the grace on all buffer pool instances. */
index = buf_pool_index++ % srv_buf_pool_instances;
buf_pool = buf_pool_from_array(index);
}
block = buf_LRU_get_free_block(buf_pool, zip_size);
buf_block_set_state(block, BUF_BLOCK_MEMORY);
return(block);
}
/********************************************************************//**
Calculates a page checksum which is stored to the page when it is written
to a file. Note that we must be careful to calculate the same value on
32-bit and 64-bit architectures.
@return checksum */
UNIV_INTERN
ulint
buf_calc_page_new_checksum(
/*=======================*/
const byte* page) /*!< in: buffer page */
{
ulint checksum;
/* Since the field FIL_PAGE_FILE_FLUSH_LSN, and in versions <= 4.1.x
..._ARCH_LOG_NO, are written outside the buffer pool to the first
pages of data files, we have to skip them in the page checksum
calculation.
We must also skip the field FIL_PAGE_SPACE_OR_CHKSUM where the
checksum is stored, and also the last 8 bytes of page because
there we store the old formula checksum. */
checksum = ut_fold_binary(page + FIL_PAGE_OFFSET,
FIL_PAGE_FILE_FLUSH_LSN - FIL_PAGE_OFFSET)
+ ut_fold_binary(page + FIL_PAGE_DATA,
UNIV_PAGE_SIZE - FIL_PAGE_DATA
- FIL_PAGE_END_LSN_OLD_CHKSUM);
checksum = checksum & 0xFFFFFFFFUL;
return(checksum);
}
/********************************************************************//**
In versions < 4.0.14 and < 4.1.1 there was a bug that the checksum only
looked at the first few bytes of the page. This calculates that old
checksum.
NOTE: we must first store the new formula checksum to
FIL_PAGE_SPACE_OR_CHKSUM before calculating and storing this old checksum
because this takes that field as an input!
@return checksum */
UNIV_INTERN
ulint
buf_calc_page_old_checksum(
/*=======================*/
const byte* page) /*!< in: buffer page */
{
ulint checksum;
checksum = ut_fold_binary(page, FIL_PAGE_FILE_FLUSH_LSN);
checksum = checksum & 0xFFFFFFFFUL;
return(checksum);
}
/********************************************************************//**
Checks if a page is corrupt.
@return TRUE if corrupted */
UNIV_INTERN
ibool
buf_page_is_corrupted(
/*==================*/
const byte* read_buf, /*!< in: a database page */
ulint zip_size) /*!< in: size of compressed page;
0 for uncompressed pages */
{
ulint checksum_field;
ulint old_checksum_field;
if (UNIV_LIKELY(!zip_size)
&& memcmp(read_buf + FIL_PAGE_LSN + 4,
read_buf + UNIV_PAGE_SIZE
- FIL_PAGE_END_LSN_OLD_CHKSUM + 4, 4)) {
/* Stored log sequence numbers at the start and the end
of page do not match */
return(TRUE);
}
#ifndef UNIV_HOTBACKUP
if (recv_lsn_checks_on) {
ib_uint64_t current_lsn;
if (log_peek_lsn(¤t_lsn)
&& current_lsn < mach_read_ull(read_buf + FIL_PAGE_LSN)) {
ut_print_timestamp(stderr);
fprintf(stderr,
" InnoDB: Error: page %lu log sequence number"
" %"PRIu64"\n"
"InnoDB: is in the future! Current system "
"log sequence number %"PRIu64".\n"
"InnoDB: Your database may be corrupt or "
"you may have copied the InnoDB\n"
"InnoDB: tablespace but not the InnoDB "
"log files. See\n"
"InnoDB: " REFMAN "forcing-recovery.html\n"
"InnoDB: for more information.\n",
(ulong) mach_read_from_4(read_buf
+ FIL_PAGE_OFFSET),
mach_read_ull(read_buf + FIL_PAGE_LSN),
current_lsn);
}
}
#endif
/* If we use checksums validation, make additional check before
returning TRUE to ensure that the checksum is not equal to
BUF_NO_CHECKSUM_MAGIC which might be stored by InnoDB with checksums
disabled. Otherwise, skip checksum calculation and return FALSE */
if (UNIV_LIKELY(srv_use_checksums)) {
checksum_field = mach_read_from_4(read_buf
+ FIL_PAGE_SPACE_OR_CHKSUM);
if (UNIV_UNLIKELY(zip_size)) {
return(checksum_field != BUF_NO_CHECKSUM_MAGIC
&& checksum_field
!= page_zip_calc_checksum(read_buf, zip_size));
}
old_checksum_field = mach_read_from_4(
read_buf + UNIV_PAGE_SIZE
- FIL_PAGE_END_LSN_OLD_CHKSUM);
/* There are 2 valid formulas for old_checksum_field:
1. Very old versions of InnoDB only stored 8 byte lsn to the
start and the end of the page.
2. Newer InnoDB versions store the old formula checksum
there. */
if (old_checksum_field != mach_read_from_4(read_buf
+ FIL_PAGE_LSN)
&& old_checksum_field != BUF_NO_CHECKSUM_MAGIC
&& old_checksum_field
!= buf_calc_page_old_checksum(read_buf)) {
return(TRUE);
}
/* InnoDB versions < 4.0.14 and < 4.1.1 stored the space id
(always equal to 0), to FIL_PAGE_SPACE_OR_CHKSUM */
if (checksum_field != 0
&& checksum_field != BUF_NO_CHECKSUM_MAGIC
&& checksum_field
!= buf_calc_page_new_checksum(read_buf)) {
return(TRUE);
}
}
return(FALSE);
}
/********************************************************************//**
Prints a page to stderr. */
UNIV_INTERN
void
buf_page_print(
/*===========*/
const byte* read_buf, /*!< in: a database page */
ulint zip_size) /*!< in: compressed page size, or
0 for uncompressed pages */
{
#ifndef UNIV_HOTBACKUP
dict_index_t* index;
#endif /* !UNIV_HOTBACKUP */
ulint checksum;
ulint old_checksum;
ulint size = zip_size;
if (!size) {
size = UNIV_PAGE_SIZE;
}
ut_print_timestamp(stderr);
fprintf(stderr, " InnoDB: Page dump in ascii and hex (%lu bytes):\n",
(ulong) size);
ut_print_buf(stderr, read_buf, size);
fputs("\nInnoDB: End of page dump\n", stderr);
if (zip_size) {
/* Print compressed page. */
switch (fil_page_get_type(read_buf)) {
case FIL_PAGE_TYPE_ZBLOB:
case FIL_PAGE_TYPE_ZBLOB2:
checksum = srv_use_checksums
? page_zip_calc_checksum(read_buf, zip_size)
: BUF_NO_CHECKSUM_MAGIC;
ut_print_timestamp(stderr);
fprintf(stderr,
" InnoDB: Compressed BLOB page"
" checksum %lu, stored %lu\n"
"InnoDB: Page lsn %lu %lu\n"
"InnoDB: Page number (if stored"
" to page already) %lu,\n"
"InnoDB: space id (if stored"
" to page already) %lu\n",
(ulong) checksum,
(ulong) mach_read_from_4(
read_buf + FIL_PAGE_SPACE_OR_CHKSUM),
(ulong) mach_read_from_4(
read_buf + FIL_PAGE_LSN),
(ulong) mach_read_from_4(
read_buf + (FIL_PAGE_LSN + 4)),
(ulong) mach_read_from_4(
read_buf + FIL_PAGE_OFFSET),
(ulong) mach_read_from_4(
read_buf
+ FIL_PAGE_ARCH_LOG_NO_OR_SPACE_ID));
return;
default:
ut_print_timestamp(stderr);
fprintf(stderr,
" InnoDB: unknown page type %lu,"
" assuming FIL_PAGE_INDEX\n",
fil_page_get_type(read_buf));
/* fall through */
case FIL_PAGE_INDEX:
checksum = srv_use_checksums
? page_zip_calc_checksum(read_buf, zip_size)
: BUF_NO_CHECKSUM_MAGIC;
ut_print_timestamp(stderr);
fprintf(stderr,
" InnoDB: Compressed page checksum %lu,"
" stored %lu\n"
"InnoDB: Page lsn %lu %lu\n"
"InnoDB: Page number (if stored"
" to page already) %lu,\n"
"InnoDB: space id (if stored"
" to page already) %lu\n",
(ulong) checksum,
(ulong) mach_read_from_4(
read_buf + FIL_PAGE_SPACE_OR_CHKSUM),
(ulong) mach_read_from_4(
read_buf + FIL_PAGE_LSN),
(ulong) mach_read_from_4(
read_buf + (FIL_PAGE_LSN + 4)),
(ulong) mach_read_from_4(
read_buf + FIL_PAGE_OFFSET),
(ulong) mach_read_from_4(
read_buf
+ FIL_PAGE_ARCH_LOG_NO_OR_SPACE_ID));
return;
case FIL_PAGE_TYPE_XDES:
/* This is an uncompressed page. */
break;
}
}
checksum = srv_use_checksums
? buf_calc_page_new_checksum(read_buf) : BUF_NO_CHECKSUM_MAGIC;
old_checksum = srv_use_checksums
? buf_calc_page_old_checksum(read_buf) : BUF_NO_CHECKSUM_MAGIC;
ut_print_timestamp(stderr);
fprintf(stderr,
" InnoDB: Page checksum %lu, prior-to-4.0.14-form"
" checksum %lu\n"
"InnoDB: stored checksum %lu, prior-to-4.0.14-form"
" stored checksum %lu\n"
"InnoDB: Page lsn %lu %lu, low 4 bytes of lsn"
" at page end %lu\n"
"InnoDB: Page number (if stored to page already) %lu,\n"
"InnoDB: space id (if created with >= MySQL-4.1.1"
" and stored already) %lu\n",
(ulong) checksum, (ulong) old_checksum,
(ulong) mach_read_from_4(read_buf + FIL_PAGE_SPACE_OR_CHKSUM),
(ulong) mach_read_from_4(read_buf + UNIV_PAGE_SIZE
- FIL_PAGE_END_LSN_OLD_CHKSUM),
(ulong) mach_read_from_4(read_buf + FIL_PAGE_LSN),
(ulong) mach_read_from_4(read_buf + FIL_PAGE_LSN + 4),
(ulong) mach_read_from_4(read_buf + UNIV_PAGE_SIZE
- FIL_PAGE_END_LSN_OLD_CHKSUM + 4),
(ulong) mach_read_from_4(read_buf + FIL_PAGE_OFFSET),
(ulong) mach_read_from_4(read_buf
+ FIL_PAGE_ARCH_LOG_NO_OR_SPACE_ID));
#ifndef UNIV_HOTBACKUP
if (mach_read_from_2(read_buf + TRX_UNDO_PAGE_HDR + TRX_UNDO_PAGE_TYPE)
== TRX_UNDO_INSERT) {
fprintf(stderr,
"InnoDB: Page may be an insert undo log page\n");
} else if (mach_read_from_2(read_buf + TRX_UNDO_PAGE_HDR
+ TRX_UNDO_PAGE_TYPE)
== TRX_UNDO_UPDATE) {
fprintf(stderr,
"InnoDB: Page may be an update undo log page\n");
}
#endif /* !UNIV_HOTBACKUP */
switch (fil_page_get_type(read_buf)) {
case FIL_PAGE_INDEX:
fprintf(stderr,
"InnoDB: Page may be an index page where"
" index id is %lu %lu\n",
(ulong) ut_dulint_get_high(
btr_page_get_index_id(read_buf)),
(ulong) ut_dulint_get_low(
btr_page_get_index_id(read_buf)));
#ifndef UNIV_HOTBACKUP
index = dict_index_find_on_id_low(
btr_page_get_index_id(read_buf));
if (index) {
fputs("InnoDB: (", stderr);
dict_index_name_print(stderr, NULL, index);
fputs(")\n", stderr);
}
#endif /* !UNIV_HOTBACKUP */
break;
case FIL_PAGE_INODE:
fputs("InnoDB: Page may be an 'inode' page\n", stderr);
break;
case FIL_PAGE_IBUF_FREE_LIST:
fputs("InnoDB: Page may be an insert buffer free list page\n",
stderr);
break;
case FIL_PAGE_TYPE_ALLOCATED:
fputs("InnoDB: Page may be a freshly allocated page\n",
stderr);
break;
case FIL_PAGE_IBUF_BITMAP:
fputs("InnoDB: Page may be an insert buffer bitmap page\n",
stderr);
break;
case FIL_PAGE_TYPE_SYS:
fputs("InnoDB: Page may be a system page\n",
stderr);
break;
case FIL_PAGE_TYPE_TRX_SYS:
fputs("InnoDB: Page may be a transaction system page\n",
stderr);
break;
case FIL_PAGE_TYPE_FSP_HDR:
fputs("InnoDB: Page may be a file space header page\n",
stderr);
break;
case FIL_PAGE_TYPE_XDES:
fputs("InnoDB: Page may be an extent descriptor page\n",
stderr);
break;
case FIL_PAGE_TYPE_BLOB:
fputs("InnoDB: Page may be a BLOB page\n",
stderr);
break;
case FIL_PAGE_TYPE_ZBLOB:
case FIL_PAGE_TYPE_ZBLOB2:
fputs("InnoDB: Page may be a compressed BLOB page\n",
stderr);
break;
}
}
#ifndef UNIV_HOTBACKUP
# ifdef PFS_GROUP_BUFFER_SYNC
/********************************************************************//**
This function registers mutexes and rwlocks in buffer blocks with
performance schema. If PFS_MAX_BUFFER_MUTEX_LOCK_REGISTER is
defined to be a value less than chunk->size, then only mutexes
and rwlocks in the first PFS_MAX_BUFFER_MUTEX_LOCK_REGISTER
blocks are registered. */
static
void
pfs_register_buffer_block(
/*======================*/
buf_chunk_t* chunk) /*!< in/out: chunk of buffers */
{
ulint i;
ulint num_to_register;
buf_block_t* block;
block = chunk->blocks;
num_to_register = ut_min(chunk->size,
PFS_MAX_BUFFER_MUTEX_LOCK_REGISTER);
for (i = 0; i < num_to_register; i++) {
mutex_t* mutex;
rw_lock_t* rwlock;
# ifdef UNIV_PFS_MUTEX
mutex = &block->mutex;
ut_a(!mutex->pfs_psi);
mutex->pfs_psi = (PSI_server)
? PSI_server->init_mutex(buffer_block_mutex_key, mutex)
: NULL;
# endif /* UNIV_PFS_MUTEX */
# ifdef UNIV_PFS_RWLOCK
rwlock = &block->lock;
ut_a(!rwlock->pfs_psi);
rwlock->pfs_psi = (PSI_server)
? PSI_server->init_rwlock(buf_block_lock_key, rwlock)
: NULL;
# endif /* UNIV_PFS_RWLOCK */
block++;
}
}
# endif /* PFS_GROUP_BUFFER_SYNC */
/********************************************************************//**
Initializes a buffer control block when the buf_pool is created. */
static
void
buf_block_init(
/*===========*/
buf_pool_t* buf_pool, /*!< in: buffer pool instance */
buf_block_t* block, /*!< in: pointer to control block */
byte* frame) /*!< in: pointer to buffer frame */
{
UNIV_MEM_DESC(frame, UNIV_PAGE_SIZE, block);
block->frame = frame;
block->page.buf_pool = buf_pool;
block->page.state = BUF_BLOCK_NOT_USED;
block->page.buf_fix_count = 0;
block->page.io_fix = BUF_IO_NONE;
block->modify_clock = 0;
#ifdef UNIV_DEBUG_FILE_ACCESSES
block->page.file_page_was_freed = FALSE;
#endif /* UNIV_DEBUG_FILE_ACCESSES */
block->check_index_page_at_flush = FALSE;
block->index = NULL;
#ifdef UNIV_DEBUG
block->page.in_page_hash = FALSE;
block->page.in_zip_hash = FALSE;
block->page.in_flush_list = FALSE;
block->page.in_free_list = FALSE;
block->page.in_LRU_list = FALSE;
block->in_unzip_LRU_list = FALSE;
#endif /* UNIV_DEBUG */
#if defined UNIV_AHI_DEBUG || defined UNIV_DEBUG
block->n_pointers = 0;
#endif /* UNIV_AHI_DEBUG || UNIV_DEBUG */
page_zip_des_init(&block->page.zip);
#if defined PFS_SKIP_BUFFER_MUTEX_RWLOCK || defined PFS_GROUP_BUFFER_SYNC
/* If PFS_SKIP_BUFFER_MUTEX_RWLOCK is defined, skip registration
of buffer block mutex/rwlock with performance schema. If
PFS_GROUP_BUFFER_SYNC is defined, skip the registration
since buffer block mutex/rwlock will be registered later in
pfs_register_buffer_block() */
mutex_create(PFS_NOT_INSTRUMENTED, &block->mutex, SYNC_BUF_BLOCK);
rw_lock_create(PFS_NOT_INSTRUMENTED, &block->lock, SYNC_LEVEL_VARYING);
#else /* PFS_SKIP_BUFFER_MUTEX_RWLOCK || PFS_GROUP_BUFFER_SYNC */
mutex_create(buffer_block_mutex_key, &block->mutex, SYNC_BUF_BLOCK);
rw_lock_create(buf_block_lock_key, &block->lock, SYNC_LEVEL_VARYING);
#endif /* PFS_SKIP_BUFFER_MUTEX_RWLOCK || PFS_GROUP_BUFFER_SYNC */
ut_ad(rw_lock_validate(&(block->lock)));
#ifdef UNIV_SYNC_DEBUG
rw_lock_create(buf_block_debug_latch_key,
&block->debug_latch, SYNC_NO_ORDER_CHECK);
#endif /* UNIV_SYNC_DEBUG */
}
/********************************************************************//**
Allocates a chunk of buffer frames.
