Memcached源码分析——process_command函数解析

以下为个人笔记

/**
 * process_command 在memcached中是用来处理用户发送的命令的,
 * 包括get set,add,delete,replace,stats,flush_all等常用的和不常用的命令,全在这进行处理的。
 * 一共有两个参数,conn *c 和字符串指针 char *command ;
 * 关于conn结构体就先不说了,反正它是整个memcached中最重要的结构体就行了,等以后研究明白了再说,先从整体上领会精神吧。
 * 这里我想说一下的是, memcached 和 redis 在处理命令上的想法还是有很大差别的,
 * 在 redis 里面,你要是想看一下一共支持多少命令,每个命令对应的函数,很方便,都在一个名叫 redisCommandTable 的结构体数组里面,一目了然;
 * 但是 memcached 却不是这样,我刚开始也是按照看 redis 源码的方式去找 memcached 中的,但是找了很久也没有发现,原因就是作者把支持的所有命令都散落在下面这个函数中了。
 * 先说一下 memcached 是怎么从 command 字符串中分解出具体的命令和对应的参数的。
 * 在函数中用到了一个结构体数组: tokens[MAX_TOKENS] ,它其实是用来存放分析完的 command 结果用的,分析工作在函数 tokenize_command 中进行。
 * 如:有一个命令 "get aaaaaaaaaa" ,分析完以后存在tokens中的就是
 * tokens[3] = {{value:"get",length:3},{value:"aaaaaaaaaa",length:10},{value:NULL,length:0}};
 * 函数 tokenize_command 返回的是一个int型数据 ntokens,记录了 tokens 的大小,表示从 command 命令中分解出了几条数据,
 * 当然 ntokens 的值会比实际中 command 中包含的数据多1,因为字符串结尾的'\0'也要占一样。
 * 
 * 下面说说以 "get aaaaaaaaaa" 命令为例,具体的命令分析和函数调用过程:
 * 当一条命令 "get aaaaaaaaaa" 传到 process_command 中之后,先调用负责解析命令的函数tokenize_command,
 * 将解析后的命令存储在tokens数组中,结果如上面的tokens[3],并返回ntokens,说明command中包含几个字段(这里得到的是3),
 * 然后根据字段的数目进行判断应该到哪个条件语句去进行比对,当确认之后,就会跳到对应的条件语句中
 * 所以这里应该到 tokenize_command 下面的第一个if语句中,然后使用tokens[0].value,也就是tokens数组中存储的get命令和字符串"get"进行比较,
 * 匹配,则调用对应的函数,这里调用process_get_command(c, tokens, ntokens, false);
 * 然后 process_command 的使命就结束了。
 * 以下代码在memcached-1.4.22/memcached.c
 */
static void process_command(conn *c, char *command) {

    token_t tokens[MAX_TOKENS];
    size_t ntokens;
    int comm;

    assert(c != NULL);

    MEMCACHED_PROCESS_COMMAND_START(c->sfd, c->rcurr, c->rbytes);

    if (settings.verbose > 1)
        fprintf(stderr, "<%d %s\n", c->sfd, command);

    /*
     * for commands set/add/replace, we build an item and read the data
     * directly into it, then continue in nread_complete().
     */

    c->msgcurr = 0;
    c->msgused = 0;
    c->iovused = 0;
    if (add_msghdr(c) != 0) {
        out_of_memory(c, "SERVER_ERROR out of memory preparing response");
        return;
    }

    ntokens = tokenize_command(command, tokens, MAX_TOKENS);
    if (ntokens >= 3 &&
        ((strcmp(tokens[COMMAND_TOKEN].value, "get") == 0) ||
         (strcmp(tokens[COMMAND_TOKEN].value, "bget") == 0))) {

        process_get_command(c, tokens, ntokens, false);

    } else if ((ntokens == 6 || ntokens == 7) &&
               ((strcmp(tokens[COMMAND_TOKEN].value, "add") == 0 && (comm = NREAD_ADD)) ||
                (strcmp(tokens[COMMAND_TOKEN].value, "set") == 0 && (comm = NREAD_SET)) ||
                (strcmp(tokens[COMMAND_TOKEN].value, "replace") == 0 && (comm = NREAD_REPLACE)) ||
                (strcmp(tokens[COMMAND_TOKEN].value, "prepend") == 0 && (comm = NREAD_PREPEND)) ||
                (strcmp(tokens[COMMAND_TOKEN].value, "append") == 0 && (comm = NREAD_APPEND)) )) {

        process_update_command(c, tokens, ntokens, comm, false);

