Commit a03dd94b authored by Jan Lindström's avatar Jan Lindström

MDEV-6936: Buffer pool list scan optimization

Merged Facebook commit 617aef9f911d825e9053f3d611d0389e02031225
authored by Inaam Rana to InnoDB storage engine (not XtraDB)
from https://github.com/facebook/mysql-5.6

WL#7047 - Optimize buffer pool list scans and related batch processing

Reduce excessive scanning of pages when doing flush list batches. The
fix is to introduce the concept of "Hazard Pointer", this reduces the
time complexity of the scan from O(n*n) to O.

The concept of hazard pointer is reversed in this work. Academically
hazard pointer is a pointer that the thread working on it will declar
such and as long as that thread is not done no other thread is allowe
do anything with it.

In this WL we declare the pointer as a hazard pointer and then if any
thread attempts to work on it, it is allowed to do so but it has to a
the hazard pointer to the next valid value. We use hazard pointer sol
reverse traversal of lists within a buffer pool instance.

Add an event to control the background flush thread. The background f
thread wait has been converted to an os event timed wait so that it c
signalled by threads that want to kick start a background flush when
buffer pool is running low on free/dirty pages.
parent 84de2770
......@@ -47,7 +47,6 @@ buffer_data_written disabled
buffer_flush_batch_scanned disabled
buffer_flush_batch_num_scan disabled
buffer_flush_batch_scanned_per_call disabled
buffer_flush_batch_rescan disabled
buffer_flush_batch_total_pages disabled
buffer_flush_batches disabled
buffer_flush_batch_pages disabled
......@@ -72,9 +71,12 @@ buffer_flush_background_pages disabled
buffer_LRU_batch_scanned disabled
buffer_LRU_batch_num_scan disabled
buffer_LRU_batch_scanned_per_call disabled
buffer_LRU_batch_total_pages disabled
buffer_LRU_batches disabled
buffer_LRU_batch_pages disabled
buffer_LRU_batch_flush_total_pages disabled
buffer_LRU_batches_flush disabled
buffer_LRU_batch_flush_pages disabled
buffer_LRU_batch_evict_total_pages disabled
buffer_LRU_batches_evict disabled
buffer_LRU_batch_evict_pages disabled
buffer_LRU_single_flush_scanned disabled
buffer_LRU_single_flush_num_scan disabled
buffer_LRU_single_flush_scanned_per_call disabled
......
......@@ -47,7 +47,6 @@ buffer_data_written disabled
buffer_flush_batch_scanned disabled
buffer_flush_batch_num_scan disabled
buffer_flush_batch_scanned_per_call disabled
buffer_flush_batch_rescan disabled
buffer_flush_batch_total_pages disabled
buffer_flush_batches disabled
buffer_flush_batch_pages disabled
......@@ -72,9 +71,12 @@ buffer_flush_background_pages disabled
buffer_LRU_batch_scanned disabled
buffer_LRU_batch_num_scan disabled
buffer_LRU_batch_scanned_per_call disabled
buffer_LRU_batch_total_pages disabled
buffer_LRU_batches disabled
buffer_LRU_batch_pages disabled
buffer_LRU_batch_flush_total_pages disabled
buffer_LRU_batches_flush disabled
buffer_LRU_batch_flush_pages disabled
buffer_LRU_batch_evict_total_pages disabled
buffer_LRU_batches_evict disabled
buffer_LRU_batch_evict_pages disabled
buffer_LRU_single_flush_scanned disabled
buffer_LRU_single_flush_num_scan disabled
buffer_LRU_single_flush_scanned_per_call disabled
......
......@@ -47,7 +47,6 @@ buffer_data_written disabled
buffer_flush_batch_scanned disabled
buffer_flush_batch_num_scan disabled
buffer_flush_batch_scanned_per_call disabled
buffer_flush_batch_rescan disabled
buffer_flush_batch_total_pages disabled
buffer_flush_batches disabled
buffer_flush_batch_pages disabled
......@@ -72,9 +71,12 @@ buffer_flush_background_pages disabled
buffer_LRU_batch_scanned disabled
buffer_LRU_batch_num_scan disabled
buffer_LRU_batch_scanned_per_call disabled
buffer_LRU_batch_total_pages disabled
buffer_LRU_batches disabled
buffer_LRU_batch_pages disabled
buffer_LRU_batch_flush_total_pages disabled
buffer_LRU_batches_flush disabled
buffer_LRU_batch_flush_pages disabled
buffer_LRU_batch_evict_total_pages disabled
buffer_LRU_batches_evict disabled
buffer_LRU_batch_evict_pages disabled
buffer_LRU_single_flush_scanned disabled
buffer_LRU_single_flush_num_scan disabled
buffer_LRU_single_flush_scanned_per_call disabled
......
......@@ -47,7 +47,6 @@ buffer_data_written disabled
buffer_flush_batch_scanned disabled
buffer_flush_batch_num_scan disabled
buffer_flush_batch_scanned_per_call disabled
buffer_flush_batch_rescan disabled
buffer_flush_batch_total_pages disabled
buffer_flush_batches disabled
buffer_flush_batch_pages disabled
......@@ -72,9 +71,12 @@ buffer_flush_background_pages disabled
buffer_LRU_batch_scanned disabled
buffer_LRU_batch_num_scan disabled
buffer_LRU_batch_scanned_per_call disabled
buffer_LRU_batch_total_pages disabled
buffer_LRU_batches disabled
buffer_LRU_batch_pages disabled
buffer_LRU_batch_flush_total_pages disabled
buffer_LRU_batches_flush disabled
buffer_LRU_batch_flush_pages disabled
buffer_LRU_batch_evict_total_pages disabled
buffer_LRU_batches_evict disabled
buffer_LRU_batch_evict_pages disabled
buffer_LRU_single_flush_scanned disabled
buffer_LRU_single_flush_num_scan disabled
buffer_LRU_single_flush_scanned_per_call disabled
......