@return chunk, or NULL on failure */
static
buf_chunk_t*
buf_chunk_init(
/*===========*/
buf_pool_t* buf_pool, /*!< in: buffer pool instance */
buf_chunk_t* chunk, /*!< out: chunk of buffers */
ulint mem_size) /*!< in: requested size in bytes */
{
buf_block_t* block;
byte* frame;
ulint i;
/* Round down to a multiple of page size,
although it already should be. */
mem_size = ut_2pow_round(mem_size, UNIV_PAGE_SIZE);
/* Reserve space for the block descriptors. */
mem_size += ut_2pow_round((mem_size / UNIV_PAGE_SIZE) * (sizeof *block)
+ (UNIV_PAGE_SIZE - 1), UNIV_PAGE_SIZE);
chunk->mem_size = mem_size;
chunk->mem = os_mem_alloc_large(&chunk->mem_size);
if (UNIV_UNLIKELY(chunk->mem == NULL)) {
return(NULL);
}
/* Allocate the block descriptors from
the start of the memory block. */
chunk->blocks = chunk->mem;
/* Align a pointer to the first frame. Note that when
os_large_page_size is smaller than UNIV_PAGE_SIZE,
we may allocate one fewer block than requested. When
it is bigger, we may allocate more blocks than requested. */
frame = ut_align(chunk->mem, UNIV_PAGE_SIZE);
chunk->size = chunk->mem_size / UNIV_PAGE_SIZE
- (frame != chunk->mem);
/* Subtract the space needed for block descriptors. */
{
ulint size = chunk->size;
while (frame < (byte*) (chunk->blocks + size)) {
frame += UNIV_PAGE_SIZE;
size--;
}
chunk->size = size;
}
/* Init block structs and assign frames for them. Then we
assign the frames to the first blocks (we already mapped the
memory above). */
block = chunk->blocks;
for (i = chunk->size; i--; ) {
buf_block_init(buf_pool, block, frame);
#ifdef HAVE_VALGRIND
/* Wipe contents of frame to eliminate a Purify warning */
memset(block->frame, '\0', UNIV_PAGE_SIZE);
#endif
/* Add the block to the free list */
UT_LIST_ADD_LAST(list, buf_pool->free, (&block->page));
ut_d(block->page.in_free_list = TRUE);
ut_ad(buf_pool_from_block(block) == buf_pool);
block++;
frame += UNIV_PAGE_SIZE;
}
#ifdef PFS_GROUP_BUFFER_SYNC
pfs_register_buffer_block(chunk);
#endif
return(chunk);
}
#ifdef UNIV_DEBUG
/*********************************************************************//**
Finds a block in the given buffer chunk that points to a
given compressed page.
@return buffer block pointing to the compressed page, or NULL */
static
buf_block_t*
buf_chunk_contains_zip(
/*===================*/
buf_chunk_t* chunk, /*!< in: chunk being checked */
const void* data) /*!< in: pointer to compressed page */
{
buf_block_t* block;
ulint i;
block = chunk->blocks;
for (i = chunk->size; i--; block++) {
if (block->page.zip.data == data) {
return(block);
}
}
return(NULL);
}
/*********************************************************************//**
Finds a block in the buffer pool that points to a
given compressed page.
@return buffer block pointing to the compressed page, or NULL */
UNIV_INTERN
buf_block_t*
buf_pool_contains_zip(
/*==================*/
buf_pool_t* buf_pool, /*!< in: buffer pool instance */
const void* data) /*!< in: pointer to compressed page */
{
ulint n;
buf_chunk_t* chunk = buf_pool->chunks;
ut_ad(buf_pool);
ut_ad(buf_pool_mutex_own(buf_pool));
for (n = buf_pool->n_chunks; n--; chunk++) {
buf_block_t* block = buf_chunk_contains_zip(chunk, data);
if (block) {
return(block);
}
}
return(NULL);
}
#endif /* UNIV_DEBUG */
/*********************************************************************//**
Checks that all file pages in the buffer chunk are in a replaceable state.
@return address of a non-free block, or NULL if all freed */
static
const buf_block_t*
buf_chunk_not_freed(
/*================*/
buf_chunk_t* chunk) /*!< in: chunk being checked */
{
buf_block_t* block;
ulint i;
block = chunk->blocks;
for (i = chunk->size; i--; block++) {
ibool ready;
switch (buf_block_get_state(block)) {
case BUF_BLOCK_ZIP_FREE:
case BUF_BLOCK_ZIP_PAGE:
case BUF_BLOCK_ZIP_DIRTY:
/* The uncompressed buffer pool should never
contain compressed block descriptors. */
ut_error;
break;
case BUF_BLOCK_NOT_USED:
case BUF_BLOCK_READY_FOR_USE:
case BUF_BLOCK_MEMORY:
case BUF_BLOCK_REMOVE_HASH:
/* Skip blocks that are not being used for
file pages. */
break;
case BUF_BLOCK_FILE_PAGE:
mutex_enter(&block->mutex);
ready = buf_flush_ready_for_replace(&block->page);
mutex_exit(&block->mutex);
if (!ready) {
return(block);
}
break;
}
}
return(NULL);
}
/*********************************************************************//**
Checks that all blocks in the buffer chunk are in BUF_BLOCK_NOT_USED state.
@return TRUE if all freed */
static
ibool
buf_chunk_all_free(
/*===============*/
const buf_chunk_t* chunk) /*!< in: chunk being checked */
{
const buf_block_t* block;
ulint i;
block = chunk->blocks;
for (i = chunk->size; i--; block++) {
if (buf_block_get_state(block) != BUF_BLOCK_NOT_USED) {
return(FALSE);
}
}
return(TRUE);
}
/********************************************************************//**
Frees a chunk of buffer frames. */
static
void
buf_chunk_free(
/*===========*/
buf_pool_t* buf_pool, /*!< in: buffer pool instance */
buf_chunk_t* chunk) /*!< out: chunk of buffers */
{
buf_block_t* block;
const buf_block_t* block_end;
ut_ad(buf_pool_mutex_own(buf_pool));
block_end = chunk->blocks + chunk->size;
for (block = chunk->blocks; block < block_end; block++) {
ut_a(buf_block_get_state(block) == BUF_BLOCK_NOT_USED);
ut_a(!block->page.zip.data);
ut_ad(!block->page.in_LRU_list);
ut_ad(!block->in_unzip_LRU_list);
ut_ad(!block->page.in_flush_list);
/* Remove the block from the free list. */
ut_ad(block->page.in_free_list);
UT_LIST_REMOVE(list, buf_pool->free, (&block->page));
/* Free the latches. */
mutex_free(&block->mutex);
rw_lock_free(&block->lock);
#ifdef UNIV_SYNC_DEBUG
rw_lock_free(&block->debug_latch);
#endif /* UNIV_SYNC_DEBUG */
UNIV_MEM_UNDESC(block);
}
os_mem_free_large(chunk->mem, chunk->mem_size);
}
/********************************************************************//**
Set buffer pool size variables after resizing it */
static
void
buf_pool_set_sizes(void)
/*====================*/
{
ulint i;
ulint curr_size = 0;
buf_pool_mutex_enter_all();
for (i = 0; i < srv_buf_pool_instances; i++) {
buf_pool_t* buf_pool;
buf_pool = buf_pool_from_array(i);
curr_size += buf_pool->curr_pool_size;
}
srv_buf_pool_curr_size = curr_size;
srv_buf_pool_old_size = srv_buf_pool_size;
buf_pool_mutex_exit_all();
}
/********************************************************************//**
Initialize a buffer pool instance.
@return DB_SUCCESS if all goes well. */
static
ulint
buf_pool_init_instance(
/*===================*/
buf_pool_t* buf_pool, /*!< in: buffer pool instance */
ulint buf_pool_size, /*!< in: size in bytes */
ulint instance_no) /*!< in: id of the instance */
{
ulint i;
buf_chunk_t* chunk;
/* 1. Initialize general fields
------------------------------- */
mutex_create(buf_pool_mutex_key,
&buf_pool->mutex, SYNC_BUF_POOL);
mutex_create(buf_pool_zip_mutex_key,
&buf_pool->zip_mutex, SYNC_BUF_BLOCK);
buf_pool_mutex_enter(buf_pool);
if (buf_pool_size > 0) {
buf_pool->n_chunks = 1;
buf_pool->chunks = chunk = mem_zalloc(sizeof *chunk);
UT_LIST_INIT(buf_pool->free);
if (!buf_chunk_init(buf_pool, chunk, buf_pool_size)) {
mem_free(chunk);
mem_free(buf_pool);
buf_pool_mutex_exit(buf_pool);
return(DB_ERROR);
}
buf_pool->instance_no = instance_no;
buf_pool->old_pool_size = buf_pool_size;
buf_pool->curr_size = chunk->size;
buf_pool->curr_pool_size = buf_pool->curr_size * UNIV_PAGE_SIZE;
buf_pool->page_hash = hash_create(2 * buf_pool->curr_size);
buf_pool->zip_hash = hash_create(2 * buf_pool->curr_size);
buf_pool->last_printout_time = ut_time();
}
/* 2. Initialize flushing fields
-------------------------------- */
mutex_create(flush_list_mutex_key, &buf_pool->flush_list_mutex,
SYNC_BUF_FLUSH_LIST);
for (i = BUF_FLUSH_LRU; i < BUF_FLUSH_N_TYPES; i++) {
buf_pool->no_flush[i] = os_event_create(NULL);
}
/* 3. Initialize LRU fields
--------------------------- */
/* All fields are initialized by mem_zalloc(). */
buf_pool_mutex_exit(buf_pool);
return(DB_SUCCESS);
}
/********************************************************************//**
free one buffer pool instance */
static
void
buf_pool_free_instance(
/*===================*/
buf_pool_t* buf_pool) /* in,own: buffer pool instance
to free */
{
buf_chunk_t* chunk;
buf_chunk_t* chunks;
chunks = buf_pool->chunks;
chunk = chunks + buf_pool->n_chunks;
while (--chunk >= chunks) {
/* Bypass the checks of buf_chunk_free(), since they
would fail at shutdown. */
os_mem_free_large(chunk->mem, chunk->mem_size);
}
mem_free(buf_pool->chunks);
hash_table_free(buf_pool->page_hash);
hash_table_free(buf_pool->zip_hash);
mem_free(buf_pool);
buf_pool = NULL;
}
/********************************************************************//**
Creates the buffer pool.
@return DB_SUCCESS if success, DB_ERROR if not enough memory or error */
UNIV_INTERN
ulint
buf_pool_init(
/*==========*/
ulint total_size, /*!< in: size of the total pool in bytes */
ulint n_instances) /*!< in: number of instances */
{
ulint i;
/* We create an extra buffer pool instance, this instance is used
for flushing the flush lists, to keep track of n_flush for all
the buffer pools and also used as a waiting object during flushing. */
for (i = 0; i < n_instances; i++) {
buf_pool_t* ptr;
ulint size;
ptr = mem_zalloc(sizeof(*ptr));
size = total_size / n_instances;
buf_pool_ptr[i] = ptr;
if (buf_pool_init_instance(ptr, size, i) != DB_SUCCESS) {
mem_free(buf_pool_ptr[i]);
/* Free all the instances created so far. */
buf_pool_free(i);
return(DB_ERROR);
}
}
buf_pool_set_sizes();
buf_LRU_old_ratio_update(100 * 3/ 8, FALSE);
btr_search_sys_create(buf_pool_get_curr_size() / sizeof(void*) / 64);
return(DB_SUCCESS);
}
/********************************************************************//**
Frees the buffer pool at shutdown. This must not be invoked before
freeing all mutexes. */
UNIV_INTERN
void
buf_pool_free(
/*==========*/
ulint n_instances) /*!< in: numbere of instances to free */
{
ulint i;
for (i = 0; i < n_instances; i++) {
buf_pool_free_instance(buf_pool_from_array(i));
buf_pool_ptr[i] = NULL;
}
}
/********************************************************************//**
Drops adaptive hash index for a buffer pool instance. */
static
void
buf_pool_drop_hash_index_instance(
/*==============================*/
buf_pool_t* buf_pool, /*!< in: buffer pool instance */
ibool* released_search_latch) /*!< out: flag for signalling
whether the search latch was
released */
{
buf_chunk_t* chunks = buf_pool->chunks;
buf_chunk_t* chunk = chunks + buf_pool->n_chunks;
while (--chunk >= chunks) {
ulint i;
buf_block_t* block = chunk->blocks;
for (i = chunk->size; i--; block++) {
/* block->is_hashed cannot be modified
when we have an x-latch on btr_search_latch;
see the comment in buf0buf.h */
if (!block->is_hashed) {
continue;
}
/* To follow the latching order, we
have to release btr_search_latch
before acquiring block->latch. */
rw_lock_x_unlock(&btr_search_latch);
/* When we release the search latch,
we must rescan all blocks, because
some may become hashed again. */
*released_search_latch = TRUE;
rw_lock_x_lock(&block->lock);
/* This should be guaranteed by the
callers, which will be holding
btr_search_enabled_mutex. */
ut_ad(!btr_search_enabled);
/* Because we did not buffer-fix the
block by calling buf_block_get_gen(),
it is possible that the block has been
allocated for some other use after
btr_search_latch was released above.
We do not care which file page the
block is mapped to. All we want to do
is to drop any hash entries referring
to the page. */
/* It is possible that
block->page.state != BUF_FILE_PAGE.
Even that does not matter, because
btr_search_drop_page_hash_index() will
check block->is_hashed before doing
anything. block->is_hashed can only
be set on uncompressed file pages. */
btr_search_drop_page_hash_index(block);
rw_lock_x_unlock(&block->lock);
rw_lock_x_lock(&btr_search_latch);
ut_ad(!btr_search_enabled);
}
}
}
/********************************************************************//**
Drops the adaptive hash index. To prevent a livelock, this function
is only to be called while holding btr_search_latch and while
btr_search_enabled == FALSE. */
UNIV_INTERN
void
buf_pool_drop_hash_index(void)
/*==========================*/
{
ibool released_search_latch;
#ifdef UNIV_SYNC_DEBUG
ut_ad(rw_lock_own(&btr_search_latch, RW_LOCK_EX));
#endif /* UNIV_SYNC_DEBUG */
ut_ad(!btr_search_enabled);
do {
ulint i;
released_search_latch = FALSE;
for (i = 0; i < srv_buf_pool_instances; i++) {
buf_pool_t* buf_pool;
buf_pool = buf_pool_from_array(i);
buf_pool_drop_hash_index_instance(
buf_pool, &released_search_latch);
}
} while (released_search_latch);
}
/********************************************************************//**
Relocate a buffer control block. Relocates the block on the LRU list
and in buf_pool->page_hash. Does not relocate bpage->list.
The caller must take care of relocating bpage->list. */
UNIV_INTERN
void
buf_relocate(
/*=========*/
buf_page_t* bpage, /*!< in/out: control block being relocated;
buf_page_get_state(bpage) must be
BUF_BLOCK_ZIP_DIRTY or BUF_BLOCK_ZIP_PAGE */
buf_page_t* dpage) /*!< in/out: destination control block */
{
buf_page_t* b;
ulint fold;
buf_pool_t* buf_pool = buf_pool_from_bpage(bpage);
ut_ad(buf_pool_mutex_own(buf_pool));
ut_ad(mutex_own(buf_page_get_mutex(bpage)));
ut_a(buf_page_get_io_fix(bpage) == BUF_IO_NONE);
ut_a(bpage->buf_fix_count == 0);
ut_ad(bpage->in_LRU_list);
ut_ad(!bpage->in_zip_hash);
ut_ad(bpage->in_page_hash);
ut_ad(bpage == buf_page_hash_get(buf_pool,
bpage->space, bpage->offset));
ut_ad(!buf_pool_watch_is_sentinel(buf_pool, bpage));
#ifdef UNIV_DEBUG
switch (buf_page_get_state(bpage)) {
case BUF_BLOCK_ZIP_FREE:
case BUF_BLOCK_NOT_USED:
case BUF_BLOCK_READY_FOR_USE:
case BUF_BLOCK_FILE_PAGE:
case BUF_BLOCK_MEMORY:
case BUF_BLOCK_REMOVE_HASH:
ut_error;
case BUF_BLOCK_ZIP_DIRTY:
case BUF_BLOCK_ZIP_PAGE:
break;
}
#endif /* UNIV_DEBUG */
memcpy(dpage, bpage, sizeof *dpage);
ut_d(bpage->in_LRU_list = FALSE);
ut_d(bpage->in_page_hash = FALSE);
/* relocate buf_pool->LRU */
b = UT_LIST_GET_PREV(LRU, bpage);
UT_LIST_REMOVE(LRU, buf_pool->LRU, bpage);
if (b) {
UT_LIST_INSERT_AFTER(LRU, buf_pool->LRU, b, dpage);
} else {
UT_LIST_ADD_FIRST(LRU, buf_pool->LRU, dpage);
}
if (UNIV_UNLIKELY(buf_pool->LRU_old == bpage)) {
buf_pool->LRU_old = dpage;
#ifdef UNIV_LRU_DEBUG
/* buf_pool->LRU_old must be the first item in the LRU list
whose "old" flag is set. */
ut_a(buf_pool->LRU_old->old);
ut_a(!UT_LIST_GET_PREV(LRU, buf_pool->LRU_old)
|| !UT_LIST_GET_PREV(LRU, buf_pool->LRU_old)->old);
ut_a(!UT_LIST_GET_NEXT(LRU, buf_pool->LRU_old)
|| UT_LIST_GET_NEXT(LRU, buf_pool->LRU_old)->old);
} else {
/* Check that the "old" flag is consistent in
the block and its neighbours. */
buf_page_set_old(dpage, buf_page_is_old(dpage));
#endif /* UNIV_LRU_DEBUG */
}
ut_d(UT_LIST_VALIDATE(LRU, buf_page_t, buf_pool->LRU,
ut_ad(ut_list_node_313->in_LRU_list)));
/* relocate buf_pool->page_hash */
fold = buf_page_address_fold(bpage->space, bpage->offset);
HASH_DELETE(buf_page_t, hash, buf_pool->page_hash, fold, bpage);
HASH_INSERT(buf_page_t, hash, buf_pool->page_hash, fold, dpage);
}
/********************************************************************//**
Shrinks a buffer pool instance. */
static
void
buf_pool_shrink_instance(
/*=====================*/
buf_pool_t* buf_pool, /*!< in: buffer pool instance */
ulint chunk_size) /*!< in: number of pages to remove */
{
buf_chunk_t* chunks;
buf_chunk_t* chunk;
ulint max_size;
ulint max_free_size;
buf_chunk_t* max_chunk;
buf_chunk_t* max_free_chunk;
ut_ad(!buf_pool_mutex_own(buf_pool));
try_again:
btr_search_disable(); /* Empty the adaptive hash index again */
buf_pool_mutex_enter(buf_pool);
shrink_again:
if (buf_pool->n_chunks <= 1) {
/* Cannot shrink if there is only one chunk */
goto func_done;
}
/* Search for the largest free chunk
not larger than the size difference */
chunks = buf_pool->chunks;
chunk = chunks + buf_pool->n_chunks;
max_size = max_free_size = 0;
max_chunk = max_free_chunk = NULL;
while (--chunk >= chunks) {
if (chunk->size <= chunk_size
&& chunk->size > max_free_size) {
if (chunk->size > max_size) {
max_size = chunk->size;
max_chunk = chunk;
}
if (buf_chunk_all_free(chunk)) {
max_free_size = chunk->size;
max_free_chunk = chunk;
}
}
}
if (!max_free_size) {
ulint dirty = 0;
ulint nonfree = 0;
buf_block_t* block;
buf_block_t* bend;
/* Cannot shrink: try again later
(do not assign srv_buf_pool_old_size) */
if (!max_chunk) {
goto func_exit;
}
block = max_chunk->blocks;
bend = block + max_chunk->size;
/* Move the blocks of chunk to the end of the
LRU list and try to flush them. */
for (; block < bend; block++) {
switch (buf_block_get_state(block)) {
case BUF_BLOCK_NOT_USED:
continue;
case BUF_BLOCK_FILE_PAGE:
break;
default:
nonfree++;
continue;
}
mutex_enter(&block->mutex);
/* The following calls will temporarily
release block->mutex and buf_pool->mutex.
