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0992ada2fe
redict/src/config.c
WuYunlong 0992ada2fe Fix petential cluster link error. 
Funcion adjustOpenFilesLimit() has an implicit parameter, which is server.maxclients.
This function aims to ajust maximum file descriptor number according to server.maxclients
by best effort, which is "bestlimit" could be lower than "maxfiles" but greater than "oldlimit".
When we try to increase "maxclients" using CONFIG SET command, we could increase maximum
file descriptor number to a bigger value without calling aeResizeSetSize the same time.
When later more and more clients connect to server, the allocated fd could be bigger and bigger,
and eventually exceeds events size of aeEventLoop.events. When new nodes joins the cluster,
new link is created, together with new fd, but when calling aeCreateFileEvent, we did not
check the return value. In this case, we have a non-null "link" but the associated fd is not
registered.

So when we dynamically set "maxclients" we could reach an inconsistency between maximum file
descriptor number of the process and server.maxclients. And later could cause cluster link and link
fd inconsistency.

While setting "maxclients" dynamically, we consider it as failed when resulting "maxclients" is not
the same as expected. We try to restore back the maximum file descriptor number when we failed to set
"maxclients" to the specified value, so that server.maxclients could act as a guard as before.
2019-12-31 18:16:30 +08:00

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/* Configuration file parsing and CONFIG GET/SET commands implementation.
*
* 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 "cluster.h"
#include <fcntl.h>
#include <sys/stat.h>
/*-----------------------------------------------------------------------------
* Config file name-value maps.
*----------------------------------------------------------------------------*/
typedef struct configEnum {
const char *name;
const int val;
} configEnum;
configEnum maxmemory_policy_enum[] = {
{"volatile-lru", MAXMEMORY_VOLATILE_LRU},
{"volatile-lfu", MAXMEMORY_VOLATILE_LFU},
{"volatile-random",MAXMEMORY_VOLATILE_RANDOM},
{"volatile-ttl",MAXMEMORY_VOLATILE_TTL},
{"allkeys-lru",MAXMEMORY_ALLKEYS_LRU},
{"allkeys-lfu",MAXMEMORY_ALLKEYS_LFU},
{"allkeys-random",MAXMEMORY_ALLKEYS_RANDOM},
{"noeviction",MAXMEMORY_NO_EVICTION},
{NULL, 0}
};
configEnum syslog_facility_enum[] = {
{"user", LOG_USER},
{"local0", LOG_LOCAL0},
{"local1", LOG_LOCAL1},
{"local2", LOG_LOCAL2},
{"local3", LOG_LOCAL3},
{"local4", LOG_LOCAL4},
{"local5", LOG_LOCAL5},
{"local6", LOG_LOCAL6},
{"local7", LOG_LOCAL7},
{NULL, 0}
};
configEnum loglevel_enum[] = {
{"debug", LL_DEBUG},
{"verbose", LL_VERBOSE},
{"notice", LL_NOTICE},
{"warning", LL_WARNING},
{NULL,0}
};
configEnum supervised_mode_enum[] = {
{"upstart", SUPERVISED_UPSTART},
{"systemd", SUPERVISED_SYSTEMD},
{"auto", SUPERVISED_AUTODETECT},
{"no", SUPERVISED_NONE},
{NULL, 0}
};
configEnum aof_fsync_enum[] = {
{"everysec", AOF_FSYNC_EVERYSEC},
{"always", AOF_FSYNC_ALWAYS},
{"no", AOF_FSYNC_NO},
{NULL, 0}
};
configEnum repl_diskless_load_enum[] = {
{"disabled", REPL_DISKLESS_LOAD_DISABLED},
{"on-empty-db", REPL_DISKLESS_LOAD_WHEN_DB_EMPTY},
{"swapdb", REPL_DISKLESS_LOAD_SWAPDB},
{NULL, 0}
};
/* Output buffer limits presets. */
clientBufferLimitsConfig clientBufferLimitsDefaults[CLIENT_TYPE_OBUF_COUNT] = {
{0, 0, 0}, /* normal */
{1024*1024*256, 1024*1024*64, 60}, /* slave */
{1024*1024*32, 1024*1024*8, 60} /* pubsub */
};
/* Generic config infrastructure function pointers
* int is_valid_fn(val, err)
* Return 1 when val is valid, and 0 when invalid.
* Optionslly set err to a static error string.
* int update_fn(val, prev, err)
* This function is called only for CONFIG SET command (not at config file parsing)
* It is called after the actual config is applied,
* Return 1 for success, and 0 for failure.
* Optionslly set err to a static error string.
* On failure the config change will be reverted.