......@@ -55,6 +55,8 @@ Created 11/5/1995 Heikki Tuuri
#include "srv0mon.h"
#include "buf0checksum.h"
#include <new>
/*
IMPLEMENTATION OF THE BUFFER POOL
=================================
......@@ -1329,6 +1331,19 @@ buf_pool_init_instance(
buf_pool->try_LRU_scan = TRUE;
/* Initialize the hazard pointer for flush_list batches */
new(&buf_pool->flush_hp)
FlushHp(buf_pool, &buf_pool->flush_list_mutex);
/* Initialize the hazard pointer for LRU batches */
new(&buf_pool->lru_hp) LRUHp(buf_pool, &buf_pool->mutex);
/* Initialize the iterator for LRU scan search */
new(&buf_pool->lru_scan_itr) LRUItr(buf_pool, &buf_pool->mutex);
/* Initialize the iterator for single page scan search */
new(&buf_pool->single_scan_itr) LRUItr(buf_pool, &buf_pool->mutex);
buf_pool_mutex_exit(buf_pool);
return(DB_SUCCESS);
......@@ -1419,6 +1434,8 @@ buf_pool_init(
btr_search_sys_create(buf_pool_get_curr_size() / sizeof(void*) / 64);
buf_flush_event = os_event_create();
return(DB_SUCCESS);
}
......@@ -1535,6 +1552,10 @@ buf_relocate(
memcpy(dpage, bpage, sizeof *dpage);
/* Important that we adjust the hazard pointer before
removing bpage from LRU list. */
buf_LRU_adjust_hp(buf_pool, bpage);
ut_d(bpage->in_LRU_list = FALSE);
ut_d(bpage->in_page_hash = FALSE);
......@@ -1573,6 +1594,84 @@ buf_relocate(
HASH_INSERT(buf_page_t, hash, buf_pool->page_hash, fold, dpage);
}
/** Hazard Pointer implementation. */
/** Set current value
@param bpage buffer block to be set as hp */
void
HazardPointer::set(buf_page_t* bpage)
{
ut_ad(mutex_own(m_mutex));
ut_ad(!bpage || buf_pool_from_bpage(bpage) == m_buf_pool);
ut_ad(!bpage || buf_page_in_file(bpage));
m_hp = bpage;
}
/** Checks if a bpage is the hp
@param bpage buffer block to be compared
@return true if it is hp */
bool
HazardPointer::is_hp(const buf_page_t* bpage)
{
ut_ad(mutex_own(m_mutex));
ut_ad(!m_hp || buf_pool_from_bpage(m_hp) == m_buf_pool);
ut_ad(!bpage || buf_pool_from_bpage(bpage) == m_buf_pool);
return(bpage == m_hp);
}
/** Adjust the value of hp. This happens when some other thread working
on the same list attempts to remove the hp from the list.
@param bpage buffer block to be compared */
void
FlushHp::adjust(const buf_page_t* bpage)
{
ut_ad(bpage != NULL);
/** We only support reverse traversal for now. */
if (is_hp(bpage)) {
m_hp = UT_LIST_GET_PREV(list, m_hp);
}
ut_ad(!m_hp || m_hp->in_flush_list);
}
/** Adjust the value of hp. This happens when some other thread working
on the same list attempts to remove the hp from the list.
@param bpage buffer block to be compared */
void
LRUHp::adjust(const buf_page_t* bpage)
{
ut_ad(bpage);
/** We only support reverse traversal for now. */
if (is_hp(bpage)) {
m_hp = UT_LIST_GET_PREV(LRU, m_hp);
}
ut_ad(!m_hp || m_hp->in_LRU_list);
}
/** Selects from where to start a scan. If we have scanned too deep into
the LRU list it resets the value to the tail of the LRU list.
@return buf_page_t from where to start scan. */
buf_page_t*
LRUItr::start()
{
ut_ad(mutex_own(m_mutex));
if (!m_hp || m_hp->old) {
m_hp = UT_LIST_GET_LAST(m_buf_pool->LRU);
}
return(m_hp);
}
/********************************************************************//**
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 */
......@@ -4057,7 +4156,10 @@ UNIV_INTERN
bool
buf_page_io_complete(
/*=================*/
buf_page_t* bpage) /*!< in: pointer to the block in question */
buf_page_t* bpage, /*!< in: pointer to the block in question */
bool evict) /*!< in: whether or not to evict the page
from LRU list. */
{
enum buf_io_fix io_type;
buf_pool_t* buf_pool = buf_pool_from_bpage(bpage);
......@@ -4238,6 +4340,7 @@ buf_page_io_complete(
id. */
buf_page_set_io_fix(bpage, BUF_IO_NONE);
buf_page_monitor(bpage, io_type);
switch (io_type) {
case BUF_IO_READ:
......@@ -4254,6 +4357,8 @@ buf_page_io_complete(
BUF_IO_READ);
}
mutex_exit(buf_page_get_mutex(bpage));
break;
case BUF_IO_WRITE:
......@@ -4269,14 +4374,30 @@ buf_page_io_complete(
buf_pool->stat.n_pages_written++;
/* In case of flush batches i.e.: BUF_FLUSH_LIST and
BUF_FLUSH_LRU this function is always called from IO
helper thread. In this case, we decide whether or not
to evict the page based on flush type. The value
passed as evict is the default value in function
definition which is false.
We always evict in case of LRU batch and never evict
in case of flush list batch. For single page flush
the caller sets the appropriate value. */
if (buf_page_get_flush_type(bpage) == BUF_FLUSH_LRU) {
evict = true;
}
mutex_exit(buf_page_get_mutex(bpage));
if (evict) {
buf_LRU_free_page(bpage, true);
}
break;
default:
ut_error;
}
buf_page_monitor(bpage, io_type);
#ifdef UNIV_DEBUG
if (buf_debug_prints) {
fprintf(stderr, "Has %s page space %lu page no %lu\n",
......@@ -4286,7 +4407,6 @@ buf_page_io_complete(
}
#endif /* UNIV_DEBUG */
mutex_exit(buf_page_get_mutex(bpage));
buf_pool_mutex_exit(buf_pool);
return(true);
......
This diff is collapsed.
......@@ -81,6 +81,10 @@ are not blocked for extended period of time when using very large
buffer pools. */
#define BUF_LRU_DROP_SEARCH_SIZE 1024
/** We scan these many blocks when looking for a clean page to evict
during LRU eviction. */
#define BUF_LRU_SEARCH_SCAN_THRESHOLD 100
/** 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;
......@@ -961,7 +965,7 @@ buf_LRU_free_from_unzip_LRU_list(
}
for (block = UT_LIST_GET_LAST(buf_pool->unzip_LRU),
scanned = 1, freed = FALSE;
scanned = 0, freed = FALSE;
block != NULL && !freed
&& (scan_all || scanned < srv_LRU_scan_depth);
++scanned) {
......@@ -978,11 +982,13 @@ buf_LRU_free_from_unzip_LRU_list(
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);
if (scanned) {
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);
}
......@@ -1004,21 +1010,30 @@ buf_LRU_free_from_common_LRU_list(
ut_ad(buf_pool_mutex_own(buf_pool));
for (bpage = UT_LIST_GET_LAST(buf_pool->LRU),
scanned = 1, freed = FALSE;
for (bpage = buf_pool->lru_scan_itr.start(),
scanned = 0, freed = false;
bpage != NULL && !freed
&& (scan_all || scanned < srv_LRU_scan_depth);
++scanned) {
&& (scan_all || scanned < BUF_LRU_SEARCH_SCAN_THRESHOLD);
++scanned, bpage = buf_pool->lru_scan_itr.get()) {
unsigned accessed;
buf_page_t* prev_bpage = UT_LIST_GET_PREV(LRU,
bpage);
buf_page_t* prev = UT_LIST_GET_PREV(LRU, bpage);
buf_pool->lru_scan_itr.set(prev);
ib_mutex_t* mutex = buf_page_get_mutex(bpage);
mutex_enter(mutex);
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);
unsigned accessed = buf_page_is_accessed(bpage);
if (buf_flush_ready_for_replace(bpage)) {
mutex_exit(mutex);
freed = buf_LRU_free_page(bpage, true);
} else {
mutex_exit(mutex);
}
if (freed && !accessed) {
/* Keep track of pages that are evicted without
ever being accessed. This gives us a measure of
......@@ -1026,14 +1041,17 @@ buf_LRU_free_from_common_LRU_list(
++buf_pool->stat.n_ra_pages_evicted;
}
bpage = prev_bpage;
ut_ad(buf_pool_mutex_own(buf_pool));
ut_ad(!mutex_own(mutex));
}
MONITOR_INC_VALUE_CUMULATIVE(
MONITOR_LRU_SEARCH_SCANNED,
MONITOR_LRU_SEARCH_SCANNED_NUM_CALL,
MONITOR_LRU_SEARCH_SCANNED_PER_CALL,
scanned);
if (scanned) {
MONITOR_INC_VALUE_CUMULATIVE(
MONITOR_LRU_SEARCH_SCANNED,
MONITOR_LRU_SEARCH_SCANNED_NUM_CALL,
MONITOR_LRU_SEARCH_SCANNED_PER_CALL,
scanned);
}
return(freed);
}
......@@ -1217,8 +1235,6 @@ 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
......@@ -1231,7 +1247,7 @@ we put it to free list to be used.
