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|
/*
* Copyright (c) 2009-2012, Salvatore Sanfilippo <antirez at gmail dot com>
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* * Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* * Neither the name of Redis nor the names of its contributors may be used
* to endorse or promote products derived from this software without
* specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
#include "server.h"
#include "bio.h"
#include "rio.h"
#include "functions.h"
#include <signal.h>
#include <fcntl.h>
#include <sys/stat.h>
#include <sys/types.h>
#include <sys/time.h>
#include <sys/resource.h>
#include <sys/wait.h>
#include <sys/param.h>
void freeClientArgv(client *c);
off_t getAppendOnlyFileSize(sds filename, int *status);
off_t getBaseAndIncrAppendOnlyFilesSize(aofManifest *am, int *status);
int getBaseAndIncrAppendOnlyFilesNum(aofManifest *am);
int aofFileExist(char *filename);
int rewriteAppendOnlyFile(char *filename);
aofManifest *aofLoadManifestFromFile(sds am_filepath);
void aofManifestFreeAndUpdate(aofManifest *am);
void aof_background_fsync_and_close(int fd);
/* ----------------------------------------------------------------------------
* AOF Manifest file implementation.
*
* The following code implements the read/write logic of AOF manifest file, which
* is used to track and manage all AOF files.
*
* Append-only files consist of three types:
*
* BASE: Represents a Redis snapshot from the time of last AOF rewrite. The manifest
* file contains at most a single BASE file, which will always be the first file in the
* list.
*
* INCR: Represents all write commands executed by Redis following the last successful
* AOF rewrite. In some cases it is possible to have several ordered INCR files. For
* example:
* - During an on-going AOF rewrite
* - After an AOF rewrite was aborted/failed, and before the next one succeeded.
*
* HISTORY: After a successful rewrite, the previous BASE and INCR become HISTORY files.
* They will be automatically removed unless garbage collection is disabled.
*
* The following is a possible AOF manifest file content:
*
* file appendonly.aof.2.base.rdb seq 2 type b
* file appendonly.aof.1.incr.aof seq 1 type h
* file appendonly.aof.2.incr.aof seq 2 type h
* file appendonly.aof.3.incr.aof seq 3 type h
* file appendonly.aof.4.incr.aof seq 4 type i
* file appendonly.aof.5.incr.aof seq 5 type i
* ------------------------------------------------------------------------- */
/* Naming rules. */
#define BASE_FILE_SUFFIX ".base"
#define INCR_FILE_SUFFIX ".incr"
#define RDB_FORMAT_SUFFIX ".rdb"
#define AOF_FORMAT_SUFFIX ".aof"
#define MANIFEST_NAME_SUFFIX ".manifest"
#define TEMP_FILE_NAME_PREFIX "temp-"
/* AOF manifest key. */
#define AOF_MANIFEST_KEY_FILE_NAME "file"
#define AOF_MANIFEST_KEY_FILE_SEQ "seq"
#define AOF_MANIFEST_KEY_FILE_TYPE "type"
/* Create an empty aofInfo. */
aofInfo *aofInfoCreate(void) {
return zcalloc(sizeof(aofInfo));
}
/* Free the aofInfo structure (pointed to by ai) and its embedded file_name. */
void aofInfoFree(aofInfo *ai) {
serverAssert(ai != NULL);
if (ai->file_name) sdsfree(ai->file_name);
zfree(ai);
}
/* Deep copy an aofInfo. */
aofInfo *aofInfoDup(aofInfo *orig) {
serverAssert(orig != NULL);
aofInfo *ai = aofInfoCreate();
ai->file_name = sdsdup(orig->file_name);
ai->file_seq = orig->file_seq;
ai->file_type = orig->file_type;
return ai;
}
/* Format aofInfo as a string and it will be a line in the manifest. */
sds aofInfoFormat(sds buf, aofInfo *ai) {
sds filename_repr = NULL;
if (sdsneedsrepr(ai->file_name))
filename_repr = sdscatrepr(sdsempty(), ai->file_name, sdslen(ai->file_name));
sds ret = sdscatprintf(buf, "%s %s %s %lld %s %c\n",
AOF_MANIFEST_KEY_FILE_NAME, filename_repr ? filename_repr : ai->file_name,
AOF_MANIFEST_KEY_FILE_SEQ, ai->file_seq,
AOF_MANIFEST_KEY_FILE_TYPE, ai->file_type);
sdsfree(filename_repr);
return ret;
}
/* Method to free AOF list elements. */
void aofListFree(void *item) {
aofInfo *ai = (aofInfo *)item;
aofInfoFree(ai);
}
/* Method to duplicate AOF list elements. */
void *aofListDup(void *item) {
return aofInfoDup(item);
}
/* Create an empty aofManifest, which will be called in `aofLoadManifestFromDisk`. */
aofManifest *aofManifestCreate(void) {
aofManifest *am = zcalloc(sizeof(aofManifest));
am->incr_aof_list = listCreate();
am->history_aof_list = listCreate();
listSetFreeMethod(am->incr_aof_list, aofListFree);
listSetDupMethod(am->incr_aof_list, aofListDup);
listSetFreeMethod(am->history_aof_list, aofListFree);
listSetDupMethod(am->history_aof_list, aofListDup);
return am;
}
/* Free the aofManifest structure (pointed to by am) and its embedded members. */
void aofManifestFree(aofManifest *am) {
if (am->base_aof_info) aofInfoFree(am->base_aof_info);
if (am->incr_aof_list) listRelease(am->incr_aof_list);
if (am->history_aof_list) listRelease(am->history_aof_list);
zfree(am);
}
sds getAofManifestFileName(void) {
return sdscatprintf(sdsempty(), "%s%s", server.aof_filename,
MANIFEST_NAME_SUFFIX);
}
sds getTempAofManifestFileName(void) {
return sdscatprintf(sdsempty(), "%s%s%s", TEMP_FILE_NAME_PREFIX,
server.aof_filename, MANIFEST_NAME_SUFFIX);
}
/* Returns the string representation of aofManifest pointed to by am.
*
* The string is multiple lines separated by '\n', and each line represents
* an AOF file.
*
* Each line is space delimited and contains 6 fields, as follows:
* "file" [filename] "seq" [sequence] "type" [type]
*
* Where "file", "seq" and "type" are keywords that describe the next value,
* [filename] and [sequence] describe file name and order, and [type] is one
* of 'b' (base), 'h' (history) or 'i' (incr).
*
* The base file, if exists, will always be first, followed by history files,
* and incremental files.
*/
sds getAofManifestAsString(aofManifest *am) {
serverAssert(am != NULL);
sds buf = sdsempty();
listNode *ln;
listIter li;
/* 1. Add BASE File information, it is always at the beginning
* of the manifest file. */
if (am->base_aof_info) {
buf = aofInfoFormat(buf, am->base_aof_info);
}
/* 2. Add HISTORY type AOF information. */
listRewind(am->history_aof_list, &li);
while ((ln = listNext(&li)) != NULL) {
aofInfo *ai = (aofInfo*)ln->value;
buf = aofInfoFormat(buf, ai);
}
/* 3. Add INCR type AOF information. */
listRewind(am->incr_aof_list, &li);
while ((ln = listNext(&li)) != NULL) {
aofInfo *ai = (aofInfo*)ln->value;
buf = aofInfoFormat(buf, ai);
}
return buf;
}
/* Load the manifest information from the disk to `server.aof_manifest`
* when the Redis server start.
*
* During loading, this function does strict error checking and will abort
* the entire Redis server process on error (I/O error, invalid format, etc.)
*
* If the AOF directory or manifest file do not exist, this will be ignored
* in order to support seamless upgrades from previous versions which did not
* use them.
*/
void aofLoadManifestFromDisk(void) {
server.aof_manifest = aofManifestCreate();
if (!dirExists(server.aof_dirname)) {
serverLog(LL_DEBUG, "The AOF directory %s doesn't exist", server.aof_dirname);
return;
}
sds am_name = getAofManifestFileName();
sds am_filepath = makePath(server.aof_dirname, am_name);
if (!fileExist(am_filepath)) {
serverLog(LL_DEBUG, "The AOF manifest file %s doesn't exist", am_name);
sdsfree(am_name);
sdsfree(am_filepath);
return;
}
aofManifest *am = aofLoadManifestFromFile(am_filepath);
if (am) aofManifestFreeAndUpdate(am);
sdsfree(am_name);
sdsfree(am_filepath);
}
/* Generic manifest loading function, used in `aofLoadManifestFromDisk` and redis-check-aof tool. */
#define MANIFEST_MAX_LINE 1024
aofManifest *aofLoadManifestFromFile(sds am_filepath) {
const char *err = NULL;
long long maxseq = 0;
aofManifest *am = aofManifestCreate();
FILE *fp = fopen(am_filepath, "r");
if (fp == NULL) {
serverLog(LL_WARNING, "Fatal error: can't open the AOF manifest "
"file %s for reading: %s", am_filepath, strerror(errno));
exit(1);
}
char buf[MANIFEST_MAX_LINE+1];
sds *argv = NULL;
int argc;
aofInfo *ai = NULL;
sds line = NULL;
int linenum = 0;
while (1) {
if (fgets(buf, MANIFEST_MAX_LINE+1, fp) == NULL) {
if (feof(fp)) {
if (linenum == 0) {
err = "Found an empty AOF manifest";
goto loaderr;
} else {
break;
}
} else {
err = "Read AOF manifest failed";
goto loaderr;
}
}
linenum++;
/* Skip comments lines */
if (buf[0] == '#') continue;
if (strchr(buf, '\n') == NULL) {
err = "The AOF manifest file contains too long line";
goto loaderr;
}
line = sdstrim(sdsnew(buf), " \t\r\n");
if (!sdslen(line)) {
err = "Invalid AOF manifest file format";
goto loaderr;
}
argv = sdssplitargs(line, &argc);
/* 'argc < 6' was done for forward compatibility. */
if (argv == NULL || argc < 6 || (argc % 2)) {
err = "Invalid AOF manifest file format";
goto loaderr;
}
ai = aofInfoCreate();
for (int i = 0; i < argc; i += 2) {
if (!strcasecmp(argv[i], AOF_MANIFEST_KEY_FILE_NAME)) {
ai->file_name = sdsnew(argv[i+1]);
if (!pathIsBaseName(ai->file_name)) {
err = "File can't be a path, just a filename";
goto loaderr;
}
} else if (!strcasecmp(argv[i], AOF_MANIFEST_KEY_FILE_SEQ)) {
ai->file_seq = atoll(argv[i+1]);
} else if (!strcasecmp(argv[i], AOF_MANIFEST_KEY_FILE_TYPE)) {
ai->file_type = (argv[i+1])[0];
}
/* else if (!strcasecmp(argv[i], AOF_MANIFEST_KEY_OTHER)) {} */
}
/* We have to make sure we load all the information. */
if (!ai->file_name || !ai->file_seq || !ai->file_type) {
err = "Invalid AOF manifest file format";
goto loaderr;
}
sdsfreesplitres(argv, argc);
argv = NULL;
if (ai->file_type == AOF_FILE_TYPE_BASE) {
if (am->base_aof_info) {
err = "Found duplicate base file information";
goto loaderr;
}
am->base_aof_info = ai;
am->curr_base_file_seq = ai->file_seq;
} else if (ai->file_type == AOF_FILE_TYPE_HIST) {
listAddNodeTail(am->history_aof_list, ai);
} else if (ai->file_type == AOF_FILE_TYPE_INCR) {
if (ai->file_seq <= maxseq) {
err = "Found a non-monotonic sequence number";
goto loaderr;
}
listAddNodeTail(am->incr_aof_list, ai);
am->curr_incr_file_seq = ai->file_seq;
maxseq = ai->file_seq;
} else {
err = "Unknown AOF file type";
goto loaderr;
}
sdsfree(line);
line = NULL;
ai = NULL;
}
fclose(fp);
return am;
loaderr:
/* Sanitizer suppression: may report a false positive if we goto loaderr
* and exit(1) without freeing these allocations. */
if (argv) sdsfreesplitres(argv, argc);
if (ai) aofInfoFree(ai);
serverLog(LL_WARNING, "\n*** FATAL AOF MANIFEST FILE ERROR ***\n");
if (line) {
serverLog(LL_WARNING, "Reading the manifest file, at line %d\n", linenum);
serverLog(LL_WARNING, ">>> '%s'\n", line);
}
serverLog(LL_WARNING, "%s\n", err);
exit(1);
}
/* Deep copy an aofManifest from orig.