*/
/* Configuration values that require no special handling to set, get, load or
* rewrite. */
typedef struct boolConfigData {
int *config; /* The pointer to the server config this value is stored in */
const int default_value; /* The default value of the config on rewrite */
int (*is_valid_fn)(int val, char **err); /* Optional function to check validity of new value (generic doc above) */
int (*update_fn)(int val, int prev, char **err); /* Optional function to apply new value at runtime (generic doc above) */
} boolConfigData;
typedef struct stringConfigData {
char **config; /* Pointer to the server config this value is stored in. */
const char *default_value; /* Default value of the config on rewrite. */
int (*is_valid_fn)(char* val, char **err); /* Optional function to check validity of new value (generic doc above) */
int (*update_fn)(char* val, char* prev, char **err); /* Optional function to apply new value at runtime (generic doc above) */
int convert_empty_to_null; /* Boolean indicating if empty strings should
be stored as a NULL value. */
} stringConfigData;
typedef struct enumConfigData {
int *config; /* The pointer to the server config this value is stored in */
configEnum *enum_value; /* The underlying enum type this data represents */
const int default_value; /* The default value of the config on rewrite */
int (*is_valid_fn)(int val, char **err); /* Optional function to check validity of new value (generic doc above) */
int (*update_fn)(int val, int prev, char **err); /* Optional function to apply new value at runtime (generic doc above) */
} enumConfigData;
typedef enum numericType {
NUMERIC_TYPE_INT,
NUMERIC_TYPE_UINT,
NUMERIC_TYPE_LONG,
NUMERIC_TYPE_ULONG,
NUMERIC_TYPE_LONG_LONG,
NUMERIC_TYPE_ULONG_LONG,
NUMERIC_TYPE_SIZE_T,
NUMERIC_TYPE_SSIZE_T,
NUMERIC_TYPE_OFF_T,
NUMERIC_TYPE_TIME_T,
} numericType;
typedef struct numericConfigData {
union {
int *i;
unsigned int *ui;
long *l;
unsigned long *ul;
long long *ll;
unsigned long long *ull;
size_t *st;
ssize_t *sst;
off_t *ot;
time_t *tt;
} config; /* The pointer to the numeric config this value is stored in */
int is_memory; /* Indicates if this value can be loaded as a memory value */
numericType numeric_type; /* An enum indicating the type of this value */
long long lower_bound; /* The lower bound of this numeric value */
long long upper_bound; /* The upper bound of this numeric value */
const long long default_value; /* The default value of the config on rewrite */
int (*is_valid_fn)(long long val, char **err); /* Optional function to check validity of new value (generic doc above) */
int (*update_fn)(long long val, long long prev, char **err); /* Optional function to apply new value at runtime (generic doc above) */
} numericConfigData;
typedef union typeData {
boolConfigData yesno;
stringConfigData string;
enumConfigData enumd;
numericConfigData numeric;
} typeData;
typedef struct typeInterface {
/* Called on server start, to init the server with default value */
void (*init)(typeData data);
/* Called on server start, should return 1 on success, 0 on error and should set err */
int (*load)(typeData data, sds *argc, int argv, char **err);
/* Called on CONFIG SET, returns 1 on success, 0 on error */
int (*set)(typeData data, sds value, char **err);
/* Called on CONFIG GET, required to add output to the client */
void (*get)(client *c, typeData data);
/* Called on CONFIG REWRITE, required to rewrite the config state */
void (*rewrite)(typeData data, const char *name, struct rewriteConfigState *state);
} typeInterface;
typedef struct standardConfig {
const char *name; /* The user visible name of this config */
const char *alias; /* An alias that can also be used for this config */
const int modifiable; /* Can this value be updated by CONFIG SET? */
typeInterface interface; /* The function pointers that define the type interface */
typeData data; /* The type specific data exposed used by the interface */
} standardConfig;
standardConfig configs[];
/*-----------------------------------------------------------------------------
* Enum access functions
*----------------------------------------------------------------------------*/
/* Get enum value from name. If there is no match INT_MIN is returned. */
int configEnumGetValue(configEnum *ce, char *name) {
while(ce->name != NULL) {
if (!strcasecmp(ce->name,name)) return ce->val;
ce++;
}
return INT_MIN;
}
/* Get enum name from value. If no match is found NULL is returned. */
const char *configEnumGetName(configEnum *ce, int val) {
while(ce->name != NULL) {
if (ce->val == val) return ce->name;
ce++;
}
return NULL;
}
