InnoDB源码分析--缓冲池(三)

     转载请附原文链接:http://www.cnblogs.com/wingsless/p/5582063.html

     昨天写到了InnoDB缓冲池的预读:《InnoDB源码分析--缓冲池(二)》,最后因为着急看欧洲杯,没有把线性预读写完,今天接着写。

     线性预读是由这个函数实现的:buf_read_ahead_linear,和随机预读一样,首先是要确定区域边界,这个边界内被访问过的page如果达到一个阈值(BUF_READ_AHEAD_LINEAR_THRESHOLD),就会触发预读操作。边界的算法由BUF_READ_AHEAD_LINEAR_AREA决定:

    low  = (offset / BUF_READ_AHEAD_LINEAR_AREA)
        * BUF_READ_AHEAD_LINEAR_AREA;
    high = (offset / BUF_READ_AHEAD_LINEAR_AREA + 1)
        * BUF_READ_AHEAD_LINEAR_AREA;

    if ((offset != low) && (offset != high - 1)) {
        /* This is not a border page of the area: return */

        return(0);
    }

    注意,如果offset不在边界上,就不会进行预读了,这一点和随机预读是不一样的。线性预读其实是顺序性读取的,如果offset在low位置,逆序读取page,如果offset在high位置,正序读取page。读取的每个页,都要进行判断,如果被访问过的页的数量到达上面提到的阈值,就满足了线性预读的条件,达不到阈值,就不进行预读,代码如下:

    asc_or_desc = 1; //默认正序

    if (offset == low) {
        asc_or_desc = -1; //如果offset在low位置,变成逆序
    }

    fail_count = 0;

    for (i = low; i < high; i++) {
        block = buf_page_hash_get(space, i); //遍历边界范围内的页

        if ((block == NULL) || !block->accessed) {
            /* Not accessed */
            fail_count++; //未读取的页计数

        } else if (pred_block
               && (ut_ulint_cmp(block->LRU_position,
                        pred_block->LRU_position)
                   != asc_or_desc)) {
            /* Accesses not in the right order */

            fail_count++;
            pred_block = block;
        }
    }

    if (fail_count > BUF_READ_AHEAD_LINEAR_AREA
        - BUF_READ_AHEAD_LINEAR_THRESHOLD) { //不满足预读条件,退出
        /* Too many failures: return */

        mutex_exit(&(buf_pool->mutex));

        return(0);
    }

     我之前在一本书上看到过一句话,大概意思是内存里的页可以不是物理上连续的,逻辑上却是连续的。这里的线性预读要求这些页在物理上也是必须连续的:

    pred_offset = fil_page_get_prev(frame);
    succ_offset = fil_page_get_next(frame);

    mutex_exit(&(buf_pool->mutex));

    if ((offset == low) && (succ_offset == offset + 1)) {

        /* This is ok, we can continue */

        new_offset = pred_offset;  //满足了条件,继续

    } else if ((offset == high - 1) && (pred_offset == offset - 1)) {

        /* This is ok, we can continue */
        new_offset = succ_offset; //这是正序情况下,满足条件
    } else {
        /* Successor or predecessor not in the right order */

        return(0);
    }

     这个地方是这样的,首先利用fil_page_get_prev和fil_page_get_next函数读取offset->frame之后或者之前的4个bytes,如果结果满足顺序条件,可以继续进行线性预读。

    for (i = low; i < high; i++) {
        /* It is only sensible to do read-ahead in the non-sync
        aio mode: hence FALSE as the first parameter */

        if (!ibuf_bitmap_page(i)) {
            count += buf_read_page_low(
                &err, FALSE,
                ibuf_mode | OS_AIO_SIMULATED_WAKE_LATER,
                space, tablespace_version, i);
            if (err == DB_TABLESPACE_DELETED) {
                ut_print_timestamp(stderr);
                fprintf(stderr,
                    "  InnoDB: Warning: in"
                    " linear readahead trying to access\n"
                    "InnoDB: tablespace %lu page %lu,\n"
                    "InnoDB: but the tablespace does not"
                    " exist or is just being dropped.\n",
                    (ulong) space, (ulong) i);
            }
        }
    }

    线性预读还是利用了buf_read_page_low函数,这一点和随机预读一样,而且是异步方式。

    至此便完成了线性预读。

    不管是随机预读还是线性预读,都会有一些条件不进行预读,比如系统压力大的时候不预读,这个的实现:

    if (buf_pool->n_pend_reads
        > buf_pool->curr_size / BUF_READ_AHEAD_PEND_LIMIT) {
        mutex_exit(&(buf_pool->mutex));

        return(0);
    }

    这里规定了pend读取数大于buf_pool->curr_size一半的时候,就不预读了,相似的还有很多条件,都在代码里,这里就不写了。

    

posted @ 2016-06-13 21:17  wingsless  阅读(1022)  评论(0编辑  收藏  举报