innodb中master线程的调度的算法改进(mysql 5.6.26)

            innodb中master线程的调度的算法改进(mysql 5.6.26)               作者：周琳               QQ:715169549               源码交流群：196380905            1.master线程的调度： /*********************************************************************//** The master thread controlling the server.os_thread_ret_t DECLARE_THREAD(srv_master_thread)如下是核心代码：                ulint        old_activity_count = srv_get_activity_count();                if (srv_force_recovery >= SRV_FORCE_NO_BACKGROUND) {                    goto suspend_thread;                }                while (srv_shutdown_state == SRV_SHUTDOWN_NONE) {                    /*在linux下就是1000000/1000000，在针对这个整除的值%1000000;                    *这个就是os_thread_sleep( microseconds);的计算方式                    srv_master_sleep(); //                    MONITOR_INC(MONITOR_MASTER_THREAD_SLEEP);                    /*很显然并没有按照1秒和10秒的算法来，而是通过当前服务器活动的数量来决定。                    if (srv_check_activity(old_activity_count)) { //srv_check_activity(old_activity_count)返回：return(srv_sys->activity_count != old_activity_count);                        old_activity_count = srv_get_activity_count(); //srv_get_activity_count返回:return(srv_sys->activity_count);                        srv_master_do_active_tasks();                    } else {                        srv_master_do_idle_tasks();                    }                }                while (srv_master_do_shutdown_tasks(&last_print_time)) {                    /* Shouldn't loop here in case of very fast shutdown */                    ut_ad(srv_fast_shutdown < 2);                }            } srv_master_do_active_tasks做的事情：    //#define PCT_IO(p) ((ulong) (srv_io_capacity * ((double) (p) / 100.0)))    //# define    SRV_MASTER_CHECKPOINT_INTERVAL        (7)    1.log_free_check，检查是否有空闲的log buffer。    2.ibuf_contract_in_background(0, FALSE),合并PCT_IO(5)个插入缓冲    3.srv_sync_log_buffer_in_background,后台同步刷新log buffer日志到log file    4.cur_time % SRV_MASTER_CHECKPOINT_INTERVAL == 0,就做log_checkpoint(TRUE, FALSE)，而log_checkpoint仅仅是检查bp中的lsn以及把lsn的值写入到redo file中。      真正做检查点刷新脏页到磁盘的是log_make_checkpoint_at函数。       srv_master_do_idle_tasks做的事情：    1.log_free_check，检查是否有空闲的log buffer。    2.ibuf_contract_in_background(0, TRUE),合并PCT_IO(100)个插入缓冲.    3.srv_sync_log_buffer_in_background,刷新log buffer到磁盘。    4.cur_time % SRV_MASTER_CHECKPOINT_INTERVAL == 0,就做log_checkpoint(TRUE, FALSE)，而log_checkpoint仅仅是检查bp中的lsn以及把lsn的值写入到redo file中。      真正做检查点刷新脏页到磁盘的是log_make_checkpoint_at函数。            如下是srv_sys_t结构：         元素包含一个线程表和一个task queue。            /** The server system struct */            struct srv_sys_t{                ib_mutex_t    tasks_mutex;        /*!< variable protecting the                                    tasks queue */                UT_LIST_BASE_NODE_T(que_thr_t)                        tasks;            /*!< task queue */                ib_mutex_t    mutex;            /*!< variable protecting the                                    fields below. */                ulint        n_sys_threads;        /*!< size of the sys_threads                                    array */                srv_slot_t*    sys_threads;        /*!< server thread table */                ulint        n_threads_active[SRV_MASTER + 1];                                    /*!< number of threads active                                    in a thread class */                srv_stats_t::ulint_ctr_1_t                        activity_count;        /*!< For tracking server                                    activity */            };     接下来介绍下activity_count,这个函数是由srv_inc_activity_count(srv_sys->activity_count.inc();)进行自增的,这个函数会在哪些动作中调用呢？     我们看下调用该函数的函数流程：        1.row_undo_step：在表中回滚一行的操作             ->srv_inc_activity_count()        2.srv_active_wake_master_thread：如果需要主线程处理，切主线程处于挂起状态就唤醒主线程。             ->srv_inc_activity_count()        3.srv_wake_master_thread:如果主线程挂起或者正在被挂起，唤醒主线程。             ->srv_inc_activity_count()         上述函数还被很多函数调用，activity_count可以理解为mysql运行中操作的计数器，每个操作都会累加。所以master线程依据时间间隔的    activity_count计数器来判断执行srv_master_do_active_tasks还是srv_master_do_idle_tasks。可以看出这个计数器如果在1秒以后这个值如果    不发生变化就切换到srv_master_do_idle_tasks。    2.page cleaner线程：(buf0flu.c中)    核心代码：               ulint    next_loop_time = ut_time_ms() + 1000;            while (srv_shutdown_state == SRV_SHUTDOWN_NONE) {//服务器没有关闭的状态下                /* The page_cleaner skips sleep if the server is                idle and there are no pending IOs in the buffer pool                and there is work to do. */                if (srv_check_activity(last_activity) //检查当前服务器的活动次数                    || buf_get_n_pending_read_ios()                    || n_flushed == 0) {                    page_cleaner_sleep_if_needed(next_loop_time); //休眠min(1000000,(next_loop_time-当前时间)*1000))                }                next_loop_time = ut_time_ms() + 1000; //重新计算当前next_loop_time值                if (srv_check_activity(last_activity)) { //检查当前服务器活动数量                    last_activity = srv_get_activity_count();                    /* Flush pages from end of LRU if required */                    n_flushed = buf_flush_LRU_tail();                     /* Flush pages from flush_list if required */                    n_flushed += page_cleaner_flush_pages_if_needed();                } else {                    n_flushed = page_cleaner_do_flush_batch(                                    PCT_IO(100),  //刷新srv_io_capacity个脏页到磁盘                                    LSN_MAX);                }    }    if (srv_fast_shutdown == 2) {        /* In very fast shutdown we simulate a crash of        buffer pool. We are not required to do any flushing */        goto thread_exit;    }    do {        n_flushed = page_cleaner_do_flush_batch(PCT_IO(100), LSN_MAX); //刷新srv_io_capacity个脏页到磁盘        /* We sleep only if there are no pages to flush */        if (n_flushed == 0) {            os_thread_sleep(100000); //休眠1秒        }    } while (srv_shutdown_state == SRV_SHUTDOWN_CLEANUP);    do {        success = buf_flush_list(PCT_IO(100), LSN_MAX, &n_flushed);        buf_flush_wait_batch_end(NULL, BUF_FLUSH_LIST);    } while (!success || n_flushed > 0);