/* Wrapper for configEnumGetName() returning "unknown" instead of NULL if
* there is no match. */
const char *configEnumGetNameOrUnknown(configEnum *ce, int val) {
const char *name = configEnumGetName(ce,val);
return name ? name : "unknown";
}
/* Used for INFO generation. */
const char *evictPolicyToString(void) {
return configEnumGetNameOrUnknown(maxmemory_policy_enum,server.maxmemory_policy);
}
/*-----------------------------------------------------------------------------
* Config file parsing
*----------------------------------------------------------------------------*/
int yesnotoi(char *s) {
if (!strcasecmp(s,"yes")) return 1;
else if (!strcasecmp(s,"no")) return 0;
else return -1;
}
void appendServerSaveParams(time_t seconds, int changes) {
server.saveparams = zrealloc(server.saveparams,sizeof(struct saveparam)*(server.saveparamslen+1));
server.saveparams[server.saveparamslen].seconds = seconds;
server.saveparams[server.saveparamslen].changes = changes;
server.saveparamslen++;
}
void resetServerSaveParams(void) {
zfree(server.saveparams);
server.saveparams = NULL;
server.saveparamslen = 0;
}
void queueLoadModule(sds path, sds *argv, int argc) {
int i;
struct moduleLoadQueueEntry *loadmod;
loadmod = zmalloc(sizeof(struct moduleLoadQueueEntry));
loadmod->argv = zmalloc(sizeof(robj*)*argc);
loadmod->path = sdsnew(path);
loadmod->argc = argc;
for (i = 0; i < argc; i++) {
loadmod->argv[i] = createRawStringObject(argv[i],sdslen(argv[i]));
}
listAddNodeTail(server.loadmodule_queue,loadmod);
}
void initConfigValues() {
for (standardConfig *config = configs; config->name != NULL; config++) {
config->interface.init(config->data);
}
}
void loadServerConfigFromString(char *config) {
char *err = NULL;
int linenum = 0, totlines, i;
int slaveof_linenum = 0;
sds *lines;
lines = sdssplitlen(config,strlen(config),"\n",1,&totlines);
for (i = 0; i < totlines; i++) {
sds *argv;
int argc;
linenum = i+1;
lines[i] = sdstrim(lines[i]," \t\r\n");
/* Skip comments and blank lines */
if (lines[i][0] == '#' || lines[i][0] == '\0') continue;
/* Split into arguments */
argv = sdssplitargs(lines[i],&argc);
if (argv == NULL) {
err = "Unbalanced quotes in configuration line";
goto loaderr;
}
/* Skip this line if the resulting command vector is empty. */
if (argc == 0) {
sdsfreesplitres(argv,argc);
continue;
}
sdstolower(argv[0]);
/* Iterate the configs that are standard */
int match = 0;
for (standardConfig *config = configs; config->name != NULL; config++) {
if ((!strcasecmp(argv[0],config->name) ||
(config->alias && !strcasecmp(argv[0],config->alias))))
{
if (!config->interface.load(config->data, argv, argc, &err)) {
goto loaderr;
}
match = 1;
break;
}
}
if (match) {
sdsfreesplitres(argv,argc);
continue;
}
/* Execute config directives */
if (!strcasecmp(argv[0],"bind") && argc >= 2) {
int j, addresses = argc-1;
if (addresses > CONFIG_BINDADDR_MAX) {
err = "Too many bind addresses specified"; goto loaderr;
}
for (j = 0; j < addresses; j++)
server.bindaddr[j] = zstrdup(argv[j+1]);
server.bindaddr_count = addresses;
} else if (!strcasecmp(argv[0],"unixsocketperm") && argc == 2) {
errno = 0;
server.unixsocketperm = (mode_t)strtol(argv[1], NULL, 8);
if (errno || server.unixsocketperm > 0777) {
err = "Invalid socket file permissions"; goto loaderr;
}
} else if (!strcasecmp(argv[0],"save")) {
if (argc == 3) {
int seconds = atoi(argv[1]);
int changes = atoi(argv[2]);
if (seconds < 1 || changes < 0) {
err = "Invalid save parameters"; goto loaderr;
}
appendServerSaveParams(seconds,changes);
} else if (argc == 2 && !strcasecmp(argv[1],"")) {
resetServerSaveParams();
}
} else if (!strcasecmp(argv[0],"dir") && argc == 2) {
if (chdir(argv[1]) == -1) {
serverLog(LL_WARNING,"Can't chdir to '%s': %s",
argv[1], strerror(errno));
exit(1);
}
} else if (!strcasecmp(argv[0],"logfile") && argc == 2) {
FILE *logfp;
zfree(server.logfile);
server.logfile = zstrdup(argv[1]);
if (server.logfile[0] != '\0') {
/* Test if we are able to open the file. The server will not
* be able to abort just for this problem later... */
logfp = fopen(server.logfile,"a");
if (logfp == NULL) {
err = sdscatprintf(sdsempty(),
"Can't open the log file: %s", strerror(errno));
goto loaderr;
}
fclose(logfp);
}
} else if (!strcasecmp(argv[0],"include") && argc == 2) {
loadServerConfig(argv[1],NULL);
} else if ((!strcasecmp(argv[0],"client-query-buffer-limit")) && argc == 2) {
server.client_max_querybuf_len = memtoll(argv[1],NULL);
} else if ((!strcasecmp(argv[0],"slaveof") ||
!strcasecmp(argv[0],"replicaof")) && argc == 3) {
slaveof_linenum = linenum;
server.masterhost = sdsnew(argv[1]);
server.masterport = atoi(argv[2]);
server.repl_state = REPL_STATE_CONNECT;