*
* In `backgroundRewriteDoneHandler` and `openNewIncrAofForAppend`, we will
* first deep copy a temporary AOF manifest from the `server.aof_manifest` and
* try to modify it. Once everything is modified, we will atomically make the
* `server.aof_manifest` point to this temporary aof_manifest.
*/
aofManifest *aofManifestDup(aofManifest *orig) {
serverAssert(orig != NULL);
aofManifest *am = zcalloc(sizeof(aofManifest));
am->curr_base_file_seq = orig->curr_base_file_seq;
am->curr_incr_file_seq = orig->curr_incr_file_seq;
am->dirty = orig->dirty;
if (orig->base_aof_info) {
am->base_aof_info = aofInfoDup(orig->base_aof_info);
}
am->incr_aof_list = listDup(orig->incr_aof_list);
am->history_aof_list = listDup(orig->history_aof_list);
serverAssert(am->incr_aof_list != NULL);
serverAssert(am->history_aof_list != NULL);
return am;
}
/* Change the `server.aof_manifest` pointer to 'am' and free the previous
* one if we have. */
void aofManifestFreeAndUpdate(aofManifest *am) {
serverAssert(am != NULL);
if (server.aof_manifest) aofManifestFree(server.aof_manifest);
server.aof_manifest = am;
}
/* Called in `backgroundRewriteDoneHandler` to get a new BASE file
* name, and mark the previous (if we have) BASE file as HISTORY type.
*
* BASE file naming rules: `server.aof_filename`.seq.base.format
*
* for example:
* appendonly.aof.1.base.aof (server.aof_use_rdb_preamble is no)
* appendonly.aof.1.base.rdb (server.aof_use_rdb_preamble is yes)
*/
sds getNewBaseFileNameAndMarkPreAsHistory(aofManifest *am) {
serverAssert(am != NULL);
if (am->base_aof_info) {
serverAssert(am->base_aof_info->file_type == AOF_FILE_TYPE_BASE);
am->base_aof_info->file_type = AOF_FILE_TYPE_HIST;
listAddNodeHead(am->history_aof_list, am->base_aof_info);
}
char *format_suffix = server.aof_use_rdb_preamble ?
RDB_FORMAT_SUFFIX:AOF_FORMAT_SUFFIX;
aofInfo *ai = aofInfoCreate();
ai->file_name = sdscatprintf(sdsempty(), "%s.%lld%s%s", server.aof_filename,
++am->curr_base_file_seq, BASE_FILE_SUFFIX, format_suffix);
ai->file_seq = am->curr_base_file_seq;
ai->file_type = AOF_FILE_TYPE_BASE;
am->base_aof_info = ai;
am->dirty = 1;
return am->base_aof_info->file_name;
}
/* Get a new INCR type AOF name.
*
* INCR AOF naming rules: `server.aof_filename`.seq.incr.aof
*
* for example:
* appendonly.aof.1.incr.aof
*/
sds getNewIncrAofName(aofManifest *am) {
aofInfo *ai = aofInfoCreate();
ai->file_type = AOF_FILE_TYPE_INCR;
ai->file_name = sdscatprintf(sdsempty(), "%s.%lld%s%s", server.aof_filename,
++am->curr_incr_file_seq, INCR_FILE_SUFFIX, AOF_FORMAT_SUFFIX);
ai->file_seq = am->curr_incr_file_seq;
listAddNodeTail(am->incr_aof_list, ai);
am->dirty = 1;
return ai->file_name;
}
/* Get temp INCR type AOF name. */
sds getTempIncrAofName(void) {
return sdscatprintf(sdsempty(), "%s%s%s", TEMP_FILE_NAME_PREFIX, server.aof_filename,
INCR_FILE_SUFFIX);
}
/* Get the last INCR AOF name or create a new one. */
sds getLastIncrAofName(aofManifest *am) {
serverAssert(am != NULL);
/* If 'incr_aof_list' is empty, just create a new one. */
if (!listLength(am->incr_aof_list)) {
return getNewIncrAofName(am);
}
/* Or return the last one. */
listNode *lastnode = listIndex(am->incr_aof_list, -1);
aofInfo *ai = listNodeValue(lastnode);
return ai->file_name;
}
/* Called in `backgroundRewriteDoneHandler`. when AOFRW success, This
* function will change the AOF file type in 'incr_aof_list' from
* AOF_FILE_TYPE_INCR to AOF_FILE_TYPE_HIST, and move them to the
* 'history_aof_list'.
*/
void markRewrittenIncrAofAsHistory(aofManifest *am) {
serverAssert(am != NULL);
if (!listLength(am->incr_aof_list)) {
return;
}
listNode *ln;
listIter li;
listRewindTail(am->incr_aof_list, &li);
/* "server.aof_fd != -1" means AOF enabled, then we must skip the
* last AOF, because this file is our currently writing. */
if (server.aof_fd != -1) {
ln = listNext(&li);
serverAssert(ln != NULL);
}
/* Move aofInfo from 'incr_aof_list' to 'history_aof_list'. */
while ((ln = listNext(&li)) != NULL) {
aofInfo *ai = (aofInfo*)ln->value;
serverAssert(ai->file_type == AOF_FILE_TYPE_INCR);
aofInfo *hai = aofInfoDup(ai);
hai->file_type = AOF_FILE_TYPE_HIST;
listAddNodeHead(am->history_aof_list, hai);
listDelNode(am->incr_aof_list, ln);
}
am->dirty = 1;
}
/* Write the formatted manifest string to disk. */
int writeAofManifestFile(sds buf) {
int ret = C_OK;
ssize_t nwritten;
int len;
sds am_name = getAofManifestFileName();
sds am_filepath = makePath(server.aof_dirname, am_name);
sds tmp_am_name = getTempAofManifestFileName();
sds tmp_am_filepath = makePath(server.aof_dirname, tmp_am_name);
int fd = open(tmp_am_filepath, O_WRONLY|O_TRUNC|O_CREAT, 0644);
if (fd == -1) {
serverLog(LL_WARNING, "Can't open the AOF manifest file %s: %s",
tmp_am_name, strerror(errno));
ret = C_ERR;
goto cleanup;
}
len = sdslen(buf);
while(len) {
nwritten = write(fd, buf, len);
if (nwritten < 0) {
if (errno == EINTR) continue;
serverLog(LL_WARNING, "Error trying to write the temporary AOF manifest file %s: %s",
tmp_am_name, strerror(errno));
ret = C_ERR;
goto cleanup;
}
len -= nwritten;
buf += nwritten;
}
if (redis_fsync(fd) == -1) {
serverLog(LL_WARNING, "Fail to fsync the temp AOF file %s: %s.",
tmp_am_name, strerror(errno));
ret = C_ERR;
goto cleanup;
}
if (rename(tmp_am_filepath, am_filepath) != 0) {
serverLog(LL_WARNING,
"Error trying to rename the temporary AOF manifest file %s into %s: %s",
tmp_am_name, am_name, strerror(errno));
ret = C_ERR;
goto cleanup;
}
/* Also sync the AOF directory as new AOF files may be added in the directory */
if (fsyncFileDir(am_filepath) == -1) {
serverLog(LL_WARNING, "Fail to fsync AOF directory %s: %s.",
am_filepath, strerror(errno));
ret = C_ERR;
goto cleanup;
}
cleanup:
if (fd != -1) close(fd);
sdsfree(am_name);
sdsfree(am_filepath);
sdsfree(tmp_am_name);
sdsfree(tmp_am_filepath);
return ret;
}
/* Persist the aofManifest information pointed to by am to disk. */
int persistAofManifest(aofManifest *am) {
if (am->dirty == 0) {
return C_OK;
}
sds amstr = getAofManifestAsString(am);
int ret = writeAofManifestFile(amstr);
sdsfree(amstr);
if (ret == C_OK) am->dirty = 0;
return ret;
}
/* Called in `loadAppendOnlyFiles` when we upgrade from a old version redis.
*
* 1) Create AOF directory use 'server.aof_dirname' as the name.
* 2) Use 'server.aof_filename' to construct a BASE type aofInfo and add it to
* aofManifest, then persist the manifest file to AOF directory.
* 3) Move the old AOF file (server.aof_filename) to AOF directory.
*
* If any of the above steps fails or crash occurs, this will not cause any
* problems, and redis will retry the upgrade process when it restarts.
*/
void aofUpgradePrepare(aofManifest *am) {
serverAssert(!aofFileExist(server.aof_filename));
/* Create AOF directory use 'server.aof_dirname' as the name. */
if (dirCreateIfMissing(server.aof_dirname) == -1) {
serverLog(LL_WARNING, "Can't open or create append-only dir %s: %s",
server.aof_dirname, strerror(errno));
exit(1);
}
/* Manually construct a BASE type aofInfo and add it to aofManifest. */
if (am->base_aof_info) aofInfoFree(am->base_aof_info);
aofInfo *ai = aofInfoCreate();
ai->file_name = sdsnew(server.aof_filename);
ai->file_seq = 1;
ai->file_type = AOF_FILE_TYPE_BASE;
am->base_aof_info = ai;
am->curr_base_file_seq = 1;
am->dirty = 1;
/* Persist the manifest file to AOF directory. */
if (persistAofManifest(am) != C_OK) {
exit(1);
}
/* Move the old AOF file to AOF directory. */
sds aof_filepath = makePath(server.aof_dirname, server.aof_filename);
if (rename(server.aof_filename, aof_filepath) == -1) {
serverLog(LL_WARNING,
"Error trying to move the old AOF file %s into dir %s: %s",
server.aof_filename,
server.aof_dirname,
strerror(errno));
sdsfree(aof_filepath);
exit(1);
}
sdsfree(aof_filepath);
serverLog(LL_NOTICE, "Successfully migrated an old-style AOF file (%s) into the AOF directory (%s).",
server.aof_filename, server.aof_dirname);
}
/* When AOFRW success, the previous BASE and INCR AOFs will
* become HISTORY type and be moved into 'history_aof_list'.
*
* The function will traverse the 'history_aof_list' and submit
* the delete task to the bio thread.
*/
int aofDelHistoryFiles(void) {
if (server.aof_manifest == NULL ||
server.aof_disable_auto_gc == 1 ||
!listLength(server.aof_manifest->history_aof_list))
{
return C_OK;
}
listNode *ln;
listIter li;
listRewind(server.aof_manifest->history_aof_list, &li);
while ((ln = listNext(&li)) != NULL) {
aofInfo *ai = (aofInfo*)ln->value;
serverAssert(ai->file_type == AOF_FILE_TYPE_HIST);
serverLog(LL_NOTICE, "Removing the history file %s in the background", ai->file_name);
sds aof_filepath = makePath(server.aof_dirname, ai->file_name);
bg_unlink(aof_filepath);
sdsfree(aof_filepath);
listDelNode(server.aof_manifest->history_aof_list, ln);
}
server.aof_manifest->dirty = 1;
return persistAofManifest(server.aof_manifest);
}
/* Used to clean up temp INCR AOF when AOFRW fails. */
void aofDelTempIncrAofFile(void) {
sds aof_filename = getTempIncrAofName();
sds aof_filepath = makePath(server.aof_dirname, aof_filename);
serverLog(LL_NOTICE, "Removing the temp incr aof file %s in the background", aof_filename);
bg_unlink(aof_filepath);
sdsfree(aof_filepath);
sdsfree(aof_filename);
return;
}
/* Called after `loadDataFromDisk` when redis start. If `server.aof_state` is
* 'AOF_ON', It will do three things:
* 1. Force create a BASE file when redis starts with an empty dataset
* 2. Open the last opened INCR type AOF for writing, If not, create a new one
* 3. Synchronously update the manifest file to the disk
*
* If any of the above steps fails, the redis process will exit.
