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|
/*****************************************************************************
Copyright (c) 1995, 2016, Oracle and/or its affiliates. All Rights Reserved.
Copyright (c) 2017, MariaDB Corporation.
This program is free software; you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free Software
Foundation; version 2 of the License.
This program is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details.
You should have received a copy of the GNU General Public License along with
this program; if not, write to the Free Software Foundation, Inc.,
51 Franklin Street, Suite 500, Boston, MA 02110-1335 USA
*****************************************************************************/
/**************************************************//**
@file buf/buf0lru.cc
The database buffer replacement algorithm
Created 11/5/1995 Heikki Tuuri
*******************************************************/
#include "buf0lru.h"
#ifndef UNIV_HOTBACKUP
#ifdef UNIV_NONINL
#include "buf0lru.ic"
#endif
#include "ut0byte.h"
#include "ut0lst.h"
#include "ut0rnd.h"
#include "sync0sync.h"
#include "sync0rw.h"
#include "hash0hash.h"
#include "os0sync.h"
#include "fil0fil.h"
#include "btr0btr.h"
#include "buf0buddy.h"
#include "buf0buf.h"
#include "buf0dblwr.h"
#include "buf0flu.h"
#include "buf0rea.h"
#include "btr0sea.h"
#include "ibuf0ibuf.h"
#include "os0file.h"
#include "page0zip.h"
#include "log0recv.h"
#include "srv0srv.h"
#include "srv0mon.h"
#include "lock0lock.h"
#include "ha_prototypes.h"
/** The number of blocks from the LRU_old pointer onward, including
the block pointed to, must be buf_pool->LRU_old_ratio/BUF_LRU_OLD_RATIO_DIV
of the whole LRU list length, except that the tolerance defined below
is allowed. Note that the tolerance must be small enough such that for
even the BUF_LRU_OLD_MIN_LEN long LRU list, the LRU_old pointer is not
allowed to point to either end of the LRU list. */
#define BUF_LRU_OLD_TOLERANCE 20
/** The minimum amount of non-old blocks when the LRU_old list exists
(that is, when there are more than BUF_LRU_OLD_MIN_LEN blocks).
@see buf_LRU_old_adjust_len */
#define BUF_LRU_NON_OLD_MIN_LEN 5
#if BUF_LRU_NON_OLD_MIN_LEN >= BUF_LRU_OLD_MIN_LEN
# error "BUF_LRU_NON_OLD_MIN_LEN >= BUF_LRU_OLD_MIN_LEN"
#endif
/** When dropping the search hash index entries before deleting an ibd
file, we build a local array of pages belonging to that tablespace
in the buffer pool. Following is the size of that array.
We also release buf_pool->mutex after scanning this many pages of the
flush_list when dropping a table. This is to ensure that other threads
are not blocked for extended period of time when using very large
buffer pools. */
#define BUF_LRU_DROP_SEARCH_SIZE 1024
/** If we switch on the InnoDB monitor because there are too few available
frames in the buffer pool, we set this to TRUE */
static ibool buf_lru_switched_on_innodb_mon = FALSE;
/******************************************************************//**
These statistics are not 'of' LRU but 'for' LRU. We keep count of I/O
and page_zip_decompress() operations. Based on the statistics,
buf_LRU_evict_from_unzip_LRU() decides if we want to evict from
unzip_LRU or the regular LRU. From unzip_LRU, we will only evict the
uncompressed frame (meaning we can evict dirty blocks as well). From
the regular LRU, we will evict the entire block (i.e.: both the
uncompressed and compressed data), which must be clean. */
/* @{ */
/** Number of intervals for which we keep the history of these stats.
Each interval is 1 second, defined by the rate at which
srv_error_monitor_thread() calls buf_LRU_stat_update(). */
#define BUF_LRU_STAT_N_INTERVAL 50
/** Co-efficient with which we multiply I/O operations to equate them
with page_zip_decompress() operations. */
#define BUF_LRU_IO_TO_UNZIP_FACTOR 50
/** Sampled values buf_LRU_stat_cur.
Not protected by any mutex. Updated by buf_LRU_stat_update(). */
static buf_LRU_stat_t buf_LRU_stat_arr[BUF_LRU_STAT_N_INTERVAL];
/** Cursor to buf_LRU_stat_arr[] that is updated in a round-robin fashion. */
static ulint buf_LRU_stat_arr_ind;
/** Current operation counters. Not protected by any mutex. Cleared
by buf_LRU_stat_update(). */
UNIV_INTERN buf_LRU_stat_t buf_LRU_stat_cur;
/** Running sum of past values of buf_LRU_stat_cur.
Updated by buf_LRU_stat_update(). Not Protected by any mutex. */
UNIV_INTERN buf_LRU_stat_t buf_LRU_stat_sum;
/* @} */
/** @name Heuristics for detecting index scan @{ */
/** Move blocks to "new" LRU list only if the first access was at
least this many milliseconds ago. Not protected by any mutex or latch. */
UNIV_INTERN uint buf_LRU_old_threshold_ms;
/* @} */
/******************************************************************//**
Takes a block out of the LRU list and page hash table.
If the block is compressed-only (BUF_BLOCK_ZIP_PAGE),
the object will be freed.
The caller must hold buf_pool->mutex, the buf_page_get_mutex() mutex
and the appropriate hash_lock. This function will release the
buf_page_get_mutex() and the hash_lock.
If a compressed page is freed other compressed pages may be relocated.
@retval true if BUF_BLOCK_FILE_PAGE was removed from page_hash. The
caller needs to free the page to the free list
@retval false if BUF_BLOCK_ZIP_PAGE was removed from page_hash. In
this case the block is already returned to the buddy allocator. */
static MY_ATTRIBUTE((nonnull, warn_unused_result))
bool
buf_LRU_block_remove_hashed(
/*========================*/
buf_page_t* bpage, /*!< in: block, must contain a file page and
be in a state where it can be freed; there
may or may not be a hash index to the page */
bool zip); /*!< in: true if should remove also the
compressed page of an uncompressed page */
/******************************************************************//**
Puts a file page whose has no hash index to the free list. */
static
void
buf_LRU_block_free_hashed_page(
/*===========================*/
buf_block_t* block); /*!< in: block, must contain a file page and
be in a state where it can be freed */
/******************************************************************//**
Increases LRU size in bytes with zip_size for compressed page,
UNIV_PAGE_SIZE for uncompressed page in inline function */
static inline
void
incr_LRU_size_in_bytes(
/*===================*/
buf_page_t* bpage, /*!< in: control block */
buf_pool_t* buf_pool) /*!< in: buffer pool instance */
{
ut_ad(buf_pool_mutex_own(buf_pool));
ulint zip_size = page_zip_get_size(&bpage->zip);
buf_pool->stat.LRU_bytes += zip_size ? zip_size : UNIV_PAGE_SIZE;
ut_ad(buf_pool->stat.LRU_bytes <= buf_pool->curr_pool_size);
}
/******************************************************************//**
Determines if the unzip_LRU list should be used for evicting a victim
instead of the general LRU list.
@return TRUE if should use unzip_LRU */
UNIV_INTERN
ibool
buf_LRU_evict_from_unzip_LRU(
/*=========================*/
buf_pool_t* buf_pool)
{
ulint io_avg;
ulint unzip_avg;
ut_ad(buf_pool_mutex_own(buf_pool));
/* If the unzip_LRU list is empty, we can only use the LRU. */
if (UT_LIST_GET_LEN(buf_pool->unzip_LRU) == 0) {
return(FALSE);
}
/* If unzip_LRU is at most 10% of the size of the LRU list,
then use the LRU. This slack allows us to keep hot
decompressed pages in the buffer pool. */
if (UT_LIST_GET_LEN(buf_pool->unzip_LRU)
<= UT_LIST_GET_LEN(buf_pool->LRU) / 10) {
return(FALSE);
}
/* If eviction hasn't started yet, we assume by default
that a workload is disk bound. */
if (buf_pool->freed_page_clock == 0) {
return(TRUE);
}
/* Calculate the average over past intervals, and add the values
of the current interval. */
io_avg = buf_LRU_stat_sum.io / BUF_LRU_STAT_N_INTERVAL
+ buf_LRU_stat_cur.io;
unzip_avg = buf_LRU_stat_sum.unzip / BUF_LRU_STAT_N_INTERVAL
+ buf_LRU_stat_cur.unzip;
/* Decide based on our formula. If the load is I/O bound
(unzip_avg is smaller than the weighted io_avg), evict an
uncompressed frame from unzip_LRU. Otherwise we assume that
the load is CPU bound and evict from the regular LRU. */
return(unzip_avg <= io_avg * BUF_LRU_IO_TO_UNZIP_FACTOR);
}
/******************************************************************//**
Attempts to drop page hash index on a batch of pages belonging to a
particular space id. */
static
void
buf_LRU_drop_page_hash_batch(
/*=========================*/
ulint space_id, /*!< in: space id */
ulint zip_size, /*!< in: compressed page size in bytes
or 0 for uncompressed pages */
const ulint* arr, /*!< in: array of page_no */
ulint count) /*!< in: number of entries in array */
{
ulint i;
ut_ad(arr != NULL);
ut_ad(count <= BUF_LRU_DROP_SEARCH_SIZE);
for (i = 0; i < count; ++i) {
btr_search_drop_page_hash_when_freed(space_id, zip_size,
arr[i]);
}
}
/******************************************************************//**
When doing a DROP TABLE/DISCARD TABLESPACE we have to drop all page
hash index entries belonging to that table. This function tries to
do that in batch. Note that this is a 'best effort' attempt and does
not guarantee that ALL hash entries will be removed. */
static
void
buf_LRU_drop_page_hash_for_tablespace(
/*==================================*/
buf_pool_t* buf_pool, /*!< in: buffer pool instance */
ulint id) /*!< in: space id */
{
buf_page_t* bpage;
ulint* page_arr;
ulint num_entries;
ulint zip_size;
zip_size = fil_space_get_zip_size(id);
if (UNIV_UNLIKELY(zip_size == ULINT_UNDEFINED)) {
/* Somehow, the tablespace does not exist. Nothing to drop. */
ut_ad(0);
return;
}
page_arr = static_cast<ulint*>(ut_malloc(
sizeof(ulint) * BUF_LRU_DROP_SEARCH_SIZE));
buf_pool_mutex_enter(buf_pool);
num_entries = 0;
scan_again:
bpage = UT_LIST_GET_LAST(buf_pool->LRU);
while (bpage != NULL) {
buf_page_t* prev_bpage;
ibool is_fixed;
prev_bpage = UT_LIST_GET_PREV(LRU, bpage);
ut_a(buf_page_in_file(bpage));
if (buf_page_get_state(bpage) != BUF_BLOCK_FILE_PAGE
|| bpage->space != id
|| bpage->io_fix != BUF_IO_NONE) {
/* Compressed pages are never hashed.
Skip blocks of other tablespaces.