* 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
* same as iteration 1 but sleep 10ms
@return the free control block, in state BUF_BLOCK_READY_FOR_USE */
UNIV_INTERN
buf_block_t*
......@@ -1269,20 +1285,6 @@ buf_LRU_get_free_block(
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
......@@ -1299,6 +1301,10 @@ buf_LRU_get_free_block(
TRUE again when we flush a batch from this
buffer pool. */
buf_pool->try_LRU_scan = FALSE;
/* Also tell the page_cleaner thread that
there is work for it to do. */
os_event_set(buf_flush_event);
}
}
......@@ -1347,12 +1353,10 @@ buf_LRU_get_free_block(
/* 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) {
page_cleaner do an LRU batch for us. */
os_thread_sleep(100000);
if (n_iterations > 1) {
os_thread_sleep(10000);
}
/* No free block was found: try to flush the LRU list.
......@@ -1502,6 +1506,20 @@ buf_unzip_LRU_remove_block_if_needed(
}
}
/******************************************************************//**
Adjust LRU hazard pointers if needed. */
void
buf_LRU_adjust_hp(
/*==============*/
buf_pool_t* buf_pool,/*!< in: buffer pool instance */
const buf_page_t* bpage) /*!< in: control block */
{
buf_pool->lru_hp.adjust(bpage);
buf_pool->lru_scan_itr.adjust(bpage);
buf_pool->single_scan_itr.adjust(bpage);
}
/******************************************************************//**
Removes a block from the LRU list. */
UNIV_INLINE
......@@ -1521,6 +1539,10 @@ buf_LRU_remove_block(
ut_ad(bpage->in_LRU_list);
/* Important that we adjust the hazard pointers before removing
bpage from the LRU list. */
buf_LRU_adjust_hp(buf_pool, bpage);
/* If the LRU_old pointer is defined and points to just this block,
move it backward one step */
......
......@@ -110,7 +110,8 @@ typedef struct wrk_itm
will be used */
wr_tsk_t wr; /*!< Flush page list */
rd_tsk_t rd; /*!< Decompress page list */
ulint n_flushed; /*!< Flushed pages count */
ulint n_flushed; /*!< Number of flushed pages */
ulint n_evicted; /*!< Number of evicted pages */
os_thread_id_t id_usr; /*!< Thread-id currently working */
wrk_status_t wi_status; /*!< Work item status */
mem_heap_t *wheap; /*!< Heap were to allocate memory
......@@ -180,6 +181,7 @@ buf_mtflu_flush_pool_instance(
/*==========================*/
wrk_t *work_item) /*!< inout: work item to be flushed */
{
flush_counters_t n;
ut_a(work_item != NULL);
ut_a(work_item->wr.buf_pool != NULL);
......@@ -211,14 +213,16 @@ buf_mtflu_flush_pool_instance(
work_item->wr.min = ut_min(srv_LRU_scan_depth,work_item->wr.min);
}
work_item->n_flushed = buf_flush_batch(work_item->wr.buf_pool,
work_item->wr.flush_type,
work_item->wr.min,
work_item->wr.lsn_limit);
buf_flush_batch(work_item->wr.buf_pool,
work_item->wr.flush_type,
work_item->wr.min,
work_item->wr.lsn_limit,
&n);
buf_flush_end(work_item->wr.buf_pool, work_item->wr.flush_type);
buf_flush_common(work_item->wr.flush_type, work_item->n_flushed);
buf_flush_common(work_item->wr.flush_type, n.flushed);
work_item->n_flushed = n.flushed;
work_item->n_evicted = n.evicted;
return work_item->n_flushed;
}
......@@ -359,7 +363,7 @@ void
buf_mtflu_io_thread_exit(void)
/*==========================*/
{
long i;
ulint i;
thread_sync_t* mtflush_io = mtflush_ctx;
wrk_t* work_item = NULL;
......@@ -393,7 +397,7 @@ buf_mtflu_io_thread_exit(void)
ut_a(ib_wqueue_is_empty(mtflush_io->wq));
/* Send one exit work item/thread */
for (i=0; i < srv_mtflush_threads; i++) {
for (i=0; i < (ulint)srv_mtflush_threads; i++) {
work_item[i].tsk = MT_WRK_NONE;
work_item[i].wi_status = WRK_ITEM_EXIT;
work_item[i].wheap = mtflush_io->wheap;
......@@ -413,11 +417,8 @@ buf_mtflu_io_thread_exit(void)
ut_a(ib_wqueue_is_empty(mtflush_io->wq));
/* Requests sent */
os_fast_mutex_unlock(&mtflush_mtx);
/* Collect all work done items */
for (i=0; i < srv_mtflush_threads;) {
for (i=0; i < (ulint)srv_mtflush_threads;) {
wrk_t* work_item = NULL;
work_item = (wrk_t *)ib_wqueue_timedwait(mtflush_io->wr_cq, MT_WAIT_IN_USECS);
......@@ -432,6 +433,11 @@ buf_mtflu_io_thread_exit(void)
/* Wait about 1/2 sec to allow threads really exit */
os_thread_sleep(MT_WAIT_IN_USECS);
while(!ib_wqueue_is_empty(mtflush_io->wq))
{
ib_wqueue_nowait(mtflush_io->wq);
}
ut_a(ib_wqueue_is_empty(mtflush_io->wq));
ut_a(ib_wqueue_is_empty(mtflush_io->wr_cq));