*/
void aofOpenIfNeededOnServerStart(void) {
if (server.aof_state != AOF_ON) {
return;
}
serverAssert(server.aof_manifest != NULL);
serverAssert(server.aof_fd == -1);
if (dirCreateIfMissing(server.aof_dirname) == -1) {
serverLog(LL_WARNING, "Can't open or create append-only dir %s: %s",
server.aof_dirname, strerror(errno));
exit(1);
}
/* If we start with an empty dataset, we will force create a BASE file. */
size_t incr_aof_len = listLength(server.aof_manifest->incr_aof_list);
if (!server.aof_manifest->base_aof_info && !incr_aof_len) {
sds base_name = getNewBaseFileNameAndMarkPreAsHistory(server.aof_manifest);
sds base_filepath = makePath(server.aof_dirname, base_name);
if (rewriteAppendOnlyFile(base_filepath) != C_OK) {
exit(1);
}
sdsfree(base_filepath);
serverLog(LL_NOTICE, "Creating AOF base file %s on server start",
base_name);
}
/* Because we will 'exit(1)' if open AOF or persistent manifest fails, so
* we don't need atomic modification here. */
sds aof_name = getLastIncrAofName(server.aof_manifest);
/* Here we should use 'O_APPEND' flag. */
sds aof_filepath = makePath(server.aof_dirname, aof_name);
server.aof_fd = open(aof_filepath, O_WRONLY|O_APPEND|O_CREAT, 0644);
sdsfree(aof_filepath);
if (server.aof_fd == -1) {
serverLog(LL_WARNING, "Can't open the append-only file %s: %s",
aof_name, strerror(errno));
exit(1);
}
/* Persist our changes. */
int ret = persistAofManifest(server.aof_manifest);
if (ret != C_OK) {
exit(1);
}
server.aof_last_incr_size = getAppendOnlyFileSize(aof_name, NULL);
server.aof_last_incr_fsync_offset = server.aof_last_incr_size;
if (incr_aof_len) {
serverLog(LL_NOTICE, "Opening AOF incr file %s on server start", aof_name);
} else {
serverLog(LL_NOTICE, "Creating AOF incr file %s on server start", aof_name);
}
}
int aofFileExist(char *filename) {
sds file_path = makePath(server.aof_dirname, filename);
int ret = fileExist(file_path);
sdsfree(file_path);
return ret;
}
/* Called in `rewriteAppendOnlyFileBackground`. If `server.aof_state`
* is 'AOF_ON', It will do two things:
* 1. Open a new INCR type AOF for writing
* 2. Synchronously update the manifest file to the disk
*
* The above two steps of modification are atomic, that is, if
* any step fails, the entire operation will rollback and returns
* C_ERR, and if all succeeds, it returns C_OK.
*
* If `server.aof_state` is 'AOF_WAIT_REWRITE', It will open a temporary INCR AOF
* file to accumulate data during AOF_WAIT_REWRITE, and it will eventually be
* renamed in the `backgroundRewriteDoneHandler` and written to the manifest file.
* */
int openNewIncrAofForAppend(void) {
serverAssert(server.aof_manifest != NULL);
int newfd = -1;
aofManifest *temp_am = NULL;
sds new_aof_name = NULL;
/* Only open new INCR AOF when AOF enabled. */
if (server.aof_state == AOF_OFF) return C_OK;
/* Open new AOF. */
if (server.aof_state == AOF_WAIT_REWRITE) {
/* Use a temporary INCR AOF file to accumulate data during AOF_WAIT_REWRITE. */
new_aof_name = getTempIncrAofName();
} else {
/* Dup a temp aof_manifest to modify. */
temp_am = aofManifestDup(server.aof_manifest);
new_aof_name = sdsdup(getNewIncrAofName(temp_am));
}
sds new_aof_filepath = makePath(server.aof_dirname, new_aof_name);
newfd = open(new_aof_filepath, O_WRONLY|O_TRUNC|O_CREAT, 0644);
sdsfree(new_aof_filepath);
if (newfd == -1) {
serverLog(LL_WARNING, "Can't open the append-only file %s: %s",
new_aof_name, strerror(errno));
goto cleanup;
}
if (temp_am) {
/* Persist AOF Manifest. */
if (persistAofManifest(temp_am) == C_ERR) {
goto cleanup;
}
}
serverLog(LL_NOTICE, "Creating AOF incr file %s on background rewrite",
new_aof_name);
sdsfree(new_aof_name);
/* If reaches here, we can safely modify the `server.aof_manifest`
* and `server.aof_fd`. */
/* fsync and close old aof_fd if needed. In fsync everysec it's ok to delay
* the fsync as long as we grantee it happens, and in fsync always the file
* is already synced at this point so fsync doesn't matter. */
if (server.aof_fd != -1) {
aof_background_fsync_and_close(server.aof_fd);
server.aof_last_fsync = server.unixtime;
}
server.aof_fd = newfd;
/* Reset the aof_last_incr_size. */
server.aof_last_incr_size = 0;
/* Reset the aof_last_incr_fsync_offset. */
server.aof_last_incr_fsync_offset = 0;
/* Update `server.aof_manifest`. */
if (temp_am) aofManifestFreeAndUpdate(temp_am);
return C_OK;
cleanup:
if (new_aof_name) sdsfree(new_aof_name);
if (newfd != -1) close(newfd);
if (temp_am) aofManifestFree(temp_am);
return C_ERR;
}
/* Whether to limit the execution of Background AOF rewrite.
*
* At present, if AOFRW fails, redis will automatically retry. If it continues
* to fail, we may get a lot of very small INCR files. so we need an AOFRW
* limiting measure.
*
* We can't directly use `server.aof_current_size` and `server.aof_last_incr_size`,
* because there may be no new writes after AOFRW fails.
*
* So, we use time delay to achieve our goal. When AOFRW fails, we delay the execution
* of the next AOFRW by 1 minute. If the next AOFRW also fails, it will be delayed by 2
* minutes. The next is 4, 8, 16, the maximum delay is 60 minutes (1 hour).
*
* During the limit period, we can still use the 'bgrewriteaof' command to execute AOFRW
* immediately.
*
* Return 1 means that AOFRW is limited and cannot be executed. 0 means that we can execute
* AOFRW, which may be that we have reached the 'next_rewrite_time' or the number of INCR
* AOFs has not reached the limit threshold.
* */
#define AOF_REWRITE_LIMITE_THRESHOLD 3
#define AOF_REWRITE_LIMITE_MAX_MINUTES 60 /* 1 hour */
int aofRewriteLimited(void) {
static int next_delay_minutes = 0;
static time_t next_rewrite_time = 0;
if (server.stat_aofrw_consecutive_failures < AOF_REWRITE_LIMITE_THRESHOLD) {
/* We may be recovering from limited state, so reset all states. */
next_delay_minutes = 0;
next_rewrite_time = 0;
return 0;
}
/* if it is in the limiting state, then check if the next_rewrite_time is reached */
if (next_rewrite_time != 0) {
if (server.unixtime < next_rewrite_time) {
return 1;
} else {
next_rewrite_time = 0;
return 0;
}
}
next_delay_minutes = (next_delay_minutes == 0) ? 1 : (next_delay_minutes * 2);
if (next_delay_minutes > AOF_REWRITE_LIMITE_MAX_MINUTES) {
next_delay_minutes = AOF_REWRITE_LIMITE_MAX_MINUTES;
}
next_rewrite_time = server.unixtime + next_delay_minutes * 60;
serverLog(LL_WARNING,
"Background AOF rewrite has repeatedly failed and triggered the limit, will retry in %d minutes", next_delay_minutes);
return 1;
}
/* ----------------------------------------------------------------------------
* AOF file implementation
* ------------------------------------------------------------------------- */
/* Return true if an AOf fsync is currently already in progress in a
* BIO thread. */
int aofFsyncInProgress(void) {
/* Note that we don't care about aof_background_fsync_and_close because
* server.aof_fd has been replaced by the new INCR AOF file fd,
* see openNewIncrAofForAppend. */
return bioPendingJobsOfType(BIO_AOF_FSYNC) != 0;
}
/* Starts a background task that performs fsync() against the specified
* file descriptor (the one of the AOF file) in another thread. */
void aof_background_fsync(int fd) {
bioCreateFsyncJob(fd, server.master_repl_offset, 1);
}
/* Close the fd on the basis of aof_background_fsync. */
void aof_background_fsync_and_close(int fd) {
bioCreateCloseAofJob(fd, server.master_repl_offset, 1);
}
/* Kills an AOFRW child process if exists */
void killAppendOnlyChild(void) {
int statloc;
/* No AOFRW child? return. */
if (server.child_type != CHILD_TYPE_AOF) return;
/* Kill AOFRW child, wait for child exit. */
serverLog(LL_NOTICE,"Killing running AOF rewrite child: %ld",
(long) server.child_pid);
if (kill(server.child_pid,SIGUSR1) != -1) {
while(waitpid(-1, &statloc, 0) != server.child_pid);
}
aofRemoveTempFile(server.child_pid);
resetChildState();
server.aof_rewrite_time_start = -1;
}
/* Called when the user switches from "appendonly yes" to "appendonly no"
* at runtime using the CONFIG command. */
void stopAppendOnly(void) {
serverAssert(server.aof_state != AOF_OFF);
flushAppendOnlyFile(1);
if (redis_fsync(server.aof_fd) == -1) {
serverLog(LL_WARNING,"Fail to fsync the AOF file: %s",strerror(errno));
} else {
server.aof_last_fsync = server.unixtime;
}
close(server.aof_fd);
server.aof_fd = -1;
server.aof_selected_db = -1;
server.aof_state = AOF_OFF;
server.aof_rewrite_scheduled = 0;
server.aof_last_incr_size = 0;
server.aof_last_incr_fsync_offset = 0;
server.fsynced_reploff = -1;
atomicSet(server.fsynced_reploff_pending, 0);
killAppendOnlyChild();
sdsfree(server.aof_buf);
server.aof_buf = sdsempty();
}
/* Called when the user switches from "appendonly no" to "appendonly yes"
* at runtime using the CONFIG command. */
int startAppendOnly(void) {
serverAssert(server.aof_state == AOF_OFF);
server.aof_state = AOF_WAIT_REWRITE;
if (hasActiveChildProcess() && server.child_type != CHILD_TYPE_AOF) {
server.aof_rewrite_scheduled = 1;
serverLog(LL_NOTICE,"AOF was enabled but there is already another background operation. An AOF background was scheduled to start when possible.");
} else if (server.in_exec){
server.aof_rewrite_scheduled = 1;
serverLog(LL_NOTICE,"AOF was enabled during a transaction. An AOF background was scheduled to start when possible.");
} else {
/* If there is a pending AOF rewrite, we need to switch it off and
* start a new one: the old one cannot be reused because it is not
* accumulating the AOF buffer. */
if (server.child_type == CHILD_TYPE_AOF) {
serverLog(LL_NOTICE,"AOF was enabled but there is already an AOF rewriting in background. Stopping background AOF and starting a rewrite now.");
killAppendOnlyChild();
}
if (rewriteAppendOnlyFileBackground() == C_ERR) {
server.aof_state = AOF_OFF;
serverLog(LL_WARNING,"Redis needs to enable the AOF but can't trigger a background AOF rewrite operation. Check the above logs for more info about the error.");
return C_ERR;
}
}
server.aof_last_fsync = server.unixtime;
/* If AOF fsync error in bio job, we just ignore it and log the event. */
int aof_bio_fsync_status;
atomicGet(server.aof_bio_fsync_status, aof_bio_fsync_status);
if (aof_bio_fsync_status == C_ERR) {
serverLog(LL_WARNING,
"AOF reopen, just ignore the AOF fsync error in bio job");
atomicSet(server.aof_bio_fsync_status,C_OK);
}
/* If AOF was in error state, we just ignore it and log the event. */
if (server.aof_last_write_status == C_ERR) {
serverLog(LL_WARNING,"AOF reopen, just ignore the last error.");
server.aof_last_write_status = C_OK;
}
return C_OK;
}
/* This is a wrapper to the write syscall in order to retry on short writes
* or if the syscall gets interrupted. It could look strange that we retry
* on short writes given that we are writing to a block device: normally if
* the first call is short, there is a end-of-space condition, so the next
* is likely to fail. However apparently in modern systems this is no longer
* true, and in general it looks just more resilient to retry the write. If
* there is an actual error condition we'll get it at the next try. */
ssize_t aofWrite(int fd, const char *buf, size_t len) {
ssize_t nwritten = 0, totwritten = 0;
while(len) {
nwritten = write(fd, buf, len);
if (nwritten < 0) {
if (errno == EINTR) continue;
return totwritten ? totwritten : -1;
}
len -= nwritten;
buf += nwritten;
totwritten += nwritten;
}
return totwritten;
}
/* 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 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. */
#define AOF_WRITE_LOG_ERROR_RATE 30 /* Seconds between errors logging. */
void flushAppendOnlyFile(int force) {
ssize_t nwritten;
int sync_in_progress = 0;
mstime_t latency;
if (sdslen(server.aof_buf) == 0) {
/* Check if we need to do fsync even the aof buffer is empty,
* because previously in AOF_FSYNC_EVERYSEC mode, fsync is
* called only when aof buffer is not empty, so if users
* stop write commands before fsync called in one second,
* the data in page cache cannot be flushed in time. */
if (server.aof_fsync == AOF_FSYNC_EVERYSEC &&
server.aof_last_incr_fsync_offset != server.aof_last_incr_size &&
server.unixtime > server.aof_last_fsync &&
!(sync_in_progress = aofFsyncInProgress())) {
goto try_fsync;
/* Check if we need to do fsync even the aof buffer is empty,
* the reason is described in the previous AOF_FSYNC_EVERYSEC block,
* and AOF_FSYNC_ALWAYS is also checked here to handle a case where
* aof_fsync is changed from everysec to always. */
} else if (server.aof_fsync == AOF_FSYNC_ALWAYS &&
server.aof_last_incr_fsync_offset != server.aof_last_incr_size)
{
goto try_fsync;
} else {
return;
}
}
if (server.aof_fsync == AOF_FSYNC_EVERYSEC)
sync_in_progress = aofFsyncInProgress();
if (server.aof_fsync == AOF_FSYNC_EVERYSEC && !force) {
/* 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) {
/* No previous write postponing, remember that we are
* postponing the flush and return. */
server.aof_flush_postponed_start = server.unixtime;
return;
} 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;
}
/* Otherwise fall through, and go write since we can't wait
* over two seconds. */
server.aof_delayed_fsync++;
serverLog(LL_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.");
}
}
/* 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 */
if (server.aof_flush_sleep && sdslen(server.aof_buf)) {
usleep(server.aof_flush_sleep);
}
latencyStartMonitor(latency);
nwritten = aofWrite(server.aof_fd,server.aof_buf,sdslen(server.aof_buf));
latencyEndMonitor(latency);
/* We want to capture different events for delayed writes:
* when the delay happens with a pending fsync, or with a saving child
* active, and when the above two conditions are missing.
