[转载] Redis AOF 持久化策略

简介

AOF 持久化和 RDB 持久化的最主要区别在于,前者记录了数据的变更,而后者是保存了数据本身。本篇主要讲的是AOF 持久化,了解 AOF 的数据组织方式和运作机制。Redis 主要在 aof.c 中实现 AOF 的操作。

同样,AOF 持久化也会涉及文件的读写,会用到数据结构 rio。关于 rio 已经在上一个篇章已经讲述,在此不做展开。

AOF 数据组织方式

假设 redis 内存有「name:Jhon」的键值对,那么进行 AOF 持久化后,AOF 文件有如下内容:

*2     # 2 个参数
$6     # 第一个参数长度为6
SELECT # 第一个参数
$1     # 第二参数长度为1
8      # 第二参数
*3     # 3 个参数
$3     # 第一个参数长度为4
SET    # 第一个参数
$4     # 第二参数长度为4
name   # 第二个参数
$4     # 第三个参数长度为4
Jhon   # 第二参数长度为4

所以对上面的内容进行恢复,能得到熟悉的一条 Redis 命令:SELECT 8;SET name Jhon. 可以想象的是,Redis 遍历内存数据集中的每个 key-value 对,依次写入磁盘中;Redis 启动的时候,从 AOF 文件中读取数据,恢复数据。

AOF 持久化运作机制

和 redis RDB 持久化运作机制不同,redis AOF 有后台执行和边服务边备份两种方式。

AOF 持久化运作机制

1)AOF 后台执行的方式和 RDB 有类似的地方,fork 一个子进程,主进程仍进行服务,子进程执行AOF 持久化,数据被dump 到磁盘上。与 RDB 不同的是,后台子进程持久化过程中,主进程会记录期间的所有数据变更(主进程还在服务),并存储在 server.aof_rewrite_buf_blocks 中;后台子进程结束后,Redis 更新缓存追加到 AOF 文件中,是 RDB 持久化所不具备的。
来说说更新缓存这个东西。Redis 服务器产生数据变更的时候,譬如 set name Jhon,不仅仅会修改内存数据集,也会记录此更新(修改)操作,记录的方式就是上面所说的数据组织方式。
更新缓存可以存储在 server.aof buf 中,你可以把它理解为一个小型临时中转站,所有累积的更新缓存都会先放入这里,它会在特定时机写入文件或者插入到server.aof -rewrite_buf_blocks 下链表(下面会详述);server.aof buf 中的数据在 propagrate() 添加,在涉及数据更新的地方都会调用propagrate() 以累积变更。更新缓存也可以存储在 server.aof -rewrite_buf_blocks,这是一个元素类型为 struct aofrwblock 的链表,你可以把它理解为一个仓库,当后台有AOF 子进程的时候,会将累积的更新缓存(在 server.aof_buf 中)插入到链表中,而当 AOF 子进程结束,它会被整个写入到文件。两者是有关联的。
这里的意图即是不用每次出现数据变更的时候都触发一个写操作,可以将写操作先缓存到内存中,待到合适的时机写入到磁盘,如此避免频繁的写操作。当然,完全可以实现让数据变更及时更新到磁盘中。两种做法的好坏就是一种博弈了。
下面是后台执行的主要代码:

// 启动后台子进程,执行AOF 持久化操作。bgrewriteaofCommand(),startAppendOnly(),
// serverCron() 中会调用此函数
/* This is how rewriting of the append only file in background works:
**1) The user calls BGREWRITEAOF
* 2) Redis calls this function, that forks():
* * 2a) the child rewrite the append only file in a temp file.
* 2b) the parent accumulates differences in server.aof_rewrite_buf.
* 3) When the child finished '2a' exists.
* 4) The parent will trap the exit code, if it's OK, will append the
* data accumulated into server.aof_rewrite_buf into the temp file, and
* finally will rename(2) the temp file in the actual file name.
* The the new file is reopened as the new append only file. Profit!
*/