Therefore, we have to always retry,
even if !dirty && !nonfree. */
if (!buf_flush_ready_for_replace(&block->page)) {
buf_LRU_make_block_old(&block->page);
dirty++;
} else if (buf_LRU_free_block(&block->page, TRUE, NULL)
!= BUF_LRU_FREED) {
nonfree++;
}
mutex_exit(&block->mutex);
}
buf_pool_mutex_exit(buf_pool);
/* Request for a flush of the chunk if it helps.
Do not flush if there are non-free blocks, since
flushing will not make the chunk freeable. */
if (nonfree) {
/* Avoid busy-waiting. */
os_thread_sleep(100000);
} else if (dirty
&& buf_flush_LRU(buf_pool, dirty)
== ULINT_UNDEFINED) {
buf_flush_wait_batch_end(buf_pool, BUF_FLUSH_LRU);
}
goto try_again;
}
max_size = max_free_size;
max_chunk = max_free_chunk;
buf_pool->old_pool_size = buf_pool->curr_pool_size;
/* Rewrite buf_pool->chunks. Copy everything but max_chunk. */
chunks = mem_alloc((buf_pool->n_chunks - 1) * sizeof *chunks);
memcpy(chunks, buf_pool->chunks,
(max_chunk - buf_pool->chunks) * sizeof *chunks);
memcpy(chunks + (max_chunk - buf_pool->chunks),
max_chunk + 1,
buf_pool->chunks + buf_pool->n_chunks
- (max_chunk + 1));
ut_a(buf_pool->curr_size > max_chunk->size);
buf_pool->curr_size -= max_chunk->size;
buf_pool->curr_pool_size = buf_pool->curr_size * UNIV_PAGE_SIZE;
chunk_size -= max_chunk->size;
buf_chunk_free(buf_pool, max_chunk);
mem_free(buf_pool->chunks);
buf_pool->chunks = chunks;
buf_pool->n_chunks--;
/* Allow a slack of one megabyte. */
if (chunk_size > 1048576 / UNIV_PAGE_SIZE) {
goto shrink_again;
}
goto func_exit;
func_done:
buf_pool->old_pool_size = buf_pool->curr_pool_size;
func_exit:
buf_pool_mutex_exit(buf_pool);
btr_search_enable();
}
/********************************************************************//**
Shrinks the buffer pool. */
static
void
buf_pool_shrink(
/*============*/
ulint chunk_size) /*!< in: number of pages to remove */
{
ulint i;
for (i = 0; i < srv_buf_pool_instances; i++) {
buf_pool_t* buf_pool;
ulint instance_chunk_size;
instance_chunk_size = chunk_size / srv_buf_pool_instances;
buf_pool = buf_pool_from_array(i);
buf_pool_shrink_instance(buf_pool, instance_chunk_size);
}
buf_pool_set_sizes();
}
/********************************************************************//**
Rebuild buf_pool->page_hash for a buffer pool instance. */
static
void
buf_pool_page_hash_rebuild_instance(
/*================================*/
buf_pool_t* buf_pool) /*!< in: buffer pool instance */
{
ulint i;
buf_page_t* b;
buf_chunk_t* chunk;
ulint n_chunks;
hash_table_t* zip_hash;
hash_table_t* page_hash;
buf_pool_mutex_enter(buf_pool);
/* Free, create, and populate the hash table. */
hash_table_free(buf_pool->page_hash);
buf_pool->page_hash = page_hash = hash_create(2 * buf_pool->curr_size);
zip_hash = hash_create(2 * buf_pool->curr_size);
HASH_MIGRATE(buf_pool->zip_hash, zip_hash, buf_page_t, hash,
BUF_POOL_ZIP_FOLD_BPAGE);
hash_table_free(buf_pool->zip_hash);
buf_pool->zip_hash = zip_hash;
/* Insert the uncompressed file pages to buf_pool->page_hash. */
chunk = buf_pool->chunks;
n_chunks = buf_pool->n_chunks;
for (i = 0; i < n_chunks; i++, chunk++) {
ulint j;
buf_block_t* block = chunk->blocks;
for (j = 0; j < chunk->size; j++, block++) {
if (buf_block_get_state(block)
== BUF_BLOCK_FILE_PAGE) {
ut_ad(!block->page.in_zip_hash);
ut_ad(block->page.in_page_hash);
HASH_INSERT(buf_page_t, hash, page_hash,
buf_page_address_fold(
block->page.space,
block->page.offset),
&block->page);
}
}
}
/* Insert the compressed-only pages to buf_pool->page_hash.
All such blocks are either in buf_pool->zip_clean or
in buf_pool->flush_list. */
for (b = UT_LIST_GET_FIRST(buf_pool->zip_clean); b;
b = UT_LIST_GET_NEXT(list, b)) {
ut_a(buf_page_get_state(b) == BUF_BLOCK_ZIP_PAGE);
ut_ad(!b->in_flush_list);
ut_ad(b->in_LRU_list);
ut_ad(b->in_page_hash);
ut_ad(!b->in_zip_hash);
HASH_INSERT(buf_page_t, hash, page_hash,
buf_page_address_fold(b->space, b->offset), b);
}
buf_flush_list_mutex_enter(buf_pool);
for (b = UT_LIST_GET_FIRST(buf_pool->flush_list); b;
b = UT_LIST_GET_NEXT(list, b)) {
ut_ad(b->in_flush_list);
ut_ad(b->in_LRU_list);
ut_ad(b->in_page_hash);
ut_ad(!b->in_zip_hash);
switch (buf_page_get_state(b)) {
case BUF_BLOCK_ZIP_DIRTY:
HASH_INSERT(buf_page_t, hash, page_hash,
buf_page_address_fold(b->space,
b->offset), b);
break;
case BUF_BLOCK_FILE_PAGE:
/* uncompressed page */
break;
case BUF_BLOCK_ZIP_FREE:
case BUF_BLOCK_ZIP_PAGE:
case BUF_BLOCK_NOT_USED:
case BUF_BLOCK_READY_FOR_USE:
case BUF_BLOCK_MEMORY:
case BUF_BLOCK_REMOVE_HASH:
ut_error;
break;
}
}
buf_flush_list_mutex_exit(buf_pool);
buf_pool_mutex_exit(buf_pool);
}
/********************************************************************
Determine if a block is a sentinel for a buffer pool watch.
@return TRUE if a sentinel for a buffer pool watch, FALSE if not */
UNIV_INTERN
ibool
buf_pool_watch_is_sentinel(
/*=======================*/
buf_pool_t* buf_pool, /*!< buffer pool instance */
const buf_page_t* bpage) /*!< in: block */
{
ut_ad(buf_page_in_file(bpage));
if (bpage < &buf_pool->watch[0]
|| bpage >= &buf_pool->watch[BUF_POOL_WATCH_SIZE]) {
ut_ad(buf_page_get_state(bpage) != BUF_BLOCK_ZIP_PAGE
|| bpage->zip.data != NULL);
return(FALSE);
}
ut_ad(buf_page_get_state(bpage) == BUF_BLOCK_ZIP_PAGE);
ut_ad(!bpage->in_zip_hash);
ut_ad(bpage->in_page_hash);
ut_ad(bpage->zip.data == NULL);
ut_ad(bpage->buf_fix_count > 0);
return(TRUE);
}
/****************************************************************//**
Add watch for the given page to be read in. Caller must have the buffer pool
mutex reserved.
@return NULL if watch set, block if the page is in the buffer pool */
UNIV_INTERN
buf_page_t*
buf_pool_watch_set(
/*===============*/
ulint space, /*!< in: space id */
ulint offset, /*!< in: page number */
ulint fold) /*!< in: buf_page_address_fold(space, offset) */
{
buf_page_t* bpage;
ulint i;
buf_pool_t* buf_pool = buf_pool_get(space, offset);
ut_ad(buf_pool_mutex_own(buf_pool));
bpage = buf_page_hash_get_low(buf_pool, space, offset, fold);
if (UNIV_LIKELY_NULL(bpage)) {
if (!buf_pool_watch_is_sentinel(buf_pool, bpage)) {
/* The page was loaded meanwhile. */
return(bpage);
}
/* Add to an existing watch. */
bpage->buf_fix_count++;
return(NULL);
}
for (i = 0; i < BUF_POOL_WATCH_SIZE; i++) {
bpage = &buf_pool->watch[i];
ut_ad(bpage->access_time == 0);
ut_ad(bpage->newest_modification == 0);
ut_ad(bpage->oldest_modification == 0);
ut_ad(bpage->zip.data == NULL);
ut_ad(!bpage->in_zip_hash);
switch (bpage->state) {
case BUF_BLOCK_POOL_WATCH:
ut_ad(!bpage->in_page_hash);
ut_ad(bpage->buf_fix_count == 0);
/* bpage is pointing to buf_pool_watch[],
which is protected by buf_pool_mutex.
Normally, buf_page_t objects are protected by
buf_block_t::mutex or buf_pool->zip_mutex or both. */
bpage->state = BUF_BLOCK_ZIP_PAGE;
bpage->space = space;
bpage->offset = offset;
bpage->buf_fix_count = 1;
ut_d(bpage->in_page_hash = TRUE);
HASH_INSERT(buf_page_t, hash, buf_pool->page_hash,
fold, bpage);
return(NULL);
case BUF_BLOCK_ZIP_PAGE:
ut_ad(bpage->in_page_hash);
ut_ad(bpage->buf_fix_count > 0);
break;
default:
ut_error;
}
}
/* Allocation failed. Either the maximum number of purge
threads should never exceed BUF_POOL_WATCH_SIZE, or this code
should be modified to return a special non-NULL value and the
caller should purge the record directly. */
ut_error;
/* Fix compiler warning */
return(NULL);
}
/********************************************************************//**
Rebuild buf_pool->page_hash. */
static
void
buf_pool_page_hash_rebuild(void)
/*============================*/
{
ulint i;
for (i = 0; i < srv_buf_pool_instances; i++) {
buf_pool_page_hash_rebuild_instance(buf_pool_from_array(i));
}
}
/********************************************************************//**
Increase the buffer pool size of one buffer pool instance. */
static
void
buf_pool_increase_instance(
/*=======================*/
buf_pool_t* buf_pool, /*!< in: buffer pool instane */
ulint change_size) /*!< in: new size of the pool */
{
buf_chunk_t* chunks;
buf_chunk_t* chunk;
buf_pool_mutex_enter(buf_pool);
chunks = mem_alloc((buf_pool->n_chunks + 1) * sizeof *chunks);
memcpy(chunks, buf_pool->chunks, buf_pool->n_chunks * sizeof *chunks);
chunk = &chunks[buf_pool->n_chunks];
if (!buf_chunk_init(buf_pool, chunk, change_size)) {
mem_free(chunks);
} else {
buf_pool->old_pool_size = buf_pool->curr_pool_size;
buf_pool->curr_size += chunk->size;
buf_pool->curr_pool_size = buf_pool->curr_size * UNIV_PAGE_SIZE;
mem_free(buf_pool->chunks);
buf_pool->chunks = chunks;
buf_pool->n_chunks++;
}
buf_pool_mutex_exit(buf_pool);
}
/********************************************************************//**
Increase the buffer pool size. */
static
void
buf_pool_increase(
/*==============*/
ulint change_size)
{
ulint i;
for (i = 0; i < srv_buf_pool_instances; i++) {
buf_pool_increase_instance(
buf_pool_from_array(i),
change_size / srv_buf_pool_instances);
}
buf_pool_set_sizes();
}
/********************************************************************//**
Resizes the buffer pool. */
UNIV_INTERN
void
buf_pool_resize(void)
/*=================*/
{
ulint change_size;
ulint min_change_size = 1048576 * srv_buf_pool_instances;
buf_pool_mutex_enter_all();
if (srv_buf_pool_old_size == srv_buf_pool_size) {
buf_pool_mutex_exit_all();
return;
} else if (srv_buf_pool_curr_size + min_change_size
> srv_buf_pool_size) {
change_size = (srv_buf_pool_curr_size - srv_buf_pool_size)
/ UNIV_PAGE_SIZE;
buf_pool_mutex_exit_all();
/* Disable adaptive hash indexes and empty the index
in order to free up memory in the buffer pool chunks. */
buf_pool_shrink(change_size);
} else if (srv_buf_pool_curr_size + min_change_size
< srv_buf_pool_size) {
/* Enlarge the buffer pool by at least one megabyte */
change_size = srv_buf_pool_size - srv_buf_pool_curr_size;
buf_pool_mutex_exit_all();
buf_pool_increase(change_size);
} else {
srv_buf_pool_size = srv_buf_pool_old_size;
buf_pool_mutex_exit_all();
return;
}
buf_pool_page_hash_rebuild();
}
/****************************************************************//**
Remove the sentinel block for the watch before replacing it with a real block.
buf_page_watch_clear() or buf_page_watch_occurred() will notice that
the block has been replaced with the real block.
@return reference count, to be added to the replacement block */
static
void
buf_pool_watch_remove(
/*==================*/
buf_pool_t* buf_pool, /*!< buffer pool instance */
ulint fold, /*!< in: buf_page_address_fold(
space, offset) */
buf_page_t* watch) /*!< in/out: sentinel for watch */
{
ut_ad(buf_pool_mutex_own(buf_pool));
HASH_DELETE(buf_page_t, hash, buf_pool->page_hash, fold, watch);
ut_d(watch->in_page_hash = FALSE);
watch->buf_fix_count = 0;
watch->state = BUF_BLOCK_POOL_WATCH;
}
/****************************************************************//**
Stop watching if the page has been read in.
buf_pool_watch_set(space,offset) must have returned NULL before. */
UNIV_INTERN
void
buf_pool_watch_unset(
/*=================*/
ulint space, /*!< in: space id */
ulint offset) /*!< in: page number */
{
buf_page_t* bpage;
buf_pool_t* buf_pool = buf_pool_get(space, offset);
ulint fold = buf_page_address_fold(space, offset);
buf_pool_mutex_enter(buf_pool);
bpage = buf_page_hash_get_low(buf_pool, space, offset, fold);
/* The page must exist because buf_pool_watch_set()
increments buf_fix_count. */
ut_a(bpage);
if (UNIV_UNLIKELY(!buf_pool_watch_is_sentinel(buf_pool, bpage))) {
mutex_t* mutex = buf_page_get_mutex(bpage);
mutex_enter(mutex);
ut_a(bpage->buf_fix_count > 0);
bpage->buf_fix_count--;
mutex_exit(mutex);
} else {
ut_a(bpage->buf_fix_count > 0);
if (UNIV_LIKELY(!--bpage->buf_fix_count)) {
buf_pool_watch_remove(buf_pool, fold, bpage);
}
}
buf_pool_mutex_exit(buf_pool);
}
/****************************************************************//**
Check if the page has been read in.
This may only be called after buf_pool_watch_set(space,offset)
has returned NULL and before invoking buf_pool_watch_unset(space,offset).