ut_a(ib_wqueue_is_empty(mtflush_io->rd_cq));
......@@ -441,6 +447,8 @@ buf_mtflu_io_thread_exit(void)
ib_wqueue_free(mtflush_io->wr_cq);
ib_wqueue_free(mtflush_io->rd_cq);
/* Requests sent */
os_fast_mutex_unlock(&mtflush_mtx);
os_fast_mutex_free(&mtflush_mtx);
os_fast_mutex_free(&mtflush_io->thread_global_mtx);
......@@ -518,8 +526,8 @@ ulint
buf_mtflu_flush_work_items(
/*=======================*/
ulint buf_pool_inst, /*!< in: Number of buffer pool instances */
ulint *per_pool_pages_flushed, /*!< out: Number of pages
flushed/instance */
flush_counters_t *per_pool_cnt, /*!< out: Number of pages
flushed or evicted /instance */
buf_flush_t flush_type, /*!< in: Type of flush */
ulint min_n, /*!< in: Wished minimum number of
blocks to be flushed */
......@@ -549,6 +557,7 @@ buf_mtflu_flush_work_items(
work_item[i].wheap = work_heap;
work_item[i].rheap = reply_heap;
work_item[i].n_flushed = 0;
work_item[i].n_evicted = 0;
work_item[i].id_usr = 0;
ib_wqueue_add(mtflush_ctx->wq,
......@@ -562,7 +571,8 @@ buf_mtflu_flush_work_items(
done_wi = (wrk_t *)ib_wqueue_wait(mtflush_ctx->wr_cq);
if (done_wi != NULL) {
per_pool_pages_flushed[i] = done_wi->n_flushed;
per_pool_cnt[i].flushed = done_wi->n_flushed;
per_pool_cnt[i].evicted = done_wi->n_evicted;
#ifdef UNIV_MTFLUSH_DEBUG
if((int)done_wi->id_usr == 0 &&
......@@ -576,7 +586,7 @@ buf_mtflu_flush_work_items(
}
#endif
n_flushed+= done_wi->n_flushed;
n_flushed+= done_wi->n_flushed+done_wi->n_evicted;
i++;
}
}
......@@ -607,9 +617,9 @@ buf_mtflu_flush_list(
back to caller. Ignored if NULL */
{
ulint i;
bool success = true;
ulint cnt_flush[MTFLUSH_MAX_WORKER];
ulint i;
bool success = true;
flush_counters_t cnt[MTFLUSH_MAX_WORKER];
if (n_processed) {
*n_processed = 0;
......@@ -627,20 +637,29 @@ buf_mtflu_flush_list(
/* This lock is to safequard against re-entry if any. */
os_fast_mutex_lock(&mtflush_mtx);
buf_mtflu_flush_work_items(srv_buf_pool_instances,
cnt_flush, BUF_FLUSH_LIST,
cnt, BUF_FLUSH_LIST,
min_n, lsn_limit);
os_fast_mutex_unlock(&mtflush_mtx);
for (i = 0; i < srv_buf_pool_instances; i++) {
if (n_processed) {
*n_processed += cnt_flush[i];
*n_processed += cnt[i].flushed+cnt[i].evicted;
}
if (cnt_flush[i]) {
if (cnt[i].flushed) {
MONITOR_INC_VALUE_CUMULATIVE(
MONITOR_FLUSH_BATCH_TOTAL_PAGE,
MONITOR_FLUSH_BATCH_COUNT,
MONITOR_FLUSH_BATCH_PAGES,
cnt_flush[i]);
cnt[i].flushed);
}
if(cnt[i].evicted) {
MONITOR_INC_VALUE_CUMULATIVE(
MONITOR_LRU_BATCH_EVICT_TOTAL_PAGE,
MONITOR_LRU_BATCH_EVICT_COUNT,
MONITOR_LRU_BATCH_EVICT_PAGES,
cnt[i].evicted);
}
}
#ifdef UNIV_MTFLUSH_DEBUG
......@@ -663,25 +682,38 @@ buf_mtflu_flush_LRU_tail(void)
/*==========================*/
{
ulint total_flushed=0, i;
ulint cnt_flush[MTFLUSH_MAX_WORKER];
flush_counters_t cnt[MTFLUSH_MAX_WORKER];
ut_a(buf_mtflu_init_done());
/* At shutdown do not send requests anymore */
if (!mtflush_ctx || mtflush_ctx->gwt_status == WTHR_KILL_IT) {
return (total_flushed);
}
/* This lock is to safeguard against re-entry if any */
os_fast_mutex_lock(&mtflush_mtx);
buf_mtflu_flush_work_items(srv_buf_pool_instances,
cnt_flush, BUF_FLUSH_LRU, srv_LRU_scan_depth, 0);
cnt, BUF_FLUSH_LRU, srv_LRU_scan_depth, 0);
os_fast_mutex_unlock(&mtflush_mtx);
for (i = 0; i < srv_buf_pool_instances; i++) {
if (cnt_flush[i]) {
total_flushed += cnt_flush[i];
total_flushed += cnt[i].flushed+cnt[i].evicted;
if (cnt[i].flushed) {
MONITOR_INC_VALUE_CUMULATIVE(
MONITOR_LRU_BATCH_TOTAL_PAGE,
MONITOR_LRU_BATCH_COUNT,
MONITOR_LRU_BATCH_PAGES,
cnt_flush[i]);
MONITOR_LRU_BATCH_FLUSH_TOTAL_PAGE,
MONITOR_LRU_BATCH_FLUSH_COUNT,
MONITOR_LRU_BATCH_FLUSH_PAGES,
cnt[i].flushed);
}
if(cnt[i].evicted) {
MONITOR_INC_VALUE_CUMULATIVE(
MONITOR_LRU_BATCH_EVICT_TOTAL_PAGE,
MONITOR_LRU_BATCH_EVICT_COUNT,
MONITOR_LRU_BATCH_EVICT_PAGES,
cnt[i].evicted);
}
}
......
......@@ -1199,7 +1199,9 @@ UNIV_INTERN
bool
buf_page_io_complete(
/*=================*/
buf_page_t* bpage); /*!< in: pointer to the block in question */
buf_page_t* bpage, /*!< in: pointer to the block in question */
bool evict = false);/*!< in: whether or not to evict
the page from LRU list. */
/********************************************************************//**
Calculates a folded value of a file page address to use in the page hash
table.