Skip I/O-fixed blocks (to be dealt with later). */
next_page:
bpage = prev_bpage;
continue;
}
mutex_enter(&((buf_block_t*) bpage)->mutex);
is_fixed = bpage->buf_fix_count > 0
|| !((buf_block_t*) bpage)->index;
mutex_exit(&((buf_block_t*) bpage)->mutex);
if (is_fixed) {
goto next_page;
}
/* Store the page number so that we can drop the hash
index in a batch later. */
page_arr[num_entries] = bpage->offset;
ut_a(num_entries < BUF_LRU_DROP_SEARCH_SIZE);
++num_entries;
if (num_entries < BUF_LRU_DROP_SEARCH_SIZE) {
goto next_page;
}
/* Array full. We release the buf_pool->mutex to obey
the latching order. */
buf_pool_mutex_exit(buf_pool);
buf_LRU_drop_page_hash_batch(
id, zip_size, page_arr, num_entries);
num_entries = 0;
buf_pool_mutex_enter(buf_pool);
/* Note that we released the buf_pool mutex above
after reading the prev_bpage during processing of a
page_hash_batch (i.e.: when the array was full).
Because prev_bpage could belong to a compressed-only
block, it may have been relocated, and thus the
pointer cannot be trusted. Because bpage is of type
buf_block_t, it is safe to dereference.
bpage can change in the LRU list. This is OK because
this function is a 'best effort' to drop as many
search hash entries as possible and it does not
guarantee that ALL such entries will be dropped. */
/* If, however, bpage has been removed from LRU list
to the free list then we should restart the scan.
bpage->state is protected by buf_pool mutex. */
if (bpage
&& buf_page_get_state(bpage) != BUF_BLOCK_FILE_PAGE) {
goto scan_again;
}
}
buf_pool_mutex_exit(buf_pool);
/* Drop any remaining batch of search hashed pages. */
buf_LRU_drop_page_hash_batch(id, zip_size, page_arr, num_entries);
ut_free(page_arr);
}
/******************************************************************//**
While flushing (or removing dirty) pages from a tablespace we don't
want to hog the CPU and resources. Release the buffer pool and block
mutex and try to force a context switch. Then reacquire the same mutexes.
The current page is "fixed" before the release of the mutexes and then
"unfixed" again once we have reacquired the mutexes. */
static MY_ATTRIBUTE((nonnull))
void
buf_flush_yield(
/*============*/
buf_pool_t* buf_pool, /*!< in/out: buffer pool instance */
buf_page_t* bpage) /*!< in/out: current page */
{
ib_mutex_t* block_mutex;
ut_ad(buf_pool_mutex_own(buf_pool));
ut_ad(buf_page_in_file(bpage));
block_mutex = buf_page_get_mutex(bpage);
mutex_enter(block_mutex);
/* "Fix" the block so that the position cannot be
changed after we release the buffer pool and
block mutexes. */
buf_page_set_sticky(bpage);
/* Now it is safe to release the buf_pool->mutex. */
buf_pool_mutex_exit(buf_pool);
mutex_exit(block_mutex);
/* Try and force a context switch. */
os_thread_yield();
buf_pool_mutex_enter(buf_pool);
mutex_enter(block_mutex);
/* "Unfix" the block now that we have both the
buffer pool and block mutex again. */
buf_page_unset_sticky(bpage);
mutex_exit(block_mutex);
}
/******************************************************************//**
If we have hogged the resources for too long then release the buffer
pool and flush list mutex and do a thread yield. Set the current page
to "sticky" so that it is not relocated during the yield.
@return true if yielded */
static MY_ATTRIBUTE((nonnull(1), warn_unused_result))
bool
buf_flush_try_yield(
/*================*/
buf_pool_t* buf_pool, /*!< in/out: buffer pool instance */
buf_page_t* bpage, /*!< in/out: bpage to remove */
ulint processed) /*!< in: number of pages processed */
{
/* Every BUF_LRU_DROP_SEARCH_SIZE iterations in the
loop we release buf_pool->mutex to let other threads
do their job but only if the block is not IO fixed. This
ensures that the block stays in its position in the
flush_list. */
if (bpage != NULL
&& processed >= BUF_LRU_DROP_SEARCH_SIZE
&& buf_page_get_io_fix(bpage) == BUF_IO_NONE) {
buf_flush_list_mutex_exit(buf_pool);
/* Release the buffer pool and block mutex
to give the other threads a go. */
buf_flush_yield(buf_pool, bpage);
buf_flush_list_mutex_enter(buf_pool);
/* Should not have been removed from the flush
list during the yield. However, this check is
not sufficient to catch a remove -> add. */
ut_ad(bpage->in_flush_list);
return(true);
}
return(false);
}
/******************************************************************//**
Removes a single page from a given tablespace inside a specific
buffer pool instance.
@return true if page was removed. */
static MY_ATTRIBUTE((nonnull, warn_unused_result))
bool
buf_flush_or_remove_page(
/*=====================*/
buf_pool_t* buf_pool, /*!< in/out: buffer pool instance */
buf_page_t* bpage, /*!< in/out: bpage to remove */
bool flush) /*!< in: flush to disk if true but
don't remove else remove without
flushing to disk */
{
ut_ad(buf_pool_mutex_own(buf_pool));
ut_ad(buf_flush_list_mutex_own(buf_pool));
/* bpage->space and bpage->io_fix are protected by
buf_pool->mutex and block_mutex. It is safe to check
them while holding buf_pool->mutex only. */
if (buf_page_get_io_fix(bpage) != BUF_IO_NONE) {
/* We cannot remove this page during this scan
yet; maybe the system is currently reading it
in, or flushing the modifications to the file */
return(false);
}
/* We have to release the flush_list_mutex to obey the
latching order. We are however guaranteed that the page
will stay in the flush_list and won't be relocated because
buf_flush_remove() and buf_flush_relocate_on_flush_list()
need buf_pool->mutex as well. */
buf_flush_list_mutex_exit(buf_pool);
bool processed;
ib_mutex_t* block_mutex = buf_page_get_mutex(bpage);
mutex_enter(block_mutex);
ut_ad(bpage->oldest_modification != 0);
if (!flush) {
buf_flush_remove(bpage);
processed = true;
} else if (buf_flush_ready_for_flush(bpage, BUF_FLUSH_SINGLE_PAGE)
&& buf_flush_page(
buf_pool, bpage, BUF_FLUSH_SINGLE_PAGE, false)) {
/* Wake possible simulated aio thread to actually
post the writes to the operating system */
os_aio_simulated_wake_handler_threads();
buf_pool_mutex_enter(buf_pool);
buf_flush_list_mutex_enter(buf_pool);
return(true);
} else {
processed = false;
}
mutex_exit(block_mutex);
buf_flush_list_mutex_enter(buf_pool);
ut_ad(!mutex_own(block_mutex));
ut_ad(buf_pool_mutex_own(buf_pool));
return(processed);
}
/******************************************************************//**
Remove all dirty pages belonging to a given tablespace inside a specific
buffer pool instance when we are deleting the data file(s) of that
tablespace. The pages still remain a part of LRU and are evicted from
the list as they age towards the tail of the LRU.
@retval DB_SUCCESS if all freed
@retval DB_FAIL if not all freed
@retval DB_INTERRUPTED if the transaction was interrupted */
static MY_ATTRIBUTE((nonnull(1), warn_unused_result))
dberr_t
buf_flush_or_remove_pages(
/*======================*/
buf_pool_t* buf_pool, /*!< buffer pool instance */
ulint id, /*!< in: target space id for which
to remove or flush pages */
bool flush, /*!< in: flush to disk if true but
don't remove else remove without
flushing to disk */
const trx_t* trx) /*!< to check if the operation must
be interrupted, can be 0 */
{
buf_page_t* prev;
buf_page_t* bpage;
ulint processed = 0;
buf_flush_list_mutex_enter(buf_pool);
rescan:
bool all_freed = true;
for (bpage = UT_LIST_GET_LAST(buf_pool->flush_list);
bpage != NULL;
bpage = prev) {
ut_a(buf_page_in_file(bpage));
/* Save the previous link because once we free the
page we can't rely on the links. */
prev = UT_LIST_GET_PREV(list, bpage);
if (buf_page_get_space(bpage) != id) {
/* Skip this block, as it does not belong to
the target space. */
} else if (!buf_flush_or_remove_page(buf_pool, bpage, flush)) {
/* Remove was unsuccessful, we have to try again
by scanning the entire list from the end.
This also means that we never released the
buf_pool mutex. Therefore we can trust the prev
pointer.
buf_flush_or_remove_page() released the
flush list mutex but not the buf_pool mutex.
Therefore it is possible that a new page was
added to the flush list. For example, in case
where we are at the head of the flush list and
prev == NULL. That is OK because we have the
tablespace quiesced and no new pages for this
space-id should enter flush_list. This is
because the only callers of this function are
DROP TABLE and FLUSH TABLE FOR EXPORT.