@return FALSE if the given page was not read in, TRUE if it was */
UNIV_INTERN
ibool
buf_pool_watch_occurred(
/*====================*/
ulint space, /*!< in: space id */
ulint offset) /*!< in: page number */
{
ibool ret;
buf_page_t* bpage;
buf_pool_t* buf_pool = buf_pool_get(space, offset);
ulint fold = buf_page_address_fold(space, offset);
buf_pool_mutex_enter(buf_pool);
bpage = buf_page_hash_get_low(buf_pool, space, offset, fold);
/* The page must exist because buf_pool_watch_set()
increments buf_fix_count. */
ut_a(bpage);
ret = !buf_pool_watch_is_sentinel(buf_pool, bpage);
buf_pool_mutex_exit(buf_pool);
return(ret);
}
/********************************************************************//**
Moves a page to the start of the buffer pool LRU list. This high-level
function can be used to prevent an important page from slipping out of
the buffer pool. */
UNIV_INTERN
void
buf_page_make_young(
/*================*/
buf_page_t* bpage) /*!< in: buffer block of a file page */
{
buf_pool_t* buf_pool = buf_pool_from_bpage(bpage);
buf_pool_mutex_enter(buf_pool);
ut_a(buf_page_in_file(bpage));
buf_LRU_make_block_young(bpage);
buf_pool_mutex_exit(buf_pool);
}
/********************************************************************//**
Sets the time of the first access of a page and moves a page to the
start of the buffer pool LRU list if it is too old. This high-level
function can be used to prevent an important page from slipping
out of the buffer pool. */
static
void
buf_page_set_accessed_make_young(
/*=============================*/
buf_page_t* bpage, /*!< in/out: buffer block of a
file page */
unsigned access_time) /*!< in: bpage->access_time
read under mutex protection,
or 0 if unknown */
{
buf_pool_t* buf_pool = buf_pool_from_bpage(bpage);
ut_ad(!buf_pool_mutex_own(buf_pool));
ut_a(buf_page_in_file(bpage));
if (buf_page_peek_if_too_old(bpage)) {
buf_pool_mutex_enter(buf_pool);
buf_LRU_make_block_young(bpage);
buf_pool_mutex_exit(buf_pool);
} else if (!access_time) {
ulint time_ms = ut_time_ms();
buf_pool_mutex_enter(buf_pool);
buf_page_set_accessed(bpage, time_ms);
buf_pool_mutex_exit(buf_pool);
}
}
/********************************************************************//**
Resets the check_index_page_at_flush field of a page if found in the buffer
pool. */
UNIV_INTERN
void
buf_reset_check_index_page_at_flush(
/*================================*/
ulint space, /*!< in: space id */
ulint offset) /*!< in: page number */
{
buf_block_t* block;
buf_pool_t* buf_pool = buf_pool_get(space, offset);
buf_pool_mutex_enter(buf_pool);
block = (buf_block_t*) buf_page_hash_get(buf_pool, space, offset);
if (block && buf_block_get_state(block) == BUF_BLOCK_FILE_PAGE) {
ut_ad(!buf_pool_watch_is_sentinel(buf_pool, &block->page));
block->check_index_page_at_flush = FALSE;
}
buf_pool_mutex_exit(buf_pool);
}
/********************************************************************//**
Returns the current state of is_hashed of a page. FALSE if the page is
not in the pool. NOTE that this operation does not fix the page in the
pool if it is found there.
@return TRUE if page hash index is built in search system */
UNIV_INTERN
ibool
buf_page_peek_if_search_hashed(
/*===========================*/
ulint space, /*!< in: space id */
ulint offset) /*!< in: page number */
{
buf_block_t* block;
ibool is_hashed;
buf_pool_t* buf_pool = buf_pool_get(space, offset);
buf_pool_mutex_enter(buf_pool);
block = (buf_block_t*) buf_page_hash_get(buf_pool, space, offset);
if (!block || buf_block_get_state(block) != BUF_BLOCK_FILE_PAGE) {
is_hashed = FALSE;
} else {
ut_ad(!buf_pool_watch_is_sentinel(buf_pool, &block->page));
is_hashed = block->is_hashed;
}
buf_pool_mutex_exit(buf_pool);
return(is_hashed);
}
#ifdef UNIV_DEBUG_FILE_ACCESSES
/********************************************************************//**
Sets file_page_was_freed TRUE if the page is found in the buffer pool.
This function should be called when we free a file page and want the
debug version to check that it is not accessed any more unless
reallocated.
@return control block if found in page hash table, otherwise NULL */
UNIV_INTERN
buf_page_t*
buf_page_set_file_page_was_freed(
/*=============================*/
ulint space, /*!< in: space id */
ulint offset) /*!< in: page number */
{
buf_page_t* bpage;
buf_pool_t* buf_pool = buf_pool_get(space, offset);
buf_pool_mutex_enter(buf_pool);
bpage = buf_page_hash_get(buf_pool, space, offset);
if (bpage) {
ut_ad(!buf_pool_watch_is_sentinel(buf_pool, bpage));
bpage->file_page_was_freed = TRUE;
}
buf_pool_mutex_exit(buf_pool);
return(bpage);
}
/********************************************************************//**
Sets file_page_was_freed FALSE if the page is found in the buffer pool.
This function should be called when we free a file page and want the
debug version to check that it is not accessed any more unless
reallocated.
@return control block if found in page hash table, otherwise NULL */
UNIV_INTERN
buf_page_t*
buf_page_reset_file_page_was_freed(
/*===============================*/
ulint space, /*!< in: space id */
ulint offset) /*!< in: page number */
{
buf_page_t* bpage;
buf_pool_t* buf_pool = buf_pool_get(space, offset);
buf_pool_mutex_enter(buf_pool);
bpage = buf_page_hash_get(buf_pool, space, offset);
if (bpage) {
ut_ad(!buf_pool_watch_is_sentinel(buf_pool, bpage));
bpage->file_page_was_freed = FALSE;
}
buf_pool_mutex_exit(buf_pool);
return(bpage);
}
#endif /* UNIV_DEBUG_FILE_ACCESSES */
/********************************************************************//**
Get read access to a compressed page (usually of type
FIL_PAGE_TYPE_ZBLOB or FIL_PAGE_TYPE_ZBLOB2).
The page must be released with buf_page_release_zip().
NOTE: the page is not protected by any latch. Mutual exclusion has to
be implemented at a higher level. In other words, all possible
accesses to a given page through this function must be protected by
the same set of mutexes or latches.
@return pointer to the block */
UNIV_INTERN
buf_page_t*
buf_page_get_zip(
/*=============*/
ulint space, /*!< in: space id */
ulint zip_size,/*!< in: compressed page size */
ulint offset) /*!< in: page number */
{
buf_page_t* bpage;
mutex_t* block_mutex;
ibool must_read;
unsigned access_time;
buf_pool_t* buf_pool = buf_pool_get(space, offset);
#ifndef UNIV_LOG_DEBUG
ut_ad(!ibuf_inside());
#endif
buf_pool->stat.n_page_gets++;
for (;;) {
buf_pool_mutex_enter(buf_pool);
lookup:
bpage = buf_page_hash_get(buf_pool, space, offset);
if (bpage) {
ut_ad(!buf_pool_watch_is_sentinel(buf_pool, bpage));
break;
}
/* Page not in buf_pool: needs to be read from file */
buf_pool_mutex_exit(buf_pool);
buf_read_page(space, zip_size, offset);
#if defined UNIV_DEBUG || defined UNIV_BUF_DEBUG
ut_a(++buf_dbg_counter % 37 || buf_validate());
#endif /* UNIV_DEBUG || UNIV_BUF_DEBUG */
}
if (UNIV_UNLIKELY(!bpage->zip.data)) {
/* There is no compressed page. */
err_exit:
buf_pool_mutex_exit(buf_pool);
return(NULL);
}
ut_ad(!buf_pool_watch_is_sentinel(buf_pool, bpage));
switch (buf_page_get_state(bpage)) {
case BUF_BLOCK_NOT_USED:
case BUF_BLOCK_READY_FOR_USE:
case BUF_BLOCK_MEMORY:
case BUF_BLOCK_REMOVE_HASH:
case BUF_BLOCK_ZIP_FREE:
break;
case BUF_BLOCK_ZIP_PAGE:
case BUF_BLOCK_ZIP_DIRTY:
block_mutex = &buf_pool->zip_mutex;
mutex_enter(block_mutex);
bpage->buf_fix_count++;
goto got_block;
case BUF_BLOCK_FILE_PAGE:
block_mutex = &((buf_block_t*) bpage)->mutex;
mutex_enter(block_mutex);
/* Discard the uncompressed page frame if possible. */
if (buf_LRU_free_block(bpage, FALSE, NULL)
== BUF_LRU_FREED) {
mutex_exit(block_mutex);
goto lookup;
}
buf_block_buf_fix_inc((buf_block_t*) bpage,
__FILE__, __LINE__);
goto got_block;
}
ut_error;
goto err_exit;
got_block:
must_read = buf_page_get_io_fix(bpage) == BUF_IO_READ;
access_time = buf_page_is_accessed(bpage);
buf_pool_mutex_exit(buf_pool);
mutex_exit(block_mutex);
buf_page_set_accessed_make_young(bpage, access_time);
#ifdef UNIV_DEBUG_FILE_ACCESSES
ut_a(!bpage->file_page_was_freed);
#endif
#if defined UNIV_DEBUG || defined UNIV_BUF_DEBUG
ut_a(++buf_dbg_counter % 5771 || buf_validate());
ut_a(bpage->buf_fix_count > 0);
ut_a(buf_page_in_file(bpage));
#endif /* UNIV_DEBUG || UNIV_BUF_DEBUG */
if (must_read) {
/* Let us wait until the read operation
completes */
for (;;) {
enum buf_io_fix io_fix;
mutex_enter(block_mutex);
io_fix = buf_page_get_io_fix(bpage);
mutex_exit(block_mutex);
if (io_fix == BUF_IO_READ) {
os_thread_sleep(WAIT_FOR_READ);
} else {
break;
}
}
}
#ifdef UNIV_IBUF_COUNT_DEBUG
ut_a(ibuf_count_get(buf_page_get_space(bpage),
buf_page_get_page_no(bpage)) == 0);
#endif
return(bpage);
}
/********************************************************************//**
Initialize some fields of a control block. */
UNIV_INLINE
void
buf_block_init_low(
/*===============*/
buf_block_t* block) /*!< in: block to init */
{
block->check_index_page_at_flush = FALSE;
block->index = NULL;
block->n_hash_helps = 0;
block->is_hashed = FALSE;
block->n_fields = 1;
block->n_bytes = 0;
block->left_side = TRUE;
}
#endif /* !UNIV_HOTBACKUP */
/********************************************************************//**
Decompress a block.
@return TRUE if successful */
UNIV_INTERN
ibool
buf_zip_decompress(
/*===============*/
buf_block_t* block, /*!< in/out: block */
ibool check) /*!< in: TRUE=verify the page checksum */
{
const byte* frame = block->page.zip.data;
ut_ad(buf_block_get_zip_size(block));
ut_a(buf_block_get_space(block) != 0);
if (UNIV_LIKELY(check)) {
ulint stamp_checksum = mach_read_from_4(
frame + FIL_PAGE_SPACE_OR_CHKSUM);
ulint calc_checksum = page_zip_calc_checksum(
frame, page_zip_get_size(&block->page.zip));
if (UNIV_UNLIKELY(stamp_checksum != calc_checksum)) {
ut_print_timestamp(stderr);
fprintf(stderr,
" InnoDB: compressed page checksum mismatch"
" (space %u page %u): %lu != %lu\n",
block->page.space, block->page.offset,
stamp_checksum, calc_checksum);
return(FALSE);
}
}
switch (fil_page_get_type(frame)) {
case FIL_PAGE_INDEX:
if (page_zip_decompress(&block->page.zip,
block->frame, TRUE)) {
return(TRUE);
}
fprintf(stderr,
"InnoDB: unable to decompress space %lu page %lu\n",
(ulong) block->page.space,
(ulong) block->page.offset);
return(FALSE);
case FIL_PAGE_TYPE_ALLOCATED:
case FIL_PAGE_INODE:
case FIL_PAGE_IBUF_BITMAP:
case FIL_PAGE_TYPE_FSP_HDR:
case FIL_PAGE_TYPE_XDES:
case FIL_PAGE_TYPE_ZBLOB:
case FIL_PAGE_TYPE_ZBLOB2:
/* Copy to uncompressed storage. */
memcpy(block->frame, frame,
buf_block_get_zip_size(block));
return(TRUE);
}
ut_print_timestamp(stderr);
fprintf(stderr,
" InnoDB: unknown compressed page"
" type %lu\n",
fil_page_get_type(frame));
return(FALSE);
}
#ifndef UNIV_HOTBACKUP
/*******************************************************************//**
Gets the block to whose frame the pointer is pointing to if found
in this buffer pool instance.
@return pointer to block */
static
buf_block_t*
buf_block_align_instance(
/*=====================*/
buf_pool_t* buf_pool, /*!< in: buffer in which the block
resides */
const byte* ptr) /*!< in: pointer to a frame */
{
buf_chunk_t* chunk;
ulint i;
/* TODO: protect buf_pool->chunks with a mutex (it will
currently remain constant after buf_pool_init()) */
for (chunk = buf_pool->chunks, i = buf_pool->n_chunks; i--; chunk++) {
lint offs = ptr - chunk->blocks->frame;
if (UNIV_UNLIKELY(offs < 0)) {
continue;
}
offs >>= UNIV_PAGE_SIZE_SHIFT;
if (UNIV_LIKELY((ulint) offs < chunk->size)) {
buf_block_t* block = &chunk->blocks[offs];
/* The function buf_chunk_init() invokes
buf_block_init() so that block[n].frame ==
block->frame + n * UNIV_PAGE_SIZE. Check it. */
ut_ad(block->frame == page_align(ptr));
#ifdef UNIV_DEBUG
/* A thread that updates these fields must
hold buf_pool->mutex and block->mutex. Acquire
only the latter. */
mutex_enter(&block->mutex);
switch (buf_block_get_state(block)) {
case BUF_BLOCK_ZIP_FREE:
case BUF_BLOCK_ZIP_PAGE:
case BUF_BLOCK_ZIP_DIRTY:
/* These types should only be used in
the compressed buffer pool, whose
memory is allocated from
buf_pool->chunks, in UNIV_PAGE_SIZE
blocks flagged as BUF_BLOCK_MEMORY. */
ut_error;
break;
case BUF_BLOCK_NOT_USED:
case BUF_BLOCK_READY_FOR_USE:
case BUF_BLOCK_MEMORY:
/* Some data structures contain
"guess" pointers to file pages. The
file pages may have been freed and
reused. Do not complain. */
break;
case BUF_BLOCK_REMOVE_HASH:
/* buf_LRU_block_remove_hashed_page()
will overwrite the FIL_PAGE_OFFSET and
FIL_PAGE_ARCH_LOG_NO_OR_SPACE_ID with
0xff and set the state to
BUF_BLOCK_REMOVE_HASH. */
ut_ad(page_get_space_id(page_align(ptr))
== 0xffffffff);
ut_ad(page_get_page_no(page_align(ptr))
== 0xffffffff);
break;
case BUF_BLOCK_FILE_PAGE:
ut_ad(block->page.space
== page_get_space_id(page_align(ptr)));
ut_ad(block->page.offset
== page_get_page_no(page_align(ptr)));
break;
}
mutex_exit(&block->mutex);
#endif /* UNIV_DEBUG */
return(block);
}
}
return(NULL);
}
/*******************************************************************//**
Gets the block to whose frame the pointer is pointing to.
@return pointer to block, never NULL */
UNIV_INTERN
buf_block_t*
buf_block_align(
/*============*/
const byte* ptr) /*!< in: pointer to a frame */
{
ulint i;
for (i = 0; i < srv_buf_pool_instances; i++) {
buf_block_t* block;
block = buf_block_align_instance(
buf_pool_from_array(i), ptr);
if (block) {
return(block);
}
}
/* The block should always be found. */
ut_error;
return(NULL);
}
/********************************************************************//**
Find out if a pointer belongs to a buf_block_t. It can be a pointer to
the buf_block_t itself or a member of it. This functions checks one of
the buffer pool instances.
@return TRUE if ptr belongs to a buf_block_t struct */
static
ibool
buf_pointer_is_block_field_instance(
/*================================*/
buf_pool_t* buf_pool, /*!< in: buffer pool instance */
const void* ptr) /*!< in: pointer not dereferenced */
{
const buf_chunk_t* chunk = buf_pool->chunks;
const buf_chunk_t* const echunk = chunk + buf_pool->n_chunks;
/* TODO: protect buf_pool->chunks with a mutex (it will
currently remain constant after buf_pool_init()) */
while (chunk < echunk) {
if (ptr >= (void *)chunk->blocks
&& ptr < (void *)(chunk->blocks + chunk->size)) {
return(TRUE);
}
chunk++;
}
return(FALSE);
}
/********************************************************************//**
Find out if a pointer belongs to a buf_block_t. It can be a pointer to
the buf_block_t itself or a member of it
@return TRUE if ptr belongs to a buf_block_t struct */
UNIV_INTERN
ibool
buf_pointer_is_block_field(
/*=======================*/
const void* ptr) /*!< in: pointer not dereferenced */
{
ulint i;
for (i = 0; i < srv_buf_pool_instances; i++) {
ibool found;
found = buf_pointer_is_block_field_instance(
buf_pool_from_array(i), ptr);
if (found) {
return(TRUE);
}
}
return(FALSE);
}
/********************************************************************//**
Find out if a buffer block was created by buf_chunk_init().
@return TRUE if "block" has been added to buf_pool->free by buf_chunk_init() */
static
ibool
buf_block_is_uncompressed(
/*======================*/
buf_pool_t* buf_pool, /*!< in: buffer pool instance */
const buf_block_t* block) /*!< in: pointer to block,
not dereferenced */
{
ut_ad(buf_pool_mutex_own(buf_pool));
if (UNIV_UNLIKELY((((ulint) block) % sizeof *block) != 0)) {
/* The pointer should be aligned. */
return(FALSE);
}
return(buf_pointer_is_block_field_instance(buf_pool, (void *)block));
}
/********************************************************************//**
This is the general function used to get access to a database page.