......@@ -1762,6 +1764,133 @@ Compute the hash fold value for blocks in buf_pool->zip_hash. */
#define BUF_POOL_ZIP_FOLD_BPAGE(b) BUF_POOL_ZIP_FOLD((buf_block_t*) (b))
/* @} */
/** A "Hazard Pointer" class used to iterate over page lists
inside the buffer pool. A hazard pointer is a buf_page_t pointer
which we intend to iterate over next and we want it remain valid
even after we release the buffer pool mutex. */
class HazardPointer {
public:
/** Constructor
@param buf_pool buffer pool instance
@param mutex mutex that is protecting the hp. */
HazardPointer(const buf_pool_t* buf_pool, const ib_mutex_t* mutex)
:
m_buf_pool(buf_pool)
#ifdef UNIV_DEBUG
, m_mutex(mutex)
#endif /* UNIV_DEBUG */
, m_hp() {}
/** Destructor */
virtual ~HazardPointer() {}
/** Get current value */
buf_page_t* get()
{
ut_ad(mutex_own(m_mutex));
return(m_hp);
}
/** Set current value
@param bpage buffer block to be set as hp */
void set(buf_page_t* bpage);
/** Checks if a bpage is the hp
@param bpage buffer block to be compared
@return true if it is hp */
bool is_hp(const buf_page_t* bpage);
/** Adjust the value of hp. This happens when some
other thread working on the same list attempts to
remove the hp from the list. Must be implemented
by the derived classes.
@param bpage buffer block to be compared */
virtual void adjust(const buf_page_t*) = 0;
protected:
/** Disable copying */
HazardPointer(const HazardPointer&);
HazardPointer& operator=(const HazardPointer&);
/** Buffer pool instance */
const buf_pool_t* m_buf_pool;
#if UNIV_DEBUG
/** mutex that protects access to the m_hp. */
const ib_mutex_t* m_mutex;
#endif /* UNIV_DEBUG */
/** hazard pointer. */
buf_page_t* m_hp;
};
/** Class implementing buf_pool->flush_list hazard pointer */
class FlushHp: public HazardPointer {
public:
/** Constructor
@param buf_pool buffer pool instance
@param mutex mutex that is protecting the hp. */
FlushHp(const buf_pool_t* buf_pool, const ib_mutex_t* mutex)
:
HazardPointer(buf_pool, mutex) {}
/** Destructor */
virtual ~FlushHp() {}
/** Adjust the value of hp. This happens when some
other thread working on the same list attempts to
remove the hp from the list.
@param bpage buffer block to be compared */
void adjust(const buf_page_t* bpage);
};
/** Class implementing buf_pool->LRU hazard pointer */
class LRUHp: public HazardPointer {
public:
/** Constructor
@param buf_pool buffer pool instance
@param mutex mutex that is protecting the hp. */
LRUHp(const buf_pool_t* buf_pool, const ib_mutex_t* mutex)
:
HazardPointer(buf_pool, mutex) {}
/** Destructor */
virtual ~LRUHp() {}
/** Adjust the value of hp. This happens when some
other thread working on the same list attempts to
remove the hp from the list.
@param bpage buffer block to be compared */
void adjust(const buf_page_t* bpage);
};
/** Special purpose iterators to be used when scanning the LRU list.
The idea is that when one thread finishes the scan it leaves the
itr in that position and the other thread can start scan from
there */
class LRUItr: public LRUHp {
public:
/** Constructor
@param buf_pool buffer pool instance
@param mutex mutex that is protecting the hp. */
LRUItr(const buf_pool_t* buf_pool, const ib_mutex_t* mutex)
:
LRUHp(buf_pool, mutex) {}
/** Destructor */
virtual ~LRUItr() {}
/** Selects from where to start a scan. If we have scanned
too deep into the LRU list it resets the value to the tail
of the LRU list.
@return buf_page_t from where to start scan. */
buf_page_t* start();
};
/** Struct that is embedded in the free zip blocks */
struct buf_buddy_free_t {
union {
......@@ -1894,7 +2023,7 @@ struct buf_pool_t{
also protects writes to
bpage::oldest_modification and
flush_list_hp */
const buf_page_t* flush_list_hp;/*!< "hazard pointer"
FlushHp flush_hp;/*!< "hazard pointer"
used during scan of flush_list
while doing flush list batch.
Protected by flush_list_mutex */
......@@ -1952,6 +2081,19 @@ struct buf_pool_t{
UT_LIST_BASE_NODE_T(buf_page_t) free;
/*!< base node of the free
block list */
/** "hazard pointer" used during scan of LRU while doing
LRU list batch. Protected by buf_pool::mutex */
LRUHp lru_hp;
/** Iterator used to scan the LRU list when searching for
replacable victim. Protected by buf_pool::mutex. */
LRUItr lru_scan_itr;
/** Iterator used to scan the LRU list when searching for
single page flushing victim. Protected by buf_pool::mutex. */
LRUItr single_scan_itr;
UT_LIST_BASE_NODE_T(buf_page_t) LRU;
/*!< base node of the LRU list */
buf_page_t* LRU_old; /*!< pointer to the about
......
......@@ -37,6 +37,17 @@ Created 11/5/1995 Heikki Tuuri
/** Flag indicating if the page_cleaner is in active state. */
extern ibool buf_page_cleaner_is_active;
/** Event to synchronise with the flushing. */
extern os_event_t buf_flush_event;
/** Handled page counters for a single flush */
struct flush_counters_t {
ulint flushed; /*!< number of dirty pages flushed */
ulint evicted; /*!< number of clean pages evicted */
ulint unzip_LRU_evicted;/*!< number of uncompressed page images
evicted */
};
/********************************************************************//**
Remove a block from the flush list of modified blocks. */
UNIV_INTERN
......@@ -111,12 +122,12 @@ buf_flush_list(
which were processed is passed
back to caller. Ignored if NULL */
/******************************************************************//**
This function picks up a single dirty page from the tail of the LRU
list, flushes it, removes it from page_hash and LRU list and puts
it on the free list. It is called from user threads when they are
unable to find a replacable page at the tail of the LRU list i.e.:
when the background LRU flushing in the page_cleaner thread is not
fast enough to keep pace with the workload.
This function picks up a single page from the tail of the LRU
list, flushes it (if it is dirty), removes it from page_hash and LRU
list and puts it on the free list. It is called from user threads when
they are unable to find a replaceable page at the tail of the LRU
list i.e.: when the background LRU flushing in the page_cleaner thread
is not fast enough to keep pace with the workload.
@return TRUE if success. */
UNIV_INTERN
ibool
......@@ -309,9 +320,9 @@ This utility flushes dirty blocks from the end of the LRU list or flush_list.
NOTE 1: in the case of an LRU flush the calling thread may own latches to
pages: to avoid deadlocks, this function must be written so that it cannot
end up waiting for these latches! NOTE 2: in the case of a flush list flush,
the calling thread is not allowed to own any latches on pages!
@return number of blocks for which the write request was queued */
ulint
the calling thread is not allowed to own any latches on pages! */
__attribute__((nonnull))
void
buf_flush_batch(
/*============*/
buf_pool_t* buf_pool, /*!< in: buffer pool instance */
......@@ -322,11 +333,13 @@ buf_flush_batch(
ulint min_n, /*!< in: wished minimum mumber of blocks
flushed (it is not guaranteed that the
actual number is that big, though) */
lsn_t lsn_limit); /*!< in: in the case of BUF_FLUSH_LIST
lsn_t lsn_limit, /*!< in: in the case of BUF_FLUSH_LIST
all blocks whose oldest_modification is
smaller than this should be flushed
(if their number does not exceed
min_n), otherwise ignored */
flush_counters_t* n); /*!< out: flushed/evicted page
counts */
#ifndef UNIV_NONINL
......