int rewriteAppendOnlyFileBackground(void) {
    pid_t childpid;
    long long start;
    // 已经有正在执行备份的子进程
    if (server.aof_child_pid != -1) return REDIS_ERR;
        start = ustime();
    if ((childpid = fork()) == 0) {
        char tmpfile[256];
        // 子进程
        /* Child */
        // 关闭监听
        closeListeningSockets(0);
        // 设置进程title
        redisSetProcTitle("redis-aof-rewrite");
        // 临时文件名
        snprintf(tmpfile,256,"temp-rewriteaof-bg-%d.aof", (int) getpid());
        // 开始执行AOF 持久化
    if (rewriteAppendO nlyFile(tmpfile) == REDIS_OK) {
        // 脏数据,其实就是子进程所消耗的内存大小
        // 获取脏数据大小
        size_t private_dirty = zmalloc_get_private_dirty();
        // 记录脏数据
    if (private_dirty) {
        redisLog(REDIS_NOTICE,
        "AOF rewrite: %zu MB of memory used by copy-on-write",
        private_dirty/(1024*1024));
    }
        exitFromChild(0);
    } else {
        exitFromChild(1);
    }
    } else {
        /* Parent */
        server.stat_fork_time = ustime()-start;
    if (childpid == -1) {
        redisLog(REDIS_WARNING,
        "Can't rewrite append only file in background: fork: %s",
        strerror(errno));
        return REDIS_ERR;
    }
    redisLog(REDIS_NOTICE,
    "Background append only file rewriting started by pid %d",childpid);
    // AOF 已经开始执行,取消AOF 计划
    server.aof_rewrite_scheduled = 0;
    // AOF 最近一次执行的起始时间
    server.aof_rewrite_time_start = time(NULL);
    // 子进程ID
    server.aof_child_pid = childpid;
    updateDictResizePolicy();
// 因为更新缓存都将写入文件,要强制产生选择数据集的指令SELECT ,以防出现数据
// 合并错误。
/* We set appendseldb to -1 in order to force the next call to the
* feedAppendOnlyFile() to issue a SELECT command, so the differences
* accumulated by the parent into server.aof_rewrite_buf will start
* with a SELECT statement and it will be safe to merge. */
    server.aof_selected_db = -1;
    replicationScriptCacheFlush();
    return REDIS_OK;
    }
    return REDIS_OK; /* unreached */
}

如上,子进程执行 AOF 持久化,父进程则会记录一些 AOF 的执行信息。下面来看看 AOF 持久化具体是怎么做的?

// AOF 持久化主函数。只在rewriteAppendOnlyFileBackground() 中会调用此函数
/* Write a sequence of commands able to fully rebuild the dataset into
* "filename". Used both by REWRITEAOF and BGREWRITEAOF.
**
In order to minimize the number of commands needed in the rewritten
* log Redis uses variadic commands when possible, such as RPUSH, SADD
* and ZADD. However at max REDIS_AOF_REWRITE_ITEMS_PER_CMD items per time
* are inserted using a single command. */
    int rewriteAppendOnlyFile(char *filename) {
    dictIterator *di = NULL;
    dictEntry *de;
    rio aof;
    FILE *fp;
    char tmpfile[256];
    int j;
    long long now = mstime();
    /* Note that we have to use a different temp name here compared to the
    * one used by rewriteAppendOnlyFileBackground() function. */

    snprintf(tmpfile,256,"temp-rewriteaof-%d.aof", (int) getpid());
    // 打开文件
    fp = fopen(tmpfile,"w");
    if (!fp) {
        redisLog(REDIS_WARNING, "Opening the temp file for AOF rewrite in"
        "rewriteAppendOnlyFile(): %s", strerror(errno));
        return REDIS_ERR;
    }
        // 初始化rio 结构体
        rioInitWithFile(&aof,fp);
        // 如果设置了自动备份参数,将进行设置
    if (server.aof_rewrite_incremental_fsync)
        rioSetAutoSync(&aof,REDIS_AOF_AUTOSYNC_BYTES);
        // 备份每一个数据集
    for (j = 0; j < server.dbnum; j++) {
        char selectcmd[] = "*2\r\n$6\r\nSELECT\r\n";
        redisDb *db = server.db+j;
        dict *d = db->dict;
    if (dictSize(d) == 0) continue;
        // 获取数据集的迭代器
        di = dictGetSafeIterator(d);
    if (!di) {
        fclose(fp);
        return REDIS_ERR;
    }
    // 写入AOF 操作码
    /* SELECT the new DB */
    if (rioWrite(&aof,selectcmd,sizeof(selectcmd)-1) == 0) goto werr;
    // 写入数据集序号
    if (rioWriteBulkLongLong(&aof,j) == 0) goto werr;
    // 写入数据集中每一个数据项
    /* Iterate this DB writing every entry */
    while((de = dictNext(di)) != NULL) {
        sds keystr;
        robj key, *o;
        long long expiretime;
        keystr = dictGetKey(de);
        o = dictGetVal(de);
        // 将keystr 封装在robj 里
        initStaticStringObject(key,keystr);
        // 获取过期时间
        expiretime = getExpire(db,&key);