@return pointer to the block or NULL */
UNIV_INTERN
buf_block_t*
buf_page_get_gen(
/*=============*/
ulint space, /*!< in: space id */
ulint zip_size,/*!< in: compressed page size in bytes
or 0 for uncompressed pages */
ulint offset, /*!< in: page number */
ulint rw_latch,/*!< in: RW_S_LATCH, RW_X_LATCH, RW_NO_LATCH */
buf_block_t* guess, /*!< in: guessed block or NULL */
ulint mode, /*!< in: BUF_GET, BUF_GET_IF_IN_POOL,
BUF_GET_NO_LATCH, or
BUF_GET_IF_IN_POOL_OR_WATCH */
const char* file, /*!< in: file name */
ulint line, /*!< in: line where called */
mtr_t* mtr) /*!< in: mini-transaction */
{
buf_block_t* block;
ulint fold;
unsigned access_time;
ulint fix_type;
ibool must_read;
ulint retries = 0;
buf_pool_t* buf_pool = buf_pool_get(space, offset);
ut_ad(mtr);
ut_ad(mtr->state == MTR_ACTIVE);
ut_ad((rw_latch == RW_S_LATCH)
|| (rw_latch == RW_X_LATCH)
|| (rw_latch == RW_NO_LATCH));
ut_ad((mode != BUF_GET_NO_LATCH) || (rw_latch == RW_NO_LATCH));
ut_ad(mode == BUF_GET
|| mode == BUF_GET_IF_IN_POOL
|| mode == BUF_GET_NO_LATCH
|| mode == BUF_GET_IF_IN_POOL_OR_WATCH);
ut_ad(zip_size == fil_space_get_zip_size(space));
ut_ad(ut_is_2pow(zip_size));
#ifndef UNIV_LOG_DEBUG
ut_ad(!ibuf_inside() || ibuf_page(space, zip_size, offset, NULL));
#endif
buf_pool->stat.n_page_gets++;
fold = buf_page_address_fold(space, offset);
loop:
block = guess;
buf_pool_mutex_enter(buf_pool);
if (block) {
/* If the guess is a compressed page descriptor that
has been allocated by buf_buddy_alloc(), it may have
been invalidated by buf_buddy_relocate(). In that
case, block could point to something that happens to
contain the expected bits in block->page. Similarly,
the guess may be pointing to a buffer pool chunk that
has been released when resizing the buffer pool. */
if (!buf_block_is_uncompressed(buf_pool, block)
|| offset != block->page.offset
|| space != block->page.space
|| buf_block_get_state(block) != BUF_BLOCK_FILE_PAGE) {
block = guess = NULL;
} else {
ut_ad(!block->page.in_zip_hash);
ut_ad(block->page.in_page_hash);
}
}
if (block == NULL) {
block = (buf_block_t*) buf_page_hash_get_low(
buf_pool, space, offset, fold);
}
loop2:
if (block && buf_pool_watch_is_sentinel(buf_pool, &block->page)) {
block = NULL;
}
if (block == NULL) {
/* Page not in buf_pool: needs to be read from file */
if (mode == BUF_GET_IF_IN_POOL_OR_WATCH) {
block = (buf_block_t*) buf_pool_watch_set(
space, offset, fold);
if (UNIV_LIKELY_NULL(block)) {
goto got_block;
}
}
buf_pool_mutex_exit(buf_pool);
if (mode == BUF_GET_IF_IN_POOL
|| mode == BUF_GET_IF_IN_POOL_OR_WATCH) {
return(NULL);
}
if (buf_read_page(space, zip_size, offset)) {
retries = 0;
} else if (retries < BUF_PAGE_READ_MAX_RETRIES) {
++retries;
} else {
fprintf(stderr, "InnoDB: Error: Unable"
" to read tablespace %lu page no"
" %lu into the buffer pool after"
" %lu attempts\n"
"InnoDB: The most probable cause"
" of this error may be that the"
" table has been corrupted.\n"
"InnoDB: You can try to fix this"
" problem by using"
" innodb_force_recovery.\n"
"InnoDB: Please see reference manual"
" for more details.\n"
"InnoDB: Aborting...\n",
space, offset,
BUF_PAGE_READ_MAX_RETRIES);
ut_error;
}
#if defined UNIV_DEBUG || defined UNIV_BUF_DEBUG
ut_a(++buf_dbg_counter % 37 || buf_validate());
#endif /* UNIV_DEBUG || UNIV_BUF_DEBUG */
goto loop;
}
got_block:
ut_ad(page_zip_get_size(&block->page.zip) == zip_size);
must_read = buf_block_get_io_fix(block) == BUF_IO_READ;
if (must_read && mode == BUF_GET_IF_IN_POOL) {
/* The page is being read to buffer pool,
but we cannot wait around for the read to
complete. */
buf_pool_mutex_exit(buf_pool);
return(NULL);
}
switch (buf_block_get_state(block)) {
buf_page_t* bpage;
ibool success;
case BUF_BLOCK_FILE_PAGE:
break;
case BUF_BLOCK_ZIP_PAGE:
case BUF_BLOCK_ZIP_DIRTY:
bpage = &block->page;
/* Protect bpage->buf_fix_count. */
mutex_enter(&buf_pool->zip_mutex);
if (bpage->buf_fix_count
|| buf_page_get_io_fix(bpage) != BUF_IO_NONE) {
/* This condition often occurs when the buffer
is not buffer-fixed, but I/O-fixed by
buf_page_init_for_read(). */
mutex_exit(&buf_pool->zip_mutex);
wait_until_unfixed:
/* The block is buffer-fixed or I/O-fixed.
Try again later. */
buf_pool_mutex_exit(buf_pool);
os_thread_sleep(WAIT_FOR_READ);
goto loop;
}
/* Allocate an uncompressed page. */
buf_pool_mutex_exit(buf_pool);
mutex_exit(&buf_pool->zip_mutex);
block = buf_LRU_get_free_block(buf_pool, 0);
ut_a(block);
buf_pool_mutex_enter(buf_pool);
mutex_enter(&block->mutex);
{
buf_page_t* hash_bpage;
hash_bpage = buf_page_hash_get_low(
buf_pool, space, offset, fold);
if (UNIV_UNLIKELY(bpage != hash_bpage)) {
/* The buf_pool->page_hash was modified
while buf_pool->mutex was released.
Free the block that was allocated. */
buf_LRU_block_free_non_file_page(block);
mutex_exit(&block->mutex);
block = (buf_block_t*) hash_bpage;
goto loop2;
}
}
if (UNIV_UNLIKELY
(bpage->buf_fix_count
|| buf_page_get_io_fix(bpage) != BUF_IO_NONE)) {
/* The block was buffer-fixed or I/O-fixed
while buf_pool->mutex was not held by this thread.
Free the block that was allocated and try again.
This should be extremely unlikely. */
buf_LRU_block_free_non_file_page(block);
mutex_exit(&block->mutex);
goto wait_until_unfixed;
}
/* Move the compressed page from bpage to block,
and uncompress it. */
mutex_enter(&buf_pool->zip_mutex);
buf_relocate(bpage, &block->page);
buf_block_init_low(block);
block->lock_hash_val = lock_rec_hash(space, offset);
UNIV_MEM_DESC(&block->page.zip.data,
page_zip_get_size(&block->page.zip), block);
if (buf_page_get_state(&block->page)
== BUF_BLOCK_ZIP_PAGE) {
UT_LIST_REMOVE(list, buf_pool->zip_clean,
&block->page);
ut_ad(!block->page.in_flush_list);
} else {
/* Relocate buf_pool->flush_list. */
buf_flush_relocate_on_flush_list(bpage,
&block->page);
}
/* Buffer-fix, I/O-fix, and X-latch the block
for the duration of the decompression.
Also add the block to the unzip_LRU list. */
block->page.state = BUF_BLOCK_FILE_PAGE;
/* Insert at the front of unzip_LRU list */
buf_unzip_LRU_add_block(block, FALSE);
block->page.buf_fix_count = 1;
buf_block_set_io_fix(block, BUF_IO_READ);
rw_lock_x_lock(&block->lock);
UNIV_MEM_INVALID(bpage, sizeof *bpage);
mutex_exit(&block->mutex);
mutex_exit(&buf_pool->zip_mutex);
buf_pool->n_pend_unzip++;
buf_buddy_free(buf_pool, bpage, sizeof *bpage);
buf_pool_mutex_exit(buf_pool);
/* Decompress the page and apply buffered operations
while not holding buf_pool->mutex or block->mutex. */
success = buf_zip_decompress(block, srv_use_checksums);
if (UNIV_LIKELY(success && !recv_no_ibuf_operations)) {
ibuf_merge_or_delete_for_page(block, space, offset,
zip_size, TRUE);
}
/* Unfix and unlatch the block. */
buf_pool_mutex_enter(buf_pool);
mutex_enter(&block->mutex);
block->page.buf_fix_count--;
buf_block_set_io_fix(block, BUF_IO_NONE);
mutex_exit(&block->mutex);
buf_pool->n_pend_unzip--;
rw_lock_x_unlock(&block->lock);
if (UNIV_UNLIKELY(!success)) {
buf_pool_mutex_exit(buf_pool);
return(NULL);
}
break;
case BUF_BLOCK_ZIP_FREE:
case BUF_BLOCK_NOT_USED:
case BUF_BLOCK_READY_FOR_USE:
case BUF_BLOCK_MEMORY:
case BUF_BLOCK_REMOVE_HASH:
ut_error;
break;
}
ut_ad(buf_block_get_state(block) == BUF_BLOCK_FILE_PAGE);
mutex_enter(&block->mutex);
UNIV_MEM_ASSERT_RW(&block->page, sizeof block->page);
buf_block_buf_fix_inc(block, file, line);
mutex_exit(&block->mutex);
/* Check if this is the first access to the page */
access_time = buf_page_is_accessed(&block->page);
buf_pool_mutex_exit(buf_pool);
buf_page_set_accessed_make_young(&block->page, access_time);
#ifdef UNIV_DEBUG_FILE_ACCESSES
ut_a(!block->page.file_page_was_freed);
#endif
#if defined UNIV_DEBUG || defined UNIV_BUF_DEBUG
ut_a(++buf_dbg_counter % 5771 || buf_validate());
ut_a(block->page.buf_fix_count > 0);
ut_a(buf_block_get_state(block) == BUF_BLOCK_FILE_PAGE);
#endif /* UNIV_DEBUG || UNIV_BUF_DEBUG */
switch (rw_latch) {
case RW_NO_LATCH:
if (must_read) {
/* Let us wait until the read operation
completes */
for (;;) {
enum buf_io_fix io_fix;
mutex_enter(&block->mutex);
io_fix = buf_block_get_io_fix(block);
mutex_exit(&block->mutex);
if (io_fix == BUF_IO_READ) {
os_thread_sleep(WAIT_FOR_READ);
} else {
break;
}
}
}
fix_type = MTR_MEMO_BUF_FIX;
break;
case RW_S_LATCH:
rw_lock_s_lock_func(&(block->lock), 0, file, line);
fix_type = MTR_MEMO_PAGE_S_FIX;
break;
default:
ut_ad(rw_latch == RW_X_LATCH);
rw_lock_x_lock_func(&(block->lock), 0, file, line);
fix_type = MTR_MEMO_PAGE_X_FIX;
break;
}
mtr_memo_push(mtr, block, fix_type);
if (!access_time) {
/* In the case of a first access, try to apply linear
read-ahead */
buf_read_ahead_linear(space, zip_size, offset);
}
#ifdef UNIV_IBUF_COUNT_DEBUG
ut_a(ibuf_count_get(buf_block_get_space(block),
buf_block_get_page_no(block)) == 0);
#endif
return(block);
}
/********************************************************************//**
This is the general function used to get optimistic access to a database
page.
@return TRUE if success */
UNIV_INTERN
ibool
buf_page_optimistic_get(
/*====================*/
ulint rw_latch,/*!< in: RW_S_LATCH, RW_X_LATCH */
buf_block_t* block, /*!< in: guessed buffer block */
ib_uint64_t modify_clock,/*!< in: modify clock value if mode is
..._GUESS_ON_CLOCK */
const char* file, /*!< in: file name */
ulint line, /*!< in: line where called */
mtr_t* mtr) /*!< in: mini-transaction */
{
buf_pool_t* buf_pool;
unsigned access_time;
ibool success;
ulint fix_type;
ut_ad(block);
ut_ad(mtr);
ut_ad(mtr->state == MTR_ACTIVE);
ut_ad((rw_latch == RW_S_LATCH) || (rw_latch == RW_X_LATCH));
mutex_enter(&block->mutex);
if (UNIV_UNLIKELY(buf_block_get_state(block) != BUF_BLOCK_FILE_PAGE)) {
mutex_exit(&block->mutex);
return(FALSE);
}
buf_block_buf_fix_inc(block, file, line);
mutex_exit(&block->mutex);
/* Check if this is the first access to the page.
We do a dirty read on purpose, to avoid mutex contention.
This field is only used for heuristic purposes; it does not
affect correctness. */
access_time = buf_page_is_accessed(&block->page);
buf_page_set_accessed_make_young(&block->page, access_time);
ut_ad(!ibuf_inside()
|| ibuf_page(buf_block_get_space(block),
buf_block_get_zip_size(block),
buf_block_get_page_no(block), NULL));
if (rw_latch == RW_S_LATCH) {
success = rw_lock_s_lock_nowait(&(block->lock),
file, line);
fix_type = MTR_MEMO_PAGE_S_FIX;
} else {
success = rw_lock_x_lock_func_nowait(&(block->lock),
file, line);
fix_type = MTR_MEMO_PAGE_X_FIX;
}
if (UNIV_UNLIKELY(!success)) {
mutex_enter(&block->mutex);
buf_block_buf_fix_dec(block);
mutex_exit(&block->mutex);
return(FALSE);
}
if (UNIV_UNLIKELY(modify_clock != block->modify_clock)) {
buf_block_dbg_add_level(block, SYNC_NO_ORDER_CHECK);
if (rw_latch == RW_S_LATCH) {
rw_lock_s_unlock(&(block->lock));
} else {
rw_lock_x_unlock(&(block->lock));
}
mutex_enter(&block->mutex);
buf_block_buf_fix_dec(block);
mutex_exit(&block->mutex);
return(FALSE);
}
mtr_memo_push(mtr, block, fix_type);
#if defined UNIV_DEBUG || defined UNIV_BUF_DEBUG
ut_a(++buf_dbg_counter % 5771 || buf_validate());
ut_a(block->page.buf_fix_count > 0);
ut_a(buf_block_get_state(block) == BUF_BLOCK_FILE_PAGE);
#endif /* UNIV_DEBUG || UNIV_BUF_DEBUG */
#ifdef UNIV_DEBUG_FILE_ACCESSES
ut_a(block->page.file_page_was_freed == FALSE);
#endif
if (UNIV_UNLIKELY(!access_time)) {
/* In the case of a first access, try to apply linear
read-ahead */
buf_read_ahead_linear(buf_block_get_space(block),
buf_block_get_zip_size(block),
buf_block_get_page_no(block));
}
#ifdef UNIV_IBUF_COUNT_DEBUG
ut_a(ibuf_count_get(buf_block_get_space(block),
buf_block_get_page_no(block)) == 0);
#endif
buf_pool = buf_pool_from_block(block);
buf_pool->stat.n_page_gets++;
return(TRUE);
}
/********************************************************************//**
This is used to get access to a known database page, when no waiting can be
done. For example, if a search in an adaptive hash index leads us to this
frame.
@return TRUE if success */
UNIV_INTERN
ibool
buf_page_get_known_nowait(
/*======================*/
ulint rw_latch,/*!< in: RW_S_LATCH, RW_X_LATCH */
buf_block_t* block, /*!< in: the known page */
ulint mode, /*!< in: BUF_MAKE_YOUNG or BUF_KEEP_OLD */
const char* file, /*!< in: file name */
ulint line, /*!< in: line where called */
mtr_t* mtr) /*!< in: mini-transaction */
{
buf_pool_t* buf_pool;
ibool success;
ulint fix_type;
ut_ad(mtr);
ut_ad(mtr->state == MTR_ACTIVE);
ut_ad((rw_latch == RW_S_LATCH) || (rw_latch == RW_X_LATCH));
mutex_enter(&block->mutex);
if (buf_block_get_state(block) == BUF_BLOCK_REMOVE_HASH) {
/* Another thread is just freeing the block from the LRU list
of the buffer pool: do not try to access this page; this
attempt to access the page can only come through the hash
index because when the buffer block state is ..._REMOVE_HASH,
we have already removed it from the page address hash table
of the buffer pool. */
mutex_exit(&block->mutex);
return(FALSE);
}
ut_a(buf_block_get_state(block) == BUF_BLOCK_FILE_PAGE);
buf_block_buf_fix_inc(block, file, line);
mutex_exit(&block->mutex);
buf_pool = buf_pool_from_block(block);
if (mode == BUF_MAKE_YOUNG && buf_page_peek_if_too_old(&block->page)) {
buf_pool_mutex_enter(buf_pool);
buf_LRU_make_block_young(&block->page);
buf_pool_mutex_exit(buf_pool);
} else if (!buf_page_is_accessed(&block->page)) {
/* Above, we do a dirty read on purpose, to avoid
mutex contention. The field buf_page_t::access_time
is only used for heuristic purposes. Writes to the
field must be protected by mutex, however. */
ulint time_ms = ut_time_ms();
buf_pool_mutex_enter(buf_pool);
buf_page_set_accessed(&block->page, time_ms);
buf_pool_mutex_exit(buf_pool);
}
ut_ad(!ibuf_inside() || (mode == BUF_KEEP_OLD));
if (rw_latch == RW_S_LATCH) {
success = rw_lock_s_lock_nowait(&(block->lock),
file, line);
fix_type = MTR_MEMO_PAGE_S_FIX;
} else {
success = rw_lock_x_lock_func_nowait(&(block->lock),
file, line);
fix_type = MTR_MEMO_PAGE_X_FIX;
}
if (!success) {
mutex_enter(&block->mutex);
buf_block_buf_fix_dec(block);
mutex_exit(&block->mutex);
return(FALSE);
}
mtr_memo_push(mtr, block, fix_type);
#if defined UNIV_DEBUG || defined UNIV_BUF_DEBUG
ut_a(++buf_dbg_counter % 5771 || buf_validate());
ut_a(block->page.buf_fix_count > 0);
ut_a(buf_block_get_state(block) == BUF_BLOCK_FILE_PAGE);
#endif /* UNIV_DEBUG || UNIV_BUF_DEBUG */
#ifdef UNIV_DEBUG_FILE_ACCESSES
ut_a(block->page.file_page_was_freed == FALSE);
#endif
#ifdef UNIV_IBUF_COUNT_DEBUG
ut_a((mode == BUF_KEEP_OLD)
|| (ibuf_count_get(buf_block_get_space(block),
buf_block_get_page_no(block)) == 0));
#endif
buf_pool->stat.n_page_gets++;
return(TRUE);
}
/*******************************************************************//**
Given a tablespace id and page number tries to get that page. If the
page is not in the buffer pool it is not loaded and NULL is returned.