} else if (!strcasecmp(argv[0],"requirepass") && argc == 2) {
if (strlen(argv[1]) > CONFIG_AUTHPASS_MAX_LEN) {
err = "Password is longer than CONFIG_AUTHPASS_MAX_LEN";
goto loaderr;
}
/* The old "requirepass" directive just translates to setting
* a password to the default user. */
ACLSetUser(DefaultUser,"resetpass",-1);
sds aclop = sdscatprintf(sdsempty(),">%s",argv[1]);
ACLSetUser(DefaultUser,aclop,sdslen(aclop));
sdsfree(aclop);
} else if (!strcasecmp(argv[0],"list-max-ziplist-entries") && argc == 2){
/* DEAD OPTION */
} else if (!strcasecmp(argv[0],"list-max-ziplist-value") && argc == 2) {
/* DEAD OPTION */
} else if (!strcasecmp(argv[0],"rename-command") && argc == 3) {
struct redisCommand *cmd = lookupCommand(argv[1]);
int retval;
if (!cmd) {
err = "No such command in rename-command";
goto loaderr;
}
/* If the target command name is the empty string we just
* remove it from the command table. */
retval = dictDelete(server.commands, argv[1]);
serverAssert(retval == DICT_OK);
/* Otherwise we re-add the command under a different name. */
if (sdslen(argv[2]) != 0) {
sds copy = sdsdup(argv[2]);
retval = dictAdd(server.commands, copy, cmd);
if (retval != DICT_OK) {
sdsfree(copy);
err = "Target command name already exists"; goto loaderr;
}
}
} else if (!strcasecmp(argv[0],"cluster-config-file") && argc == 2) {
zfree(server.cluster_configfile);
server.cluster_configfile = zstrdup(argv[1]);
} else if (!strcasecmp(argv[0],"client-output-buffer-limit") &&
argc == 5)
{
int class = getClientTypeByName(argv[1]);
unsigned long long hard, soft;
int soft_seconds;
if (class == -1 || class == CLIENT_TYPE_MASTER) {
err = "Unrecognized client limit class: the user specified "
"an invalid one, or 'master' which has no buffer limits.";
goto loaderr;
}
hard = memtoll(argv[2],NULL);
soft = memtoll(argv[3],NULL);
soft_seconds = atoi(argv[4]);
if (soft_seconds < 0) {
err = "Negative number of seconds in soft limit is invalid";
goto loaderr;
}
server.client_obuf_limits[class].hard_limit_bytes = hard;
server.client_obuf_limits[class].soft_limit_bytes = soft;
server.client_obuf_limits[class].soft_limit_seconds = soft_seconds;
} else if (!strcasecmp(argv[0],"notify-keyspace-events") && argc == 2) {
int flags = keyspaceEventsStringToFlags(argv[1]);
if (flags == -1) {
err = "Invalid event class character. Use 'g$lshzxeA'.";
goto loaderr;
}
server.notify_keyspace_events = flags;
} else if (!strcasecmp(argv[0],"user") && argc >= 2) {
int argc_err;
if (ACLAppendUserForLoading(argv,argc,&argc_err) == C_ERR) {
char buf[1024];
char *errmsg = ACLSetUserStringError();
snprintf(buf,sizeof(buf),"Error in user declaration '%s': %s",
argv[argc_err],errmsg);
err = buf;
goto loaderr;
}
} else if (!strcasecmp(argv[0],"loadmodule") && argc >= 2) {
queueLoadModule(argv[1],&argv[2],argc-2);
} else if (!strcasecmp(argv[0],"sentinel")) {
/* argc == 1 is handled by main() as we need to enter the sentinel
* mode ASAP. */
if (argc != 1) {
if (!server.sentinel_mode) {
err = "sentinel directive while not in sentinel mode";
goto loaderr;
}
err = sentinelHandleConfiguration(argv+1,argc-1);
if (err) goto loaderr;
}
} else {
err = "Bad directive or wrong number of arguments"; goto loaderr;
}
sdsfreesplitres(argv,argc);
}
/* Sanity checks. */
if (server.cluster_enabled && server.masterhost) {
linenum = slaveof_linenum;
i = linenum-1;
err = "replicaof directive not allowed in cluster mode";
goto loaderr;
}
sdsfreesplitres(lines,totlines);
return;
loaderr:
fprintf(stderr, "\n*** FATAL CONFIG FILE ERROR ***\n");
fprintf(stderr, "Reading the configuration file, at line %d\n", linenum);
fprintf(stderr, ">>> '%s'\n", lines[i]);
fprintf(stderr, "%s\n", err);
exit(1);
}
/* Load the server configuration from the specified filename.
* The function appends the additional configuration directives stored
* in the 'options' string to the config file before loading.
*
* Both filename and options can be NULL, in such a case are considered
* empty. This way loadServerConfig can be used to just load a file or
* just load a string. */
void loadServerConfig(char *filename, char *options) {
sds config = sdsempty();
char buf[CONFIG_MAX_LINE+1];
/* Load the file content */
if (filename) {
FILE *fp;
if (filename[0] == '-' && filename[1] == '\0') {
fp = stdin;
} else {
if ((fp = fopen(filename,"r")) == NULL) {
serverLog(LL_WARNING,
"Fatal error, can't open config file '%s'", filename);
exit(1);
}
}
while(fgets(buf,CONFIG_MAX_LINE+1,fp) != NULL)
config = sdscat(config,buf);
if (fp != stdin) fclose(fp);
}
/* Append the additional options */
if (options) {
config = sdscat(config,"\n");
config = sdscat(config,options);
}
loadServerConfigFromString(config);