* We also use an additional event name to save all samples which is
* useful for graphing / monitoring purposes. */
if (sync_in_progress) {
latencyAddSampleIfNeeded("aof-write-pending-fsync",latency);
} else if (hasActiveChildProcess()) {
latencyAddSampleIfNeeded("aof-write-active-child",latency);
} else {
latencyAddSampleIfNeeded("aof-write-alone",latency);
}
latencyAddSampleIfNeeded("aof-write",latency);
/* We performed the write so reset the postponed flush sentinel to zero. */
server.aof_flush_postponed_start = 0;
if (nwritten != (ssize_t)sdslen(server.aof_buf)) {
static time_t last_write_error_log = 0;
int can_log = 0;
/* Limit logging rate to 1 line per AOF_WRITE_LOG_ERROR_RATE seconds. */
if ((server.unixtime - last_write_error_log) > AOF_WRITE_LOG_ERROR_RATE) {
can_log = 1;
last_write_error_log = server.unixtime;
}
/* Log the AOF write error and record the error code. */
if (nwritten == -1) {
if (can_log) {
serverLog(LL_WARNING,"Error writing to the AOF file: %s",
strerror(errno));
}
server.aof_last_write_errno = errno;
} else {
if (can_log) {
serverLog(LL_WARNING,"Short write while writing to "
"the AOF file: (nwritten=%lld, "
"expected=%lld)",
(long long)nwritten,
(long long)sdslen(server.aof_buf));
}
if (ftruncate(server.aof_fd, server.aof_last_incr_size) == -1) {
if (can_log) {
serverLog(LL_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));
}
} else {
/* If the ftruncate() succeeded we can set nwritten to
* -1 since there is no longer partial data into the AOF. */
nwritten = -1;
}
server.aof_last_write_errno = ENOSPC;
}
/* Handle the AOF write error. */
if (server.aof_fsync == AOF_FSYNC_ALWAYS) {
/* We can't recover when the fsync policy is ALWAYS since the reply
* for the client is already in the output buffers (both writes and
* reads), and the changes to the db can't be rolled back. Since we
* have a contract with the user that on acknowledged or observed
* writes are is synced on disk, we must exit. */
serverLog(LL_WARNING,"Can't recover from AOF write error when the AOF fsync policy is 'always'. Exiting...");
exit(1);
} else {
/* Recover from failed write leaving data into the buffer. However
* set an error to stop accepting writes as long as the error
* condition is not cleared. */
server.aof_last_write_status = C_ERR;
/* Trim the sds buffer if there was a partial write, and there
* was no way to undo it with ftruncate(2). */
if (nwritten > 0) {
server.aof_current_size += nwritten;
server.aof_last_incr_size += nwritten;
sdsrange(server.aof_buf,nwritten,-1);
}
return; /* We'll try again on the next call... */
}
} else {
/* Successful write(2). If AOF was in error state, restore the
* OK state and log the event. */
if (server.aof_last_write_status == C_ERR) {
serverLog(LL_NOTICE,
"AOF write error looks solved, Redis can write again.");
server.aof_last_write_status = C_OK;
}
}
server.aof_current_size += nwritten;
server.aof_last_incr_size += nwritten;
/* 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();
}
try_fsync:
/* 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 && hasActiveChildProcess())
return;
/* Perform the fsync if needed. */
if (server.aof_fsync == AOF_FSYNC_ALWAYS) {
/* redis_fsync is defined as fdatasync() for Linux in order to avoid
* flushing metadata. */
latencyStartMonitor(latency);
/* Let's try to get this data on the disk. To guarantee data safe when
* the AOF fsync policy is 'always', we should exit if failed to fsync
* AOF (see comment next to the exit(1) after write error above). */
if (redis_fsync(server.aof_fd) == -1) {
serverLog(LL_WARNING,"Can't persist AOF for fsync error when the "
"AOF fsync policy is 'always': %s. Exiting...", strerror(errno));
exit(1);
}
latencyEndMonitor(latency);
latencyAddSampleIfNeeded("aof-fsync-always",latency);
server.aof_last_incr_fsync_offset = server.aof_last_incr_size;
server.aof_last_fsync = server.unixtime;
atomicSet(server.fsynced_reploff_pending, server.master_repl_offset);
} 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_incr_fsync_offset = server.aof_last_incr_size;
}
server.aof_last_fsync = server.unixtime;
}
}
sds catAppendOnlyGenericCommand(sds dst, int argc, robj **argv) {
char buf[32];
int len, j;
robj *o;
buf[0] = '*';
len = 1+ll2string(buf+1,sizeof(buf)-1,argc);
buf[len++] = '\r';
buf[len++] = '\n';
dst = sdscatlen(dst,buf,len);
for (j = 0; j < argc; j++) {
o = getDecodedObject(argv[j]);
buf[0] = '$';
len = 1+ll2string(buf+1,sizeof(buf)-1,sdslen(o->ptr));
buf[len++] = '\r';
buf[len++] = '\n';
dst = sdscatlen(dst,buf,len);
dst = sdscatlen(dst,o->ptr,sdslen(o->ptr));
dst = sdscatlen(dst,"\r\n",2);
decrRefCount(o);
}
return dst;
}
/* Generate a piece of timestamp annotation for AOF if current record timestamp
* in AOF is not equal server unix time. If we specify 'force' argument to 1,
* we would generate one without check, currently, it is useful in AOF rewriting
* child process which always needs to record one timestamp at the beginning of
* rewriting AOF.
*
* Timestamp annotation format is "#TS:${timestamp}\r\n". "TS" is short of
* timestamp and this method could save extra bytes in AOF. */
sds genAofTimestampAnnotationIfNeeded(int force) {
sds ts = NULL;
if (force || server.aof_cur_timestamp < server.unixtime) {
server.aof_cur_timestamp = force ? time(NULL) : server.unixtime;
ts = sdscatfmt(sdsempty(), "#TS:%I\r\n", server.aof_cur_timestamp);
serverAssert(sdslen(ts) <= AOF_ANNOTATION_LINE_MAX_LEN);
}
return ts;
}
/* Write the given command to the aof file.
* dictid - dictionary id the command should be applied to,
* this is used in order to decide if a `select` command
* should also be written to the aof. Value of -1 means
* to avoid writing `select` command in any case.
* argv - The command to write to the aof.
* argc - Number of values in argv
*/
void feedAppendOnlyFile(int dictid, robj **argv, int argc) {
sds buf = sdsempty();
serverAssert(dictid == -1 || (dictid >= 0 && dictid < server.dbnum));
/* Feed timestamp if needed */
if (server.aof_timestamp_enabled) {
sds ts = genAofTimestampAnnotationIfNeeded(0);
if (ts != NULL) {
buf = sdscatsds(buf, ts);
sdsfree(ts);
}
}
/* The DB this command was targeting is not the same as the last command
* we appended. To issue a SELECT command is needed. */
if (dictid != -1 && 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;
}
/* All commands should be propagated the same way in AOF as in replication.
* No need for AOF-specific translation. */
buf = catAppendOnlyGenericCommand(buf,argc,argv);
/* 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 == AOF_ON ||
(server.aof_state == AOF_WAIT_REWRITE && server.child_type == CHILD_TYPE_AOF))
{
server.aof_buf = sdscatlen(server.aof_buf, buf, sdslen(buf));
}
sdsfree(buf);
}
/* ----------------------------------------------------------------------------
* AOF loading
* ------------------------------------------------------------------------- */
/* In Redis commands are always executed in the context of a client, so in
* order to load the append only file we need to create a fake client. */
struct client *createAOFClient(void) {
struct client *c = createClient(NULL);
c->id = CLIENT_ID_AOF; /* So modules can identify it's the AOF client. */
/*
* The AOF client should never be blocked (unlike master
* replication connection).
* This is because blocking the AOF client might cause
* deadlock (because potentially no one will unblock it).
* Also, if the AOF client will be blocked just for
* background processing there is a chance that the
* command execution order will be violated.
*/
c->flags = CLIENT_DENY_BLOCKING;
/* We set the fake client as a slave waiting for the synchronization
* so that Redis will not try to send replies to this client. */
c->replstate = SLAVE_STATE_WAIT_BGSAVE_START;
return c;
}
/* Replay an append log file. On success AOF_OK or AOF_TRUNCATED is returned,
* otherwise, one of the following is returned:
* AOF_OPEN_ERR: Failed to open the AOF file.
* AOF_NOT_EXIST: AOF file doesn't exist.
* AOF_EMPTY: The AOF file is empty (nothing to load).