        // 如果已经过期,放弃存储
        /* If this key is already expired skip it */
    if (expiretime != -1 && expiretime < now) continue;
        // 写入键值对应的写操作
        /* Save the key and associated value */
    if (o->type == REDIS_STRING) {
        /* Emit a SET command */
        char cmd[]="*3\r\n$3\r\nSET\r\n";
    if (rioWrite(&aof,cmd,sizeof(cmd)-1) == 0) goto werr;
        /* Key and value */
    if (rioWriteBulkObject(&aof,&key) == 0) goto werr;
    if (rioWriteBulkObject(&aof,o) == 0) goto werr;
    } else if (o->type == REDIS_LIST) {
    if (rewriteListObject(&aof,&key,o) == 0) goto werr;
    } else if (o->type == REDIS_SET) {
    if (rewriteSetObject(&aof,&key,o) == 0) goto werr;
    } else if (o->type == REDIS_ZSET) {
    if (rewriteSortedSetObject(&aof,&key,o) == 0) goto werr;
    } else if (o->type == REDIS_HASH) {
    if (rewriteHashObject(&aof,&key,o) == 0) goto werr;
    } else {
        redisPanic("Unknown object type");
    }
    // 写入过期时间
    /* Save the expire time */
    if (expiretime != -1) {
        char cmd[]="*3\r\n$9\r\nPEXPIREAT\r\n";
    if (rioWrite(&aof,cmd,sizeof(cmd)-1) == 0) goto werr;
    if (rioWriteBulkObject(&aof,&key) == 0) goto werr;
    if (rioWriteBulkLongLong(&aof,expiretime) == 0) goto werr;
    }
}
    // 释放迭代器
    dictReleaseIterator(di);
}
    // 写入磁盘
    /* Make sure data will not remain on the OS's output buffers */
    fflush(fp);
    aof_fsync(fileno(fp));
    fclose(fp);
    // 重写文件名
    /* Use RENAME to make sure the DB file is changed atomically only
    * if the generate DB file is ok. */
    if (rename(tmpfile,filename) == -1) {
        redisLog(REDIS_WARNING,"Error moving temp append only file on the "
        "final destination: %s", strerror(errno));
        unlink(tmpfile);
        return REDIS_ERR;
    }
    redisLog(REDIS_NOTICE,"SYNC append only file rewrite performed");
    return REDIS_OK;
    werr:
    // 清理工作
    fclose(fp);
    unlink(tmpfile);
    redisLog(REDIS_WARNING,"Write error writing append only file on disk: "
    "%s", strerror(errno));
    if (di) dictReleaseIterator(di);
        return REDIS_ERR;
}

刚才所说,AOF 在持久化结束后,持久化过程产生的数据变更也会追加到 AOF 文件中。如果有留意定时处理函数 serverCorn():父进程会在子进程结束后,将 AOF 持久化过程中产生的数据变更,追加到 AOF 文件。这就是 backgroundRewriteDoneHandler() 要做的:将 server.aof_rewrite_buf_blocks 追加到 AOF 文件。