sdsfree(config);
}
/*-----------------------------------------------------------------------------
* CONFIG SET implementation
*----------------------------------------------------------------------------*/
#define config_set_bool_field(_name,_var) \
} else if (!strcasecmp(c->argv[2]->ptr,_name)) { \
int yn = yesnotoi(o->ptr); \
if (yn == -1) goto badfmt; \
_var = yn;
#define config_set_numerical_field(_name,_var,min,max) \
} else if (!strcasecmp(c->argv[2]->ptr,_name)) { \
if (getLongLongFromObject(o,&ll) == C_ERR) goto badfmt; \
if (min != LLONG_MIN && ll < min) goto badfmt; \
if (max != LLONG_MAX && ll > max) goto badfmt; \
_var = ll;
#define config_set_memory_field(_name,_var) \
} else if (!strcasecmp(c->argv[2]->ptr,_name)) { \
ll = memtoll(o->ptr,&err); \
if (err || ll < 0) goto badfmt; \
_var = ll;
#define config_set_special_field(_name) \
} else if (!strcasecmp(c->argv[2]->ptr,_name)) {
#define config_set_special_field_with_alias(_name1,_name2) \
} else if (!strcasecmp(c->argv[2]->ptr,_name1) || \
!strcasecmp(c->argv[2]->ptr,_name2)) {
#define config_set_else } else
void configSetCommand(client *c) {
robj *o;
long long ll;
int err;
char *errstr = NULL;
serverAssertWithInfo(c,c->argv[2],sdsEncodedObject(c->argv[2]));
serverAssertWithInfo(c,c->argv[3],sdsEncodedObject(c->argv[3]));
o = c->argv[3];
/* Iterate the configs that are standard */
for (standardConfig *config = configs; config->name != NULL; config++) {
if(config->modifiable && (!strcasecmp(c->argv[2]->ptr,config->name) ||
(config->alias && !strcasecmp(c->argv[2]->ptr,config->alias))))
{
if (!config->interface.set(config->data,o->ptr, &errstr)) {
goto badfmt;
}
addReply(c,shared.ok);
return;
}
}
if (0) { /* this starts the config_set macros else-if chain. */
/* Special fields that can't be handled with general macros. */
config_set_special_field("requirepass") {
if (sdslen(o->ptr) > CONFIG_AUTHPASS_MAX_LEN) goto badfmt;
/* The old "requirepass" directive just translates to setting
* a password to the default user. */
ACLSetUser(DefaultUser,"resetpass",-1);
sds aclop = sdscatprintf(sdsempty(),">%s",(char*)o->ptr);
ACLSetUser(DefaultUser,aclop,sdslen(aclop));
sdsfree(aclop);
} config_set_special_field("save") {
int vlen, j;
sds *v = sdssplitlen(o->ptr,sdslen(o->ptr)," ",1,&vlen);
/* Perform sanity check before setting the new config:
* - Even number of args
* - Seconds >= 1, changes >= 0 */
if (vlen & 1) {
sdsfreesplitres(v,vlen);
goto badfmt;
}
for (j = 0; j < vlen; j++) {
char *eptr;
long val;
val = strtoll(v[j], &eptr, 10);
if (eptr[0] != '\0' ||
((j & 1) == 0 && val < 1) ||
((j & 1) == 1 && val < 0)) {
sdsfreesplitres(v,vlen);
goto badfmt;
}
}
/* Finally set the new config */
resetServerSaveParams();
for (j = 0; j < vlen; j += 2) {
time_t seconds;
int changes;
seconds = strtoll(v[j],NULL,10);
changes = strtoll(v[j+1],NULL,10);
appendServerSaveParams(seconds, changes);
}
sdsfreesplitres(v,vlen);
} config_set_special_field("dir") {
if (chdir((char*)o->ptr) == -1) {
addReplyErrorFormat(c,"Changing directory: %s", strerror(errno));
return;
}
} config_set_special_field("client-output-buffer-limit") {
int vlen, j;
sds *v = sdssplitlen(o->ptr,sdslen(o->ptr)," ",1,&vlen);
/* We need a multiple of 4: <class> <hard> <soft> <soft_seconds> */
if (vlen % 4) {
sdsfreesplitres(v,vlen);
goto badfmt;
}
/* Sanity check of single arguments, so that we either refuse the
* whole configuration string or accept it all, even if a single
* error in a single client class is present. */
for (j = 0; j < vlen; j++) {
long val;
if ((j % 4) == 0) {
int class = getClientTypeByName(v[j]);
if (class == -1 || class == CLIENT_TYPE_MASTER) {
sdsfreesplitres(v,vlen);
goto badfmt;
}
} else {
val = memtoll(v[j], &err);
if (err || val < 0) {
sdsfreesplitres(v,vlen);
goto badfmt;
}
}
}
/* Finally set the new config */
for (j = 0; j < vlen; j += 4) {
int class;
unsigned long long hard, soft;
int soft_seconds;
class = getClientTypeByName(v[j]);
hard = memtoll(v[j+1],NULL);
soft = memtoll(v[j+2],NULL);
soft_seconds = strtoll(v[j+3],NULL,10);
server.client_obuf_limits[class].hard_limit_bytes = hard;
server.client_obuf_limits[class].soft_limit_bytes = soft;
server.client_obuf_limits[class].soft_limit_seconds = soft_seconds;
}
sdsfreesplitres(v,vlen);
} config_set_special_field("notify-keyspace-events") {
int flags = keyspaceEventsStringToFlags(o->ptr);
if (flags == -1) goto badfmt;
server.notify_keyspace_events = flags;
/* Numerical fields.
* config_set_numerical_field(name,var,min,max) */
} config_set_numerical_field(
"watchdog-period",ll,0,INT_MAX) {
if (ll)
enableWatchdog(ll);
else
disableWatchdog();
/* Memory fields.