* AOF_FAILED: Failed to load the AOF file. */
int loadSingleAppendOnlyFile(char *filename) {
struct client *fakeClient;
struct redis_stat sb;
int old_aof_state = server.aof_state;
long loops = 0;
off_t valid_up_to = 0; /* Offset of latest well-formed command loaded. */
off_t valid_before_multi = 0; /* Offset before MULTI command loaded. */
off_t last_progress_report_size = 0;
int ret = AOF_OK;
sds aof_filepath = makePath(server.aof_dirname, filename);
FILE *fp = fopen(aof_filepath, "r");
if (fp == NULL) {
int en = errno;
if (redis_stat(aof_filepath, &sb) == 0 || errno != ENOENT) {
serverLog(LL_WARNING,"Fatal error: can't open the append log file %s for reading: %s", filename, strerror(en));
sdsfree(aof_filepath);
return AOF_OPEN_ERR;
} else {
serverLog(LL_WARNING,"The append log file %s doesn't exist: %s", filename, strerror(errno));
sdsfree(aof_filepath);
return AOF_NOT_EXIST;
}
}
if (fp && redis_fstat(fileno(fp),&sb) != -1 && sb.st_size == 0) {
fclose(fp);
sdsfree(aof_filepath);
return AOF_EMPTY;
}
/* Temporarily disable AOF, to prevent EXEC from feeding a MULTI
* to the same file we're about to read. */
server.aof_state = AOF_OFF;
client *old_cur_client = server.current_client;
client *old_exec_client = server.executing_client;
fakeClient = createAOFClient();
server.current_client = server.executing_client = fakeClient;
/* Check if the AOF file is in RDB format (it may be RDB encoded base AOF
* or old style RDB-preamble AOF). In that case we need to load the RDB file
* and later continue loading the AOF tail if it is an old style RDB-preamble AOF. */
char sig[5]; /* "REDIS" */
if (fread(sig,1,5,fp) != 5 || memcmp(sig,"REDIS",5) != 0) {
/* Not in RDB format, seek back at 0 offset. */
if (fseek(fp,0,SEEK_SET) == -1) goto readerr;
} else {
/* RDB format. Pass loading the RDB functions. */
rio rdb;
int old_style = !strcmp(filename, server.aof_filename);
if (old_style)
serverLog(LL_NOTICE, "Reading RDB preamble from AOF file...");
else
serverLog(LL_NOTICE, "Reading RDB base file on AOF loading...");
if (fseek(fp,0,SEEK_SET) == -1) goto readerr;
rioInitWithFile(&rdb,fp);
if (rdbLoadRio(&rdb,RDBFLAGS_AOF_PREAMBLE,NULL) != C_OK) {
if (old_style)
serverLog(LL_WARNING, "Error reading the RDB preamble of the AOF file %s, AOF loading aborted", filename);
else
serverLog(LL_WARNING, "Error reading the RDB base file %s, AOF loading aborted", filename);
ret = AOF_FAILED;
goto cleanup;
} else {
loadingAbsProgress(ftello(fp));
last_progress_report_size = ftello(fp);
if (old_style) serverLog(LL_NOTICE, "Reading the remaining AOF tail...");
}
}
/* Read the actual AOF file, in REPL format, command by command. */
while(1) {
int argc, j;
unsigned long len;
robj **argv;
char buf[AOF_ANNOTATION_LINE_MAX_LEN];
sds argsds;
struct redisCommand *cmd;
/* Serve the clients from time to time */
if (!(loops++ % 1024)) {
off_t progress_delta = ftello(fp) - last_progress_report_size;
loadingIncrProgress(progress_delta);
last_progress_report_size += progress_delta;
processEventsWhileBlocked();
processModuleLoadingProgressEvent(1);
}
if (fgets(buf,sizeof(buf),fp) == NULL) {
if (feof(fp)) {
break;
} else {
goto readerr;
}
}
if (buf[0] == '#') continue; /* Skip annotations */
if (buf[0] != '*') goto fmterr;
if (buf[1] == '\0') goto readerr;
argc = atoi(buf+1);
if (argc < 1) goto fmterr;
if ((size_t)argc > SIZE_MAX / sizeof(robj*)) goto fmterr;
/* Load the next command in the AOF as our fake client
* argv. */
argv = zmalloc(sizeof(robj*)*argc);
fakeClient->argc = argc;
fakeClient->argv = argv;
fakeClient->argv_len = argc;
for (j = 0; j < argc; j++) {
/* Parse the argument len. */
char *readres = fgets(buf,sizeof(buf),fp);
if (readres == NULL || buf[0] != '$') {
fakeClient->argc = j; /* Free up to j-1. */
freeClientArgv(fakeClient);
if (readres == NULL)
goto readerr;
else
goto fmterr;
}
len = strtol(buf+1,NULL,10);
/* Read it into a string object. */
argsds = sdsnewlen(SDS_NOINIT,len);
if (len && fread(argsds,len,1,fp) == 0) {
sdsfree(argsds);
fakeClient->argc = j; /* Free up to j-1. */
freeClientArgv(fakeClient);
goto readerr;
}
argv[j] = createObject(OBJ_STRING,argsds);
/* Discard CRLF. */
if (fread(buf,2,1,fp) == 0) {
fakeClient->argc = j+1; /* Free up to j. */
freeClientArgv(fakeClient);
goto readerr;
}
}
/* Command lookup */
cmd = lookupCommand(argv,argc);
if (!cmd) {
serverLog(LL_WARNING,
"Unknown command '%s' reading the append only file %s",
(char*)argv[0]->ptr, filename);
freeClientArgv(fakeClient);
ret = AOF_FAILED;
goto cleanup;
}
if (cmd->proc == multiCommand) valid_before_multi = valid_up_to;
/* Run the command in the context of a fake client */
fakeClient->cmd = fakeClient->lastcmd = cmd;
if (fakeClient->flags & CLIENT_MULTI &&
fakeClient->cmd->proc != execCommand)
{
/* Note: we don't have to attempt calling evalGetCommandFlags,
* since this is AOF, the checks in processCommand are not made
* anyway.*/
queueMultiCommand(fakeClient, cmd->flags);
} else {
cmd->proc(fakeClient);
}
/* The fake client should not have a reply */
serverAssert(fakeClient->bufpos == 0 &&
listLength(fakeClient->reply) == 0);
/* The fake client should never get blocked */
serverAssert((fakeClient->flags & CLIENT_BLOCKED) == 0);
/* Clean up. Command code may have changed argv/argc so we use the
* argv/argc of the client instead of the local variables. */
freeClientArgv(fakeClient);
if (server.aof_load_truncated) valid_up_to = ftello(fp);
if (server.key_load_delay)
debugDelay(server.key_load_delay);
}
/* This point can only be reached when EOF is reached without errors.
* If the client is in the middle of a MULTI/EXEC, handle it as it was
* a short read, even if technically the protocol is correct: we want
* to remove the unprocessed tail and continue. */
if (fakeClient->flags & CLIENT_MULTI) {
serverLog(LL_WARNING,
"Revert incomplete MULTI/EXEC transaction in AOF file %s", filename);
valid_up_to = valid_before_multi;
goto uxeof;
}
loaded_ok: /* DB loaded, cleanup and return success (AOF_OK or AOF_TRUNCATED). */
loadingIncrProgress(ftello(fp) - last_progress_report_size);
server.aof_state = old_aof_state;
goto cleanup;
readerr: /* Read error. If feof(fp) is true, fall through to unexpected EOF. */
if (!feof(fp)) {
serverLog(LL_WARNING,"Unrecoverable error reading the append only file %s: %s", filename, strerror(errno));
ret = AOF_FAILED;
goto cleanup;
}
uxeof: /* Unexpected AOF end of file. */
if (server.aof_load_truncated) {
serverLog(LL_WARNING,"!!! Warning: short read while loading the AOF file %s!!!", filename);
serverLog(LL_WARNING,"!!! Truncating the AOF %s at offset %llu !!!",
filename, (unsigned long long) valid_up_to);
if (valid_up_to == -1 || truncate(aof_filepath,valid_up_to) == -1) {
if (valid_up_to == -1) {
serverLog(LL_WARNING,"Last valid command offset is invalid");
} else {
serverLog(LL_WARNING,"Error truncating the AOF file %s: %s",
filename, strerror(errno));
}
} else {
/* Make sure the AOF file descriptor points to the end of the
* file after the truncate call. */
if (server.aof_fd != -1 && lseek(server.aof_fd,0,SEEK_END) == -1) {
serverLog(LL_WARNING,"Can't seek the end of the AOF file %s: %s",
filename, strerror(errno));
} else {
serverLog(LL_WARNING,
"AOF %s loaded anyway because aof-load-truncated is enabled", filename);
ret = AOF_TRUNCATED;
goto loaded_ok;
}
}
}
serverLog(LL_WARNING, "Unexpected end of file reading the append only file %s. You can: "
"1) Make a backup of your AOF file, then use ./redis-check-aof --fix <filename.manifest>. "
"2) Alternatively you can set the 'aof-load-truncated' configuration option to yes and restart the server.", filename);
ret = AOF_FAILED;
goto cleanup;
fmterr: /* Format error. */
serverLog(LL_WARNING, "Bad file format reading the append only file %s: "
"make a backup of your AOF file, then use ./redis-check-aof --fix <filename.manifest>", filename);
ret = AOF_FAILED;
/* fall through to cleanup. */
cleanup:
if (fakeClient) freeClient(fakeClient);
server.current_client = old_cur_client;
server.executing_client = old_exec_client;
fclose(fp);
sdsfree(aof_filepath);
return ret;
}
/* Load the AOF files according the aofManifest pointed by am. */
int loadAppendOnlyFiles(aofManifest *am) {
serverAssert(am != NULL);
int status, ret = AOF_OK;
long long start;
off_t total_size = 0, base_size = 0;
sds aof_name;
int total_num, aof_num = 0, last_file;
/* If the 'server.aof_filename' file exists in dir, we may be starting
* from an old redis version. We will use enter upgrade mode in three situations.
*
* 1. If the 'server.aof_dirname' directory not exist
* 2. If the 'server.aof_dirname' directory exists but the manifest file is missing
* 3. If the 'server.aof_dirname' directory exists and the manifest file it contains
* has only one base AOF record, and the file name of this base AOF is 'server.aof_filename',
* and the 'server.aof_filename' file not exist in 'server.aof_dirname' directory
* */
if (fileExist(server.aof_filename)) {
if (!dirExists(server.aof_dirname) ||
(am->base_aof_info == NULL && listLength(am->incr_aof_list) == 0) ||
(am->base_aof_info != NULL && listLength(am->incr_aof_list) == 0 &&
!strcmp(am->base_aof_info->file_name, server.aof_filename) && !aofFileExist(server.aof_filename)))
{
aofUpgradePrepare(am);
}
}
if (am->base_aof_info == NULL && listLength(am->incr_aof_list) == 0) {
return AOF_NOT_EXIST;
}
total_num = getBaseAndIncrAppendOnlyFilesNum(am);
serverAssert(total_num > 0);
/* Here we calculate the total size of all BASE and INCR files in
* advance, it will be set to `server.loading_total_bytes`. */
total_size = getBaseAndIncrAppendOnlyFilesSize(am, &status);
if (status != AOF_OK) {
/* If an AOF exists in the manifest but not on the disk, we consider this to be a fatal error. */
if (status == AOF_NOT_EXIST) status = AOF_FAILED;
return status;
} else if (total_size == 0) {
return AOF_EMPTY;
}
startLoading(total_size, RDBFLAGS_AOF_PREAMBLE, 0);
/* Load BASE AOF if needed. */
if (am->base_aof_info) {
serverAssert(am->base_aof_info->file_type == AOF_FILE_TYPE_BASE);
aof_name = (char*)am->base_aof_info->file_name;
updateLoadingFileName(aof_name);
base_size = getAppendOnlyFileSize(aof_name, NULL);
last_file = ++aof_num == total_num;
start = ustime();
ret = loadSingleAppendOnlyFile(aof_name);
if (ret == AOF_OK || (ret == AOF_TRUNCATED && last_file)) {
serverLog(LL_NOTICE, "DB loaded from base file %s: %.3f seconds",
aof_name, (float)(ustime()-start)/1000000);
}
/* If the truncated file is not the last file, we consider this to be a fatal error. */
if (ret == AOF_TRUNCATED && !last_file) {
ret = AOF_FAILED;
serverLog(LL_WARNING, "Fatal error: the truncated file is not the last file");
}
if (ret == AOF_OPEN_ERR || ret == AOF_FAILED) {
goto cleanup;
}
}
/* Load INCR AOFs if needed. */
if (listLength(am->incr_aof_list)) {
listNode *ln;
listIter li;
listRewind(am->incr_aof_list, &li);
while ((ln = listNext(&li)) != NULL) {
aofInfo *ai = (aofInfo*)ln->value;
serverAssert(ai->file_type == AOF_FILE_TYPE_INCR);
aof_name = (char*)ai->file_name;
updateLoadingFileName(aof_name);
last_file = ++aof_num == total_num;
start = ustime();
ret = loadSingleAppendOnlyFile(aof_name);
if (ret == AOF_OK || (ret == AOF_TRUNCATED && last_file)) {
serverLog(LL_NOTICE, "DB loaded from incr file %s: %.3f seconds",
aof_name, (float)(ustime()-start)/1000000);
}
/* We know that (at least) one of the AOF files has data (total_size > 0),
* so empty incr AOF file doesn't count as a AOF_EMPTY result */
if (ret == AOF_EMPTY) ret = AOF_OK;
/* If the truncated file is not the last file, we consider this to be a fatal error. */
if (ret == AOF_TRUNCATED && !last_file) {
ret = AOF_FAILED;
serverLog(LL_WARNING, "Fatal error: the truncated file is not the last file");
}
if (ret == AOF_OPEN_ERR || ret == AOF_FAILED) {
goto cleanup;
}
}
}
server.aof_current_size = total_size;
/* Ideally, the aof_rewrite_base_size variable should hold the size of the
* AOF when the last rewrite ended, this should include the size of the
* incremental file that was created during the rewrite since otherwise we
* risk the next automatic rewrite to happen too soon (or immediately if
* auto-aof-rewrite-percentage is low). However, since we do not persist
* aof_rewrite_base_size information anywhere, we initialize it on restart
* to the size of BASE AOF file. This might cause the first AOFRW to be
* executed early, but that shouldn't be a problem since everything will be
* fine after the first AOFRW. */
server.aof_rewrite_base_size = base_size;
cleanup:
stopLoading(ret == AOF_OK || ret == AOF_TRUNCATED);
return ret;
}
/* ----------------------------------------------------------------------------
* AOF rewrite
* ------------------------------------------------------------------------- */
/* Delegate writing an object to writing a bulk string or bulk long long.