// 后台子进程结束后,Redis 更新缓存server.aof_rewrite_buf_blocks 追加到AOF 文件中
// 在AOF 持久化结束后会执行这个函数, backgroundRewriteDoneHandler() 主要工作是
// 将server.aof_rewrite_buf_blocks,即AOF 缓存写入文件
/* A background append only file rewriting (BGREWRITEAOF) terminated its work.
* Handle this. */
    void backgroundRewriteDoneHandler(int exitcode, int bysignal) {
    ......
    // 将AOF 缓存server.aof_rewrite_buf_blocks 的AOF 写入磁盘
    if (aofRewriteBufferWrite(newfd) == -1) {
        redisLog(REDIS_WARNING,
        "Error trying to flush the parent diff to the rewritten AOF: %s",
        strerror(errno));
        close(newfd);
        goto cleanup;
    }
    ......
    }
// 将累积的更新缓存server.aof_rewrite_buf_blocks 同步到磁盘
/* Write the buffer (possibly composed of multiple blocks) into the specified
* fd. If no short write or any other error happens -1 is returned,
* otherwise the number of bytes written is returned. */
    ssize_t aofRewriteBufferWrite(int fd) {
    listNode *ln;
    listIter li;
    ssize_t count = 0;
    listRewind(server.aof_rewrite_buf_blocks,&li);
    while((ln = listNext(&li))) {
    aofrwblock *block = listNodeValue(ln);
    ssize_t nwritten;
    if (block->used) {
        nwritten = write(fd,block->buf,block->used);
    if (nwritten != block->used) {
    if (nwritten == 0) errno = EIO;
        return -1;
    }
        count += nwritten;
    }
  }
  return count;
}

2)边服务边备份的方式,即 Redis 服务器会把所有的数据变更存储在 server.aof_buf 中,并在特定时机将更新缓存写入预设定的文件(server.aof_filename)。特定时机有三种:

进入事件循环之前
Redis 服务器定时程序 serverCron() 中
停止 AOF 策略的 stopAppendOnly() 中
Redis 无非是不想服务器突然崩溃终止,导致过多的数据丢失。Redis 默认是每隔固定时间进行一次边服务边备份,即隔固定时间将累积的变更的写入文件。

下面是边服务边执行 AOF 持久化的主要代码:

// 同步磁盘;将所有累积的更新server.aof_buf 写入磁盘
/* Write the append only file buffer on disk.
**
Since we are required to write the AOF before replying to the client,
* and the only way the client socket can get a write is entering when the
* the event loop, we accumulate all the AOF writes in a memory
* buffer and write it on disk using this function just before entering
* the event loop again.
**
About the 'force' argument:
**
When the fsync policy is set to 'everysec' we may delay the flush if there
* is still an fsync() going on in the background thread, since for instance
* on Linux write(2) will be blocked by the background fsync anyway.
* When this happens we remember that there is some aof buffer to be
* flushed ASAP, and will try to do that in the serverCron() function.
**
However if force is set to 1 we'll write regardless of the background
* fsync. */
void flushAppendOnlyFile(int force) {

    ssize_t nwritten;
    int sync_in_progress = 0;
    // 无数据,无需同步到磁盘
    if (sdslen(server.aof_buf) == 0) return;
    // 创建线程任务,主要调用fsync()
    if (server.aof_fsync == AOF_FSYNC_EVERYSEC)
        sync_in_progress = bioPendingJobsOfType(REDIS_BIO_AOF_FSYNC) != 0;
    // 如果没有设置强制同步的选项,可能不会立即进行同步
    if (server.aof_fsync == AOF_FSYNC_EVERYSEC && !force) {
    // 推迟执行AOF
    /* With this append fsync policy we do background fsyncing.
    * If the fsync is still in progress we can try to delay
    * the write for a couple of seconds. */
    if (sync_in_progress) {
    if (server.aof_flush_postponed_start == 0) {
        // 设置延迟冲洗时间选项
    /* No previous write postponinig, remember that we are
    * postponing the flush and return. */
    // /* Unix time sampled every cron cycle. */
        server.aof_flush_postponed_start = server.unixtime;
        return;
    // 没有超过2s,直接结束
    } else if (server.unixtime - server.aof_flush_postponed_start < 2) {
    /* We were already waiting for fsync to finish, but for less
    * than two seconds this is still ok. Postpone again. */
    return;
    }
    // 否则,要强制写入磁盘
    /* Otherwise fall trough, and go write since we can't wait
    * over two seconds. */
        server.aof_delayed_fsync++;
        redisLog(REDIS_NOTICE,"Asynchronous AOF fsync is taking too long (disk"
    " is busy?). Writing the AOF buffer without waiting for fsync to "
    "complete, this may slow down Redis.");
    }
  }
    // 取消延迟冲洗时间设置
/* If you are following this code path, then we are going to write so
* set reset the postponed flush sentinel to zero. */
server.aof_flush_postponed_start = 0;
/* We want to perform a single write. This should be guaranteed atomic
* at least if the filesystem we are writing is a real physical one.
* While this will save us against the server being killed I don't think
* there is much to do about the whole server stopping for power problems
* or alike */
// AOF 文件已经打开了。将server.aof_buf 中的所有缓存数据写入文件