We know that we'll have to do at least one more
scan but we don't break out of loop here and
try to do as much work as we can in this
iteration. */
all_freed = false;
} else if (flush) {
/* The processing was successful. And during the
processing we have released the buf_pool mutex
when calling buf_page_flush(). We cannot trust
prev pointer. */
goto rescan;
}
++processed;
/* Yield if we have hogged the CPU and mutexes for too long. */
if (buf_flush_try_yield(buf_pool, prev, processed)) {
/* Reset the batch size counter if we had to yield. */
processed = 0;
}
#ifdef DBUG_OFF
if (flush) {
DBUG_EXECUTE_IF("ib_export_flush_crash",
static ulint n_pages;
if (++n_pages == 4) {DBUG_SUICIDE();});
}
#endif /* DBUG_OFF */
/* The check for trx is interrupted is expensive, we want
to check every N iterations. */
if (!processed && trx && trx_is_interrupted(trx)) {
buf_flush_list_mutex_exit(buf_pool);
return(DB_INTERRUPTED);
}
}
buf_flush_list_mutex_exit(buf_pool);
return(all_freed ? DB_SUCCESS : DB_FAIL);
}
/******************************************************************//**
Remove or flush all the dirty pages that belong to a given tablespace
inside a specific buffer pool instance. The pages will remain in the LRU
list and will be evicted from the LRU list as they age and move towards
the tail of the LRU list. */
static MY_ATTRIBUTE((nonnull(1)))
void
buf_flush_dirty_pages(
/*==================*/
buf_pool_t* buf_pool, /*!< buffer pool instance */
ulint id, /*!< in: space id */
bool flush, /*!< in: flush to disk if true otherwise
remove the pages without flushing */
const trx_t* trx) /*!< to check if the operation must
be interrupted */
{
dberr_t err;
do {
buf_pool_mutex_enter(buf_pool);
err = buf_flush_or_remove_pages(buf_pool, id, flush, trx);
buf_pool_mutex_exit(buf_pool);
ut_ad(buf_flush_validate(buf_pool));
if (err == DB_FAIL) {
os_thread_sleep(2000);
}
/* DB_FAIL is a soft error, it means that the task wasn't
completed, needs to be retried. */
ut_ad(buf_flush_validate(buf_pool));
} while (err == DB_FAIL);
ut_ad(err == DB_INTERRUPTED
|| buf_pool_get_dirty_pages_count(buf_pool, id) == 0);
}
/******************************************************************//**
Remove all pages that belong to a given tablespace inside a specific
buffer pool instance when we are DISCARDing the tablespace. */
static MY_ATTRIBUTE((nonnull))
void
buf_LRU_remove_all_pages(
/*=====================*/
buf_pool_t* buf_pool, /*!< buffer pool instance */
ulint id) /*!< in: space id */
{
buf_page_t* bpage;
ibool all_freed;
scan_again:
buf_pool_mutex_enter(buf_pool);
all_freed = TRUE;
for (bpage = UT_LIST_GET_LAST(buf_pool->LRU);
bpage != NULL;
/* No op */) {
rw_lock_t* hash_lock;
buf_page_t* prev_bpage;
ib_mutex_t* block_mutex = NULL;
ut_a(buf_page_in_file(bpage));
ut_ad(bpage->in_LRU_list);
prev_bpage = UT_LIST_GET_PREV(LRU, bpage);
/* bpage->space and bpage->io_fix are protected by
buf_pool->mutex and the block_mutex. It is safe to check
them while holding buf_pool->mutex only. */
if (buf_page_get_space(bpage) != id) {
/* Skip this block, as it does not belong to
the space that is being invalidated. */
goto next_page;
} else if (buf_page_get_io_fix(bpage) != BUF_IO_NONE) {
/* We cannot remove this page during this scan
yet; maybe the system is currently reading it
in, or flushing the modifications to the file */
all_freed = FALSE;
goto next_page;
} else {
ulint fold = buf_page_address_fold(
bpage->space, bpage->offset);
hash_lock = buf_page_hash_lock_get(buf_pool, fold);
rw_lock_x_lock(hash_lock);
block_mutex = buf_page_get_mutex(bpage);
mutex_enter(block_mutex);
if (bpage->buf_fix_count > 0) {
mutex_exit(block_mutex);
rw_lock_x_unlock(hash_lock);
/* We cannot remove this page during
this scan yet; maybe the system is
currently reading it in, or flushing
the modifications to the file */
all_freed = FALSE;
goto next_page;
}
}
ut_ad(mutex_own(block_mutex));
#ifdef UNIV_DEBUG
if (buf_debug_prints) {
fprintf(stderr,
"Dropping space %lu page %lu\n",
(ulong) buf_page_get_space(bpage),
(ulong) buf_page_get_page_no(bpage));
}
#endif
if (buf_page_get_state(bpage) != BUF_BLOCK_FILE_PAGE) {
/* Do nothing, because the adaptive hash index
covers uncompressed pages only. */
} else if (((buf_block_t*) bpage)->index) {
ulint page_no;
ulint zip_size;
buf_pool_mutex_exit(buf_pool);
zip_size = buf_page_get_zip_size(bpage);
page_no = buf_page_get_page_no(bpage);
rw_lock_x_unlock(hash_lock);
mutex_exit(block_mutex);
/* Note that the following call will acquire
and release block->lock X-latch. */
btr_search_drop_page_hash_when_freed(
id, zip_size, page_no);
goto scan_again;
}
if (bpage->oldest_modification != 0) {
buf_flush_remove(bpage);
}
ut_ad(!bpage->in_flush_list);
/* Remove from the LRU list. */
if (buf_LRU_block_remove_hashed(bpage, true)) {
buf_LRU_block_free_hashed_page((buf_block_t*) bpage);
} else {
ut_ad(block_mutex == &buf_pool->zip_mutex);
}
ut_ad(!mutex_own(block_mutex));
#ifdef UNIV_SYNC_DEBUG
/* buf_LRU_block_remove_hashed() releases the hash_lock */
ut_ad(!rw_lock_own(hash_lock, RW_LOCK_EX));
ut_ad(!rw_lock_own(hash_lock, RW_LOCK_SHARED));
#endif /* UNIV_SYNC_DEBUG */
next_page:
bpage = prev_bpage;
}
buf_pool_mutex_exit(buf_pool);
if (!all_freed) {
os_thread_sleep(20000);
goto scan_again;
}
}
/******************************************************************//**
Remove pages belonging to a given tablespace inside a specific
buffer pool instance when we are deleting the data file(s) of that
tablespace. The pages still remain a part of LRU and are evicted from
the list as they age towards the tail of the LRU only if buf_remove
is BUF_REMOVE_FLUSH_NO_WRITE. */
static MY_ATTRIBUTE((nonnull(1)))
void
buf_LRU_remove_pages(
/*=================*/
buf_pool_t* buf_pool, /*!< buffer pool instance */
ulint id, /*!< in: space id */
buf_remove_t buf_remove, /*!< in: remove or flush strategy */
const trx_t* trx) /*!< to check if the operation must
be interrupted */
{
switch (buf_remove) {
case BUF_REMOVE_ALL_NO_WRITE:
buf_LRU_remove_all_pages(buf_pool, id);
break;
case BUF_REMOVE_FLUSH_NO_WRITE:
ut_a(trx == 0);
buf_flush_dirty_pages(buf_pool, id, false, NULL);
break;
case BUF_REMOVE_FLUSH_WRITE:
ut_a(trx != 0);
buf_flush_dirty_pages(buf_pool, id, true, trx);
/* Ensure that all asynchronous IO is completed. */
os_aio_wait_until_no_pending_writes();
fil_flush(id);
break;
}
}
/******************************************************************//**
Flushes all dirty pages or removes all pages belonging
to a given tablespace. A PROBLEM: if readahead is being started, what
guarantees that it will not try to read in pages after this operation
has completed? */
UNIV_INTERN
void
buf_LRU_flush_or_remove_pages(
/*==========================*/
ulint id, /*!< in: space id */
buf_remove_t buf_remove, /*!< in: remove or flush strategy */
const trx_t* trx) /*!< to check if the operation must
be interrupted */
{
ulint i;
/* Before we attempt to drop pages one by one we first
attempt to drop page hash index entries in batches to make
it more efficient. The batching attempt is a best effort
attempt and does not guarantee that all pages hash entries
will be dropped. We get rid of remaining page hash entries
one by one below. */
for (i = 0; i < srv_buf_pool_instances; i++) {
buf_pool_t* buf_pool;
buf_pool = buf_pool_from_array(i);
switch (buf_remove) {
case BUF_REMOVE_ALL_NO_WRITE:
buf_LRU_drop_page_hash_for_tablespace(buf_pool, id);
break;
case BUF_REMOVE_FLUSH_NO_WRITE:
/* It is a DROP TABLE for a single table
tablespace. No AHI entries exist because
we already dealt with them when freeing up
extents. */
case BUF_REMOVE_FLUSH_WRITE:
/* We allow read-only queries against the
table, there is no need to drop the AHI entries. */
break;
}
buf_LRU_remove_pages(buf_pool, id, buf_remove, trx);
}
}
#if defined UNIV_DEBUG || defined UNIV_BUF_DEBUG
/********************************************************************//**
Insert a compressed block into buf_pool->zip_clean in the LRU order. */
UNIV_INTERN
void
buf_LRU_insert_zip_clean(
/*=====================*/
buf_page_t* bpage) /*!< in: pointer to the block in question */
{
buf_page_t* b;
buf_pool_t* buf_pool = buf_pool_from_bpage(bpage);
ut_ad(buf_pool_mutex_own(buf_pool));
ut_ad(buf_page_get_state(bpage) == BUF_BLOCK_ZIP_PAGE);
/* Find the first successor of bpage in the LRU list
that is in the zip_clean list. */
b = bpage;
do {
b = UT_LIST_GET_NEXT(LRU, b);
} while (b && buf_page_get_state(b) != BUF_BLOCK_ZIP_PAGE);
/* Insert bpage before b, i.e., after the predecessor of b. */
if (b) {
b = UT_LIST_GET_PREV(list, b);
}
if (b) {
UT_LIST_INSERT_AFTER(list, buf_pool->zip_clean, b, bpage);
} else {
UT_LIST_ADD_FIRST(list, buf_pool->zip_clean, bpage);
}
}
#endif /* UNIV_DEBUG || UNIV_BUF_DEBUG */
/******************************************************************//**
Try to free an uncompressed page of a compressed block from the unzip
LRU list. The compressed page is preserved, and it need not be clean.
@return TRUE if freed */
UNIV_INLINE
ibool
buf_LRU_free_from_unzip_LRU_list(
/*=============================*/
buf_pool_t* buf_pool, /*!< in: buffer pool instance */
ibool scan_all) /*!< in: scan whole LRU list
if TRUE, otherwise scan only
srv_LRU_scan_depth / 2 blocks. */
{
buf_block_t* block;
ibool freed;
ulint scanned;
ut_ad(buf_pool_mutex_own(buf_pool));
if (!buf_LRU_evict_from_unzip_LRU(buf_pool)) {
return(FALSE);
}
for (block = UT_LIST_GET_LAST(buf_pool->unzip_LRU),
scanned = 1, freed = FALSE;
block != NULL && !freed
&& (scan_all || scanned < srv_LRU_scan_depth);
++scanned) {
buf_block_t* prev_block = UT_LIST_GET_PREV(unzip_LRU,
block);
ut_ad(buf_block_get_state(block) == BUF_BLOCK_FILE_PAGE);
ut_ad(block->in_unzip_LRU_list);
ut_ad(block->page.in_LRU_list);
freed = buf_LRU_free_page(&block->page, false);
block = prev_block;
}
MONITOR_INC_VALUE_CUMULATIVE(
MONITOR_LRU_UNZIP_SEARCH_SCANNED,
MONITOR_LRU_UNZIP_SEARCH_SCANNED_NUM_CALL,
MONITOR_LRU_UNZIP_SEARCH_SCANNED_PER_CALL,
scanned);
return(freed);
}
/******************************************************************//**
Try to free a clean page from the common LRU list.
@return TRUE if freed */
UNIV_INLINE
ibool
buf_LRU_free_from_common_LRU_list(
/*==============================*/
buf_pool_t* buf_pool, /*!< in: buffer pool instance */
ibool scan_all) /*!< in: scan whole LRU list
if TRUE, otherwise scan only
srv_LRU_scan_depth / 2 blocks. */
{
buf_page_t* bpage;
ibool freed;
ulint scanned;
ut_ad(buf_pool_mutex_own(buf_pool));
for (bpage = UT_LIST_GET_LAST(buf_pool->LRU),
scanned = 1, freed = FALSE;
bpage != NULL && !freed
&& (scan_all || scanned < srv_LRU_scan_depth);
++scanned) {
unsigned accessed;
buf_page_t* prev_bpage = UT_LIST_GET_PREV(LRU,
bpage);
ut_ad(buf_page_in_file(bpage));
ut_ad(bpage->in_LRU_list);
accessed = buf_page_is_accessed(bpage);
freed = buf_LRU_free_page(bpage, true);
if (freed && !accessed) {
/* Keep track of pages that are evicted without
ever being accessed. This gives us a measure of
the effectiveness of readahead */
++buf_pool->stat.n_ra_pages_evicted;
}
bpage = prev_bpage;
}
MONITOR_INC_VALUE_CUMULATIVE(
MONITOR_LRU_SEARCH_SCANNED,
MONITOR_LRU_SEARCH_SCANNED_NUM_CALL,
MONITOR_LRU_SEARCH_SCANNED_PER_CALL,
scanned);
return(freed);
}
/******************************************************************//**
Try to free a replaceable block.
@return TRUE if found and freed */
UNIV_INTERN
ibool
buf_LRU_scan_and_free_block(
/*========================*/
buf_pool_t* buf_pool, /*!< in: buffer pool instance */
ibool scan_all) /*!< in: scan whole LRU list
if TRUE, otherwise scan only
'old' blocks. */
{
ut_ad(buf_pool_mutex_own(buf_pool));
return(buf_LRU_free_from_unzip_LRU_list(buf_pool, scan_all)
|| buf_LRU_free_from_common_LRU_list(
buf_pool, scan_all));
}
/******************************************************************//**
Returns TRUE if less than 25 % of the buffer pool in any instance is
available. This can be used in heuristics to prevent huge transactions
eating up the whole buffer pool for their locks.