Suitable for using when holding the kernel mutex.
@return pointer to a page or NULL */
UNIV_INTERN
const buf_block_t*
buf_page_try_get_func(
/*==================*/
ulint space_id,/*!< in: tablespace id */
ulint page_no,/*!< in: page number */
const char* file, /*!< in: file name */
ulint line, /*!< in: line where called */
mtr_t* mtr) /*!< in: mini-transaction */
{
buf_block_t* block;
ibool success;
ulint fix_type;
buf_pool_t* buf_pool = buf_pool_get(space_id, page_no);
ut_ad(mtr);
ut_ad(mtr->state == MTR_ACTIVE);
buf_pool_mutex_enter(buf_pool);
block = buf_block_hash_get(buf_pool, space_id, page_no);
if (!block || buf_block_get_state(block) != BUF_BLOCK_FILE_PAGE) {
buf_pool_mutex_exit(buf_pool);
return(NULL);
}
ut_ad(!buf_pool_watch_is_sentinel(buf_pool, &block->page));
mutex_enter(&block->mutex);
buf_pool_mutex_exit(buf_pool);
#if defined UNIV_DEBUG || defined UNIV_BUF_DEBUG
ut_a(buf_block_get_state(block) == BUF_BLOCK_FILE_PAGE);
ut_a(buf_block_get_space(block) == space_id);
ut_a(buf_block_get_page_no(block) == page_no);
#endif /* UNIV_DEBUG || UNIV_BUF_DEBUG */
buf_block_buf_fix_inc(block, file, line);
mutex_exit(&block->mutex);
fix_type = MTR_MEMO_PAGE_S_FIX;
success = rw_lock_s_lock_nowait(&block->lock, file, line);
if (!success) {
/* Let us try to get an X-latch. If the current thread
is holding an X-latch on the page, we cannot get an
S-latch. */
fix_type = MTR_MEMO_PAGE_X_FIX;
success = rw_lock_x_lock_func_nowait(&block->lock,
file, line);
}
if (!success) {
mutex_enter(&block->mutex);
buf_block_buf_fix_dec(block);
mutex_exit(&block->mutex);
return(NULL);
}
mtr_memo_push(mtr, block, fix_type);
#if defined UNIV_DEBUG || defined UNIV_BUF_DEBUG
ut_a(++buf_dbg_counter % 5771 || buf_validate());
ut_a(block->page.buf_fix_count > 0);
ut_a(buf_block_get_state(block) == BUF_BLOCK_FILE_PAGE);
#endif /* UNIV_DEBUG || UNIV_BUF_DEBUG */
#ifdef UNIV_DEBUG_FILE_ACCESSES
ut_a(block->page.file_page_was_freed == FALSE);
#endif /* UNIV_DEBUG_FILE_ACCESSES */
buf_block_dbg_add_level(block, SYNC_NO_ORDER_CHECK);
buf_pool->stat.n_page_gets++;
#ifdef UNIV_IBUF_COUNT_DEBUG
ut_a(ibuf_count_get(buf_block_get_space(block),
buf_block_get_page_no(block)) == 0);
#endif
return(block);
}
/********************************************************************//**
Initialize some fields of a control block. */
UNIV_INLINE
void
buf_page_init_low(
/*==============*/
buf_page_t* bpage) /*!< in: block to init */
{
bpage->flush_type = BUF_FLUSH_LRU;
bpage->io_fix = BUF_IO_NONE;
bpage->buf_fix_count = 0;
bpage->freed_page_clock = 0;
bpage->access_time = 0;
bpage->newest_modification = 0;
bpage->oldest_modification = 0;
HASH_INVALIDATE(bpage, hash);
#ifdef UNIV_DEBUG_FILE_ACCESSES
bpage->file_page_was_freed = FALSE;
#endif /* UNIV_DEBUG_FILE_ACCESSES */
}
/********************************************************************//**
Inits a page to the buffer buf_pool. */
static
void
buf_page_init(
/*==========*/
ulint space, /*!< in: space id */
ulint offset, /*!< in: offset of the page within space
in units of a page */
ulint fold, /*!< in: buf_page_address_fold(space,offset) */
buf_block_t* block) /*!< in: block to init */
{
buf_page_t* hash_page;
buf_pool_t* buf_pool = buf_pool_get(space, offset);
ut_ad(buf_pool_mutex_own(buf_pool));
ut_ad(mutex_own(&(block->mutex)));
ut_a(buf_block_get_state(block) != BUF_BLOCK_FILE_PAGE);
/* Set the state of the block */
buf_block_set_file_page(block, space, offset);
#ifdef UNIV_DEBUG_VALGRIND
if (!space) {
/* Silence valid Valgrind warnings about uninitialized
data being written to data files. There are some unused
bytes on some pages that InnoDB does not initialize. */
UNIV_MEM_VALID(block->frame, UNIV_PAGE_SIZE);
}
#endif /* UNIV_DEBUG_VALGRIND */
buf_block_init_low(block);
block->lock_hash_val = lock_rec_hash(space, offset);
buf_page_init_low(&block->page);
/* Insert into the hash table of file pages */
hash_page = buf_page_hash_get_low(buf_pool, space, offset, fold);
if (UNIV_LIKELY(!hash_page)) {
} else if (buf_pool_watch_is_sentinel(buf_pool, hash_page)) {
/* Preserve the reference count. */
ulint buf_fix_count = hash_page->buf_fix_count;
ut_a(buf_fix_count > 0);
block->page.buf_fix_count += buf_fix_count;
buf_pool_watch_remove(buf_pool, fold, hash_page);
} else {
fprintf(stderr,
"InnoDB: Error: page %lu %lu already found"
" in the hash table: %p, %p\n",
(ulong) space,
(ulong) offset,
(const void*) hash_page, (const void*) block);
#if defined UNIV_DEBUG || defined UNIV_BUF_DEBUG
mutex_exit(&block->mutex);
buf_pool_mutex_exit(buf_pool);
buf_print();
buf_LRU_print();
buf_validate();
buf_LRU_validate();
#endif /* UNIV_DEBUG || UNIV_BUF_DEBUG */
ut_error;
}
ut_ad(!block->page.in_zip_hash);
ut_ad(!block->page.in_page_hash);
ut_d(block->page.in_page_hash = TRUE);
HASH_INSERT(buf_page_t, hash, buf_pool->page_hash,
fold, &block->page);
}
/********************************************************************//**
Function which inits a page for read to the buffer buf_pool. If the page is
(1) already in buf_pool, or
(2) if we specify to read only ibuf pages and the page is not an ibuf page, or
(3) if the space is deleted or being deleted,
then this function does nothing.
Sets the io_fix flag to BUF_IO_READ and sets a non-recursive exclusive lock
on the buffer frame. The io-handler must take care that the flag is cleared
and the lock released later.
@return pointer to the block or NULL */
UNIV_INTERN
buf_page_t*
buf_page_init_for_read(
/*===================*/
ulint* err, /*!< out: DB_SUCCESS or DB_TABLESPACE_DELETED */
ulint mode, /*!< in: BUF_READ_IBUF_PAGES_ONLY, ... */
ulint space, /*!< in: space id */
ulint zip_size,/*!< in: compressed page size, or 0 */
ibool unzip, /*!< in: TRUE=request uncompressed page */
ib_int64_t tablespace_version,
/*!< in: prevents reading from a wrong
version of the tablespace in case we have done
DISCARD + IMPORT */
ulint offset) /*!< in: page number */
{
buf_block_t* block;
buf_page_t* bpage = NULL;
buf_page_t* watch_page;
mtr_t mtr;
ulint fold;
ibool lru = FALSE;
void* data;
buf_pool_t* buf_pool = buf_pool_get(space, offset);
ut_ad(buf_pool);
*err = DB_SUCCESS;
if (mode == BUF_READ_IBUF_PAGES_ONLY) {
/* It is a read-ahead within an ibuf routine */
ut_ad(!ibuf_bitmap_page(zip_size, offset));
ut_ad(ibuf_inside());
mtr_start(&mtr);
if (!recv_no_ibuf_operations
&& !ibuf_page(space, zip_size, offset, &mtr)) {
mtr_commit(&mtr);
return(NULL);
}
} else {
ut_ad(mode == BUF_READ_ANY_PAGE);
}
if (zip_size && UNIV_LIKELY(!unzip)
&& UNIV_LIKELY(!recv_recovery_is_on())) {
block = NULL;
} else {
block = buf_LRU_get_free_block(buf_pool, 0);
ut_ad(block);
ut_ad(buf_pool_from_block(block) == buf_pool);
}
fold = buf_page_address_fold(space, offset);
buf_pool_mutex_enter(buf_pool);
watch_page = buf_page_hash_get_low(buf_pool, space, offset, fold);
if (watch_page && !buf_pool_watch_is_sentinel(buf_pool, watch_page)) {
/* The page is already in the buffer pool. */
watch_page = NULL;
err_exit:
if (block) {
mutex_enter(&block->mutex);
buf_LRU_block_free_non_file_page(block);
mutex_exit(&block->mutex);
}
bpage = NULL;
goto func_exit;
}
if (fil_tablespace_deleted_or_being_deleted_in_mem(
space, tablespace_version)) {
/* The page belongs to a space which has been
deleted or is being deleted. */
*err = DB_TABLESPACE_DELETED;
goto err_exit;
}
if (block) {
bpage = &block->page;
mutex_enter(&block->mutex);
ut_ad(buf_pool_from_bpage(bpage) == buf_pool);
buf_page_init(space, offset, fold, block);
/* The block must be put to the LRU list, to the old blocks */
buf_LRU_add_block(bpage, TRUE/* to old blocks */);
/* We set a pass-type x-lock on the frame because then
the same thread which called for the read operation
(and is running now at this point of code) can wait
for the read to complete by waiting for the x-lock on
the frame; if the x-lock were recursive, the same
thread would illegally get the x-lock before the page
read is completed. The x-lock is cleared by the
io-handler thread. */
rw_lock_x_lock_gen(&block->lock, BUF_IO_READ);
buf_page_set_io_fix(bpage, BUF_IO_READ);
if (UNIV_UNLIKELY(zip_size)) {
page_zip_set_size(&block->page.zip, zip_size);
/* buf_pool->mutex may be released and
reacquired by buf_buddy_alloc(). Thus, we
must release block->mutex in order not to
break the latching order in the reacquisition
of buf_pool->mutex. We also must defer this
operation until after the block descriptor has
been added to buf_pool->LRU and
buf_pool->page_hash. */
mutex_exit(&block->mutex);
data = buf_buddy_alloc(buf_pool, zip_size, &lru);
mutex_enter(&block->mutex);
block->page.zip.data = data;
/* To maintain the invariant
block->in_unzip_LRU_list
== buf_page_belongs_to_unzip_LRU(&block->page)
we have to add this block to unzip_LRU
after block->page.zip.data is set. */
ut_ad(buf_page_belongs_to_unzip_LRU(&block->page));
buf_unzip_LRU_add_block(block, TRUE);
}
mutex_exit(&block->mutex);
} else {
/* Defer buf_buddy_alloc() until after the block has
been found not to exist. The buf_buddy_alloc() and
buf_buddy_free() calls may be expensive because of
buf_buddy_relocate(). */
/* The compressed page must be allocated before the
control block (bpage), in order to avoid the
invocation of buf_buddy_relocate_block() on
uninitialized data. */
data = buf_buddy_alloc(buf_pool, zip_size, &lru);
bpage = buf_buddy_alloc(buf_pool, sizeof *bpage, &lru);
/* Initialize the buf_pool pointer. */
bpage->buf_pool = buf_pool;
/* If buf_buddy_alloc() allocated storage from the LRU list,
it released and reacquired buf_pool->mutex. Thus, we must
check the page_hash again, as it may have been modified. */
if (UNIV_UNLIKELY(lru)) {
watch_page = buf_page_hash_get_low(
buf_pool, space, offset, fold);
if (watch_page
&& !buf_pool_watch_is_sentinel(buf_pool,
watch_page)) {
/* The block was added by some other thread. */
watch_page = NULL;
buf_buddy_free(buf_pool, bpage, sizeof *bpage);
buf_buddy_free(buf_pool, data, zip_size);
bpage = NULL;
goto func_exit;
}
}
page_zip_des_init(&bpage->zip);
page_zip_set_size(&bpage->zip, zip_size);
bpage->zip.data = data;
mutex_enter(&buf_pool->zip_mutex);
UNIV_MEM_DESC(bpage->zip.data,
page_zip_get_size(&bpage->zip), bpage);
buf_page_init_low(bpage);
bpage->state = BUF_BLOCK_ZIP_PAGE;
bpage->space = space;
bpage->offset = offset;
#ifdef UNIV_DEBUG
bpage->in_page_hash = FALSE;
bpage->in_zip_hash = FALSE;
bpage->in_flush_list = FALSE;
bpage->in_free_list = FALSE;
bpage->in_LRU_list = FALSE;
#endif /* UNIV_DEBUG */
ut_d(bpage->in_page_hash = TRUE);
if (UNIV_LIKELY_NULL(watch_page)) {
/* Preserve the reference count. */
ulint buf_fix_count = watch_page->buf_fix_count;
ut_a(buf_fix_count > 0);
bpage->buf_fix_count += buf_fix_count;
ut_ad(buf_pool_watch_is_sentinel(buf_pool, watch_page));
buf_pool_watch_remove(buf_pool, fold, watch_page);
}
HASH_INSERT(buf_page_t, hash, buf_pool->page_hash, fold,
bpage);
/* The block must be put to the LRU list, to the old blocks */
buf_LRU_add_block(bpage, TRUE/* to old blocks */);
buf_LRU_insert_zip_clean(bpage);
buf_page_set_io_fix(bpage, BUF_IO_READ);
mutex_exit(&buf_pool->zip_mutex);
}
buf_pool->n_pend_reads++;
func_exit:
buf_pool_mutex_exit(buf_pool);
if (mode == BUF_READ_IBUF_PAGES_ONLY) {
mtr_commit(&mtr);
}
ut_ad(!bpage || buf_page_in_file(bpage));
return(bpage);
}
/********************************************************************//**
Initializes a page to the buffer buf_pool. The page is usually not read
from a file even if it cannot be found in the buffer buf_pool. This is one
of the functions which perform to a block a state transition NOT_USED =>
FILE_PAGE (the other is buf_page_get_gen).
@return pointer to the block, page bufferfixed */
UNIV_INTERN
buf_block_t*
buf_page_create(
/*============*/
ulint space, /*!< in: space id */
ulint offset, /*!< in: offset of the page within space in units of
a page */
ulint zip_size,/*!< in: compressed page size, or 0 */
mtr_t* mtr) /*!< in: mini-transaction handle */
{
buf_frame_t* frame;
buf_block_t* block;
ulint fold;
buf_block_t* free_block = NULL;
ulint time_ms = ut_time_ms();
buf_pool_t* buf_pool = buf_pool_get(space, offset);
ut_ad(mtr);
ut_ad(mtr->state == MTR_ACTIVE);
ut_ad(space || !zip_size);
free_block = buf_LRU_get_free_block(buf_pool, 0);
fold = buf_page_address_fold(space, offset);
buf_pool_mutex_enter(buf_pool);
block = (buf_block_t*) buf_page_hash_get_low(
buf_pool, space, offset, fold);
if (block
&& buf_page_in_file(&block->page)
&& !buf_pool_watch_is_sentinel(buf_pool, &block->page)) {
#ifdef UNIV_IBUF_COUNT_DEBUG
ut_a(ibuf_count_get(space, offset) == 0);
#endif
#ifdef UNIV_DEBUG_FILE_ACCESSES
block->page.file_page_was_freed = FALSE;
#endif /* UNIV_DEBUG_FILE_ACCESSES */
/* Page can be found in buf_pool */
buf_pool_mutex_exit(buf_pool);
buf_block_free(free_block);
return(buf_page_get_with_no_latch(space, zip_size,
offset, mtr));
}
/* If we get here, the page was not in buf_pool: init it there */
#ifdef UNIV_DEBUG
if (buf_debug_prints) {
fprintf(stderr, "Creating space %lu page %lu to buffer\n",
(ulong) space, (ulong) offset);
}
#endif /* UNIV_DEBUG */
block = free_block;
mutex_enter(&block->mutex);
buf_page_init(space, offset, fold, block);
/* The block must be put to the LRU list */
buf_LRU_add_block(&block->page, FALSE);
buf_block_buf_fix_inc(block, __FILE__, __LINE__);
buf_pool->stat.n_pages_created++;
if (zip_size) {
void* data;
ibool lru;
/* Prevent race conditions during buf_buddy_alloc(),
which may release and reacquire buf_pool->mutex,
by IO-fixing and X-latching the block. */
buf_page_set_io_fix(&block->page, BUF_IO_READ);
rw_lock_x_lock(&block->lock);
page_zip_set_size(&block->page.zip, zip_size);
mutex_exit(&block->mutex);
/* buf_pool->mutex may be released and reacquired by
buf_buddy_alloc(). Thus, we must release block->mutex
in order not to break the latching order in
the reacquisition of buf_pool->mutex. We also must
defer this operation until after the block descriptor
has been added to buf_pool->LRU and buf_pool->page_hash. */
data = buf_buddy_alloc(buf_pool, zip_size, &lru);
mutex_enter(&block->mutex);
block->page.zip.data = data;
/* To maintain the invariant
block->in_unzip_LRU_list
== buf_page_belongs_to_unzip_LRU(&block->page)
we have to add this block to unzip_LRU after
block->page.zip.data is set. */
ut_ad(buf_page_belongs_to_unzip_LRU(&block->page));
buf_unzip_LRU_add_block(block, FALSE);
buf_page_set_io_fix(&block->page, BUF_IO_NONE);
rw_lock_x_unlock(&block->lock);
}
buf_page_set_accessed(&block->page, time_ms);
buf_pool_mutex_exit(buf_pool);
mtr_memo_push(mtr, block, MTR_MEMO_BUF_FIX);
mutex_exit(&block->mutex);
/* Delete possible entries for the page from the insert buffer:
such can exist if the page belonged to an index which was dropped */
ibuf_merge_or_delete_for_page(NULL, space, offset, zip_size, TRUE);
/* Flush pages from the end of the LRU list if necessary */
buf_flush_free_margin(buf_pool);
frame = block->frame;
memset(frame + FIL_PAGE_PREV, 0xff, 4);
memset(frame + FIL_PAGE_NEXT, 0xff, 4);
mach_write_to_2(frame + FIL_PAGE_TYPE, FIL_PAGE_TYPE_ALLOCATED);
/* Reset to zero the file flush lsn field in the page; if the first
page of an ibdata file is 'created' in this function into the buffer
pool then we lose the original contents of the file flush lsn stamp.
