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這篇文章主要介紹“checkpoint中用于控制刷盤頻率的函數是什么”,在日常操作中,相信很多人在checkpoint中用于控制刷盤頻率的函數是什么問題上存在疑惑,小編查閱了各式資料,整理出簡單好用的操作方法,希望對大家解答”checkpoint中用于控制刷盤頻率的函數是什么”的疑惑有所幫助!接下來,請跟著小編一起來學習吧!
宏定義
checkpoints request flag bits
checkpoints request flag bits,檢查點請求標記位定義.
/* * OR-able request flag bits for checkpoints. The "cause" bits are used only * for logging purposes. Note: the flags must be defined so that it's * sensible to OR together request flags arising from different requestors. */ /* These directly affect the behavior of CreateCheckPoint and subsidiaries */ #define CHECKPOINT_IS_SHUTDOWN 0x0001 /* Checkpoint is for shutdown */ #define CHECKPOINT_END_OF_RECOVERY 0x0002 /* Like shutdown checkpoint, but * issued at end of WAL recovery */ #define CHECKPOINT_IMMEDIATE 0x0004 /* Do it without delays */ #define CHECKPOINT_FORCE 0x0008 /* Force even if no activity */ #define CHECKPOINT_FLUSH_ALL 0x0010 /* Flush all pages, including those * belonging to unlogged tables */ /* These are important to RequestCheckpoint */ #define CHECKPOINT_WAIT 0x0020 /* Wait for completion */ #define CHECKPOINT_REQUESTED 0x0040 /* Checkpoint request has been made */ /* These indicate the cause of a checkpoint request */ #define CHECKPOINT_CAUSE_XLOG 0x0080 /* XLOG consumption */ #define CHECKPOINT_CAUSE_TIME 0x0100 /* Elapsed time */
WRITES_PER_ABSORB
/* interval for calling AbsorbSyncRequests in CheckpointWriteDelay */ //調用AbsorbSyncRequests的間隔,默認值為1000 #define WRITES_PER_ABSORB 1000
CheckpointWriteDelay
CheckpointWriteDelay,控制checkpoint的頻率,邏輯不復雜,判斷checkpoint flags非CHECKPOINT_IMMEDIATE/非shutdown_requested/非CHECKPOINT_IMMEDIATE并且checkpoint處于調度中,如滿足上述條件,則調用AbsorbSyncRequests處理sync,休眠100ms;不如滿足上述條件,則absorb_counter計數器減一,如計數器≤0,則調用AbsorbSyncRequests處理sync.
/*
* CheckpointWriteDelay -- control rate of checkpoint
* 控制checkpoint的頻率
*
* This function is called after each page write performed by BufferSync().
* It is responsible for throttling BufferSync()'s write rate to hit
* checkpoint_completion_target.
*
* The checkpoint request flags should be passed in; currently the only one
* examined is CHECKPOINT_IMMEDIATE, which disables delays between writes.
*
* 'progress' is an estimate of how much of the work has been done, as a
* fraction between 0.0 meaning none, and 1.0 meaning all done.
*/
void
CheckpointWriteDelay(int flags, double progress)
{
static int absorb_counter = WRITES_PER_ABSORB;
/* Do nothing if checkpoint is being executed by non-checkpointer process */
if (!AmCheckpointerProcess())
return;
/*
* Perform the usual duties and take a nap, unless we're behind schedule,
* in which case we just try to catch up as quickly as possible.
*/
if (!(flags & CHECKPOINT_IMMEDIATE) &&//非CHECKPOINT_IMMEDIATE
!shutdown_requested &&//非關閉請求
!ImmediateCheckpointRequested() &&//非CHECKPOINT_IMMEDIATE
IsCheckpointOnSchedule(progress))//處于checkpoint調度中
{
if (got_SIGHUP)
{
got_SIGHUP = false;
ProcessConfigFile(PGC_SIGHUP);
/* update shmem copies of config variables */
UpdateSharedMemoryConfig();
}
//Absorb吸收(處理)同步請求
AbsorbSyncRequests();
//重置為WRITES_PER_ABSORB(1000)
absorb_counter = WRITES_PER_ABSORB;
//檢查歸檔是否超時
CheckArchiveTimeout();
/*
* Report interim activity statistics to the stats collector.
*/
//統計信息
pgstat_send_bgwriter();
/*
* This sleep used to be connected to bgwriter_delay, typically 200ms.
* That resulted in more frequent wakeups if not much work to do.
* Checkpointer and bgwriter are no longer related so take the Big
* Sleep.
*/
//休眠100ms
pg_usleep(100000L);
}
else if (--absorb_counter <= 0)//Absorb計數器減一
{
//如計數器小于等于0
/*
* Absorb pending fsync requests after each WRITES_PER_ABSORB write
* operations even when we don't sleep, to prevent overflow of the
* fsync request queue.
*/
//Absorb同步請求
AbsorbSyncRequests();
//重置計數器
absorb_counter = WRITES_PER_ABSORB;
}
}到此,關于“checkpoint中用于控制刷盤頻率的函數是什么”的學習就結束了,希望能夠解決大家的疑惑。理論與實踐的搭配能更好的幫助大家學習,快去試試吧!若想繼續學習更多相關知識,請繼續關注億速云網站,小編會繼續努力為大家帶來更多實用的文章!
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