@return TRUE if less than 25 % of buffer pool left */
UNIV_INTERN
ibool
buf_LRU_buf_pool_running_out(void)
/*==============================*/
{
ulint i;
ibool ret = FALSE;
for (i = 0; i < srv_buf_pool_instances && !ret; i++) {
buf_pool_t* buf_pool;
buf_pool = buf_pool_from_array(i);
buf_pool_mutex_enter(buf_pool);
if (!recv_recovery_on
&& UT_LIST_GET_LEN(buf_pool->free)
+ UT_LIST_GET_LEN(buf_pool->LRU)
< buf_pool->curr_size / 4) {
ret = TRUE;
}
buf_pool_mutex_exit(buf_pool);
}
return(ret);
}
/******************************************************************//**
Returns a free block from the buf_pool. The block is taken off the
free list. If it is empty, returns NULL.
@return a free control block, or NULL if the buf_block->free list is empty */
UNIV_INTERN
buf_block_t*
buf_LRU_get_free_only(
/*==================*/
buf_pool_t* buf_pool)
{
buf_block_t* block;
ut_ad(buf_pool_mutex_own(buf_pool));
block = (buf_block_t*) UT_LIST_GET_FIRST(buf_pool->free);
if (block) {
ut_ad(block->page.in_free_list);
ut_d(block->page.in_free_list = FALSE);
ut_ad(!block->page.in_flush_list);
ut_ad(!block->page.in_LRU_list);
ut_a(!buf_page_in_file(&block->page));
UT_LIST_REMOVE(list, buf_pool->free, (&block->page));
mutex_enter(&block->mutex);
buf_block_set_state(block, BUF_BLOCK_READY_FOR_USE);
UNIV_MEM_ALLOC(block->frame, UNIV_PAGE_SIZE);
ut_ad(buf_pool_from_block(block) == buf_pool);
mutex_exit(&block->mutex);
}
return(block);
}
/******************************************************************//**
Checks how much of buf_pool is occupied by non-data objects like
AHI, lock heaps etc. Depending on the size of non-data objects this
function will either assert or issue a warning and switch on the
status monitor. */
static
void
buf_LRU_check_size_of_non_data_objects(
/*===================================*/
const buf_pool_t* buf_pool) /*!< in: buffer pool instance */
{
ut_ad(buf_pool_mutex_own(buf_pool));
if (!recv_recovery_on && UT_LIST_GET_LEN(buf_pool->free)
+ UT_LIST_GET_LEN(buf_pool->LRU) < buf_pool->curr_size / 20) {
ut_print_timestamp(stderr);
fprintf(stderr,
" InnoDB: ERROR: over 95 percent of the buffer pool"
" is occupied by\n"
"InnoDB: lock heaps or the adaptive hash index!"
" Check that your\n"
"InnoDB: transactions do not set too many row locks.\n"
"InnoDB: Your buffer pool size is %lu MB."
" Maybe you should make\n"
"InnoDB: the buffer pool bigger?\n"
"InnoDB: We intentionally generate a seg fault"
" to print a stack trace\n"
"InnoDB: on Linux!\n",
(ulong) (buf_pool->curr_size
/ (1024 * 1024 / UNIV_PAGE_SIZE)));
ut_error;
} else if (!recv_recovery_on
&& (UT_LIST_GET_LEN(buf_pool->free)
+ UT_LIST_GET_LEN(buf_pool->LRU))
< buf_pool->curr_size / 3) {
if (!buf_lru_switched_on_innodb_mon) {
/* Over 67 % of the buffer pool is occupied by lock
heaps or the adaptive hash index. This may be a memory
leak! */
ut_print_timestamp(stderr);
fprintf(stderr,
" InnoDB: WARNING: over 67 percent of"
" the buffer pool is occupied by\n"
"InnoDB: lock heaps or the adaptive"
" hash index! Check that your\n"
"InnoDB: transactions do not set too many"
" row locks.\n"
"InnoDB: Your buffer pool size is %lu MB."
" Maybe you should make\n"
"InnoDB: the buffer pool bigger?\n"
"InnoDB: Starting the InnoDB Monitor to print"
" diagnostics, including\n"
"InnoDB: lock heap and hash index sizes.\n",
(ulong) (buf_pool->curr_size
/ (1024 * 1024 / UNIV_PAGE_SIZE)));
buf_lru_switched_on_innodb_mon = TRUE;
srv_print_innodb_monitor = TRUE;
os_event_set(srv_monitor_event);
}
} else if (buf_lru_switched_on_innodb_mon) {
/* Switch off the InnoDB Monitor; this is a simple way
to stop the monitor if the situation becomes less urgent,
but may also surprise users if the user also switched on the
monitor! */
buf_lru_switched_on_innodb_mon = FALSE;
srv_print_innodb_monitor = FALSE;
}
}
/******************************************************************//**
Returns a free block from the buf_pool. The block is taken off the
free list. If free list is empty, blocks are moved from the end of the
LRU list to the free list.
This function is called from a user thread when it needs a clean
block to read in a page. Note that we only ever get a block from
the free list. Even when we flush a page or find a page in LRU scan
we put it to free list to be used.
* iteration 0:
* get a block from free list, success:done
* if there is an LRU flush batch in progress:
* wait for batch to end: retry free list
* if buf_pool->try_LRU_scan is set
* scan LRU up to srv_LRU_scan_depth to find a clean block
* the above will put the block on free list
* success:retry the free list
* flush one dirty page from tail of LRU to disk
* the above will put the block on free list
* success: retry the free list
* iteration 1:
* same as iteration 0 except:
* scan whole LRU list
* scan LRU list even if buf_pool->try_LRU_scan is not set
* iteration > 1:
* same as iteration 1 but sleep 100ms
@return the free control block, in state BUF_BLOCK_READY_FOR_USE */
UNIV_INTERN
buf_block_t*
buf_LRU_get_free_block(
/*===================*/
buf_pool_t* buf_pool) /*!< in/out: buffer pool instance */
{
buf_block_t* block = NULL;
ibool freed = FALSE;
ulint n_iterations = 0;
ulint flush_failures = 0;
ibool mon_value_was = FALSE;
ibool started_monitor = FALSE;
MONITOR_INC(MONITOR_LRU_GET_FREE_SEARCH);
loop:
buf_pool_mutex_enter(buf_pool);
buf_LRU_check_size_of_non_data_objects(buf_pool);
/* If there is a block in the free list, take it */
block = buf_LRU_get_free_only(buf_pool);
if (block) {
buf_pool_mutex_exit(buf_pool);
ut_ad(buf_pool_from_block(block) == buf_pool);
memset(&block->page.zip, 0, sizeof block->page.zip);
if (started_monitor) {
srv_print_innodb_monitor =
static_cast<my_bool>(mon_value_was);
}
return(block);
}
if (buf_pool->init_flush[BUF_FLUSH_LRU]
&& srv_use_doublewrite_buf
&& buf_dblwr != NULL) {
/* If there is an LRU flush happening in the background
then we wait for it to end instead of trying a single
page flush. If, however, we are not using doublewrite
buffer then it is better to do our own single page
flush instead of waiting for LRU flush to end. */
buf_pool_mutex_exit(buf_pool);
buf_flush_wait_batch_end(buf_pool, BUF_FLUSH_LRU);
goto loop;
}
freed = FALSE;
if (buf_pool->try_LRU_scan || n_iterations > 0) {
/* If no block was in the free list, search from the
end of the LRU list and try to free a block there.
If we are doing for the first time we'll scan only
tail of the LRU list otherwise we scan the whole LRU
list. */
freed = buf_LRU_scan_and_free_block(buf_pool,
n_iterations > 0);
if (!freed && n_iterations == 0) {
/* Tell other threads that there is no point
in scanning the LRU list. This flag is set to
TRUE again when we flush a batch from this
buffer pool. */
buf_pool->try_LRU_scan = FALSE;
}
}
buf_pool_mutex_exit(buf_pool);
if (freed) {
goto loop;
}
if (n_iterations > 20) {
ut_print_timestamp(stderr);
fprintf(stderr,
" InnoDB: Warning: difficult to find free blocks in\n"
"InnoDB: the buffer pool (%lu search iterations)!\n"
"InnoDB: %lu failed attempts to flush a page!"
" Consider\n"
"InnoDB: increasing the buffer pool size.\n"
"InnoDB: It is also possible that"
" in your Unix version\n"
"InnoDB: fsync is very slow, or"
" completely frozen inside\n"
"InnoDB: the OS kernel. Then upgrading to"
" a newer version\n"
"InnoDB: of your operating system may help."
" Look at the\n"
"InnoDB: number of fsyncs in diagnostic info below.\n"
"InnoDB: Pending flushes (fsync) log: %lu;"
" buffer pool: %lu\n"
"InnoDB: %lu OS file reads, %lu OS file writes,"
" %lu OS fsyncs\n"
"InnoDB: Starting InnoDB Monitor to print further\n"
"InnoDB: diagnostics to the standard output.\n",
(ulong) n_iterations,
(ulong) flush_failures,
(ulong) fil_n_pending_log_flushes,
(ulong) fil_n_pending_tablespace_flushes,
(ulong) os_n_file_reads, (ulong) os_n_file_writes,
(ulong) os_n_fsyncs);
mon_value_was = srv_print_innodb_monitor;
started_monitor = TRUE;
srv_print_innodb_monitor = TRUE;
os_event_set(srv_monitor_event);
}
/* If we have scanned the whole LRU and still are unable to
find a free block then we should sleep here to let the
page_cleaner do an LRU batch for us.
TODO: It'd be better if we can signal the page_cleaner. Perhaps
we should use timed wait for page_cleaner. */
if (n_iterations > 1) {
os_thread_sleep(100000);
}
/* No free block was found: try to flush the LRU list.
This call will flush one page from the LRU and put it on the
free list. That means that the free block is up for grabs for
all user threads.