Then InnoDB could in a crash recovery print a big, false, corruption
warning if the stamp contains an lsn bigger than the ib_logfile lsn. */
memset(frame + FIL_PAGE_FILE_FLUSH_LSN, 0, 8);
#if defined UNIV_DEBUG || defined UNIV_BUF_DEBUG
ut_a(++buf_dbg_counter % 357 || buf_validate());
#endif /* UNIV_DEBUG || UNIV_BUF_DEBUG */
#ifdef UNIV_IBUF_COUNT_DEBUG
ut_a(ibuf_count_get(buf_block_get_space(block),
buf_block_get_page_no(block)) == 0);
#endif
return(block);
}
/********************************************************************//**
Completes an asynchronous read or write request of a file page to or from
the buffer pool. */
UNIV_INTERN
void
buf_page_io_complete(
/*=================*/
buf_page_t* bpage) /*!< in: pointer to the block in question */
{
enum buf_io_fix io_type;
buf_pool_t* buf_pool = buf_pool_from_bpage(bpage);
const ibool uncompressed = (buf_page_get_state(bpage)
== BUF_BLOCK_FILE_PAGE);
ut_a(buf_page_in_file(bpage));
/* We do not need protect io_fix here by mutex to read
it because this is the only function where we can change the value
from BUF_IO_READ or BUF_IO_WRITE to some other value, and our code
ensures that this is the only thread that handles the i/o for this
block. */
io_type = buf_page_get_io_fix(bpage);
ut_ad(io_type == BUF_IO_READ || io_type == BUF_IO_WRITE);
if (io_type == BUF_IO_READ) {
ulint read_page_no;
ulint read_space_id;
byte* frame;
if (buf_page_get_zip_size(bpage)) {
frame = bpage->zip.data;
buf_pool->n_pend_unzip++;
if (uncompressed
&& !buf_zip_decompress((buf_block_t*) bpage,
FALSE)) {
buf_pool->n_pend_unzip--;
goto corrupt;
}
buf_pool->n_pend_unzip--;
} else {
ut_a(uncompressed);
frame = ((buf_block_t*) bpage)->frame;
}
/* If this page is not uninitialized and not in the
doublewrite buffer, then the page number and space id
should be the same as in block. */
read_page_no = mach_read_from_4(frame + FIL_PAGE_OFFSET);
read_space_id = mach_read_from_4(
frame + FIL_PAGE_ARCH_LOG_NO_OR_SPACE_ID);
if (bpage->space == TRX_SYS_SPACE
&& trx_doublewrite_page_inside(bpage->offset)) {
ut_print_timestamp(stderr);
fprintf(stderr,
" InnoDB: Error: reading page %lu\n"
"InnoDB: which is in the"
" doublewrite buffer!\n",
(ulong) bpage->offset);
} else if (!read_space_id && !read_page_no) {
/* This is likely an uninitialized page. */
} else if ((bpage->space
&& bpage->space != read_space_id)
|| bpage->offset != read_page_no) {
/* We did not compare space_id to read_space_id
if bpage->space == 0, because the field on the
page may contain garbage in MySQL < 4.1.1,
which only supported bpage->space == 0. */
ut_print_timestamp(stderr);
fprintf(stderr,
" InnoDB: Error: space id and page n:o"
" stored in the page\n"
"InnoDB: read in are %lu:%lu,"
" should be %lu:%lu!\n",
(ulong) read_space_id, (ulong) read_page_no,
(ulong) bpage->space,
(ulong) bpage->offset);
}
/* From version 3.23.38 up we store the page checksum
to the 4 first bytes of the page end lsn field */
if (buf_page_is_corrupted(frame,
buf_page_get_zip_size(bpage))) {
corrupt:
fprintf(stderr,
"InnoDB: Database page corruption on disk"
" or a failed\n"
"InnoDB: file read of page %lu.\n"
"InnoDB: You may have to recover"
" from a backup.\n",
(ulong) bpage->offset);
buf_page_print(frame, buf_page_get_zip_size(bpage));
fprintf(stderr,
"InnoDB: Database page corruption on disk"
" or a failed\n"
"InnoDB: file read of page %lu.\n"
"InnoDB: You may have to recover"
" from a backup.\n",
(ulong) bpage->offset);
fputs("InnoDB: It is also possible that"
" your operating\n"
"InnoDB: system has corrupted its"
" own file cache\n"
"InnoDB: and rebooting your computer"
" removes the\n"
"InnoDB: error.\n"
"InnoDB: If the corrupt page is an index page\n"
"InnoDB: you can also try to"
" fix the corruption\n"
"InnoDB: by dumping, dropping,"
" and reimporting\n"
"InnoDB: the corrupt table."
" You can use CHECK\n"
"InnoDB: TABLE to scan your"
" table for corruption.\n"
"InnoDB: See also "
REFMAN "forcing-recovery.html\n"
"InnoDB: about forcing recovery.\n", stderr);
if (srv_force_recovery < SRV_FORCE_IGNORE_CORRUPT) {
fputs("InnoDB: Ending processing because of"
" a corrupt database page.\n",
stderr);
exit(1);
}
}
if (recv_recovery_is_on()) {
/* Pages must be uncompressed for crash recovery. */
ut_a(uncompressed);
recv_recover_page(TRUE, (buf_block_t*) bpage);
}
if (uncompressed && !recv_no_ibuf_operations) {
ibuf_merge_or_delete_for_page(
(buf_block_t*) bpage, bpage->space,
bpage->offset, buf_page_get_zip_size(bpage),
TRUE);
}
}
buf_pool_mutex_enter(buf_pool);
mutex_enter(buf_page_get_mutex(bpage));
#ifdef UNIV_IBUF_COUNT_DEBUG
if (io_type == BUF_IO_WRITE || uncompressed) {
/* For BUF_IO_READ of compressed-only blocks, the
buffered operations will be merged by buf_page_get_gen()
after the block has been uncompressed. */
ut_a(ibuf_count_get(bpage->space, bpage->offset) == 0);
}
#endif
/* Because this thread which does the unlocking is not the same that
did the locking, we use a pass value != 0 in unlock, which simply
removes the newest lock debug record, without checking the thread
id. */
buf_page_set_io_fix(bpage, BUF_IO_NONE);
switch (io_type) {
case BUF_IO_READ:
/* NOTE that the call to ibuf may have moved the ownership of
the x-latch to this OS thread: do not let this confuse you in
debugging! */
ut_ad(buf_pool->n_pend_reads > 0);
buf_pool->n_pend_reads--;
buf_pool->stat.n_pages_read++;
if (uncompressed) {
rw_lock_x_unlock_gen(&((buf_block_t*) bpage)->lock,
BUF_IO_READ);
}
break;
case BUF_IO_WRITE:
/* Write means a flush operation: call the completion
routine in the flush system */
buf_flush_write_complete(bpage);
if (uncompressed) {
rw_lock_s_unlock_gen(&((buf_block_t*) bpage)->lock,
BUF_IO_WRITE);
}
buf_pool->stat.n_pages_written++;
break;
default:
ut_error;
}
#ifdef UNIV_DEBUG
if (buf_debug_prints) {
fprintf(stderr, "Has %s page space %lu page no %lu\n",
io_type == BUF_IO_READ ? "read" : "written",
(ulong) buf_page_get_space(bpage),
(ulong) buf_page_get_page_no(bpage));
}
#endif /* UNIV_DEBUG */
mutex_exit(buf_page_get_mutex(bpage));
buf_pool_mutex_exit(buf_pool);
}
/*********************************************************************//**
Asserts that all file pages in the buffer are in a replaceable state.
@return TRUE */
static
ibool
buf_all_freed_instance(
/*===================*/
buf_pool_t* buf_pool) /*!< in: buffer pool instancce */
{
ulint i;
buf_chunk_t* chunk;
ut_ad(buf_pool);
buf_pool_mutex_enter(buf_pool);
chunk = buf_pool->chunks;
for (i = buf_pool->n_chunks; i--; chunk++) {
const buf_block_t* block = buf_chunk_not_freed(chunk);
if (UNIV_LIKELY_NULL(block)) {
fprintf(stderr,
"Page %lu %lu still fixed or dirty\n",
(ulong) block->page.space,
(ulong) block->page.offset);
ut_error;
}
}
buf_pool_mutex_exit(buf_pool);
return(TRUE);
}
/*********************************************************************//**
Invalidates file pages in one buffer pool instance */
static
void
buf_pool_invalidate_instance(
/*=========================*/
buf_pool_t* buf_pool) /*!< in: buffer pool instance */
{
ibool freed;
enum buf_flush i;
buf_pool_mutex_enter(buf_pool);
for (i = BUF_FLUSH_LRU; i < BUF_FLUSH_N_TYPES; i++) {
/* As this function is called during startup and
during redo application phase during recovery, InnoDB
is single threaded (apart from IO helper threads) at
this stage. No new write batch can be in intialization
stage at this point. */
ut_ad(buf_pool->init_flush[i] == FALSE);
/* However, it is possible that a write batch that has
been posted earlier is still not complete. For buffer
pool invalidation to proceed we must ensure there is NO
write activity happening. */
if (buf_pool->n_flush[i] > 0) {
buf_pool_mutex_exit(buf_pool);
buf_flush_wait_batch_end(buf_pool, i);
buf_pool_mutex_enter(buf_pool);
}
}
buf_pool_mutex_exit(buf_pool);
ut_ad(buf_all_freed_instance(buf_pool));
freed = TRUE;
while (freed) {
freed = buf_LRU_search_and_free_block(buf_pool, 100);
}
buf_pool_mutex_enter(buf_pool);
ut_ad(UT_LIST_GET_LEN(buf_pool->LRU) == 0);
ut_ad(UT_LIST_GET_LEN(buf_pool->unzip_LRU) == 0);
buf_pool->freed_page_clock = 0;
buf_pool->LRU_old = NULL;
buf_pool->LRU_old_len = 0;
buf_pool->LRU_flush_ended = 0;
memset(&buf_pool->stat, 0x00, sizeof(buf_pool->stat));
buf_refresh_io_stats(buf_pool);
buf_pool_mutex_exit(buf_pool);
}
/*********************************************************************//**
Invalidates the file pages in the buffer pool when an archive recovery is
completed. All the file pages buffered must be in a replaceable state when
this function is called: not latched and not modified. */
UNIV_INTERN
void
buf_pool_invalidate(void)
/*=====================*/
{
ulint i;
for (i = 0; i < srv_buf_pool_instances; i++) {
buf_pool_invalidate_instance(buf_pool_from_array(i));
}
}
#if defined UNIV_DEBUG || defined UNIV_BUF_DEBUG
/*********************************************************************//**
Validates data in one buffer pool instance
@return TRUE */
static
ibool
buf_pool_validate_instance(
/*=======================*/
buf_pool_t* buf_pool) /*!< in: buffer pool instance */
{
buf_page_t* b;
buf_chunk_t* chunk;
ulint i;
ulint n_single_flush = 0;
ulint n_lru_flush = 0;
ulint n_list_flush = 0;
ulint n_lru = 0;
ulint n_flush = 0;
ulint n_free = 0;
ulint n_zip = 0;
ut_ad(buf_pool);
buf_pool_mutex_enter(buf_pool);
chunk = buf_pool->chunks;
/* Check the uncompressed blocks. */
for (i = buf_pool->n_chunks; i--; chunk++) {
ulint j;
buf_block_t* block = chunk->blocks;
for (j = chunk->size; j--; block++) {
mutex_enter(&block->mutex);
switch (buf_block_get_state(block)) {
case BUF_BLOCK_ZIP_FREE:
case BUF_BLOCK_ZIP_PAGE:
case BUF_BLOCK_ZIP_DIRTY:
/* These should only occur on
zip_clean, zip_free[], or flush_list. */
ut_error;
break;
case BUF_BLOCK_FILE_PAGE:
ut_a(buf_page_hash_get(buf_pool,
buf_block_get_space(
block),
buf_block_get_page_no(
block))
== &block->page);
#ifdef UNIV_IBUF_COUNT_DEBUG
ut_a(buf_page_get_io_fix(&block->page)
== BUF_IO_READ
|| !ibuf_count_get(buf_block_get_space(
block),
buf_block_get_page_no(
block)));
#endif
switch (buf_page_get_io_fix(&block->page)) {
case BUF_IO_NONE:
break;
case BUF_IO_WRITE:
switch (buf_page_get_flush_type(
&block->page)) {
case BUF_FLUSH_LRU:
n_lru_flush++;
ut_a(rw_lock_is_locked(
&block->lock,
RW_LOCK_SHARED));
break;
case BUF_FLUSH_LIST:
n_list_flush++;
break;
case BUF_FLUSH_SINGLE_PAGE:
n_single_flush++;
break;
default:
ut_error;
}
break;
case BUF_IO_READ:
ut_a(rw_lock_is_locked(&block->lock,
RW_LOCK_EX));
break;
}
n_lru++;
break;
case BUF_BLOCK_NOT_USED:
n_free++;
break;
case BUF_BLOCK_READY_FOR_USE:
case BUF_BLOCK_MEMORY:
case BUF_BLOCK_REMOVE_HASH:
/* do nothing */
break;
}
mutex_exit(&block->mutex);
}
}
mutex_enter(&buf_pool->zip_mutex);
/* Check clean compressed-only blocks. */
for (b = UT_LIST_GET_FIRST(buf_pool->zip_clean); b;
b = UT_LIST_GET_NEXT(list, b)) {
ut_a(buf_page_get_state(b) == BUF_BLOCK_ZIP_PAGE);
switch (buf_page_get_io_fix(b)) {
case BUF_IO_NONE:
/* All clean blocks should be I/O-unfixed. */
break;
case BUF_IO_READ:
/* In buf_LRU_free_block(), we temporarily set
b->io_fix = BUF_IO_READ for a newly allocated
control block in order to prevent
buf_page_get_gen() from decompressing the block. */
break;
default:
ut_error;
break;
}
/* It is OK to read oldest_modification here because
we have acquired buf_pool->zip_mutex above which acts
as the 'block->mutex' for these bpages. */
ut_a(!b->oldest_modification);
ut_a(buf_page_hash_get(buf_pool, b->space, b->offset) == b);
n_lru++;
n_zip++;
}
/* Check dirty blocks. */
buf_flush_list_mutex_enter(buf_pool);
for (b = UT_LIST_GET_FIRST(buf_pool->flush_list); b;
b = UT_LIST_GET_NEXT(list, b)) {
ut_ad(b->in_flush_list);
ut_a(b->oldest_modification);
n_flush++;
switch (buf_page_get_state(b)) {
case BUF_BLOCK_ZIP_DIRTY:
n_lru++;
n_zip++;
switch (buf_page_get_io_fix(b)) {
case BUF_IO_NONE:
case BUF_IO_READ:
break;
case BUF_IO_WRITE:
switch (buf_page_get_flush_type(b)) {
case BUF_FLUSH_LRU:
n_lru_flush++;
break;
case BUF_FLUSH_LIST:
n_list_flush++;
break;
case BUF_FLUSH_SINGLE_PAGE:
n_single_flush++;
break;
default:
ut_error;
}
break;
}
break;
case BUF_BLOCK_FILE_PAGE:
/* uncompressed page */
break;
case BUF_BLOCK_ZIP_FREE:
case BUF_BLOCK_ZIP_PAGE:
case BUF_BLOCK_NOT_USED:
case BUF_BLOCK_READY_FOR_USE:
case BUF_BLOCK_MEMORY:
case BUF_BLOCK_REMOVE_HASH:
ut_error;
break;
}
ut_a(buf_page_hash_get(buf_pool, b->space, b->offset) == b);
}
ut_a(UT_LIST_GET_LEN(buf_pool->flush_list) == n_flush);
buf_flush_list_mutex_exit(buf_pool);
mutex_exit(&buf_pool->zip_mutex);
if (n_lru + n_free > buf_pool->curr_size + n_zip) {
fprintf(stderr, "n LRU %lu, n free %lu, pool %lu zip %lu\n",
(ulong) n_lru, (ulong) n_free,
(ulong) buf_pool->curr_size, (ulong) n_zip);
ut_error;
}
ut_a(UT_LIST_GET_LEN(buf_pool->LRU) == n_lru);
if (UT_LIST_GET_LEN(buf_pool->free) != n_free) {
fprintf(stderr, "Free list len %lu, free blocks %lu\n",
(ulong) UT_LIST_GET_LEN(buf_pool->free),
(ulong) n_free);
ut_error;
}
ut_a(buf_pool->n_flush[BUF_FLUSH_SINGLE_PAGE] == n_single_flush);
ut_a(buf_pool->n_flush[BUF_FLUSH_LIST] == n_list_flush);
ut_a(buf_pool->n_flush[BUF_FLUSH_LRU] == n_lru_flush);
buf_pool_mutex_exit(buf_pool);
ut_a(buf_LRU_validate());
ut_a(buf_flush_validate(buf_pool));
return(TRUE);
}
/*********************************************************************//**
Validates the buffer buf_pool data structure.