    nwritten = write(server.aof_fd,server.aof_buf,sdslen(server.aof_buf));
    if (nwritten != (signed)sdslen(server.aof_buf)) {
    /* Ooops, we are in troubles. The best thing to do for now is
    * aborting instead of giving the illusion that everything is
    * working as expected. */
    if (nwritten == -1) {
        redisLog(REDIS_WARNING,"Exiting on error writing to the append-only"
        " file: %s",strerror(errno));
    } else {
        redisLog(REDIS_WARNING,"Exiting on short write while writing to "
        "the append-only file: %s (nwritten=%ld, "
        "expected=%ld)",
        strerror(errno),
        (long)nwritten,
        (long)sdslen(server.aof_buf));
    if (ftruncate(server.aof_fd, server.aof_current_size) == -1) {
        redisLog(REDIS_WARNING, "Could not remove short write "
        "from the append-only file. Redis may refuse "
        "to load the AOF the next time it starts. "
        "ftruncate: %s", strerror(errno));
        }
    }
    exit(1);
}
    // 更新AOF 文件的大小
    server.aof_current_size += nwritten;
    // 当server.aof_buf 足够小, 重新利用空间,防止频繁的内存分配。
    // 相反,当server.aof_buf 占据大量的空间,采取的策略是释放空间,可见redis
    // 对内存很敏感。
    /* Re-use AOF buffer when it is small enough. The maximum comes from the
    * arena size of 4k minus some overhead (but is otherwise arbitrary). */
    if ((sdslen(server.aof_buf)+sdsavail(server.aof_buf)) < 4000) {
        sdsclear(server.aof_buf);
    } else {
        sdsfree(server.aof_buf);
        server.aof_buf = sdsempty();
    }
    /* Don't fsync if no-appendfsync-on-rewrite is set to yes and there are
    * children doing I/O in the background. */
    if (server.aof_no_fsync_on_rewrite &&
    (server.aof_child_pid != -1 || server.rdb_child_pid != -1))
    return;
    // sync, 写入磁盘
    /* Perform the fsync if needed. */
    if (server.aof_fsync == AOF_FSYNC_ALWAYS) {
        /* aof_fsync is defined as fdatasync() for Linux in order to avoid
        * flushing metadata. */
        aof_fsync(server.aof_fd); /* Let's try to get this data on the disk */
        server.aof_last_fsync = server.unixtime;
    } else if ((server.aof_fsync == AOF_FSYNC_EVERYSEC &&
        server.unixtime > server.aof_last_fsync)) {
    if (!sync_in_progress) aof_background_fsync(server.aof_fd);
        server.aof_last_fsync = server.unixtime;
    }
}
细说更新缓存

上面两次提到了「更新缓存」,它即是 Redis 累积的数据变更。

更新缓存可以存储在 server.aof_buf 中,可以存储在 server.server.aof_rewrite_buf_blocks 连表中。他们的关系是:每一次数据变更记录都会写入 server.aof_buf 中,同时如果后台子进程在持久化,变更记录还会被写入 server.server.aof_rewrite_buf_blocks 中。server.aof_buf 会在特定时期写入指定文件,server.server.aof_rewrite_buf_blocks 会在后台持久化结束后追加到文件。

Redis 源码中是这么实现的:propagrate()->feedAppendOnlyFile()->aofRewriteBufferAppend()

注意,feedAppendOnlyFile() 会把更新添加到server.aof_buf;接下来会有一个判断,如果存在 AOF 子进程,则调用aofRewriteBufferAppend() 将server.aof_buf 中的所有数据插入到 server.aof_rewrite_buf_blocks 链表。这样,就能够理解为什么在AOF 持久化子进程结束后,父进程会将 server.aof_rewrite_buf_blocks 追加到 AOF 文件了。