TODO: A more elegant way would have been to return the freed
up block to the caller here but the code that deals with
removing the block from page_hash and LRU_list is fairly
involved (particularly in case of compressed pages). We
can do that in a separate patch sometime in future. */
if (!buf_flush_single_page_from_LRU(buf_pool)) {
MONITOR_INC(MONITOR_LRU_SINGLE_FLUSH_FAILURE_COUNT);
++flush_failures;
}
srv_stats.buf_pool_wait_free.inc();
n_iterations++;
goto loop;
}
/*******************************************************************//**
Moves the LRU_old pointer so that the length of the old blocks list
is inside the allowed limits. */
UNIV_INLINE
void
buf_LRU_old_adjust_len(
/*===================*/
buf_pool_t* buf_pool) /*!< in: buffer pool instance */
{
ulint old_len;
ulint new_len;
ut_a(buf_pool->LRU_old);
ut_ad(buf_pool_mutex_own(buf_pool));
ut_ad(buf_pool->LRU_old_ratio >= BUF_LRU_OLD_RATIO_MIN);
ut_ad(buf_pool->LRU_old_ratio <= BUF_LRU_OLD_RATIO_MAX);
#if BUF_LRU_OLD_RATIO_MIN * BUF_LRU_OLD_MIN_LEN <= BUF_LRU_OLD_RATIO_DIV * (BUF_LRU_OLD_TOLERANCE + 5)
# error "BUF_LRU_OLD_RATIO_MIN * BUF_LRU_OLD_MIN_LEN <= BUF_LRU_OLD_RATIO_DIV * (BUF_LRU_OLD_TOLERANCE + 5)"
#endif
#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);
#endif /* UNIV_LRU_DEBUG */
old_len = buf_pool->LRU_old_len;
new_len = ut_min(UT_LIST_GET_LEN(buf_pool->LRU)
* buf_pool->LRU_old_ratio / BUF_LRU_OLD_RATIO_DIV,
UT_LIST_GET_LEN(buf_pool->LRU)
- (BUF_LRU_OLD_TOLERANCE
+ BUF_LRU_NON_OLD_MIN_LEN));
for (;;) {
buf_page_t* LRU_old = buf_pool->LRU_old;
ut_a(LRU_old);
ut_ad(LRU_old->in_LRU_list);
#ifdef UNIV_LRU_DEBUG
ut_a(LRU_old->old);
#endif /* UNIV_LRU_DEBUG */
/* Update the LRU_old pointer if necessary */
if (old_len + BUF_LRU_OLD_TOLERANCE < new_len) {
buf_pool->LRU_old = LRU_old = UT_LIST_GET_PREV(
LRU, LRU_old);
#ifdef UNIV_LRU_DEBUG
ut_a(!LRU_old->old);
#endif /* UNIV_LRU_DEBUG */
old_len = ++buf_pool->LRU_old_len;
buf_page_set_old(LRU_old, TRUE);
} else if (old_len > new_len + BUF_LRU_OLD_TOLERANCE) {
buf_pool->LRU_old = UT_LIST_GET_NEXT(LRU, LRU_old);
old_len = --buf_pool->LRU_old_len;
buf_page_set_old(LRU_old, FALSE);
} else {
return;
}
}
}
/*******************************************************************//**
Initializes the old blocks pointer in the LRU list. This function should be
called when the LRU list grows to BUF_LRU_OLD_MIN_LEN length. */
static
void
buf_LRU_old_init(
/*=============*/
buf_pool_t* buf_pool)
{
buf_page_t* bpage;
ut_ad(buf_pool_mutex_own(buf_pool));
ut_a(UT_LIST_GET_LEN(buf_pool->LRU) == BUF_LRU_OLD_MIN_LEN);
/* We first initialize all blocks in the LRU list as old and then use
the adjust function to move the LRU_old pointer to the right
position */
for (bpage = UT_LIST_GET_LAST(buf_pool->LRU); bpage != NULL;
bpage = UT_LIST_GET_PREV(LRU, bpage)) {
ut_ad(bpage->in_LRU_list);
ut_ad(buf_page_in_file(bpage));
/* This loop temporarily violates the
assertions of buf_page_set_old(). */
bpage->old = TRUE;
}
buf_pool->LRU_old = UT_LIST_GET_FIRST(buf_pool->LRU);
buf_pool->LRU_old_len = UT_LIST_GET_LEN(buf_pool->LRU);
buf_LRU_old_adjust_len(buf_pool);
}
/******************************************************************//**
Remove a block from the unzip_LRU list if it belonged to the list. */
static
void
buf_unzip_LRU_remove_block_if_needed(
/*=================================*/
buf_page_t* bpage) /*!< in/out: control block */
{
buf_pool_t* buf_pool = buf_pool_from_bpage(bpage);
ut_ad(buf_pool);
ut_ad(bpage);
ut_ad(buf_page_in_file(bpage));
ut_ad(buf_pool_mutex_own(buf_pool));
if (buf_page_belongs_to_unzip_LRU(bpage)) {
buf_block_t* block = (buf_block_t*) bpage;
ut_ad(block->in_unzip_LRU_list);
ut_d(block->in_unzip_LRU_list = FALSE);
UT_LIST_REMOVE(unzip_LRU, buf_pool->unzip_LRU, block);
}
}
/******************************************************************//**
Removes a block from the LRU list. */
UNIV_INLINE
void
buf_LRU_remove_block(
/*=================*/
buf_page_t* bpage) /*!< in: control block */
{
buf_pool_t* buf_pool = buf_pool_from_bpage(bpage);
ulint zip_size;
ut_ad(buf_pool);
ut_ad(bpage);
ut_ad(buf_pool_mutex_own(buf_pool));
ut_a(buf_page_in_file(bpage));
ut_ad(bpage->in_LRU_list);
/* If the LRU_old pointer is defined and points to just this block,
move it backward one step */
if (UNIV_UNLIKELY(bpage == buf_pool->LRU_old)) {
/* Below: the previous block is guaranteed to exist,
because the LRU_old pointer is only allowed to differ
by BUF_LRU_OLD_TOLERANCE from strict
buf_pool->LRU_old_ratio/BUF_LRU_OLD_RATIO_DIV of the LRU
list length. */
buf_page_t* prev_bpage = UT_LIST_GET_PREV(LRU, bpage);
ut_a(prev_bpage);
#ifdef UNIV_LRU_DEBUG
ut_a(!prev_bpage->old);
#endif /* UNIV_LRU_DEBUG */
buf_pool->LRU_old = prev_bpage;
buf_page_set_old(prev_bpage, TRUE);
buf_pool->LRU_old_len++;
}
/* Remove the block from the LRU list */
UT_LIST_REMOVE(LRU, buf_pool->LRU, bpage);
ut_d(bpage->in_LRU_list = FALSE);
zip_size = page_zip_get_size(&bpage->zip);
buf_pool->stat.LRU_bytes -= zip_size ? zip_size : UNIV_PAGE_SIZE;
buf_unzip_LRU_remove_block_if_needed(bpage);
/* If the LRU list is so short that LRU_old is not defined,
clear the "old" flags and return */
if (UT_LIST_GET_LEN(buf_pool->LRU) < BUF_LRU_OLD_MIN_LEN) {
for (bpage = UT_LIST_GET_FIRST(buf_pool->LRU); bpage != NULL;
bpage = UT_LIST_GET_NEXT(LRU, bpage)) {
/* This loop temporarily violates the
assertions of buf_page_set_old(). */
bpage->old = FALSE;
}
buf_pool->LRU_old = NULL;
buf_pool->LRU_old_len = 0;
return;
}
ut_ad(buf_pool->LRU_old);
/* Update the LRU_old_len field if necessary */
if (buf_page_is_old(bpage)) {
buf_pool->LRU_old_len--;
}
/* Adjust the length of the old block list if necessary */
buf_LRU_old_adjust_len(buf_pool);
}
/******************************************************************//**
Adds a block to the LRU list of decompressed zip pages. */
UNIV_INTERN
void
buf_unzip_LRU_add_block(
/*====================*/
buf_block_t* block, /*!< in: control block */
ibool old) /*!< in: TRUE if should be put to the end
of the list, else put to the start */
{
buf_pool_t* buf_pool = buf_pool_from_block(block);
ut_ad(buf_pool);
ut_ad(block);
ut_ad(buf_pool_mutex_own(buf_pool));
ut_a(buf_page_belongs_to_unzip_LRU(&block->page));
ut_ad(!block->in_unzip_LRU_list);
ut_d(block->in_unzip_LRU_list = TRUE);
if (old) {
UT_LIST_ADD_LAST(unzip_LRU, buf_pool->unzip_LRU, block);
} else {
UT_LIST_ADD_FIRST(unzip_LRU, buf_pool->unzip_LRU, block);
}
}
/******************************************************************//**
Adds a block to the LRU list end. Please make sure that the zip_size is
already set into the page zip when invoking the function, so that we
can get correct zip_size from the buffer page when adding a block
into LRU */
UNIV_INLINE
void
buf_LRU_add_block_to_end_low(
/*=========================*/
buf_page_t* bpage) /*!< in: control block */
{
buf_pool_t* buf_pool = buf_pool_from_bpage(bpage);
ut_ad(buf_pool);
ut_ad(bpage);
ut_ad(buf_pool_mutex_own(buf_pool));
ut_a(buf_page_in_file(bpage));
ut_ad(!bpage->in_LRU_list);
UT_LIST_ADD_LAST(LRU, buf_pool->LRU, bpage);
ut_d(bpage->in_LRU_list = TRUE);
incr_LRU_size_in_bytes(bpage, buf_pool);
if (UT_LIST_GET_LEN(buf_pool->LRU) > BUF_LRU_OLD_MIN_LEN) {
ut_ad(buf_pool->LRU_old);
/* Adjust the length of the old block list if necessary */
buf_page_set_old(bpage, TRUE);
buf_pool->LRU_old_len++;
buf_LRU_old_adjust_len(buf_pool);
} else if (UT_LIST_GET_LEN(buf_pool->LRU) == BUF_LRU_OLD_MIN_LEN) {
/* The LRU list is now long enough for LRU_old to become
defined: init it */
buf_LRU_old_init(buf_pool);
} else {
buf_page_set_old(bpage, buf_pool->LRU_old != NULL);
}
/* If this is a zipped block with decompressed frame as well
then put it on the unzip_LRU list */
if (buf_page_belongs_to_unzip_LRU(bpage)) {
buf_unzip_LRU_add_block((buf_block_t*) bpage, TRUE);
}
}
/******************************************************************//**
Adds a block to the LRU list. Please make sure that the zip_size is
already set into the page zip when invoking the function, so that we
can get correct zip_size from the buffer page when adding a block
into LRU */
UNIV_INLINE
void
buf_LRU_add_block_low(
/*==================*/
buf_page_t* bpage, /*!< in: control block */
ibool old) /*!< in: TRUE if should be put to the old blocks
in the LRU list, else put to the start; if the
LRU list is very short, the block is added to
the start, regardless of this parameter */
{
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));
ut_ad(!bpage->in_LRU_list);
if (!old || (UT_LIST_GET_LEN(buf_pool->LRU) < BUF_LRU_OLD_MIN_LEN)) {
UT_LIST_ADD_FIRST(LRU, buf_pool->LRU, bpage);
bpage->freed_page_clock = buf_pool->freed_page_clock;
} else {
#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);
#endif /* UNIV_LRU_DEBUG */
UT_LIST_INSERT_AFTER(LRU, buf_pool->LRU, buf_pool->LRU_old,
bpage);
buf_pool->LRU_old_len++;
}
ut_d(bpage->in_LRU_list = TRUE);
incr_LRU_size_in_bytes(bpage, buf_pool);
if (UT_LIST_GET_LEN(buf_pool->LRU) > BUF_LRU_OLD_MIN_LEN) {
ut_ad(buf_pool->LRU_old);
/* Adjust the length of the old block list if necessary */
buf_page_set_old(bpage, old);
buf_LRU_old_adjust_len(buf_pool);
} else if (UT_LIST_GET_LEN(buf_pool->LRU) == BUF_LRU_OLD_MIN_LEN) {
/* The LRU list is now long enough for LRU_old to become
defined: init it */
buf_LRU_old_init(buf_pool);
} else {
buf_page_set_old(bpage, buf_pool->LRU_old != NULL);
}
/* If this is a zipped block with decompressed frame as well
then put it on the unzip_LRU list */
if (buf_page_belongs_to_unzip_LRU(bpage)) {
buf_unzip_LRU_add_block((buf_block_t*) bpage, old);
}
}
/******************************************************************//**
Adds a block to the LRU list. Please make sure that the zip_size is
already set into the page zip when invoking the function, so that we
can get correct zip_size from the buffer page when adding a block
into LRU */
UNIV_INTERN
void
buf_LRU_add_block(
/*==============*/
buf_page_t* bpage, /*!< in: control block */
ibool old) /*!< in: TRUE if should be put to the old
blocks in the LRU list, else put to the start;
if the LRU list is very short, the block is
added to the start, regardless of this
parameter */
{
buf_LRU_add_block_low(bpage, old);
}
/******************************************************************//**
Moves a block to the start of the LRU list. */
UNIV_INTERN
void
buf_LRU_make_block_young(
/*=====================*/
buf_page_t* bpage) /*!< in: control block */
{
buf_pool_t* buf_pool = buf_pool_from_bpage(bpage);
ut_ad(buf_pool_mutex_own(buf_pool));
if (bpage->old) {
buf_pool->stat.n_pages_made_young++;
}
buf_LRU_remove_block(bpage);
buf_LRU_add_block_low(bpage, FALSE);
}
/******************************************************************//**
Moves a block to the end of the LRU list. */
UNIV_INTERN
void
buf_LRU_make_block_old(
/*===================*/
buf_page_t* bpage) /*!< in: control block */
{
buf_LRU_remove_block(bpage);
buf_LRU_add_block_to_end_low(bpage);
}
/******************************************************************//**
Try to free a block. If bpage is a descriptor of a compressed-only
page, the descriptor object will be freed as well.