@return TRUE */
UNIV_INTERN
ibool
buf_validate(void)
/*==============*/
{
ulint i;
for (i = 0; i < srv_buf_pool_instances; i++) {
buf_pool_t* buf_pool;
buf_pool = buf_pool_from_array(i);
buf_pool_validate_instance(buf_pool);
}
return(TRUE);
}
#endif /* UNIV_DEBUG || UNIV_BUF_DEBUG */
#if defined UNIV_DEBUG_PRINT || defined UNIV_DEBUG || defined UNIV_BUF_DEBUG
/*********************************************************************//**
Prints info of the buffer buf_pool data structure for one instance. */
static
void
buf_print_instance(
/*===============*/
buf_pool_t* buf_pool)
{
dulint* index_ids;
ulint* counts;
ulint size;
ulint i;
ulint j;
dulint id;
ulint n_found;
buf_chunk_t* chunk;
dict_index_t* index;
ut_ad(buf_pool);
size = buf_pool->curr_size;
index_ids = mem_alloc(sizeof(dulint) * size);
counts = mem_alloc(sizeof(ulint) * size);
buf_pool_mutex_enter(buf_pool);
buf_flush_list_mutex_enter(buf_pool);
fprintf(stderr,
"buf_pool size %lu\n"
"database pages %lu\n"
"free pages %lu\n"
"modified database pages %lu\n"
"n pending decompressions %lu\n"
"n pending reads %lu\n"
"n pending flush LRU %lu list %lu single page %lu\n"
"pages made young %lu, not young %lu\n"
"pages read %lu, created %lu, written %lu\n",
(ulong) size,
(ulong) UT_LIST_GET_LEN(buf_pool->LRU),
(ulong) UT_LIST_GET_LEN(buf_pool->free),
(ulong) UT_LIST_GET_LEN(buf_pool->flush_list),
(ulong) buf_pool->n_pend_unzip,
(ulong) buf_pool->n_pend_reads,
(ulong) buf_pool->n_flush[BUF_FLUSH_LRU],
(ulong) buf_pool->n_flush[BUF_FLUSH_LIST],
(ulong) buf_pool->n_flush[BUF_FLUSH_SINGLE_PAGE],
(ulong) buf_pool->stat.n_pages_made_young,
(ulong) buf_pool->stat.n_pages_not_made_young,
(ulong) buf_pool->stat.n_pages_read,
(ulong) buf_pool->stat.n_pages_created,
(ulong) buf_pool->stat.n_pages_written);
buf_flush_list_mutex_exit(buf_pool);
/* Count the number of blocks belonging to each index in the buffer */
n_found = 0;
chunk = buf_pool->chunks;
for (i = buf_pool->n_chunks; i--; chunk++) {
buf_block_t* block = chunk->blocks;
ulint n_blocks = chunk->size;
for (; n_blocks--; block++) {
const buf_frame_t* frame = block->frame;
if (fil_page_get_type(frame) == FIL_PAGE_INDEX) {
id = btr_page_get_index_id(frame);
/* Look for the id in the index_ids array */
j = 0;
while (j < n_found) {
if (ut_dulint_cmp(index_ids[j],
id) == 0) {
counts[j]++;
break;
}
j++;
}
if (j == n_found) {
n_found++;
index_ids[j] = id;
counts[j] = 1;
}
}
}
}
buf_pool_mutex_exit(buf_pool);
for (i = 0; i < n_found; i++) {
index = dict_index_get_if_in_cache(index_ids[i]);
fprintf(stderr,
"Block count for index %lu in buffer is about %lu",
(ulong) ut_dulint_get_low(index_ids[i]),
(ulong) counts[i]);
if (index) {
putc(' ', stderr);
dict_index_name_print(stderr, NULL, index);
}
putc('\n', stderr);
}
mem_free(index_ids);
mem_free(counts);
ut_a(buf_pool_validate_instance(buf_pool));
}
/*********************************************************************//**
Prints info of the buffer buf_pool data structure. */
UNIV_INTERN
void
buf_print(void)
/*===========*/
{
ulint i;
for (i = 0; i < srv_buf_pool_instances; i++) {
buf_pool_t* buf_pool;
buf_pool = buf_pool_from_array(i);
buf_print_instance(buf_pool);
}
}
#endif /* UNIV_DEBUG_PRINT || UNIV_DEBUG || UNIV_BUF_DEBUG */
#ifdef UNIV_DEBUG
/*********************************************************************//**
Returns the number of latched pages in the buffer pool.
@return number of latched pages */
UNIV_INTERN
ulint
buf_get_latched_pages_number_instance(
/*==================================*/
buf_pool_t* buf_pool) /*!< in: buffer pool instance */
{
buf_page_t* b;
ulint i;
buf_chunk_t* chunk;
ulint fixed_pages_number = 0;
buf_pool_mutex_enter(buf_pool);
chunk = buf_pool->chunks;
for (i = buf_pool->n_chunks; i--; chunk++) {
buf_block_t* block;
ulint j;
block = chunk->blocks;
for (j = chunk->size; j--; block++) {
if (buf_block_get_state(block)
!= BUF_BLOCK_FILE_PAGE) {
continue;
}
mutex_enter(&block->mutex);
if (block->page.buf_fix_count != 0
|| buf_page_get_io_fix(&block->page)
!= BUF_IO_NONE) {
fixed_pages_number++;
}
mutex_exit(&block->mutex);
}
}
mutex_enter(&buf_pool->zip_mutex);
/* Traverse the lists of clean and dirty compressed-only blocks. */
for (b = UT_LIST_GET_FIRST(buf_pool->zip_clean); b;
b = UT_LIST_GET_NEXT(list, b)) {
ut_a(buf_page_get_state(b) == BUF_BLOCK_ZIP_PAGE);
ut_a(buf_page_get_io_fix(b) != BUF_IO_WRITE);
if (b->buf_fix_count != 0
|| buf_page_get_io_fix(b) != BUF_IO_NONE) {
fixed_pages_number++;
}
}
buf_flush_list_mutex_enter(buf_pool);
for (b = UT_LIST_GET_FIRST(buf_pool->flush_list); b;
b = UT_LIST_GET_NEXT(list, b)) {
ut_ad(b->in_flush_list);
switch (buf_page_get_state(b)) {
case BUF_BLOCK_ZIP_DIRTY:
if (b->buf_fix_count != 0
|| buf_page_get_io_fix(b) != BUF_IO_NONE) {
fixed_pages_number++;
}
break;
case BUF_BLOCK_FILE_PAGE:
/* uncompressed page */
break;
case BUF_BLOCK_ZIP_FREE:
case BUF_BLOCK_ZIP_PAGE:
case BUF_BLOCK_NOT_USED:
case BUF_BLOCK_READY_FOR_USE:
case BUF_BLOCK_MEMORY:
case BUF_BLOCK_REMOVE_HASH:
ut_error;
break;
}
}
buf_flush_list_mutex_exit(buf_pool);
mutex_exit(&buf_pool->zip_mutex);
buf_pool_mutex_exit(buf_pool);
return(fixed_pages_number);
}
/*********************************************************************//**
Returns the number of latched pages in all the buffer pools.
@return number of latched pages */
UNIV_INTERN
ulint
buf_get_latched_pages_number(void)
/*==============================*/
{
ulint i;
ulint total_latched_pages = 0;
for (i = 0; i < srv_buf_pool_instances; i++) {
buf_pool_t* buf_pool;
buf_pool = buf_pool_from_array(i);
total_latched_pages += buf_get_latched_pages_number_instance(
buf_pool);
}
return(total_latched_pages);
}
#endif /* UNIV_DEBUG */
/*********************************************************************//**
Returns the number of pending buf pool ios.
@return number of pending I/O operations */
UNIV_INTERN
ulint
buf_get_n_pending_ios(void)
/*=======================*/
{
ulint i;
ulint pend_ios = 0;
for (i = 0; i < srv_buf_pool_instances; i++) {
buf_pool_t* buf_pool;
buf_pool = buf_pool_from_array(i);
pend_ios +=
buf_pool->n_pend_reads
+ buf_pool->n_flush[BUF_FLUSH_LRU]
+ buf_pool->n_flush[BUF_FLUSH_LIST]
+ buf_pool->n_flush[BUF_FLUSH_SINGLE_PAGE];
}
return(pend_ios);
}
/*********************************************************************//**
Returns the ratio in percents of modified pages in the buffer pool /
database pages in the buffer pool.
@return modified page percentage ratio */
UNIV_INTERN
ulint
buf_get_modified_ratio_pct(void)
/*============================*/
{
ulint ratio;
ulint lru_len = 0;
ulint free_len = 0;
ulint flush_list_len = 0;
buf_get_total_list_len(&lru_len, &free_len, &flush_list_len);
ratio = (100 * flush_list_len) / (1 + lru_len + free_len);
/* 1 + is there to avoid division by zero */
return(ratio);
}
/*********************************************************************//**
Prints info of the buffer i/o. */
static
void
buf_print_io_instance(
/*==================*/
buf_pool_t* buf_pool, /*!< in: buffer pool instance */
FILE* file) /*!< in/out: buffer where to print */
{
time_t current_time;
double time_elapsed;
ulint n_gets_diff;
ut_ad(buf_pool);
buf_pool_mutex_enter(buf_pool);
buf_flush_list_mutex_enter(buf_pool);
fprintf(file,
"Buffer pool size %lu\n"
"Free buffers %lu\n"
"Database pages %lu\n"
"Old database pages %lu\n"
"Modified db pages %lu\n"
"Pending reads %lu\n"
"Pending writes: LRU %lu, flush list %lu, single page %lu\n",
(ulong) buf_pool->curr_size,
(ulong) UT_LIST_GET_LEN(buf_pool->free),
(ulong) UT_LIST_GET_LEN(buf_pool->LRU),
(ulong) buf_pool->LRU_old_len,
(ulong) UT_LIST_GET_LEN(buf_pool->flush_list),
(ulong) buf_pool->n_pend_reads,
(ulong) buf_pool->n_flush[BUF_FLUSH_LRU]
+ buf_pool->init_flush[BUF_FLUSH_LRU],
(ulong) buf_pool->n_flush[BUF_FLUSH_LIST]
+ buf_pool->init_flush[BUF_FLUSH_LIST],
(ulong) buf_pool->n_flush[BUF_FLUSH_SINGLE_PAGE]);
buf_flush_list_mutex_exit(buf_pool);
current_time = time(NULL);
time_elapsed = 0.001 + difftime(current_time,
buf_pool->last_printout_time);
fprintf(file,
"Pages made young %lu, not young %lu\n"
"%.2f youngs/s, %.2f non-youngs/s\n"
"Pages read %lu, created %lu, written %lu\n"
"%.2f reads/s, %.2f creates/s, %.2f writes/s\n",
(ulong) buf_pool->stat.n_pages_made_young,
(ulong) buf_pool->stat.n_pages_not_made_young,
(buf_pool->stat.n_pages_made_young
- buf_pool->old_stat.n_pages_made_young)
/ time_elapsed,
(buf_pool->stat.n_pages_not_made_young
- buf_pool->old_stat.n_pages_not_made_young)
/ time_elapsed,
(ulong) buf_pool->stat.n_pages_read,
(ulong) buf_pool->stat.n_pages_created,
(ulong) buf_pool->stat.n_pages_written,
(buf_pool->stat.n_pages_read
- buf_pool->old_stat.n_pages_read)
/ time_elapsed,
(buf_pool->stat.n_pages_created
- buf_pool->old_stat.n_pages_created)
/ time_elapsed,
(buf_pool->stat.n_pages_written
- buf_pool->old_stat.n_pages_written)
/ time_elapsed);
n_gets_diff = buf_pool->stat.n_page_gets
- buf_pool->old_stat.n_page_gets;
if (n_gets_diff) {
fprintf(file,
"Buffer pool hit rate %lu / 1000,"
" young-making rate %lu / 1000 not %lu / 1000\n",
(ulong)
(1000 - ((1000 * (buf_pool->stat.n_pages_read
- buf_pool->old_stat.n_pages_read))
/ (buf_pool->stat.n_page_gets
- buf_pool->old_stat.n_page_gets))),
(ulong)
(1000 * (buf_pool->stat.n_pages_made_young
- buf_pool->old_stat.n_pages_made_young)
/ n_gets_diff),
(ulong)
(1000 * (buf_pool->stat.n_pages_not_made_young
- buf_pool->old_stat.n_pages_not_made_young)
/ n_gets_diff));
} else {
fputs("No buffer pool page gets since the last printout\n",
file);
}
/* Statistics about read ahead algorithm */
fprintf(file, "Pages read ahead %.2f/s,"
" evicted without access %.2f/s\n",
(buf_pool->stat.n_ra_pages_read
- buf_pool->old_stat.n_ra_pages_read)
/ time_elapsed,
(buf_pool->stat.n_ra_pages_evicted
- buf_pool->old_stat.n_ra_pages_evicted)
/ time_elapsed);
/* Print some values to help us with visualizing what is
happening with LRU eviction. */
fprintf(file,
"LRU len: %lu, unzip_LRU len: %lu\n"
"I/O sum[%lu]:cur[%lu], unzip sum[%lu]:cur[%lu]\n",
UT_LIST_GET_LEN(buf_pool->LRU),
UT_LIST_GET_LEN(buf_pool->unzip_LRU),
buf_LRU_stat_sum.io, buf_LRU_stat_cur.io,
buf_LRU_stat_sum.unzip, buf_LRU_stat_cur.unzip);
buf_refresh_io_stats(buf_pool);
buf_pool_mutex_exit(buf_pool);
}
/*********************************************************************//**
Prints info of the buffer i/o. */
UNIV_INTERN
void
buf_print_io(
/*=========*/
FILE* file) /*!< in/out: buffer where to print */
{
ulint i;
for (i = 0; i < srv_buf_pool_instances; i++) {
buf_pool_t* buf_pool;
buf_pool = buf_pool_from_array(i);
buf_print_io_instance(buf_pool, file);
}
}
/**********************************************************************//**
Refreshes the statistics used to print per-second averages. */
UNIV_INTERN
void
buf_refresh_io_stats(
/*=================*/
buf_pool_t* buf_pool) /*!< in: buffer pool instance */
{
buf_pool->last_printout_time = ut_time();
buf_pool->old_stat = buf_pool->stat;
}
/**********************************************************************//**
Refreshes the statistics used to print per-second averages. */
UNIV_INTERN
void
buf_refresh_io_stats_all(void)
/*==========================*/
{
ulint i;
for (i = 0; i < srv_buf_pool_instances; i++) {
buf_pool_t* buf_pool;
buf_pool = buf_pool_from_array(i);
buf_refresh_io_stats(buf_pool);
}
}
/**********************************************************************//**
Check if all pages in all buffer pools are in a replacable state.
@return FALSE if not */
UNIV_INTERN
ibool
buf_all_freed(void)
/*===============*/
{
ulint i;
for (i = 0; i < srv_buf_pool_instances; i++) {
buf_pool_t* buf_pool;
buf_pool = buf_pool_from_array(i);
if (!buf_all_freed_instance(buf_pool)) {
return(FALSE);
}
}
return(TRUE);
}
/*********************************************************************//**
Checks that there currently are no pending i/o-operations for the buffer
pool.
@return TRUE if there is no pending i/o */
UNIV_INTERN
ibool
buf_pool_check_no_pending_io(void)
/*==============================*/
{
ulint i;
ibool ret = TRUE;
buf_pool_mutex_enter_all();
for (i = 0; i < srv_buf_pool_instances && ret; i++) {
const buf_pool_t* buf_pool;
buf_pool = buf_pool_from_array(i);
if (buf_pool->n_pend_reads
+ buf_pool->n_flush[BUF_FLUSH_LRU]
+ buf_pool->n_flush[BUF_FLUSH_LIST]
+ buf_pool->n_flush[BUF_FLUSH_SINGLE_PAGE]) {
ret = FALSE;
}
}
buf_pool_mutex_exit_all();
return(ret);
}
#if 0
Code currently not used
/*********************************************************************//**
Gets the current length of the free list of buffer blocks.
@return length of the free list */
UNIV_INTERN
ulint
buf_get_free_list_len(void)
/*=======================*/
{
ulint len;
buf_pool_mutex_enter(buf_pool);
len = UT_LIST_GET_LEN(buf_pool->free);
buf_pool_mutex_exit(buf_pool);
return(len);
}
#endif
#else /* !UNIV_HOTBACKUP */
/********************************************************************//**
Inits a page to the buffer buf_pool, for use in ibbackup --restore. */
UNIV_INTERN
void
buf_page_init_for_backup_restore(
/*=============================*/
ulint space, /*!< in: space id */
ulint offset, /*!< in: offset of the page within space
in units of a page */
ulint zip_size,/*!< in: compressed page size in bytes
or 0 for uncompressed pages */
buf_block_t* block) /*!< in: block to init */
{
block->page.state = BUF_BLOCK_FILE_PAGE;
block->page.space = space;
block->page.offset = offset;
page_zip_des_init(&block->page.zip);
/* We assume that block->page.data has been allocated
with zip_size == UNIV_PAGE_SIZE. */
ut_ad(zip_size <= UNIV_PAGE_SIZE);
ut_ad(ut_is_2pow(zip_size));
page_zip_set_size(&block->page.zip, zip_size);
if (zip_size) {
block->page.zip.data = block->frame + UNIV_PAGE_SIZE;
}
}
#endif /* !UNIV_HOTBACKUP */
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