// 向AOF 和从机发布数据更新
/* Propagate the specified command (in the context of the specified database id)
* to AOF and Slaves.
**
flags are an xor between:
* + REDIS_PROPAGATE_NONE (no propagation of command at all)
* + REDIS_PROPAGATE_AOF (propagate into the AOF file if is enabled)
* + REDIS_PROPAGATE_REPL (propagate into the replication link)
*/
void propagate(struct redisCommand *cmd, int dbid, robj **argv, int argc,
    int flags)
    {
    // AOF 策略需要打开,且设置AOF 传播标记,将更新发布给本地文件
    if (server.aof_state != REDIS_AOF_OFF && flags & REDIS_PROPAGATE_AOF)
        feedAppendOnlyFile(cmd,dbid,argv,argc);
    // 设置了从机传播标记,将更新发布给从机
    if (flags & REDIS_PROPAGATE_REPL)
        replicationFeedSlaves(server.slaves,dbid,argv,argc);
    }
    // 将数据更新记录到AOF 缓存中
void feedAppendOnlyFile(struct redisCommand *cmd, int dictid, robj **argv,
    int argc) {
    sds buf = sdsempty();
    robj *tmpargv[3];
    /* The DB this command was targeting is not the same as the last command
    * we appendend. To issue a SELECT command is needed. */
    if (dictid != server.aof_selected_db) {
        char seldb[64];
        snprintf(seldb,sizeof(seldb),"%d",dictid);
        buf = sdscatprintf(buf,"*2\r\n$6\r\nSELECT\r\n$%lu\r\n%s\r\n",
    (unsigned long)strlen(seldb),seldb);
    server.aof_selected_db = dictid;
    }
    if (cmd->proc == expireCommand || cmd->proc == pexpireCommand ||
        cmd->proc == expireatCommand) {
        /* Translate EXPIRE/PEXPIRE/EXPIREAT into PEXPIREAT */
        buf = catAppendOnlyExpireAtCommand(buf,cmd,argv[1],argv[2]);
    } else if (cmd->proc == setexCommand || cmd->proc == psetexCommand) {
        /* Translate SETEX/PSETEX to SET and PEXPIREAT */
        tmpargv[0] = createStringObject("SET",3);
    tmpargv[1] = argv[1];
    tmpargv[2] = argv[3];
    buf = catAppendOnlyGenericCommand(buf,3,tmpargv);
    decrRefCount(tmpargv[0]);
    buf = catAppendOnlyExpireAtCommand(buf,cmd,argv[1],argv[2]);
    } else {
    /* All the other commands don't need translation or need the
    * same translation already operated in the command vector
    * for the replication itself. */
    buf = catAppendOnlyGenericCommand(buf,argc,argv);
    }
// 将生成的AOF 追加到server.aof_buf 中。server. 在下一次进入事件循环之前,
// aof_buf 中的内容将会写到磁盘上
/* Append to the AOF buffer. This will be flushed on disk just before
* of re-entering the event loop, so before the client will get a
* positive reply about the operation performed. */
if (server.aof_state == REDIS_AOF_ON)
server.aof_buf = sdscatlen(server.aof_buf,buf,sdslen(buf));
// 如果已经有AOF 子进程运行,redis 采取的策略是累积子进程AOF 备份的数据和
// 内存中数据集的差异。aofRewriteBufferAppend() 把buf 的内容追加到
// server.aof_rewrite_buf_blocks 数组中
/* If a background append only file rewriting is in progress we want to
* accumulate the differences between the child DB and the current one
* in a buffer, so that when the child process will do its work we
* can append the differences to the new append only file. */
    if (server.aof_child_pid != -1)
        aofRewriteBufferAppend((unsigned char*)buf,sdslen(buf));
        sdsfree(buf);
    }
    // 将数据更新记录写入server.aof_rewrite_buf_blocks,此函数只由
    // feedAppendOnlyFile() 调用
    /* Append data to the AOF rewrite buffer, allocating new blocks if needed. */
void aofRewriteBufferAppend(unsigned char *s, unsigned long len) {
    // 尾插法
    listNode *ln = listLast(server.aof_rewrite_buf_blocks);
    aofrwblock *block = ln ? ln->value : NULL;
    while(len) {
    /* If we already got at least an allocated block, try appending
    * at least some piece into it. */
    if (block) {
        unsigned long thislen = (block->free < len) ? block->free : len;
    if (thislen) { /* The current block is not already full. */
        memcpy(block->buf+block->used, s, thislen);
        block->used += thislen;
        block->free -= thislen;
        s += thislen;
        len -= thislen;
    }
}
    if (len) { /* First block to allocate, or need another block. */
        int numblocks;
        // 创建新的节点,插到尾部
        block = zmalloc(sizeof(*block));
        block->free = AOF_RW_BUF_BLOCK_SIZE;
        block->used = 0;
        // 尾插法
        listAddNodeTail(server.aof_rewrite_buf_blocks,block);
        /* Log every time we cross more 10 or 100 blocks, respectively
        * as a notice or warning. */
        numblocks = listLength(server.aof_rewrite_buf_blocks);
    if (((numblocks+1) % 10) == 0) {
        int level = ((numblocks+1) % 100) == 0 ? REDIS_WARNING :
        REDIS_NOTICE;
        redisLog(level,"Background AOF buffer size: %lu MB",
        aofRewriteBufferSize()/(1024*1024));
         }
      }
   }
}