NOTE: If this function returns true, it will temporarily
release buf_pool->mutex. Furthermore, the page frame will no longer be
accessible via bpage.
The caller must hold buf_pool->mutex and must not hold any
buf_page_get_mutex() when calling this function.
@return true if freed, false otherwise. */
UNIV_INTERN
bool
buf_LRU_free_page(
/*===============*/
buf_page_t* bpage, /*!< in: block to be freed */
bool zip) /*!< in: true if should remove also the
compressed page of an uncompressed page */
{
buf_page_t* b = NULL;
buf_pool_t* buf_pool = buf_pool_from_bpage(bpage);
const ulint fold = buf_page_address_fold(bpage->space,
bpage->offset);
rw_lock_t* hash_lock = buf_page_hash_lock_get(buf_pool, fold);
ib_mutex_t* block_mutex = buf_page_get_mutex(bpage);
ut_ad(buf_pool_mutex_own(buf_pool));
ut_ad(buf_page_in_file(bpage));
ut_ad(bpage->in_LRU_list);
rw_lock_x_lock(hash_lock);
mutex_enter(block_mutex);
if (!buf_page_can_relocate(bpage)) {
/* Do not free buffer fixed or I/O-fixed blocks. */
goto func_exit;
}
#ifdef UNIV_IBUF_COUNT_DEBUG
ut_a(ibuf_count_get(bpage->space, bpage->offset) == 0);
#endif /* UNIV_IBUF_COUNT_DEBUG */
if (zip || !bpage->zip.data) {
/* This would completely free the block. */
/* Do not completely free dirty blocks. */
if (bpage->oldest_modification) {
goto func_exit;
}
} else if (bpage->oldest_modification > 0
&& buf_page_get_state(bpage) != BUF_BLOCK_FILE_PAGE) {
ut_ad(buf_page_get_state(bpage) == BUF_BLOCK_ZIP_DIRTY);
func_exit:
rw_lock_x_unlock(hash_lock);
mutex_exit(block_mutex);
return(false);
} else if (buf_page_get_state(bpage) == BUF_BLOCK_FILE_PAGE) {
b = buf_page_alloc_descriptor();
ut_a(b);
memcpy(b, bpage, sizeof *b);
}
ut_ad(buf_pool_mutex_own(buf_pool));
ut_ad(buf_page_in_file(bpage));
ut_ad(bpage->in_LRU_list);
ut_ad(!bpage->in_flush_list == !bpage->oldest_modification);
#ifdef UNIV_DEBUG
if (buf_debug_prints) {
fprintf(stderr, "Putting space %lu page %lu to free list\n",
(ulong) buf_page_get_space(bpage),
(ulong) buf_page_get_page_no(bpage));
}
#endif /* UNIV_DEBUG */
#ifdef UNIV_SYNC_DEBUG
ut_ad(rw_lock_own(hash_lock, RW_LOCK_EX));
#endif /* UNIV_SYNC_DEBUG */
ut_ad(buf_page_can_relocate(bpage));
if (!buf_LRU_block_remove_hashed(bpage, zip)) {
return(true);
}
#ifdef UNIV_SYNC_DEBUG
/* buf_LRU_block_remove_hashed() releases the hash_lock */
ut_ad(!rw_lock_own(hash_lock, RW_LOCK_EX)
&& !rw_lock_own(hash_lock, RW_LOCK_SHARED));
#endif /* UNIV_SYNC_DEBUG */
/* We have just freed a BUF_BLOCK_FILE_PAGE. If b != NULL
then it was a compressed page with an uncompressed frame and
we are interested in freeing only the uncompressed frame.
Therefore we have to reinsert the compressed page descriptor
into the LRU and page_hash (and possibly flush_list).
if b == NULL then it was a regular page that has been freed */
if (b) {
buf_page_t* prev_b = UT_LIST_GET_PREV(LRU, b);
rw_lock_x_lock(hash_lock);
mutex_enter(block_mutex);
ut_a(!buf_page_hash_get_low(
buf_pool, b->space, b->offset, fold));
b->state = b->oldest_modification
? BUF_BLOCK_ZIP_DIRTY
: BUF_BLOCK_ZIP_PAGE;
UNIV_MEM_DESC(b->zip.data,
page_zip_get_size(&b->zip));
/* The fields in_page_hash and in_LRU_list of
the to-be-freed block descriptor should have
been cleared in
buf_LRU_block_remove_hashed(), which
invokes buf_LRU_remove_block(). */
ut_ad(!bpage->in_page_hash);
ut_ad(!bpage->in_LRU_list);
/* bpage->state was BUF_BLOCK_FILE_PAGE because
b != NULL. The type cast below is thus valid. */
ut_ad(!((buf_block_t*) bpage)->in_unzip_LRU_list);
/* The fields of bpage were copied to b before
buf_LRU_block_remove_hashed() was invoked. */
ut_ad(!b->in_zip_hash);
ut_ad(b->in_page_hash);
ut_ad(b->in_LRU_list);
HASH_INSERT(buf_page_t, hash,
buf_pool->page_hash, fold, b);
/* Insert b where bpage was in the LRU list. */
if (UNIV_LIKELY(prev_b != NULL)) {
ulint lru_len;
ut_ad(prev_b->in_LRU_list);
ut_ad(buf_page_in_file(prev_b));
UT_LIST_INSERT_AFTER(LRU, buf_pool->LRU,
prev_b, b);
incr_LRU_size_in_bytes(b, buf_pool);
if (buf_page_is_old(b)) {
buf_pool->LRU_old_len++;
if (UNIV_UNLIKELY
(buf_pool->LRU_old
== UT_LIST_GET_NEXT(LRU, b))) {
buf_pool->LRU_old = b;
}
}
lru_len = UT_LIST_GET_LEN(buf_pool->LRU);
if (lru_len > BUF_LRU_OLD_MIN_LEN) {
ut_ad(buf_pool->LRU_old);
/* Adjust the length of the
old block list if necessary */
buf_LRU_old_adjust_len(buf_pool);
} else if (lru_len == BUF_LRU_OLD_MIN_LEN) {
/* The LRU list is now long
enough for LRU_old to become
defined: init it */
buf_LRU_old_init(buf_pool);
}
#ifdef UNIV_LRU_DEBUG
/* Check that the "old" flag is consistent
in the block and its neighbours. */
buf_page_set_old(b, buf_page_is_old(b));
#endif /* UNIV_LRU_DEBUG */
} else {
ut_d(b->in_LRU_list = FALSE);
buf_LRU_add_block_low(b, buf_page_is_old(b));
}
if (b->state == BUF_BLOCK_ZIP_PAGE) {
#if defined UNIV_DEBUG || defined UNIV_BUF_DEBUG
buf_LRU_insert_zip_clean(b);
#endif /* UNIV_DEBUG || UNIV_BUF_DEBUG */
} else {
/* Relocate on buf_pool->flush_list. */
buf_flush_relocate_on_flush_list(bpage, b);
}
bpage->zip.data = NULL;
page_zip_set_size(&bpage->zip, 0);
mutex_exit(block_mutex);
/* Prevent buf_page_get_gen() from
decompressing the block while we release
buf_pool->mutex and block_mutex. */
block_mutex = buf_page_get_mutex(b);
mutex_enter(block_mutex);
buf_page_set_sticky(b);
mutex_exit(block_mutex);
rw_lock_x_unlock(hash_lock);
} else {
/* There can be multiple threads doing an LRU scan to
free a block. The page_cleaner thread can be doing an
LRU batch whereas user threads can potentially be doing
multiple single page flushes. As we release
buf_pool->mutex below we need to make sure that no one
else considers this block as a victim for page
replacement. This block is already out of page_hash
and we are about to remove it from the LRU list and put
it on the free list. */
mutex_enter(block_mutex);
buf_page_set_sticky(bpage);
mutex_exit(block_mutex);
}
buf_pool_mutex_exit(buf_pool);
/* Remove possible adaptive hash index on the page.
The page was declared uninitialized by
buf_LRU_block_remove_hashed(). We need to flag
the contents of the page valid (which it still is) in
order to avoid bogus Valgrind warnings.*/
UNIV_MEM_VALID(((buf_block_t*) bpage)->frame,
UNIV_PAGE_SIZE);
btr_search_drop_page_hash_index((buf_block_t*) bpage);
UNIV_MEM_INVALID(((buf_block_t*) bpage)->frame,
UNIV_PAGE_SIZE);
if (b) {
ib_uint32_t checksum;
/* Compute and stamp the compressed page
checksum while not holding any mutex. The
block is already half-freed
(BUF_BLOCK_REMOVE_HASH) and removed from
buf_pool->page_hash, thus inaccessible by any
other thread. */
checksum = static_cast<ib_uint32_t>(
page_zip_calc_checksum(
b->zip.data,
page_zip_get_size(&b->zip),
static_cast<srv_checksum_algorithm_t>(
srv_checksum_algorithm)));
mach_write_to_4(b->zip.data + FIL_PAGE_SPACE_OR_CHKSUM,
checksum);
}
buf_pool_mutex_enter(buf_pool);
mutex_enter(block_mutex);
buf_page_unset_sticky(b != NULL ? b : bpage);
mutex_exit(block_mutex);
buf_LRU_block_free_hashed_page((buf_block_t*) bpage);
return(true);
}
/******************************************************************//**
Puts a block back to the free list. */
UNIV_INTERN
void
buf_LRU_block_free_non_file_page(
/*=============================*/
buf_block_t* block) /*!< in: block, must not contain a file page */
{
void* data;
buf_pool_t* buf_pool = buf_pool_from_block(block);
ut_ad(block);
ut_ad(buf_pool_mutex_own(buf_pool));
ut_ad(mutex_own(&block->mutex));
switch (buf_block_get_state(block)) {
case BUF_BLOCK_MEMORY:
case BUF_BLOCK_READY_FOR_USE:
break;
default:
ut_error;
}
#if defined UNIV_AHI_DEBUG || defined UNIV_DEBUG
ut_a(block->n_pointers == 0);
#endif /* UNIV_AHI_DEBUG || UNIV_DEBUG */
ut_ad(!block->page.in_free_list);
ut_ad(!block->page.in_flush_list);
ut_ad(!block->page.in_LRU_list);
buf_block_set_state(block, BUF_BLOCK_NOT_USED);
UNIV_MEM_ALLOC(block->frame, UNIV_PAGE_SIZE);
#ifdef UNIV_DEBUG
/* Wipe contents of page to reveal possible stale pointers to it */
memset(block->frame, '\0', UNIV_PAGE_SIZE);
#else
/* Wipe page_no and space_id */
memset(block->frame + FIL_PAGE_OFFSET, 0xfe, 4);
memset(block->frame + FIL_PAGE_ARCH_LOG_NO_OR_SPACE_ID, 0xfe, 4);
#endif
data = block->page.zip.data;
if (data) {
block->page.zip.data = NULL;
mutex_exit(&block->mutex);
buf_pool_mutex_exit_forbid(buf_pool);
buf_buddy_free(
buf_pool, data, page_zip_get_size(&block->page.zip));
buf_pool_mutex_exit_allow(buf_pool);
mutex_enter(&block->mutex);
page_zip_set_size(&block->page.zip, 0);
}
UT_LIST_ADD_FIRST(list, buf_pool->free, (&block->page));
ut_d(block->page.in_free_list = TRUE);
UNIV_MEM_ASSERT_AND_FREE(block->frame, UNIV_PAGE_SIZE);
}
/******************************************************************//**
Takes a block out of the LRU list and page hash table.