* This is not placed in rio.c since that adds the server.h dependency. */
int rioWriteBulkObject(rio *r, robj *obj) {
/* Avoid using getDecodedObject to help copy-on-write (we are often
* in a child process when this function is called). */
if (obj->encoding == OBJ_ENCODING_INT) {
return rioWriteBulkLongLong(r,(long)obj->ptr);
} else if (sdsEncodedObject(obj)) {
return rioWriteBulkString(r,obj->ptr,sdslen(obj->ptr));
} else {
serverPanic("Unknown string encoding");
}
}
/* Emit the commands needed to rebuild a list object.
* The function returns 0 on error, 1 on success. */
int rewriteListObject(rio *r, robj *key, robj *o) {
long long count = 0, items = listTypeLength(o);
listTypeIterator *li = listTypeInitIterator(o,0,LIST_TAIL);
listTypeEntry entry;
while (listTypeNext(li,&entry)) {
if (count == 0) {
int cmd_items = (items > AOF_REWRITE_ITEMS_PER_CMD) ?
AOF_REWRITE_ITEMS_PER_CMD : items;
if (!rioWriteBulkCount(r,'*',2+cmd_items) ||
!rioWriteBulkString(r,"RPUSH",5) ||
!rioWriteBulkObject(r,key))
{
listTypeReleaseIterator(li);
return 0;
}
}
unsigned char *vstr;
size_t vlen;
long long lval;
vstr = listTypeGetValue(&entry,&vlen,&lval);
if (vstr) {
if (!rioWriteBulkString(r,(char*)vstr,vlen)) {
listTypeReleaseIterator(li);
return 0;
}
} else {
if (!rioWriteBulkLongLong(r,lval)) {
listTypeReleaseIterator(li);
return 0;
}
}
if (++count == AOF_REWRITE_ITEMS_PER_CMD) count = 0;
items--;
}
listTypeReleaseIterator(li);
return 1;
}
/* Emit the commands needed to rebuild a set object.
* The function returns 0 on error, 1 on success. */
int rewriteSetObject(rio *r, robj *key, robj *o) {
long long count = 0, items = setTypeSize(o);
setTypeIterator *si = setTypeInitIterator(o);
char *str;
size_t len;
int64_t llval;
while (setTypeNext(si, &str, &len, &llval) != -1) {
if (count == 0) {
int cmd_items = (items > AOF_REWRITE_ITEMS_PER_CMD) ?
AOF_REWRITE_ITEMS_PER_CMD : items;
if (!rioWriteBulkCount(r,'*',2+cmd_items) ||
!rioWriteBulkString(r,"SADD",4) ||
!rioWriteBulkObject(r,key))
{
return 0;
}
}
size_t written = str ?
rioWriteBulkString(r, str, len) : rioWriteBulkLongLong(r, llval);
if (!written) {
setTypeReleaseIterator(si);
return 0;
}
if (++count == AOF_REWRITE_ITEMS_PER_CMD) count = 0;
items--;
}
setTypeReleaseIterator(si);
return 1;
}
/* Emit the commands needed to rebuild a sorted set object.
* The function returns 0 on error, 1 on success. */
int rewriteSortedSetObject(rio *r, robj *key, robj *o) {
long long count = 0, items = zsetLength(o);
if (o->encoding == OBJ_ENCODING_LISTPACK) {
unsigned char *zl = o->ptr;
unsigned char *eptr, *sptr;
unsigned char *vstr;
unsigned int vlen;
long long vll;
double score;
eptr = lpSeek(zl,0);
serverAssert(eptr != NULL);
sptr = lpNext(zl,eptr);
serverAssert(sptr != NULL);
while (eptr != NULL) {
vstr = lpGetValue(eptr,&vlen,&vll);
score = zzlGetScore(sptr);
if (count == 0) {
int cmd_items = (items > AOF_REWRITE_ITEMS_PER_CMD) ?
AOF_REWRITE_ITEMS_PER_CMD : items;
if (!rioWriteBulkCount(r,'*',2+cmd_items*2) ||
!rioWriteBulkString(r,"ZADD",4) ||
!rioWriteBulkObject(r,key))
{
return 0;
}
}
if (!rioWriteBulkDouble(r,score)) return 0;
if (vstr != NULL) {
if (!rioWriteBulkString(r,(char*)vstr,vlen)) return 0;
} else {
if (!rioWriteBulkLongLong(r,vll)) return 0;
}
zzlNext(zl,&eptr,&sptr);
if (++count == AOF_REWRITE_ITEMS_PER_CMD) count = 0;
items--;
}
} else if (o->encoding == OBJ_ENCODING_SKIPLIST) {
zset *zs = o->ptr;
dictIterator *di = dictGetIterator(zs->dict);
dictEntry *de;
while((de = dictNext(di)) != NULL) {
sds ele = dictGetKey(de);
double *score = dictGetVal(de);
if (count == 0) {
int cmd_items = (items > AOF_REWRITE_ITEMS_PER_CMD) ?
AOF_REWRITE_ITEMS_PER_CMD : items;
if (!rioWriteBulkCount(r,'*',2+cmd_items*2) ||
!rioWriteBulkString(r,"ZADD",4) ||
!rioWriteBulkObject(r,key))
{
dictReleaseIterator(di);
return 0;
}
}
if (!rioWriteBulkDouble(r,*score) ||
!rioWriteBulkString(r,ele,sdslen(ele)))
{
dictReleaseIterator(di);
return 0;
}
if (++count == AOF_REWRITE_ITEMS_PER_CMD) count = 0;
items--;
}
dictReleaseIterator(di);
} else {
serverPanic("Unknown sorted zset encoding");
}
return 1;
}
/* Write either the key or the value of the currently selected item of a hash.
* The 'hi' argument passes a valid Redis hash iterator.
* The 'what' filed specifies if to write a key or a value and can be
* either OBJ_HASH_KEY or OBJ_HASH_VALUE.
*
* The function returns 0 on error, non-zero on success. */
static int rioWriteHashIteratorCursor(rio *r, hashTypeIterator *hi, int what) {
if (hi->encoding == OBJ_ENCODING_LISTPACK) {
unsigned char *vstr = NULL;
unsigned int vlen = UINT_MAX;
long long vll = LLONG_MAX;
hashTypeCurrentFromListpack(hi, what, &vstr, &vlen, &vll);
if (vstr)
return rioWriteBulkString(r, (char*)vstr, vlen);
else
return rioWriteBulkLongLong(r, vll);
} else if (hi->encoding == OBJ_ENCODING_HT) {
sds value = hashTypeCurrentFromHashTable(hi, what);
return rioWriteBulkString(r, value, sdslen(value));
}
serverPanic("Unknown hash encoding");
return 0;
}
/* Emit the commands needed to rebuild a hash object.
* The function returns 0 on error, 1 on success. */
int rewriteHashObject(rio *r, robj *key, robj *o) {
hashTypeIterator *hi;
long long count = 0, items = hashTypeLength(o);
hi = hashTypeInitIterator(o);
while (hashTypeNext(hi) != C_ERR) {
if (count == 0) {
int cmd_items = (items > AOF_REWRITE_ITEMS_PER_CMD) ?
AOF_REWRITE_ITEMS_PER_CMD : items;
if (!rioWriteBulkCount(r,'*',2+cmd_items*2) ||
!rioWriteBulkString(r,"HMSET",5) ||
!rioWriteBulkObject(r,key))
{
hashTypeReleaseIterator(hi);
return 0;
}
}
if (!rioWriteHashIteratorCursor(r, hi, OBJ_HASH_KEY) ||
!rioWriteHashIteratorCursor(r, hi, OBJ_HASH_VALUE))
{
hashTypeReleaseIterator(hi);
return 0;
}
if (++count == AOF_REWRITE_ITEMS_PER_CMD) count = 0;
items--;
}
hashTypeReleaseIterator(hi);
return 1;
}
/* Helper for rewriteStreamObject() that generates a bulk string into the
* AOF representing the ID 'id'. */
int rioWriteBulkStreamID(rio *r,streamID *id) {
int retval;
sds replyid = sdscatfmt(sdsempty(),"%U-%U",id->ms,id->seq);
retval = rioWriteBulkString(r,replyid,sdslen(replyid));
sdsfree(replyid);
return retval;
}
/* Helper for rewriteStreamObject(): emit the XCLAIM needed in order to
* add the message described by 'nack' having the id 'rawid', into the pending
* list of the specified consumer. All this in the context of the specified
* key and group. */
int rioWriteStreamPendingEntry(rio *r, robj *key, const char *groupname, size_t groupname_len, streamConsumer *consumer, unsigned char *rawid, streamNACK *nack) {
/* XCLAIM <key> <group> <consumer> 0 <id> TIME <milliseconds-unix-time>
RETRYCOUNT <count> JUSTID FORCE. */
streamID id;
streamDecodeID(rawid,&id);
if (rioWriteBulkCount(r,'*',12) == 0) return 0;
if (rioWriteBulkString(r,"XCLAIM",6) == 0) return 0;
if (rioWriteBulkObject(r,key) == 0) return 0;
if (rioWriteBulkString(r,groupname,groupname_len) == 0) return 0;
if (rioWriteBulkString(r,consumer->name,sdslen(consumer->name)) == 0) return 0;
if (rioWriteBulkString(r,"0",1) == 0) return 0;
if (rioWriteBulkStreamID(r,&id) == 0) return 0;
if (rioWriteBulkString(r,"TIME",4) == 0) return 0;
if (rioWriteBulkLongLong(r,nack->delivery_time) == 0) return 0;
if (rioWriteBulkString(r,"RETRYCOUNT",10) == 0) return 0;
if (rioWriteBulkLongLong(r,nack->delivery_count) == 0) return 0;
if (rioWriteBulkString(r,"JUSTID",6) == 0) return 0;
if (rioWriteBulkString(r,"FORCE",5) == 0) return 0;
return 1;
}
/* Helper for rewriteStreamObject(): emit the XGROUP CREATECONSUMER is
* needed in order to create consumers that do not have any pending entries.
* All this in the context of the specified key and group. */
int rioWriteStreamEmptyConsumer(rio *r, robj *key, const char *groupname, size_t groupname_len, streamConsumer *consumer) {
/* XGROUP CREATECONSUMER <key> <group> <consumer> */
if (rioWriteBulkCount(r,'*',5) == 0) return 0;
if (rioWriteBulkString(r,"XGROUP",6) == 0) return 0;
if (rioWriteBulkString(r,"CREATECONSUMER",14) == 0) return 0;
if (rioWriteBulkObject(r,key) == 0) return 0;
if (rioWriteBulkString(r,groupname,groupname_len) == 0) return 0;
if (rioWriteBulkString(r,consumer->name,sdslen(consumer->name)) == 0) return 0;
return 1;
}
/* Emit the commands needed to rebuild a stream object.