......@@ -117,7 +117,7 @@ buf_LRU_get_free_only(
buf_pool_t* buf_pool); /*!< buffer pool instance */
/******************************************************************//**
Returns a free block from the buf_pool. The block is taken off the
free list. If it is empty, blocks are moved from the end of 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
......@@ -125,8 +125,6 @@ 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
......@@ -139,7 +137,7 @@ we put it to free list to be used.
* 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
* same as iteration 1 but sleep 10ms
@return the free control block, in state BUF_BLOCK_READY_FOR_USE */
UNIV_INTERN
buf_block_t*
......@@ -231,6 +229,15 @@ buf_LRU_free_one_page(
may or may not be a hash index to the page */
__attribute__((nonnull));
/******************************************************************//**
Adjust LRU hazard pointers if needed. */
void
buf_LRU_adjust_hp(
/*==============*/
buf_pool_t* buf_pool,/*!< in: buffer pool instance */
const buf_page_t* bpage); /*!< in: control block */
#if defined UNIV_DEBUG || defined UNIV_BUF_DEBUG
/**********************************************************************//**
Validates the LRU list.
......
......@@ -174,7 +174,6 @@ enum monitor_id_t {
MONITOR_FLUSH_BATCH_SCANNED,
MONITOR_FLUSH_BATCH_SCANNED_NUM_CALL,
MONITOR_FLUSH_BATCH_SCANNED_PER_CALL,
MONITOR_FLUSH_HP_RESCAN,
MONITOR_FLUSH_BATCH_TOTAL_PAGE,
MONITOR_FLUSH_BATCH_COUNT,
MONITOR_FLUSH_BATCH_PAGES,
......@@ -199,9 +198,12 @@ enum monitor_id_t {
MONITOR_LRU_BATCH_SCANNED,
MONITOR_LRU_BATCH_SCANNED_NUM_CALL,
MONITOR_LRU_BATCH_SCANNED_PER_CALL,
MONITOR_LRU_BATCH_TOTAL_PAGE,
MONITOR_LRU_BATCH_COUNT,
MONITOR_LRU_BATCH_PAGES,
MONITOR_LRU_BATCH_FLUSH_TOTAL_PAGE,
MONITOR_LRU_BATCH_FLUSH_COUNT,
MONITOR_LRU_BATCH_FLUSH_PAGES,
MONITOR_LRU_BATCH_EVICT_TOTAL_PAGE,
MONITOR_LRU_BATCH_EVICT_COUNT,
MONITOR_LRU_BATCH_EVICT_PAGES,
MONITOR_LRU_SINGLE_FLUSH_SCANNED,
MONITOR_LRU_SINGLE_FLUSH_SCANNED_NUM_CALL,
MONITOR_LRU_SINGLE_FLUSH_SCANNED_PER_CALL,
......
......@@ -348,7 +348,10 @@ DECLARE_THREAD(recv_writer_thread)(
while (srv_shutdown_state == SRV_SHUTDOWN_NONE) {
os_thread_sleep(100000);
/* Wait till we get a signal to clean the LRU list.
Bounded by max wait time of 100ms. */
ib_int64_t sig_count = os_event_reset(buf_flush_event);
os_event_wait_time_low(buf_flush_event, 100000, sig_count);
mutex_enter(&recv_sys->writer_mutex);
......
......@@ -350,11 +350,6 @@ static monitor_info_t innodb_counter_info[] =
MONITOR_SET_MEMBER, MONITOR_FLUSH_BATCH_SCANNED,
MONITOR_FLUSH_BATCH_SCANNED_PER_CALL},
{"buffer_flush_batch_rescan", "buffer",
"Number of times rescan of flush list forced",
MONITOR_NONE,
MONITOR_DEFAULT_START, MONITOR_FLUSH_HP_RESCAN},
/* Cumulative counter for pages flushed in flush batches */
{"buffer_flush_batch_total_pages", "buffer",
"Total pages flushed as part of flush batch",
......@@ -482,20 +477,36 @@ static monitor_info_t innodb_counter_info[] =
MONITOR_LRU_BATCH_SCANNED_PER_CALL},
/* Cumulative counter for LRU batch pages flushed */
{"buffer_LRU_batch_total_pages", "buffer",
{"buffer_LRU_batch_flush_total_pages", "buffer",
"Total pages flushed as part of LRU batches",
MONITOR_SET_OWNER, MONITOR_LRU_BATCH_COUNT,
MONITOR_LRU_BATCH_TOTAL_PAGE},
MONITOR_SET_OWNER, MONITOR_LRU_BATCH_FLUSH_COUNT,
MONITOR_LRU_BATCH_FLUSH_TOTAL_PAGE},
{"buffer_LRU_batches_flush", "buffer",
"Number of LRU batches",
MONITOR_SET_MEMBER, MONITOR_LRU_BATCH_FLUSH_TOTAL_PAGE,
MONITOR_LRU_BATCH_FLUSH_COUNT},
{"buffer_LRU_batch_flush_pages", "buffer",
"Pages queued as an LRU batch",
MONITOR_SET_MEMBER, MONITOR_LRU_BATCH_FLUSH_TOTAL_PAGE,
MONITOR_LRU_BATCH_FLUSH_PAGES},
/* Cumulative counter for LRU batch pages flushed */
{"buffer_LRU_batch_evict_total_pages", "buffer",
"Total pages evicted as part of LRU batches",
MONITOR_SET_OWNER, MONITOR_LRU_BATCH_EVICT_COUNT,
MONITOR_LRU_BATCH_EVICT_TOTAL_PAGE},
{"buffer_LRU_batches", "buffer",
{"buffer_LRU_batches_evict", "buffer",
"Number of LRU batches",
MONITOR_SET_MEMBER, MONITOR_LRU_BATCH_TOTAL_PAGE,
MONITOR_LRU_BATCH_COUNT},
MONITOR_SET_MEMBER, MONITOR_LRU_BATCH_EVICT_TOTAL_PAGE,
MONITOR_LRU_BATCH_EVICT_COUNT},
{"buffer_LRU_batch_pages", "buffer",
{"buffer_LRU_batch_evict_pages", "buffer",
"Pages queued as an LRU batch",
MONITOR_SET_MEMBER, MONITOR_LRU_BATCH_TOTAL_PAGE,
MONITOR_LRU_BATCH_PAGES},
MONITOR_SET_MEMBER, MONITOR_LRU_BATCH_EVICT_TOTAL_PAGE,
MONITOR_LRU_BATCH_EVICT_PAGES},
/* Cumulative counter for single page LRU scans */
{"buffer_LRU_single_flush_scanned", "buffer",
......