If the block is compressed-only (BUF_BLOCK_ZIP_PAGE),
the object will be freed.
The caller must hold buf_pool->mutex, the buf_page_get_mutex() mutex
and the appropriate hash_lock. This function will release the
buf_page_get_mutex() and the hash_lock.
If a compressed page is freed other compressed pages may be relocated.
@retval true if BUF_BLOCK_FILE_PAGE was removed from page_hash. The
caller needs to free the page to the free list
@retval false if BUF_BLOCK_ZIP_PAGE was removed from page_hash. In
this case the block is already returned to the buddy allocator. */
static
bool
buf_LRU_block_remove_hashed(
/*========================*/
buf_page_t* bpage, /*!< in: block, must contain a file page and
be in a state where it can be freed; there
may or may not be a hash index to the page */
bool zip) /*!< in: true if should remove also the
compressed page of an uncompressed page */
{
ulint fold;
const buf_page_t* hashed_bpage;
buf_pool_t* buf_pool = buf_pool_from_bpage(bpage);
rw_lock_t* hash_lock;
ut_ad(bpage);
ut_ad(buf_pool_mutex_own(buf_pool));
ut_ad(mutex_own(buf_page_get_mutex(bpage)));
fold = buf_page_address_fold(bpage->space, bpage->offset);
hash_lock = buf_page_hash_lock_get(buf_pool, fold);
#ifdef UNIV_SYNC_DEBUG
ut_ad(rw_lock_own(hash_lock, RW_LOCK_EX));
#endif /* UNIV_SYNC_DEBUG */
ut_a(buf_page_get_io_fix(bpage) == BUF_IO_NONE);
ut_a(bpage->buf_fix_count == 0);
buf_LRU_remove_block(bpage);
buf_pool->freed_page_clock += 1;
switch (buf_page_get_state(bpage)) {
case BUF_BLOCK_FILE_PAGE:
UNIV_MEM_ASSERT_W(bpage, sizeof(buf_block_t));
UNIV_MEM_ASSERT_W(((buf_block_t*) bpage)->frame,
UNIV_PAGE_SIZE);
buf_block_modify_clock_inc((buf_block_t*) bpage);
if (bpage->zip.data) {
const page_t* page = ((buf_block_t*) bpage)->frame;
const ulint zip_size
= page_zip_get_size(&bpage->zip);
ut_a(!zip || bpage->oldest_modification == 0);
switch (UNIV_EXPECT(fil_page_get_type(page),
FIL_PAGE_INDEX)) {
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:
/* These are essentially uncompressed pages. */
if (!zip) {
/* InnoDB writes the data to the
uncompressed page frame. Copy it
to the compressed page, which will
be preserved. */
memcpy(bpage->zip.data, page,
zip_size);
}
break;
case FIL_PAGE_TYPE_ZBLOB:
case FIL_PAGE_TYPE_ZBLOB2:
break;
case FIL_PAGE_INDEX:
#ifdef UNIV_ZIP_DEBUG
ut_a(page_zip_validate(
&bpage->zip, page,
((buf_block_t*) bpage)->index));
#endif /* UNIV_ZIP_DEBUG */
break;
default:
ut_print_timestamp(stderr);
fputs(" InnoDB: ERROR: The compressed page"
" to be evicted seems corrupt:", stderr);
ut_print_buf(stderr, page, zip_size);
fputs("\nInnoDB: Possibly older version"
" of the page:", stderr);
ut_print_buf(stderr, bpage->zip.data,
zip_size);
putc('\n', stderr);
ut_error;
}
break;
}
/* fall through */
case BUF_BLOCK_ZIP_PAGE:
ut_a(bpage->oldest_modification == 0);
UNIV_MEM_ASSERT_W(bpage->zip.data,
page_zip_get_size(&bpage->zip));
break;
case BUF_BLOCK_POOL_WATCH:
case BUF_BLOCK_ZIP_DIRTY:
case BUF_BLOCK_NOT_USED:
case BUF_BLOCK_READY_FOR_USE:
case BUF_BLOCK_MEMORY:
case BUF_BLOCK_REMOVE_HASH:
ut_error;
break;
}
hashed_bpage = buf_page_hash_get_low(buf_pool, bpage->space,
bpage->offset, fold);
if (UNIV_UNLIKELY(bpage != hashed_bpage)) {
fprintf(stderr,
"InnoDB: Error: page %lu %lu not found"
" in the hash table\n",
(ulong) bpage->space,
(ulong) bpage->offset);
#ifdef UNIV_DEBUG
fprintf(stderr,
"InnoDB: in_page_hash %lu in_zip_hash %lu\n"
" in_free_list %lu in_flush_list %lu in_LRU_list %lu\n"
" zip.data %p zip_size %lu page_state %d\n",
bpage->in_page_hash, bpage->in_zip_hash,
bpage->in_free_list, bpage->in_flush_list,
bpage->in_LRU_list, bpage->zip.data,
buf_page_get_zip_size(bpage),
buf_page_get_state(bpage));
#else
fprintf(stderr,
"InnoDB: zip.data %p zip_size %lu page_state %d\n",
bpage->zip.data,
buf_page_get_zip_size(bpage),
buf_page_get_state(bpage));
#endif
if (hashed_bpage) {
fprintf(stderr,
"InnoDB: In hash table we find block"
" %p of %lu %lu which is not %p\n",
(const void*) hashed_bpage,
(ulong) hashed_bpage->space,
(ulong) hashed_bpage->offset,
(const void*) bpage);
}
#if defined UNIV_DEBUG || defined UNIV_BUF_DEBUG
mutex_exit(buf_page_get_mutex(bpage));
rw_lock_x_unlock(hash_lock);
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(!bpage->in_zip_hash);
ut_ad(bpage->in_page_hash);
ut_d(bpage->in_page_hash = FALSE);
HASH_DELETE(buf_page_t, hash, buf_pool->page_hash, fold, bpage);
switch (buf_page_get_state(bpage)) {
case BUF_BLOCK_ZIP_PAGE:
ut_ad(!bpage->in_free_list);
ut_ad(!bpage->in_flush_list);
ut_ad(!bpage->in_LRU_list);
ut_a(bpage->zip.data);
ut_a(buf_page_get_zip_size(bpage));
#if defined UNIV_DEBUG || defined UNIV_BUF_DEBUG
UT_LIST_REMOVE(list, buf_pool->zip_clean, bpage);
#endif /* UNIV_DEBUG || UNIV_BUF_DEBUG */
mutex_exit(&buf_pool->zip_mutex);
rw_lock_x_unlock(hash_lock);
buf_pool_mutex_exit_forbid(buf_pool);
buf_buddy_free(
buf_pool, bpage->zip.data,
page_zip_get_size(&bpage->zip));
buf_pool_mutex_exit_allow(buf_pool);
buf_page_free_descriptor(bpage);
return(false);
case BUF_BLOCK_FILE_PAGE:
memset(((buf_block_t*) bpage)->frame
+ FIL_PAGE_OFFSET, 0xff, 4);
memset(((buf_block_t*) bpage)->frame
+ FIL_PAGE_ARCH_LOG_NO_OR_SPACE_ID, 0xff, 4);
UNIV_MEM_INVALID(((buf_block_t*) bpage)->frame,
UNIV_PAGE_SIZE);
buf_page_set_state(bpage, BUF_BLOCK_REMOVE_HASH);
if (buf_pool->flush_rbt == NULL) {
bpage->space = ULINT32_UNDEFINED;
bpage->offset = ULINT32_UNDEFINED;
}
/* Question: If we release bpage and hash mutex here
then what protects us against:
1) Some other thread buffer fixing this page
2) Some other thread trying to read this page and
not finding it in buffer pool attempting to read it
from the disk.
Answer:
1) Cannot happen because the page is no longer in the
page_hash. Only possibility is when while invalidating
a tablespace we buffer fix the prev_page in LRU to
avoid relocation during the scan. But that is not
possible because we are holding buf_pool mutex.
2) Not possible because in buf_page_init_for_read()
we do a look up of page_hash while holding buf_pool
mutex and since we are holding buf_pool mutex here
and by the time we'll release it in the caller we'd
have inserted the compressed only descriptor in the
page_hash. */
rw_lock_x_unlock(hash_lock);
mutex_exit(&((buf_block_t*) bpage)->mutex);
if (zip && bpage->zip.data) {
/* Free the compressed page. */
void* data = bpage->zip.data;
bpage->zip.data = NULL;
ut_ad(!bpage->in_free_list);
ut_ad(!bpage->in_flush_list);
ut_ad(!bpage->in_LRU_list);
buf_pool_mutex_exit_forbid(buf_pool);
buf_buddy_free(
buf_pool, data,
page_zip_get_size(&bpage->zip));
buf_pool_mutex_exit_allow(buf_pool);
page_zip_set_size(&bpage->zip, 0);
}
return(true);
case BUF_BLOCK_POOL_WATCH:
case BUF_BLOCK_ZIP_DIRTY:
case BUF_BLOCK_NOT_USED:
case BUF_BLOCK_READY_FOR_USE:
case BUF_BLOCK_MEMORY:
case BUF_BLOCK_REMOVE_HASH:
break;
}
ut_error;
return(false);
}
/******************************************************************//**
Puts a file page whose has no hash index to the free list. */
static
void
buf_LRU_block_free_hashed_page(
/*===========================*/
buf_block_t* block) /*!< in: block, must contain a file page and
be in a state where it can be freed */
{
#ifdef UNIV_DEBUG
buf_pool_t* buf_pool = buf_pool_from_block(block);
ut_ad(buf_pool_mutex_own(buf_pool));
#endif
mutex_enter(&block->mutex);
buf_block_set_state(block, BUF_BLOCK_MEMORY);
buf_LRU_block_free_non_file_page(block);
mutex_exit(&block->mutex);
}
/******************************************************************//**
Remove one page from LRU list and put it to free list */
UNIV_INTERN
void
buf_LRU_free_one_page(
/*==================*/
buf_page_t* bpage) /*!< in/out: block, must contain a file page and
be in a state where it can be freed; there
may or may not be a hash index to the page */
{
buf_pool_t* buf_pool = buf_pool_from_bpage(bpage);
const ulint fold = buf_page_address_fold(bpage->space,
bpage->offset);
rw_lock_t* hash_lock = buf_page_hash_lock_get(buf_pool, fold);
ib_mutex_t* block_mutex = buf_page_get_mutex(bpage);
ut_ad(buf_pool_mutex_own(buf_pool));
rw_lock_x_lock(hash_lock);
mutex_enter(block_mutex);
if (buf_LRU_block_remove_hashed(bpage, true)) {
buf_LRU_block_free_hashed_page((buf_block_t*) bpage);
}
/* buf_LRU_block_remove_hashed() releases hash_lock and block_mutex */
#ifdef UNIV_SYNC_DEBUG
ut_ad(!rw_lock_own(hash_lock, RW_LOCK_EX)
&& !rw_lock_own(hash_lock, RW_LOCK_SHARED));
#endif /* UNIV_SYNC_DEBUG */
ut_ad(!mutex_own(block_mutex));
}
/**********************************************************************//**
Updates buf_pool->LRU_old_ratio for one buffer pool instance.