一副可以缓解视力疲劳的图片——AOF 持久化运作机制:

AOF 持久化运作机制

两种数据落地的方式,就是 AOF 的两个主线。因此,redis AOF 持久化机制有两条主线:后台执行和边服务边备份,抓住这两点就能理解 redis AOF 了。

这里有一个疑问,两条主线都会涉及文件的写:后台执行会写一个AOF 文件,边服务边备份也会写一个,以哪个为准?

后台持久化的数据首先会被写入“temp-rewriteaof-bg-%d.aof”,其中“%d”是AOF 子进程 id;待 AOF 子进程结束后,“temp-rewriteaof-bg-%d.aof”会被以追加的方式打开,继而写入 server.aof_rewrite_buf_blocks 中的更新缓存,最后“temp-rewriteaof-bg-%d.aof”文件被命名为 server.aof_filename,所以之前的名为 server.aof_filename 的文件会被删除,也就是说边服务边备份写入的文件会被删除。边服务边备份的数据会被一直写入到 server.aof_filename文件中。

因此,确实会产生两个文件,但是最后都会变成 server.aof_filename 文件。这里可能还有一个疑问,既然有了后台持久化,为什么还要边服务边备份?边服务边备份时间长了会产生数据冗余甚至备份过旧的数据,而后台持久化可以消除这些东西。看,这里是 Redis 的双保险。

AOF 恢复过程

AOF 的数据恢复过程设计很巧妙,它模拟一个 Redis 的服务过程。Redis 首先虚拟一个客户端,读取 AOF 文件恢复 Redis 命令和参数;接着过程就和服务客户端一样执行命令相应的函数,从而恢复数据,这样做的目的无非是提高代码的复用率。这些过程主要在 loadAppendOnlyFile() 中实现。