......@@ -2338,19 +2338,26 @@ buf_flush_LRU_tail(void)
free_len = UT_LIST_GET_LEN(
buf_pool->free);
}
if (n.flushed) {
MONITOR_INC_VALUE_CUMULATIVE(
MONITOR_LRU_BATCH_FLUSH_TOTAL_PAGE,
MONITOR_LRU_BATCH_FLUSH_COUNT,
MONITOR_LRU_BATCH_FLUSH_PAGES,
n.flushed);
}
if (n.evicted) {
MONITOR_INC_VALUE_CUMULATIVE(
MONITOR_LRU_BATCH_EVICT_TOTAL_PAGE,
MONITOR_LRU_BATCH_EVICT_COUNT,
MONITOR_LRU_BATCH_EVICT_PAGES,
n.evicted);
}
} while (active_instance[i]
&& free_len <= free_list_lwm);
}
}
if (total_flushed) {
MONITOR_INC_VALUE_CUMULATIVE(
MONITOR_LRU_BATCH_TOTAL_PAGE,
MONITOR_LRU_BATCH_COUNT,
MONITOR_LRU_BATCH_PAGES,
total_flushed);
}
return(total_flushed);
}
......
......@@ -110,7 +110,8 @@ typedef struct wrk_itm
will be used */
wr_tsk_t wr; /*!< Flush page list */
rd_tsk_t rd; /*!< Decompress page list */
ulint n_flushed; /*!< Flushed pages count */
ulint n_flushed; /*!< Number of flushed pages */
ulint n_evicted; /*!< Number of evicted pages */
os_thread_id_t id_usr; /*!< Thread-id currently working */
wrk_status_t wi_status; /*!< Work item status */
mem_heap_t *wheap; /*!< Heap were to allocate memory
......@@ -366,7 +367,7 @@ void
buf_mtflu_io_thread_exit(void)
/*==========================*/
{
long i;
ulint i;
thread_sync_t* mtflush_io = mtflush_ctx;
wrk_t* work_item = NULL;
......@@ -397,7 +398,7 @@ buf_mtflu_io_thread_exit(void)
os_fast_mutex_lock(&mtflush_mtx);
/* Send one exit work item/thread */
for (i=0; i < srv_mtflush_threads; i++) {
for (i=0; i < (ulint)srv_mtflush_threads; i++) {
work_item[i].tsk = MT_WRK_NONE;
work_item[i].wi_status = WRK_ITEM_EXIT;
work_item[i].wheap = mtflush_io->wheap;
......@@ -417,11 +418,8 @@ buf_mtflu_io_thread_exit(void)
ut_a(ib_wqueue_is_empty(mtflush_io->wq));
/* Requests sent */
os_fast_mutex_unlock(&mtflush_mtx);
/* Collect all work done items */
for (i=0; i < srv_mtflush_threads;) {
for (i=0; i < (ulint)srv_mtflush_threads;) {
wrk_t* work_item = NULL;
work_item = (wrk_t *)ib_wqueue_timedwait(mtflush_io->wr_cq, MT_WAIT_IN_USECS);
......@@ -436,6 +434,16 @@ buf_mtflu_io_thread_exit(void)
/* Wait about 1/2 sec to allow threads really exit */
os_thread_sleep(MT_WAIT_IN_USECS);
while(!ib_wqueue_is_empty(mtflush_io->wq))
{
ib_wqueue_nowait(mtflush_io->wq);
}
while(!ib_wqueue_is_empty(mtflush_io->wq))
{
ib_wqueue_nowait(mtflush_io->wq);
}
ut_a(ib_wqueue_is_empty(mtflush_io->wq));
ut_a(ib_wqueue_is_empty(mtflush_io->wr_cq));
ut_a(ib_wqueue_is_empty(mtflush_io->rd_cq));
......@@ -445,6 +453,8 @@ buf_mtflu_io_thread_exit(void)
ib_wqueue_free(mtflush_io->wr_cq);
ib_wqueue_free(mtflush_io->rd_cq);
/* Requests sent */
os_fast_mutex_unlock(&mtflush_mtx);
os_fast_mutex_free(&mtflush_mtx);
os_fast_mutex_free(&mtflush_io->thread_global_mtx);
......@@ -522,8 +532,8 @@ ulint
buf_mtflu_flush_work_items(
/*=======================*/
ulint buf_pool_inst, /*!< in: Number of buffer pool instances */
ulint *per_pool_pages_flushed, /*!< out: Number of pages
flushed/instance */
flush_counters_t *per_pool_cnt, /*!< out: Number of pages
flushed or evicted /instance */
buf_flush_t flush_type, /*!< in: Type of flush */
ulint min_n, /*!< in: Wished minimum number of
blocks to be flushed */
......@@ -553,6 +563,7 @@ buf_mtflu_flush_work_items(
work_item[i].wheap = work_heap;
work_item[i].rheap = reply_heap;
work_item[i].n_flushed = 0;
work_item[i].n_evicted = 0;
work_item[i].id_usr = 0;
ib_wqueue_add(mtflush_ctx->wq,
......@@ -566,7 +577,8 @@ buf_mtflu_flush_work_items(
done_wi = (wrk_t *)ib_wqueue_wait(mtflush_ctx->wr_cq);
if (done_wi != NULL) {
per_pool_pages_flushed[i] = done_wi->n_flushed;
per_pool_cnt[i].flushed = done_wi->n_flushed;
per_pool_cnt[i].evicted = done_wi->n_evicted;
#ifdef UNIV_MTFLUSH_DEBUG
if((int)done_wi->id_usr == 0 &&
......@@ -580,7 +592,7 @@ buf_mtflu_flush_work_items(
}
#endif
n_flushed+= done_wi->n_flushed;
n_flushed+= done_wi->n_flushed+done_wi->n_evicted;
i++;
}
}
......@@ -614,9 +626,9 @@ buf_mtflu_flush_list(
back to caller. Ignored if NULL */
{
ulint i;
bool success = true;
ulint cnt_flush[MTFLUSH_MAX_WORKER];
ulint i;
bool success = true;
flush_counters_t cnt[MTFLUSH_MAX_WORKER];
if (n_processed) {
*n_processed = 0;
......@@ -634,20 +646,29 @@ buf_mtflu_flush_list(
/* This lock is to safequard against re-entry if any. */
os_fast_mutex_lock(&mtflush_mtx);
buf_mtflu_flush_work_items(srv_buf_pool_instances,
cnt_flush, BUF_FLUSH_LIST,
cnt, BUF_FLUSH_LIST,
min_n, lsn_limit);
os_fast_mutex_unlock(&mtflush_mtx);
for (i = 0; i < srv_buf_pool_instances; i++) {