* config_set_memory_field(name,var) */
} config_set_memory_field(
"client-query-buffer-limit",server.client_max_querybuf_len) {
/* Everyhing else is an error... */
} config_set_else {
addReplyErrorFormat(c,"Unsupported CONFIG parameter: %s",
(char*)c->argv[2]->ptr);
return;
}
/* On success we just return a generic OK for all the options. */
addReply(c,shared.ok);
return;
badfmt: /* Bad format errors */
if (errstr) {
addReplyErrorFormat(c,"Invalid argument '%s' for CONFIG SET '%s' - %s",
(char*)o->ptr,
(char*)c->argv[2]->ptr,
errstr);
} else {
addReplyErrorFormat(c,"Invalid argument '%s' for CONFIG SET '%s'",
(char*)o->ptr,
(char*)c->argv[2]->ptr);
}
}
/*-----------------------------------------------------------------------------
* CONFIG GET implementation
*----------------------------------------------------------------------------*/
#define config_get_string_field(_name,_var) do { \
if (stringmatch(pattern,_name,1)) { \
addReplyBulkCString(c,_name); \
addReplyBulkCString(c,_var ? _var : ""); \
matches++; \
} \
} while(0);
#define config_get_bool_field(_name,_var) do { \
if (stringmatch(pattern,_name,1)) { \
addReplyBulkCString(c,_name); \
addReplyBulkCString(c,_var ? "yes" : "no"); \
matches++; \
} \
} while(0);
#define config_get_numerical_field(_name,_var) do { \
if (stringmatch(pattern,_name,1)) { \
ll2string(buf,sizeof(buf),_var); \
addReplyBulkCString(c,_name); \
addReplyBulkCString(c,buf); \
matches++; \
} \
} while(0);
void configGetCommand(client *c) {
robj *o = c->argv[2];
void *replylen = addReplyDeferredLen(c);
char *pattern = o->ptr;
char buf[128];
int matches = 0;
serverAssertWithInfo(c,o,sdsEncodedObject(o));
/* Iterate the configs that are standard */
for (standardConfig *config = configs; config->name != NULL; config++) {
if (stringmatch(pattern,config->name,1)) {
addReplyBulkCString(c,config->name);
config->interface.get(c,config->data);
matches++;
}
if (config->alias && stringmatch(pattern,config->alias,1)) {
addReplyBulkCString(c,config->alias);
config->interface.get(c,config->data);
matches++;
}
}
/* String values */
config_get_string_field("logfile",server.logfile);
/* Numerical values */
config_get_numerical_field("client-query-buffer-limit",server.client_max_querybuf_len);
config_get_numerical_field("watchdog-period",server.watchdog_period);
/* Everything we can't handle with macros follows. */
if (stringmatch(pattern,"dir",1)) {
char buf[1024];
if (getcwd(buf,sizeof(buf)) == NULL)
buf[0] = '\0';
addReplyBulkCString(c,"dir");
addReplyBulkCString(c,buf);
matches++;
}
if (stringmatch(pattern,"save",1)) {
sds buf = sdsempty();
int j;
for (j = 0; j < server.saveparamslen; j++) {
buf = sdscatprintf(buf,"%jd %d",
(intmax_t)server.saveparams[j].seconds,
server.saveparams[j].changes);
if (j != server.saveparamslen-1)
buf = sdscatlen(buf," ",1);
}
addReplyBulkCString(c,"save");
addReplyBulkCString(c,buf);
sdsfree(buf);
matches++;
}
if (stringmatch(pattern,"client-output-buffer-limit",1)) {
sds buf = sdsempty();
int j;
for (j = 0; j < CLIENT_TYPE_OBUF_COUNT; j++) {
buf = sdscatprintf(buf,"%s %llu %llu %ld",
getClientTypeName(j),
server.client_obuf_limits[j].hard_limit_bytes,
server.client_obuf_limits[j].soft_limit_bytes,
(long) server.client_obuf_limits[j].soft_limit_seconds);
if (j != CLIENT_TYPE_OBUF_COUNT-1)
buf = sdscatlen(buf," ",1);
}
addReplyBulkCString(c,"client-output-buffer-limit");
addReplyBulkCString(c,buf);
sdsfree(buf);
matches++;
}
if (stringmatch(pattern,"unixsocketperm",1)) {
char buf[32];
snprintf(buf,sizeof(buf),"%o",server.unixsocketperm);
addReplyBulkCString(c,"unixsocketperm");
addReplyBulkCString(c,buf);
matches++;
}
if (stringmatch(pattern,"slaveof",1) ||
stringmatch(pattern,"replicaof",1))
{
char *optname = stringmatch(pattern,"slaveof",1) ?