    } else if ((ntokens == 7 || ntokens == 8) && (strcmp(tokens[COMMAND_TOKEN].value, "cas") == 0 && (comm = NREAD_CAS))) {

        process_update_command(c, tokens, ntokens, comm, true);

    } else if ((ntokens == 4 || ntokens == 5) && (strcmp(tokens[COMMAND_TOKEN].value, "incr") == 0)) {

        process_arithmetic_command(c, tokens, ntokens, 1);

    } else if (ntokens >= 3 && (strcmp(tokens[COMMAND_TOKEN].value, "gets") == 0)) {

        process_get_command(c, tokens, ntokens, true);

    } else if ((ntokens == 4 || ntokens == 5) && (strcmp(tokens[COMMAND_TOKEN].value, "decr") == 0)) {

        process_arithmetic_command(c, tokens, ntokens, 0);

    } else if (ntokens >= 3 && ntokens <= 5 && (strcmp(tokens[COMMAND_TOKEN].value, "delete") == 0)) {

        process_delete_command(c, tokens, ntokens);

    } else if ((ntokens == 4 || ntokens == 5) && (strcmp(tokens[COMMAND_TOKEN].value, "touch") == 0)) {

        process_touch_command(c, tokens, ntokens);

    } else if (ntokens >= 2 && (strcmp(tokens[COMMAND_TOKEN].value, "stats") == 0)) {

        process_stat(c, tokens, ntokens);

    } else if (ntokens >= 2 && ntokens <= 4 && (strcmp(tokens[COMMAND_TOKEN].value, "flush_all") == 0)) {
        time_t exptime = 0;

        set_noreply_maybe(c, tokens, ntokens);

        pthread_mutex_lock(&c->thread->stats.mutex);
        c->thread->stats.flush_cmds++;
        pthread_mutex_unlock(&c->thread->stats.mutex);

        if (!settings.flush_enabled) {
            // flush_all is not allowed but we log it on stats
            out_string(c, "CLIENT_ERROR flush_all not allowed");
            return;
        }

        if(ntokens == (c->noreply ? 3 : 2)) {
            settings.oldest_live = current_time - 1;
            item_flush_expired();
            out_string(c, "OK");
            return;
        }

        exptime = strtol(tokens[1].value, NULL, 10);
        if(errno == ERANGE) {
            out_string(c, "CLIENT_ERROR bad command line format");
            return;
        }

        /*
          If exptime is zero realtime() would return zero too, and
          realtime(exptime) - 1 would overflow to the max unsigned
          value.  So we process exptime == 0 the same way we do when
          no delay is given at all.
        */
        if (exptime > 0)
            settings.oldest_live = realtime(exptime) - 1;
        else /* exptime == 0 */
            settings.oldest_live = current_time - 1;
        item_flush_expired();
        out_string(c, "OK");
        return;

    } else if (ntokens == 2 && (strcmp(tokens[COMMAND_TOKEN].value, "version") == 0)) {

        out_string(c, "VERSION " VERSION);

    } else if (ntokens == 2 && (strcmp(tokens[COMMAND_TOKEN].value, "quit") == 0)) {

        conn_set_state(c, conn_closing);

    } else if (ntokens == 2 && (strcmp(tokens[COMMAND_TOKEN].value, "shutdown") == 0)) {

        if (settings.shutdown_command) {
            conn_set_state(c, conn_closing);
            raise(SIGINT);
        } else {
            out_string(c, "ERROR: shutdown not enabled");
        }