@return updated old_pct */
static
uint
buf_LRU_old_ratio_update_instance(
/*==============================*/
buf_pool_t* buf_pool,/*!< in: buffer pool instance */
uint old_pct,/*!< in: Reserve this percentage of
the buffer pool for "old" blocks. */
ibool adjust) /*!< in: TRUE=adjust the LRU list;
FALSE=just assign buf_pool->LRU_old_ratio
during the initialization of InnoDB */
{
uint ratio;
ratio = old_pct * BUF_LRU_OLD_RATIO_DIV / 100;
if (ratio < BUF_LRU_OLD_RATIO_MIN) {
ratio = BUF_LRU_OLD_RATIO_MIN;
} else if (ratio > BUF_LRU_OLD_RATIO_MAX) {
ratio = BUF_LRU_OLD_RATIO_MAX;
}
if (adjust) {
buf_pool_mutex_enter(buf_pool);
if (ratio != buf_pool->LRU_old_ratio) {
buf_pool->LRU_old_ratio = ratio;
if (UT_LIST_GET_LEN(buf_pool->LRU)
>= BUF_LRU_OLD_MIN_LEN) {
buf_LRU_old_adjust_len(buf_pool);
}
}
buf_pool_mutex_exit(buf_pool);
} else {
buf_pool->LRU_old_ratio = ratio;
}
/* the reverse of
ratio = old_pct * BUF_LRU_OLD_RATIO_DIV / 100 */
return((uint) (ratio * 100 / (double) BUF_LRU_OLD_RATIO_DIV + 0.5));
}
/**********************************************************************//**
Updates buf_pool->LRU_old_ratio.
@return updated old_pct */
UNIV_INTERN
ulint
buf_LRU_old_ratio_update(
/*=====================*/
uint old_pct,/*!< in: Reserve this percentage of
the buffer pool for "old" blocks. */
ibool adjust) /*!< in: TRUE=adjust the LRU list;
FALSE=just assign buf_pool->LRU_old_ratio
during the initialization of InnoDB */
{
ulint i;
ulint new_ratio = 0;
for (i = 0; i < srv_buf_pool_instances; i++) {
buf_pool_t* buf_pool;
buf_pool = buf_pool_from_array(i);
new_ratio = buf_LRU_old_ratio_update_instance(
buf_pool, old_pct, adjust);
}
return(new_ratio);
}
/********************************************************************//**
Update the historical stats that we are collecting for LRU eviction
policy at the end of each interval. */
UNIV_INTERN
void
buf_LRU_stat_update(void)
/*=====================*/
{
ulint i;
buf_LRU_stat_t* item;
buf_pool_t* buf_pool;
ibool evict_started = FALSE;
buf_LRU_stat_t cur_stat;
/* If we haven't started eviction yet then don't update stats. */
for (i = 0; i < srv_buf_pool_instances; i++) {
buf_pool = buf_pool_from_array(i);
if (buf_pool->freed_page_clock != 0) {
evict_started = TRUE;
break;
}
}
if (!evict_started) {
goto func_exit;
}
/* Update the index. */
item = &buf_LRU_stat_arr[buf_LRU_stat_arr_ind];
buf_LRU_stat_arr_ind++;
buf_LRU_stat_arr_ind %= BUF_LRU_STAT_N_INTERVAL;
/* Add the current value and subtract the obsolete entry.
Since buf_LRU_stat_cur is not protected by any mutex,
it can be changing between adding to buf_LRU_stat_sum
and copying to item. Assign it to local variables to make
sure the same value assign to the buf_LRU_stat_sum
and item */
cur_stat = buf_LRU_stat_cur;
buf_LRU_stat_sum.io += cur_stat.io - item->io;
buf_LRU_stat_sum.unzip += cur_stat.unzip - item->unzip;
/* Put current entry in the array. */
memcpy(item, &cur_stat, sizeof *item);
func_exit:
/* Clear the current entry. */
memset(&buf_LRU_stat_cur, 0, sizeof buf_LRU_stat_cur);
}
#if defined UNIV_DEBUG || defined UNIV_BUF_DEBUG
/**********************************************************************//**
Validates the LRU list for one buffer pool instance. */
static
void
buf_LRU_validate_instance(
/*======================*/
buf_pool_t* buf_pool)
{
buf_page_t* bpage;
buf_block_t* block;
ulint old_len;
ulint new_len;
ut_ad(buf_pool);
buf_pool_mutex_enter(buf_pool);
if (UT_LIST_GET_LEN(buf_pool->LRU) >= BUF_LRU_OLD_MIN_LEN) {
ut_a(buf_pool->LRU_old);
old_len = buf_pool->LRU_old_len;
new_len = ut_min(UT_LIST_GET_LEN(buf_pool->LRU)
* buf_pool->LRU_old_ratio
/ BUF_LRU_OLD_RATIO_DIV,
UT_LIST_GET_LEN(buf_pool->LRU)
- (BUF_LRU_OLD_TOLERANCE
+ BUF_LRU_NON_OLD_MIN_LEN));
ut_a(old_len >= new_len - BUF_LRU_OLD_TOLERANCE);
ut_a(old_len <= new_len + BUF_LRU_OLD_TOLERANCE);
}
UT_LIST_VALIDATE(LRU, buf_page_t, buf_pool->LRU, CheckInLRUList());
old_len = 0;
for (bpage = UT_LIST_GET_FIRST(buf_pool->LRU);
bpage != NULL;
bpage = UT_LIST_GET_NEXT(LRU, bpage)) {
switch (buf_page_get_state(bpage)) {
case BUF_BLOCK_POOL_WATCH:
case BUF_BLOCK_NOT_USED:
case BUF_BLOCK_READY_FOR_USE:
case BUF_BLOCK_MEMORY:
case BUF_BLOCK_REMOVE_HASH:
ut_error;
break;
case BUF_BLOCK_FILE_PAGE:
ut_ad(((buf_block_t*) bpage)->in_unzip_LRU_list
== buf_page_belongs_to_unzip_LRU(bpage));
case BUF_BLOCK_ZIP_PAGE:
case BUF_BLOCK_ZIP_DIRTY:
break;
}
if (buf_page_is_old(bpage)) {
const buf_page_t* prev
= UT_LIST_GET_PREV(LRU, bpage);
const buf_page_t* next
= UT_LIST_GET_NEXT(LRU, bpage);
if (!old_len++) {
ut_a(buf_pool->LRU_old == bpage);
} else {
ut_a(!prev || buf_page_is_old(prev));
}
ut_a(!next || buf_page_is_old(next));
}
}
ut_a(buf_pool->LRU_old_len == old_len);
UT_LIST_VALIDATE(list, buf_page_t, buf_pool->free, CheckInFreeList());
for (bpage = UT_LIST_GET_FIRST(buf_pool->free);
bpage != NULL;
bpage = UT_LIST_GET_NEXT(list, bpage)) {
ut_a(buf_page_get_state(bpage) == BUF_BLOCK_NOT_USED);
}
UT_LIST_VALIDATE(
unzip_LRU, buf_block_t, buf_pool->unzip_LRU,
CheckUnzipLRUAndLRUList());
for (block = UT_LIST_GET_FIRST(buf_pool->unzip_LRU);
block;
block = UT_LIST_GET_NEXT(unzip_LRU, block)) {
ut_ad(block->in_unzip_LRU_list);
ut_ad(block->page.in_LRU_list);
ut_a(buf_page_belongs_to_unzip_LRU(&block->page));
}
buf_pool_mutex_exit(buf_pool);
}
/**********************************************************************//**
Validates the LRU list.
@return TRUE */
UNIV_INTERN
ibool
buf_LRU_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_LRU_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 the LRU list for one buffer pool instance. */
UNIV_INTERN
void
buf_LRU_print_instance(
/*===================*/
buf_pool_t* buf_pool)
{
const buf_page_t* bpage;
ut_ad(buf_pool);
buf_pool_mutex_enter(buf_pool);
bpage = UT_LIST_GET_FIRST(buf_pool->LRU);
while (bpage != NULL) {
mutex_enter(buf_page_get_mutex(bpage));
fprintf(stderr, "BLOCK space %lu page %lu ",
(ulong) buf_page_get_space(bpage),
(ulong) buf_page_get_page_no(bpage));
if (buf_page_is_old(bpage)) {
fputs("old ", stderr);
}
if (bpage->buf_fix_count) {
fprintf(stderr, "buffix count %lu ",
(ulong) bpage->buf_fix_count);
}
if (buf_page_get_io_fix(bpage)) {
fprintf(stderr, "io_fix %lu ",
(ulong) buf_page_get_io_fix(bpage));
}
if (bpage->oldest_modification) {
fputs("modif. ", stderr);
}
switch (buf_page_get_state(bpage)) {
const byte* frame;
case BUF_BLOCK_FILE_PAGE:
frame = buf_block_get_frame((buf_block_t*) bpage);
fprintf(stderr, "\ntype %lu"
" index id %llu\n",
(ulong) fil_page_get_type(frame),
(ullint) btr_page_get_index_id(frame));
break;
case BUF_BLOCK_ZIP_PAGE:
frame = bpage->zip.data;
fprintf(stderr, "\ntype %lu size %lu"
" index id %llu\n",
(ulong) fil_page_get_type(frame),
(ulong) buf_page_get_zip_size(bpage),
(ullint) btr_page_get_index_id(frame));
break;
default:
fprintf(stderr, "\n!state %lu!\n",
(ulong) buf_page_get_state(bpage));
break;
}
mutex_exit(buf_page_get_mutex(bpage));
bpage = UT_LIST_GET_NEXT(LRU, bpage);
}
buf_pool_mutex_exit(buf_pool);
}
/**********************************************************************//**
Prints the LRU list. */
UNIV_INTERN
void
buf_LRU_print(void)
/*===============*/
{
ulint i;
buf_pool_t* buf_pool;
for (i = 0; i < srv_buf_pool_instances; i++) {
buf_pool = buf_pool_from_array(i);
buf_LRU_print_instance(buf_pool);
}
}
#endif /* UNIV_DEBUG_PRINT || UNIV_DEBUG || UNIV_BUF_DEBUG */
#endif /* !UNIV_HOTBACKUP */
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