"slaveof" : "replicaof";
char buf[256];
addReplyBulkCString(c,optname);
if (server.masterhost)
snprintf(buf,sizeof(buf),"%s %d",
server.masterhost, server.masterport);
else
buf[0] = '\0';
addReplyBulkCString(c,buf);
matches++;
}
if (stringmatch(pattern,"notify-keyspace-events",1)) {
sds flags = keyspaceEventsFlagsToString(server.notify_keyspace_events);
addReplyBulkCString(c,"notify-keyspace-events");
addReplyBulkSds(c,flags);
matches++;
}
if (stringmatch(pattern,"bind",1)) {
sds aux = sdsjoin(server.bindaddr,server.bindaddr_count," ");
addReplyBulkCString(c,"bind");
addReplyBulkCString(c,aux);
sdsfree(aux);
matches++;
}
if (stringmatch(pattern,"requirepass",1)) {
addReplyBulkCString(c,"requirepass");
sds password = ACLDefaultUserFirstPassword();
if (password) {
addReplyBulkCBuffer(c,password,sdslen(password));
} else {
addReplyBulkCString(c,"");
}
matches++;
}
setDeferredMapLen(c,replylen,matches);
}
/*-----------------------------------------------------------------------------
* CONFIG REWRITE implementation
*----------------------------------------------------------------------------*/
#define REDIS_CONFIG_REWRITE_SIGNATURE "# Generated by CONFIG REWRITE"
/* We use the following dictionary type to store where a configuration
* option is mentioned in the old configuration file, so it's
* like "maxmemory" -> list of line numbers (first line is zero). */
uint64_t dictSdsCaseHash(const void *key);
int dictSdsKeyCaseCompare(void *privdata, const void *key1, const void *key2);
void dictSdsDestructor(void *privdata, void *val);
void dictListDestructor(void *privdata, void *val);
/* Sentinel config rewriting is implemented inside sentinel.c by
* rewriteConfigSentinelOption(). */
void rewriteConfigSentinelOption(struct rewriteConfigState *state);
dictType optionToLineDictType = {
dictSdsCaseHash, /* hash function */
NULL, /* key dup */
NULL, /* val dup */
dictSdsKeyCaseCompare, /* key compare */
dictSdsDestructor, /* key destructor */
dictListDestructor /* val destructor */
};
dictType optionSetDictType = {
dictSdsCaseHash, /* hash function */
NULL, /* key dup */
NULL, /* val dup */
dictSdsKeyCaseCompare, /* key compare */
dictSdsDestructor, /* key destructor */
NULL /* val destructor */
};
/* The config rewrite state. */
struct rewriteConfigState {
dict *option_to_line; /* Option -> list of config file lines map */
dict *rewritten; /* Dictionary of already processed options */
int numlines; /* Number of lines in current config */
sds *lines; /* Current lines as an array of sds strings */
int has_tail; /* True if we already added directives that were
not present in the original config file. */
};
/* Append the new line to the current configuration state. */
void rewriteConfigAppendLine(struct rewriteConfigState *state, sds line) {
state->lines = zrealloc(state->lines, sizeof(char*) * (state->numlines+1));
state->lines[state->numlines++] = line;
}
/* Populate the option -> list of line numbers map. */
void rewriteConfigAddLineNumberToOption(struct rewriteConfigState *state, sds option, int linenum) {
list *l = dictFetchValue(state->option_to_line,option);
if (l == NULL) {
l = listCreate();
dictAdd(state->option_to_line,sdsdup(option),l);
}
listAddNodeTail(l,(void*)(long)linenum);
}
/* Add the specified option to the set of processed options.
* This is useful as only unused lines of processed options will be blanked
* in the config file, while options the rewrite process does not understand
* remain untouched. */
void rewriteConfigMarkAsProcessed(struct rewriteConfigState *state, const char *option) {
sds opt = sdsnew(option);
if (dictAdd(state->rewritten,opt,NULL) != DICT_OK) sdsfree(opt);
}
/* Read the old file, split it into lines to populate a newly created
* config rewrite state, and return it to the caller.
*
* If it is impossible to read the old file, NULL is returned.
* If the old file does not exist at all, an empty state is returned. */
struct rewriteConfigState *rewriteConfigReadOldFile(char *path) {
FILE *fp = fopen(path,"r");
if (fp == NULL && errno != ENOENT) return NULL;
char buf[CONFIG_MAX_LINE+1];
int linenum = -1;
struct rewriteConfigState *state = zmalloc(sizeof(*state));
state->option_to_line = dictCreate(&optionToLineDictType,NULL);
state->rewritten = dictCreate(&optionSetDictType,NULL);
state->numlines = 0;
state->lines = NULL;
state->has_tail = 0;
if (fp == NULL) return state;
/* Read the old file line by line, populate the state. */
while(fgets(buf,CONFIG_MAX_LINE+1,fp) != NULL) {
int argc;
sds *argv;
sds line = sdstrim(sdsnew(buf),"\r\n\t ");
linenum++; /* Zero based, so we init at -1 */
/* Handle comments and empty lines. */
if (line[0] == '#' || line[0] == '\0') {
if (!state->has_tail && !strcmp(line,REDIS_CONFIG_REWRITE_SIGNATURE))
state->has_tail = 1;
rewriteConfigAppendLine(state,line);
continue;
}
/* Not a comment, split into arguments. */
argv = sdssplitargs(line,&argc);
if (argv == NULL) {
/* Apparently the line is unparsable for some reason, for
* instance it may have unbalanced quotes. Load it as a
* comment. */
sds aux = sdsnew("# ??? ");
aux = sdscatsds(aux,line);
sdsfree(line);
rewriteConfigAppendLine(state,aux);
continue;
}
sdstolower(argv[0]); /* We only want lowercase config directives. */
/* Now we populate the state according to the content of this line.
* Append the line and populate the option -> line numbers map. */
rewriteConfigAppendLine(state,line);
/* Translate options using the word "slave" to the corresponding name
* "replica", before adding such option to the config name -> lines
* mapping. */
char *p = strstr(argv[0],"slave");
if (p) {
sds alt = sdsempty();
alt = sdscatlen(alt,argv[0],p-argv[0]);;
alt = sdscatlen(alt,"replica",7);
alt = sdscatlen(alt,p+5,strlen(p+5));
sdsfree(argv[0]);
argv[0] = alt;
}
rewriteConfigAddLineNumberToOption(state,argv[0],linenum);
sdsfreesplitres(argv,argc);
}
fclose(fp);
return state;
}
/* Rewrite the specified configuration option with the new "line".