* The function returns 0 on error, 1 on success. */
int rewriteStreamObject(rio *r, robj *key, robj *o) {
stream *s = o->ptr;
streamIterator si;
streamIteratorStart(&si,s,NULL,NULL,0);
streamID id;
int64_t numfields;
if (s->length) {
/* Reconstruct the stream data using XADD commands. */
while(streamIteratorGetID(&si,&id,&numfields)) {
/* Emit a two elements array for each item. The first is
* the ID, the second is an array of field-value pairs. */
/* Emit the XADD <key> <id> ...fields... command. */
if (!rioWriteBulkCount(r,'*',3+numfields*2) ||
!rioWriteBulkString(r,"XADD",4) ||
!rioWriteBulkObject(r,key) ||
!rioWriteBulkStreamID(r,&id))
{
streamIteratorStop(&si);
return 0;
}
while(numfields--) {
unsigned char *field, *value;
int64_t field_len, value_len;
streamIteratorGetField(&si,&field,&value,&field_len,&value_len);
if (!rioWriteBulkString(r,(char*)field,field_len) ||
!rioWriteBulkString(r,(char*)value,value_len))
{
streamIteratorStop(&si);
return 0;
}
}
}
} else {
/* Use the XADD MAXLEN 0 trick to generate an empty stream if
* the key we are serializing is an empty string, which is possible
* for the Stream type. */
id.ms = 0; id.seq = 1;
if (!rioWriteBulkCount(r,'*',7) ||
!rioWriteBulkString(r,"XADD",4) ||
!rioWriteBulkObject(r,key) ||
!rioWriteBulkString(r,"MAXLEN",6) ||
!rioWriteBulkString(r,"0",1) ||
!rioWriteBulkStreamID(r,&id) ||
!rioWriteBulkString(r,"x",1) ||
!rioWriteBulkString(r,"y",1))
{
streamIteratorStop(&si);
return 0;
}
}
/* Append XSETID after XADD, make sure lastid is correct,
* in case of XDEL lastid. */
if (!rioWriteBulkCount(r,'*',7) ||
!rioWriteBulkString(r,"XSETID",6) ||
!rioWriteBulkObject(r,key) ||
!rioWriteBulkStreamID(r,&s->last_id) ||
!rioWriteBulkString(r,"ENTRIESADDED",12) ||
!rioWriteBulkLongLong(r,s->entries_added) ||
!rioWriteBulkString(r,"MAXDELETEDID",12) ||
!rioWriteBulkStreamID(r,&s->max_deleted_entry_id))
{
streamIteratorStop(&si);
return 0;
}
/* Create all the stream consumer groups. */
if (s->cgroups) {
raxIterator ri;
raxStart(&ri,s->cgroups);
raxSeek(&ri,"^",NULL,0);
while(raxNext(&ri)) {
streamCG *group = ri.data;
/* Emit the XGROUP CREATE in order to create the group. */
if (!rioWriteBulkCount(r,'*',7) ||
!rioWriteBulkString(r,"XGROUP",6) ||
!rioWriteBulkString(r,"CREATE",6) ||
!rioWriteBulkObject(r,key) ||
!rioWriteBulkString(r,(char*)ri.key,ri.key_len) ||
!rioWriteBulkStreamID(r,&group->last_id) ||
!rioWriteBulkString(r,"ENTRIESREAD",11) ||
!rioWriteBulkLongLong(r,group->entries_read))
{
raxStop(&ri);
streamIteratorStop(&si);
return 0;
}
/* Generate XCLAIMs for each consumer that happens to
* have pending entries. Empty consumers would be generated with
* XGROUP CREATECONSUMER. */
raxIterator ri_cons;
raxStart(&ri_cons,group->consumers);
raxSeek(&ri_cons,"^",NULL,0);
while(raxNext(&ri_cons)) {
streamConsumer *consumer = ri_cons.data;
/* If there are no pending entries, just emit XGROUP CREATECONSUMER */
if (raxSize(consumer->pel) == 0) {
if (rioWriteStreamEmptyConsumer(r,key,(char*)ri.key,
ri.key_len,consumer) == 0)
{
raxStop(&ri_cons);
raxStop(&ri);
streamIteratorStop(&si);
return 0;
}
continue;
}
/* For the current consumer, iterate all the PEL entries
* to emit the XCLAIM protocol. */
raxIterator ri_pel;
raxStart(&ri_pel,consumer->pel);
raxSeek(&ri_pel,"^",NULL,0);
while(raxNext(&ri_pel)) {
streamNACK *nack = ri_pel.data;
if (rioWriteStreamPendingEntry(r,key,(char*)ri.key,
ri.key_len,consumer,
ri_pel.key,nack) == 0)
{
raxStop(&ri_pel);
raxStop(&ri_cons);
raxStop(&ri);
streamIteratorStop(&si);
return 0;
}
}
raxStop(&ri_pel);
}
raxStop(&ri_cons);
}
raxStop(&ri);
}
streamIteratorStop(&si);
return 1;
}
/* Call the module type callback in order to rewrite a data type
* that is exported by a module and is not handled by Redis itself.
* The function returns 0 on error, 1 on success. */
int rewriteModuleObject(rio *r, robj *key, robj *o, int dbid) {
RedisModuleIO io;
moduleValue *mv = o->ptr;
moduleType *mt = mv->type;
moduleInitIOContext(io,mt,r,key,dbid);
mt->aof_rewrite(&io,key,mv->value);
if (io.ctx) {
moduleFreeContext(io.ctx);
zfree(io.ctx);
}
return io.error ? 0 : 1;
}
static int rewriteFunctions(rio *aof) {
dict *functions = functionsLibGet();
dictIterator *iter = dictGetIterator(functions);
dictEntry *entry = NULL;
while ((entry = dictNext(iter))) {
functionLibInfo *li = dictGetVal(entry);
if (rioWrite(aof, "*3\r\n", 4) == 0) goto werr;
char function_load[] = "$8\r\nFUNCTION\r\n$4\r\nLOAD\r\n";
if (rioWrite(aof, function_load, sizeof(function_load) - 1) == 0) goto werr;
if (rioWriteBulkString(aof, li->code, sdslen(li->code)) == 0) goto werr;
}
dictReleaseIterator(iter);
return 1;
werr:
dictReleaseIterator(iter);
return 0;
}
int rewriteAppendOnlyFileRio(rio *aof) {
dictIterator *di = NULL;
dictEntry *de;
int j;
long key_count = 0;
long long updated_time = 0;
/* Record timestamp at the beginning of rewriting AOF. */
if (server.aof_timestamp_enabled) {
sds ts = genAofTimestampAnnotationIfNeeded(1);
if (rioWrite(aof,ts,sdslen(ts)) == 0) { sdsfree(ts); goto werr; }
sdsfree(ts);
}
if (rewriteFunctions(aof) == 0) goto werr;
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;
di = dictGetSafeIterator(d);
/* SELECT the new DB */
if (rioWrite(aof,selectcmd,sizeof(selectcmd)-1) == 0) goto werr;
if (rioWriteBulkLongLong(aof,j) == 0) goto werr;
/* Iterate this DB writing every entry */
while((de = dictNext(di)) != NULL) {
sds keystr;
robj key, *o;
long long expiretime;
size_t aof_bytes_before_key = aof->processed_bytes;
keystr = dictGetKey(de);
o = dictGetVal(de);
initStaticStringObject(key,keystr);
expiretime = getExpire(db,&key);
/* Save the key and associated value */
if (o->type == OBJ_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 == OBJ_LIST) {
if (rewriteListObject(aof,&key,o) == 0) goto werr;
} else if (o->type == OBJ_SET) {
if (rewriteSetObject(aof,&key,o) == 0) goto werr;
} else if (o->type == OBJ_ZSET) {
if (rewriteSortedSetObject(aof,&key,o) == 0) goto werr;
} else if (o->type == OBJ_HASH) {
if (rewriteHashObject(aof,&key,o) == 0) goto werr;
} else if (o->type == OBJ_STREAM) {
if (rewriteStreamObject(aof,&key,o) == 0) goto werr;
} else if (o->type == OBJ_MODULE) {
if (rewriteModuleObject(aof,&key,o,j) == 0) goto werr;
} else {
serverPanic("Unknown object type");
}
/* In fork child process, we can try to release memory back to the
* OS and possibly avoid or decrease COW. We give the dismiss
* mechanism a hint about an estimated size of the object we stored. */
size_t dump_size = aof->processed_bytes - aof_bytes_before_key;
if (server.in_fork_child) dismissObject(o, dump_size);
/* 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;
}
/* Update info every 1 second (approximately).
* in order to avoid calling mstime() on each iteration, we will
* check the diff every 1024 keys */
if ((key_count++ & 1023) == 0) {
long long now = mstime();
if (now - updated_time >= 1000) {
sendChildInfo(CHILD_INFO_TYPE_CURRENT_INFO, key_count, "AOF rewrite");
updated_time = now;
}
}
/* Delay before next key if required (for testing) */
if (server.rdb_key_save_delay)
debugDelay(server.rdb_key_save_delay);
}
dictReleaseIterator(di);
di = NULL;
}
return C_OK;
werr:
if (di) dictReleaseIterator(di);
return C_ERR;
}
/* 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 AOF_REWRITE_ITEMS_PER_CMD items per time
* are inserted using a single command. */
int rewriteAppendOnlyFile(char *filename) {
rio aof;
FILE *fp = NULL;
char tmpfile[256];
/* 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());
fp = fopen(tmpfile,"w");
if (!fp) {
serverLog(LL_WARNING, "Opening the temp file for AOF rewrite in rewriteAppendOnlyFile(): %s", strerror(errno));
return C_ERR;
}
rioInitWithFile(&aof,fp);
if (server.aof_rewrite_incremental_fsync) {
rioSetAutoSync(&aof,REDIS_AUTOSYNC_BYTES);
rioSetReclaimCache(&aof,1);
}
startSaving(RDBFLAGS_AOF_PREAMBLE);
if (server.aof_use_rdb_preamble) {
int error;
if (rdbSaveRio(SLAVE_REQ_NONE,&aof,&error,RDBFLAGS_AOF_PREAMBLE,NULL) == C_ERR) {
errno = error;
goto werr;
}
} else {
if (rewriteAppendOnlyFileRio(&aof) == C_ERR) goto werr;
}
/* Make sure data will not remain on the OS's output buffers */
if (fflush(fp)) goto werr;
if (fsync(fileno(fp))) goto werr;
if (reclaimFilePageCache(fileno(fp), 0, 0) == -1) {
/* A minor error. Just log to know what happens */
serverLog(LL_NOTICE,"Unable to reclaim page cache: %s", strerror(errno));
}
if (fclose(fp)) { fp = NULL; goto werr; }
fp = NULL;
/* Use RENAME to make sure the DB file is changed atomically only
* if the generate DB file is ok. */
if (rename(tmpfile,filename) == -1) {
serverLog(LL_WARNING,"Error moving temp append only file on the final destination: %s", strerror(errno));
unlink(tmpfile);
stopSaving(0);
return C_ERR;
}
stopSaving(1);
return C_OK;
werr:
serverLog(LL_WARNING,"Write error writing append only file on disk: %s", strerror(errno));
if (fp) fclose(fp);
unlink(tmpfile);
stopSaving(0);
return C_ERR;
}
/* ----------------------------------------------------------------------------
* AOF background rewrite
* ------------------------------------------------------------------------- */
/* 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 open a new INCR AOF file to continue writing.
* 3) When the child finished '2a' exists.