if (n_processed) {
*n_processed += cnt_flush[i];
*n_processed += cnt[i].flushed+cnt[i].evicted;
}
if (cnt_flush[i]) {
if (cnt[i].flushed) {
MONITOR_INC_VALUE_CUMULATIVE(
MONITOR_FLUSH_BATCH_TOTAL_PAGE,
MONITOR_FLUSH_BATCH_COUNT,
MONITOR_FLUSH_BATCH_PAGES,
cnt_flush[i]);
cnt[i].flushed);
}
if(cnt[i].evicted) {
MONITOR_INC_VALUE_CUMULATIVE(
MONITOR_LRU_BATCH_EVICT_TOTAL_PAGE,
MONITOR_LRU_BATCH_EVICT_COUNT,
MONITOR_LRU_BATCH_EVICT_PAGES,
cnt[i].evicted);
}
}
#ifdef UNIV_MTFLUSH_DEBUG
......@@ -670,25 +691,37 @@ buf_mtflu_flush_LRU_tail(void)
/*==========================*/
{
ulint total_flushed=0, i;
ulint cnt_flush[MTFLUSH_MAX_WORKER];
flush_counters_t cnt[MTFLUSH_MAX_WORKER];
ut_a(buf_mtflu_init_done());
/* At shutdown do not send requests anymore */
if (!mtflush_ctx || mtflush_ctx->gwt_status == WTHR_KILL_IT) {
return (total_flushed);
}
/* This lock is to safeguard against re-entry if any */
os_fast_mutex_lock(&mtflush_mtx);
buf_mtflu_flush_work_items(srv_buf_pool_instances,
cnt_flush, BUF_FLUSH_LRU, srv_LRU_scan_depth, 0);
cnt, BUF_FLUSH_LRU, srv_LRU_scan_depth, 0);
os_fast_mutex_unlock(&mtflush_mtx);
for (i = 0; i < srv_buf_pool_instances; i++) {
if (cnt_flush[i]) {
total_flushed += cnt_flush[i];
total_flushed += cnt[i].flushed+cnt[i].evicted;
if (cnt[i].flushed) {
MONITOR_INC_VALUE_CUMULATIVE(
MONITOR_LRU_BATCH_TOTAL_PAGE,
MONITOR_LRU_BATCH_COUNT,
MONITOR_LRU_BATCH_PAGES,
cnt_flush[i]);
MONITOR_LRU_BATCH_FLUSH_TOTAL_PAGE,
MONITOR_LRU_BATCH_FLUSH_COUNT,
MONITOR_LRU_BATCH_FLUSH_PAGES,
cnt[i].flushed);
}
if(cnt[i].evicted) {
MONITOR_INC_VALUE_CUMULATIVE(
MONITOR_LRU_BATCH_EVICT_TOTAL_PAGE,
MONITOR_LRU_BATCH_EVICT_COUNT,
MONITOR_LRU_BATCH_EVICT_PAGES,
cnt[i].evicted);
}
}
......
......@@ -199,9 +199,12 @@ enum monitor_id_t {
MONITOR_LRU_BATCH_SCANNED,
MONITOR_LRU_BATCH_SCANNED_NUM_CALL,
MONITOR_LRU_BATCH_SCANNED_PER_CALL,
MONITOR_LRU_BATCH_TOTAL_PAGE,
MONITOR_LRU_BATCH_COUNT,
MONITOR_LRU_BATCH_PAGES,
MONITOR_LRU_BATCH_FLUSH_TOTAL_PAGE,
MONITOR_LRU_BATCH_FLUSH_COUNT,
MONITOR_LRU_BATCH_FLUSH_PAGES,
MONITOR_LRU_BATCH_EVICT_TOTAL_PAGE,
MONITOR_LRU_BATCH_EVICT_COUNT,
MONITOR_LRU_BATCH_EVICT_PAGES,
MONITOR_LRU_SINGLE_FLUSH_SCANNED,
MONITOR_LRU_SINGLE_FLUSH_SCANNED_NUM_CALL,
MONITOR_LRU_SINGLE_FLUSH_SCANNED_PER_CALL,
......
......@@ -350,11 +350,6 @@ static monitor_info_t innodb_counter_info[] =
MONITOR_SET_MEMBER, MONITOR_FLUSH_BATCH_SCANNED,
MONITOR_FLUSH_BATCH_SCANNED_PER_CALL},
{"buffer_flush_batch_rescan", "buffer",
"Number of times rescan of flush list forced",
MONITOR_NONE,
MONITOR_DEFAULT_START, MONITOR_FLUSH_HP_RESCAN},
/* Cumulative counter for pages flushed in flush batches */
{"buffer_flush_batch_total_pages", "buffer",
"Total pages flushed as part of flush batch",
......@@ -482,20 +477,36 @@ static monitor_info_t innodb_counter_info[] =
MONITOR_LRU_BATCH_SCANNED_PER_CALL},
/* Cumulative counter for LRU batch pages flushed */
{"buffer_LRU_batch_total_pages", "buffer",
{"buffer_LRU_batch_flush_total_pages", "buffer",
"Total pages flushed as part of LRU batches",
MONITOR_SET_OWNER, MONITOR_LRU_BATCH_COUNT,
MONITOR_LRU_BATCH_TOTAL_PAGE},
MONITOR_SET_OWNER, MONITOR_LRU_BATCH_FLUSH_COUNT,
MONITOR_LRU_BATCH_FLUSH_TOTAL_PAGE},
{"buffer_LRU_batches_flush", "buffer",
"Number of LRU batches",
MONITOR_SET_MEMBER, MONITOR_LRU_BATCH_FLUSH_TOTAL_PAGE,
MONITOR_LRU_BATCH_FLUSH_COUNT},
{"buffer_LRU_batch_flush_pages", "buffer",
"Pages queued as an LRU batch",
MONITOR_SET_MEMBER, MONITOR_LRU_BATCH_FLUSH_TOTAL_PAGE,
MONITOR_LRU_BATCH_FLUSH_PAGES},
/* Cumulative counter for LRU batch pages flushed */
{"buffer_LRU_batch_evict_total_pages", "buffer",
"Total pages evicted as part of LRU batches",
MONITOR_SET_OWNER, MONITOR_LRU_BATCH_EVICT_COUNT,
MONITOR_LRU_BATCH_EVICT_TOTAL_PAGE},
{"buffer_LRU_batches", "buffer",
{"buffer_LRU_batches_evict", "buffer",
"Number of LRU batches",
MONITOR_SET_MEMBER, MONITOR_LRU_BATCH_TOTAL_PAGE,
MONITOR_LRU_BATCH_COUNT},
MONITOR_SET_MEMBER, MONITOR_LRU_BATCH_EVICT_TOTAL_PAGE,
MONITOR_LRU_BATCH_EVICT_COUNT},
{"buffer_LRU_batch_pages", "buffer",
{"buffer_LRU_batch_evict_pages", "buffer",
"Pages queued as an LRU batch",
MONITOR_SET_MEMBER, MONITOR_LRU_BATCH_TOTAL_PAGE,
MONITOR_LRU_BATCH_PAGES},
MONITOR_SET_MEMBER, MONITOR_LRU_BATCH_EVICT_TOTAL_PAGE,
MONITOR_LRU_BATCH_EVICT_PAGES},
/* Cumulative counter for single page LRU scans */
{"buffer_LRU_single_flush_scanned", "buffer",
......
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