// 加载AOF 文件,恢复数据
/* Replay the append log file. On error REDIS_OK is returned. On non fatal
* error (the append only file is zero-length) REDIS_ERR is returned. On
* fatal error an error message is logged and the program exists. */
int loadAppendOnlyFile(char *filename) {
    struct redisClient *fakeClient;
    FILE *fp = fopen(filename,"r");
    struct redis_stat sb;
    int old_aof_state = server.aof_state;
    long loops = 0;
    // 文件大小不能为0
    if (fp && redis_fstat(fileno(fp),&sb) != -1 && sb.st_size == 0) {
        server.aof_current_size = 0;
        fclose(fp);
        return REDIS_ERR;
    }
    if (fp == NULL) {
        redisLog(REDIS_WARNING,"Fatal error: can't open the append log file "
        "for reading: %s",strerror(errno));
        exit(1);
    }
    // 正在执行AOF 加载操作,于是暂时禁止AOF 的所有操作,以免混淆
    /* Temporarily disable AOF, to prevent EXEC from feeding a MULTI
    * to the same file we're about to read. */
    server.aof_state = REDIS_AOF_OFF;
    // 虚拟出一个客户端,即redisClient
    fakeClient = createFakeClient();
    startLoading(fp);
    while(1) {
        int argc, j;
        unsigned long len;
        robj **argv;
        char buf[128];
        sds argsds;
        struct redisCommand *cmd;
        // 每循环1000 次,在恢复数据的同时,服务器也为客户端服务。
        // aeProcessEvents() 会进入事件循环
        /* Serve the clients from time to time */
    if (!(loops++ % 1000)) {
        loadingProgress(ftello(fp));
        aeProcessEvents(server.el, AE_FILE_EVENTS|AE_DONT_WAIT);
    }
    // 可能aof 文件到了结尾
    if (fgets(buf,sizeof(buf),fp) == NULL) {
    if (feof(fp))
        break;
    else
        goto readerr;
    }
    // 必须以“*”开头,格式不对,退出
    if (buf[0] != '*') goto fmterr;
        // 参数的个数
        argc = atoi(buf+1);
        // 参数个数错误
    if (argc < 1) goto fmterr;
        // 为参数分配空间
        argv = zmalloc(sizeof(robj*)*argc);
        // 依次读取参数
    for (j = 0; j < argc; j++) {
    if (fgets(buf,sizeof(buf),fp) == NULL) goto readerr;
    if (buf[0] != '$') goto fmterr;
        len = strtol(buf+1,NULL,10);
        argsds = sdsnewlen(NULL,len);
    if (len && fread(argsds,len,1,fp) == 0) goto fmterr;
        argv[j] = createObject(REDIS_STRING,argsds);
    if (fread(buf,2,1,fp) == 0) goto fmterr; /* discard CRLF */
    }
    // 找到相应的命令
    /* Command lookup */
    cmd = lookupCommand(argv[0]->ptr);
    if (!cmd) {
        redisLog(REDIS_WARNING,"Unknown command '%s' reading the "
        "append only file", (char*)argv[0]->ptr);
        exit(1);
    }
    // 执行命令,模拟服务客户端请求的过程,从而写入数据
    /* Run the command in the context of a fake client */
    fakeClient->argc = argc;
    fakeClient->argv = argv;
    cmd->proc(fakeClient);
    /* The fake client should not have a reply */
    redisAssert(fakeClient->bufpos == 0 && listLength(fakeClient->reply)
    == 0);
    /* The fake client should never get blocked */
    redisAssert((fakeClient->flags & REDIS_BLOCKED) == 0);
    // 释放虚拟客户端空间
    /* Clean up. Command code may have changed argv/argc so we use the
    * argv/argc of the client instead of the local variables. */
    for (j = 0; j < fakeClient->argc; j++)
        decrRefCount(fakeClient->argv[j]);
        zfree(fakeClient->argv);
    }
    /* This point can only be reached when EOF is reached without errors.
    * If the client is in the middle of a MULTI/EXEC, log error and quit. */
    if (fakeClient->flags & REDIS_MULTI) goto readerr;
        // 清理工作
        fclose(fp);
        freeFakeClient(fakeClient);
        // 恢复旧的AOF 状态
        server.aof_state = old_aof_state;
        stopLoading();
        // 记录最近AOF 操作的文件大小
        aofUpdateCurrentSize();
        server.aof_rewrite_base_size = server.aof_current_size;
        return REDIS_OK;
        readerr:
    // 错误,清理工作
    if (feof(fp)) {
        redisLog(REDIS_WARNING,"Unexpected end of file reading the append "
        "only file");
    } else {
        redisLog(REDIS_WARNING,"Unrecoverable error reading the append only "
        "file: %s", strerror(errno));
    }
    exit(1);
    fmterr:
    redisLog(REDIS_WARNING,"Bad file format reading the append only file: "
    "make a backup of your AOF file, then use ./redis-check-aof --fix "
    "<filename>");
    exit(1);
}
AOF 的适用场景

如果对数据比较关心,分秒必争,可以用 AOF 持久化,而且AOF 文件很容易进行分析。

原文地址:http://wiki.jikexueyuan.com/project/redis/aof.html

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