    } else if (ntokens > 1 && strcmp(tokens[COMMAND_TOKEN].value, "slabs") == 0) {
        if (ntokens == 5 && strcmp(tokens[COMMAND_TOKEN + 1].value, "reassign") == 0) {
            int src, dst, rv;

            if (settings.slab_reassign == false) {
                out_string(c, "CLIENT_ERROR slab reassignment disabled");
                return;
            }

            src = strtol(tokens[2].value, NULL, 10);
            dst = strtol(tokens[3].value, NULL, 10);

            if (errno == ERANGE) {
                out_string(c, "CLIENT_ERROR bad command line format");
                return;
            }

            rv = slabs_reassign(src, dst);
            switch (rv) {
            case REASSIGN_OK:
                out_string(c, "OK");
                break;
            case REASSIGN_RUNNING:
                out_string(c, "BUSY currently processing reassign request");
                break;
            case REASSIGN_BADCLASS:
                out_string(c, "BADCLASS invalid src or dst class id");
                break;
            case REASSIGN_NOSPARE:
                out_string(c, "NOSPARE source class has no spare pages");
                break;
            case REASSIGN_SRC_DST_SAME:
                out_string(c, "SAME src and dst class are identical");
                break;
            }
            return;
        } else if (ntokens == 4 &&
            (strcmp(tokens[COMMAND_TOKEN + 1].value, "automove") == 0)) {
            process_slabs_automove_command(c, tokens, ntokens);
        } else {
            out_string(c, "ERROR");
        }
    } else if (ntokens > 1 && strcmp(tokens[COMMAND_TOKEN].value, "lru_crawler") == 0) {
        if (ntokens == 4 && strcmp(tokens[COMMAND_TOKEN + 1].value, "crawl") == 0) {
            int rv;
            if (settings.lru_crawler == false) {
                out_string(c, "CLIENT_ERROR lru crawler disabled");
                return;
            }

            rv = lru_crawler_crawl(tokens[2].value);
            switch(rv) {
            case CRAWLER_OK:
                out_string(c, "OK");
                break;
            case CRAWLER_RUNNING:
                out_string(c, "BUSY currently processing crawler request");
                break;
            case CRAWLER_BADCLASS:
                out_string(c, "BADCLASS invalid class id");
                break;
            }
            return;
        } else if (ntokens == 4 && strcmp(tokens[COMMAND_TOKEN + 1].value, "tocrawl") == 0) {
            uint32_t tocrawl;
             if (!safe_strtoul(tokens[2].value, &tocrawl)) {
                out_string(c, "CLIENT_ERROR bad command line format");
                return;
            }
            settings.lru_crawler_tocrawl = tocrawl;
            out_string(c, "OK");
            return;
        } else if (ntokens == 4 && strcmp(tokens[COMMAND_TOKEN + 1].value, "sleep") == 0) {
            uint32_t tosleep;
            if (!safe_strtoul(tokens[2].value, &tosleep)) {
                out_string(c, "CLIENT_ERROR bad command line format");
                return;
            }
            if (tosleep > 1000000) {
                out_string(c, "CLIENT_ERROR sleep must be one second or less");
                return;
            }
            settings.lru_crawler_sleep = tosleep;
            out_string(c, "OK");
            return;
        } else if (ntokens == 3) {
            if ((strcmp(tokens[COMMAND_TOKEN + 1].value, "enable") == 0)) {
                if (start_item_crawler_thread() == 0) {
                    out_string(c, "OK");
                } else {
                    out_string(c, "ERROR failed to start lru crawler thread");
                }
            } else if ((strcmp(tokens[COMMAND_TOKEN + 1].value, "disable") == 0)) {
                if (stop_item_crawler_thread() == 0) {
                    out_string(c, "OK");
                } else {
                    out_string(c, "ERROR failed to stop lru crawler thread");
                }
            } else {
                out_string(c, "ERROR");
            }
            return;
        } else {
            out_string(c, "ERROR");
        }
    } else if ((ntokens == 3 || ntokens == 4) && (strcmp(tokens[COMMAND_TOKEN].value, "verbosity") == 0)) {
        process_verbosity_command(c, tokens, ntokens);
    } else {
        out_string(c, "ERROR");
    }
    return;
}

 

以上为个人笔记

    原文作者:memcached
    原文地址: https://www.cnblogs.com/lrxing/p/4273387.html
    本文转自网络文章,转载此文章仅为分享知识,如有侵权,请联系博主进行删除。
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