* 4) The parent will trap the exit code, if it's OK, it will:
* 4a) get a new BASE file name and mark the previous (if we have) as the HISTORY type
* 4b) rename(2) the temp file in new BASE file name
* 4c) mark the rewritten INCR AOFs as history type
* 4d) persist AOF manifest file
* 4e) Delete the history files use bio
*/
int rewriteAppendOnlyFileBackground(void) {
pid_t childpid;
if (hasActiveChildProcess()) return C_ERR;
if (dirCreateIfMissing(server.aof_dirname) == -1) {
serverLog(LL_WARNING, "Can't open or create append-only dir %s: %s",
server.aof_dirname, strerror(errno));
server.aof_lastbgrewrite_status = C_ERR;
return C_ERR;
}
/* We set aof_selected_db to -1 in order to force the next call to the
* feedAppendOnlyFile() to issue a SELECT command. */
server.aof_selected_db = -1;
flushAppendOnlyFile(1);
if (openNewIncrAofForAppend() != C_OK) {
server.aof_lastbgrewrite_status = C_ERR;
return C_ERR;
}
if (server.aof_state == AOF_WAIT_REWRITE) {
/* Wait for all bio jobs related to AOF to drain. This prevents a race
* between updates to `fsynced_reploff_pending` of the worker thread, belonging
* to the previous AOF, and the new one. This concern is specific for a full
* sync scenario where we don't wanna risk the ACKed replication offset
* jumping backwards or forward when switching to a different master. */
bioDrainWorker(BIO_AOF_FSYNC);
/* Set the initial repl_offset, which will be applied to fsynced_reploff
* when AOFRW finishes (after possibly being updated by a bio thread) */
atomicSet(server.fsynced_reploff_pending, server.master_repl_offset);
server.fsynced_reploff = 0;
}
server.stat_aof_rewrites++;
if ((childpid = redisFork(CHILD_TYPE_AOF)) == 0) {
char tmpfile[256];
/* Child */
redisSetProcTitle("redis-aof-rewrite");
redisSetCpuAffinity(server.aof_rewrite_cpulist);
snprintf(tmpfile,256,"temp-rewriteaof-bg-%d.aof", (int) getpid());
if (rewriteAppendOnlyFile(tmpfile) == C_OK) {
serverLog(LL_NOTICE,
"Successfully created the temporary AOF base file %s", tmpfile);
sendChildCowInfo(CHILD_INFO_TYPE_AOF_COW_SIZE, "AOF rewrite");
exitFromChild(0);
} else {
exitFromChild(1);
}
} else {
/* Parent */
if (childpid == -1) {
server.aof_lastbgrewrite_status = C_ERR;
serverLog(LL_WARNING,
"Can't rewrite append only file in background: fork: %s",
strerror(errno));
return C_ERR;
}
serverLog(LL_NOTICE,
"Background append only file rewriting started by pid %ld",(long) childpid);
server.aof_rewrite_scheduled = 0;
server.aof_rewrite_time_start = time(NULL);
return C_OK;
}
return C_OK; /* unreached */
}
void bgrewriteaofCommand(client *c) {
if (server.child_type == CHILD_TYPE_AOF) {
addReplyError(c,"Background append only file rewriting already in progress");
} else if (hasActiveChildProcess() || server.in_exec) {
server.aof_rewrite_scheduled = 1;
/* When manually triggering AOFRW we reset the count
* so that it can be executed immediately. */
server.stat_aofrw_consecutive_failures = 0;
addReplyStatus(c,"Background append only file rewriting scheduled");
} else if (rewriteAppendOnlyFileBackground() == C_OK) {
addReplyStatus(c,"Background append only file rewriting started");
} else {
addReplyError(c,"Can't execute an AOF background rewriting. "
"Please check the server logs for more information.");
}
}
void aofRemoveTempFile(pid_t childpid) {
char tmpfile[256];
snprintf(tmpfile,256,"temp-rewriteaof-bg-%d.aof", (int) childpid);
bg_unlink(tmpfile);
snprintf(tmpfile,256,"temp-rewriteaof-%d.aof", (int) childpid);
bg_unlink(tmpfile);
}
/* Get size of an AOF file.
* The status argument is an optional output argument to be filled with
* one of the AOF_ status values. */
off_t getAppendOnlyFileSize(sds filename, int *status) {
struct redis_stat sb;
off_t size;
mstime_t latency;
sds aof_filepath = makePath(server.aof_dirname, filename);
latencyStartMonitor(latency);
if (redis_stat(aof_filepath, &sb) == -1) {
if (status) *status = errno == ENOENT ? AOF_NOT_EXIST : AOF_OPEN_ERR;
serverLog(LL_WARNING, "Unable to obtain the AOF file %s length. stat: %s",
filename, strerror(errno));
size = 0;
} else {
if (status) *status = AOF_OK;
size = sb.st_size;
}
latencyEndMonitor(latency);
latencyAddSampleIfNeeded("aof-fstat", latency);
sdsfree(aof_filepath);
return size;
}
/* Get size of all AOF files referred by the manifest (excluding history).
* The status argument is an output argument to be filled with
* one of the AOF_ status values. */
off_t getBaseAndIncrAppendOnlyFilesSize(aofManifest *am, int *status) {
off_t size = 0;
listNode *ln;
listIter li;
if (am->base_aof_info) {
serverAssert(am->base_aof_info->file_type == AOF_FILE_TYPE_BASE);
size += getAppendOnlyFileSize(am->base_aof_info->file_name, status);
if (*status != AOF_OK) return 0;
}
listRewind(am->incr_aof_list, &li);
while ((ln = listNext(&li)) != NULL) {
aofInfo *ai = (aofInfo*)ln->value;
serverAssert(ai->file_type == AOF_FILE_TYPE_INCR);
size += getAppendOnlyFileSize(ai->file_name, status);
if (*status != AOF_OK) return 0;
}
return size;
}
int getBaseAndIncrAppendOnlyFilesNum(aofManifest *am) {
int num = 0;
if (am->base_aof_info) num++;
if (am->incr_aof_list) num += listLength(am->incr_aof_list);
return num;
}
/* A background append only file rewriting (BGREWRITEAOF) terminated its work.
* Handle this. */
void backgroundRewriteDoneHandler(int exitcode, int bysignal) {
if (!bysignal && exitcode == 0) {
char tmpfile[256];
long long now = ustime();
sds new_base_filepath = NULL;
sds new_incr_filepath = NULL;
aofManifest *temp_am;
mstime_t latency;
serverLog(LL_NOTICE,
"Background AOF rewrite terminated with success");
snprintf(tmpfile, 256, "temp-rewriteaof-bg-%d.aof",
(int)server.child_pid);
serverAssert(server.aof_manifest != NULL);
/* Dup a temporary aof_manifest for subsequent modifications. */
temp_am = aofManifestDup(server.aof_manifest);
/* Get a new BASE file name and mark the previous (if we have)
* as the HISTORY type. */
sds new_base_filename = getNewBaseFileNameAndMarkPreAsHistory(temp_am);
serverAssert(new_base_filename != NULL);
new_base_filepath = makePath(server.aof_dirname, new_base_filename);
/* Rename the temporary aof file to 'new_base_filename'. */
latencyStartMonitor(latency);
if (rename(tmpfile, new_base_filepath) == -1) {
serverLog(LL_WARNING,
"Error trying to rename the temporary AOF base file %s into %s: %s",
tmpfile,
new_base_filepath,
strerror(errno));
aofManifestFree(temp_am);
sdsfree(new_base_filepath);
server.aof_lastbgrewrite_status = C_ERR;
server.stat_aofrw_consecutive_failures++;
goto cleanup;
}
latencyEndMonitor(latency);
latencyAddSampleIfNeeded("aof-rename", latency);
serverLog(LL_NOTICE,
"Successfully renamed the temporary AOF base file %s into %s", tmpfile, new_base_filename);
/* Rename the temporary incr aof file to 'new_incr_filename'. */
if (server.aof_state == AOF_WAIT_REWRITE) {
/* Get temporary incr aof name. */
sds temp_incr_aof_name = getTempIncrAofName();
sds temp_incr_filepath = makePath(server.aof_dirname, temp_incr_aof_name);
/* Get next new incr aof name. */
sds new_incr_filename = getNewIncrAofName(temp_am);
new_incr_filepath = makePath(server.aof_dirname, new_incr_filename);
latencyStartMonitor(latency);
if (rename(temp_incr_filepath, new_incr_filepath) == -1) {
serverLog(LL_WARNING,
"Error trying to rename the temporary AOF incr file %s into %s: %s",
temp_incr_filepath,
new_incr_filepath,
strerror(errno));
bg_unlink(new_base_filepath);
sdsfree(new_base_filepath);
aofManifestFree(temp_am);
sdsfree(temp_incr_filepath);
sdsfree(new_incr_filepath);
sdsfree(temp_incr_aof_name);
server.aof_lastbgrewrite_status = C_ERR;
server.stat_aofrw_consecutive_failures++;
goto cleanup;
}
latencyEndMonitor(latency);
latencyAddSampleIfNeeded("aof-rename", latency);
serverLog(LL_NOTICE,
"Successfully renamed the temporary AOF incr file %s into %s", temp_incr_aof_name, new_incr_filename);
sdsfree(temp_incr_filepath);
sdsfree(temp_incr_aof_name);
}
/* Change the AOF file type in 'incr_aof_list' from AOF_FILE_TYPE_INCR
* to AOF_FILE_TYPE_HIST, and move them to the 'history_aof_list'. */
markRewrittenIncrAofAsHistory(temp_am);
/* Persist our modifications. */
if (persistAofManifest(temp_am) == C_ERR) {
bg_unlink(new_base_filepath);
aofManifestFree(temp_am);
sdsfree(new_base_filepath);
if (new_incr_filepath) {
bg_unlink(new_incr_filepath);
sdsfree(new_incr_filepath);
}
server.aof_lastbgrewrite_status = C_ERR;
server.stat_aofrw_consecutive_failures++;
goto cleanup;
}
sdsfree(new_base_filepath);
if (new_incr_filepath) sdsfree(new_incr_filepath);
/* We can safely let `server.aof_manifest` point to 'temp_am' and free the previous one. */
aofManifestFreeAndUpdate(temp_am);
if (server.aof_state != AOF_OFF) {
/* AOF enabled. */
server.aof_current_size = getAppendOnlyFileSize(new_base_filename, NULL) + server.aof_last_incr_size;
server.aof_rewrite_base_size = server.aof_current_size;
}
/* We don't care about the return value of `aofDelHistoryFiles`, because the history
* deletion failure will not cause any problems. */
aofDelHistoryFiles();
server.aof_lastbgrewrite_status = C_OK;
server.stat_aofrw_consecutive_failures = 0;
serverLog(LL_NOTICE, "Background AOF rewrite finished successfully");
/* Change state from WAIT_REWRITE to ON if needed */
if (server.aof_state == AOF_WAIT_REWRITE) {
server.aof_state = AOF_ON;
/* Update the fsynced replication offset that just now become valid.
* This could either be the one we took in startAppendOnly, or a
* newer one set by the bio thread. */
long long fsynced_reploff_pending;
atomicGet(server.fsynced_reploff_pending, fsynced_reploff_pending);
server.fsynced_reploff = fsynced_reploff_pending;
}
serverLog(LL_VERBOSE,
"Background AOF rewrite signal handler took %lldus", ustime()-now);
} else if (!bysignal && exitcode != 0) {
server.aof_lastbgrewrite_status = C_ERR;
server.stat_aofrw_consecutive_failures++;
serverLog(LL_WARNING,
"Background AOF rewrite terminated with error");
} else {
/* SIGUSR1 is whitelisted, so we have a way to kill a child without
* triggering an error condition. */
if (bysignal != SIGUSR1) {
server.aof_lastbgrewrite_status = C_ERR;
server.stat_aofrw_consecutive_failures++;
}
serverLog(LL_WARNING,
"Background AOF rewrite terminated by signal %d", bysignal);
}
cleanup:
aofRemoveTempFile(server.child_pid);
/* Clear AOF buffer and delete temp incr aof for next rewrite. */
if (server.aof_state == AOF_WAIT_REWRITE) {
sdsfree(server.aof_buf);
server.aof_buf = sdsempty();
aofDelTempIncrAofFile();
}
server.aof_rewrite_time_last = time(NULL)-server.aof_rewrite_time_start;
server.aof_rewrite_time_start = -1;
/* Schedule a new rewrite if we are waiting for it to switch the AOF ON. */
if (server.aof_state == AOF_WAIT_REWRITE)
server.aof_rewrite_scheduled = 1;
}
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