* It progressively uses lines of the file that were already used for the same
* configuration option in the old version of the file, removing that line from
* the map of options -> line numbers.
*
* If there are lines associated with a given configuration option and
* "force" is non-zero, the line is appended to the configuration file.
* Usually "force" is true when an option has not its default value, so it
* must be rewritten even if not present previously.
*
* The first time a line is appended into a configuration file, a comment
* is added to show that starting from that point the config file was generated
* by CONFIG REWRITE.
*
* "line" is either used, or freed, so the caller does not need to free it
* in any way. */
void rewriteConfigRewriteLine(struct rewriteConfigState *state, const char *option, sds line, int force) {
sds o = sdsnew(option);
list *l = dictFetchValue(state->option_to_line,o);
rewriteConfigMarkAsProcessed(state,option);
if (!l && !force) {
/* Option not used previously, and we are not forced to use it. */
sdsfree(line);
sdsfree(o);
return;
}
if (l) {
listNode *ln = listFirst(l);
int linenum = (long) ln->value;
/* There are still lines in the old configuration file we can reuse
* for this option. Replace the line with the new one. */
listDelNode(l,ln);
if (listLength(l) == 0) dictDelete(state->option_to_line,o);
sdsfree(state->lines[linenum]);
state->lines[linenum] = line;
} else {
/* Append a new line. */
if (!state->has_tail) {
rewriteConfigAppendLine(state,
sdsnew(REDIS_CONFIG_REWRITE_SIGNATURE));
state->has_tail = 1;
}
rewriteConfigAppendLine(state,line);
}
sdsfree(o);
}
/* Write the long long 'bytes' value as a string in a way that is parsable
* inside redis.conf. If possible uses the GB, MB, KB notation. */
int rewriteConfigFormatMemory(char *buf, size_t len, long long bytes) {
int gb = 1024*1024*1024;
int mb = 1024*1024;
int kb = 1024;
if (bytes && (bytes % gb) == 0) {
return snprintf(buf,len,"%lldgb",bytes/gb);
} else if (bytes && (bytes % mb) == 0) {
return snprintf(buf,len,"%lldmb",bytes/mb);
} else if (bytes && (bytes % kb) == 0) {
return snprintf(buf,len,"%lldkb",bytes/kb);
} else {
return snprintf(buf,len,"%lld",bytes);
}
}
/* Rewrite a simple "option-name <bytes>" configuration option. */
void rewriteConfigBytesOption(struct rewriteConfigState *state, const char *option, long long value, long long defvalue) {
char buf[64];
int force = value != defvalue;
sds line;
rewriteConfigFormatMemory(buf,sizeof(buf),value);
line = sdscatprintf(sdsempty(),"%s %s",option,buf);
rewriteConfigRewriteLine(state,option,line,force);
}
/* Rewrite a yes/no option. */
void rewriteConfigYesNoOption(struct rewriteConfigState *state, const char *option, int value, int defvalue) {
int force = value != defvalue;
sds line = sdscatprintf(sdsempty(),"%s %s",option,
value ? "yes" : "no");
rewriteConfigRewriteLine(state,option,line,force);
}
/* Rewrite a string option. */
void rewriteConfigStringOption(struct rewriteConfigState *state, const char *option, char *value, const char *defvalue) {
int force = 1;
sds line;
/* String options set to NULL need to be not present at all in the
* configuration file to be set to NULL again at the next reboot. */
if (value == NULL) {
rewriteConfigMarkAsProcessed(state,option);
return;
}
/* Set force to zero if the value is set to its default. */
if (defvalue && strcmp(value,defvalue) == 0) force = 0;
line = sdsnew(option);
line = sdscatlen(line, " ", 1);
line = sdscatrepr(line, value, strlen(value));
rewriteConfigRewriteLine(state,option,line,force);
}
/* Rewrite a numerical (long long range) option. */
void rewriteConfigNumericalOption(struct rewriteConfigState *state, const char *option, long long value, long long defvalue) {
int force = value != defvalue;
sds line = sdscatprintf(sdsempty(),"%s %lld",option,value);
rewriteConfigRewriteLine(state,option,line,force);
}
/* Rewrite a octal option. */
void rewriteConfigOctalOption(struct rewriteConfigState *state, char *option, int value, int defvalue) {
int force = value != defvalue;
sds line = sdscatprintf(sdsempty(),"%s %o",option,value);
rewriteConfigRewriteLine(state,option,line,force);
}
/* Rewrite an enumeration option. It takes as usually state and option name,
* and in addition the enumeration array and the default value for the
* option. */
void rewriteConfigEnumOption(struct rewriteConfigState *state, const char *option, int value, configEnum *ce, int defval) {
sds line;
const char *name = configEnumGetNameOrUnknown(ce,value);
int force = value != defval;
line = sdscatprintf(sdsempty(),"%s %s",option,name);
rewriteConfigRewriteLine(state,option,line,force);
}
/* Rewrite the save option. */
void rewriteConfigSaveOption(struct rewriteConfigState *state) {
int j;
sds line;
/* Note that if there are no save parameters at all, all the current
* config line with "save" will be detected as orphaned and deleted,
* resulting into no RDB persistence as expected. */
for (j = 0; j < server.saveparamslen; j++) {
line = sdscatprintf(sdsempty(),"save %ld %d",
(long) server.saveparams[j].seconds, server.saveparams[j].changes);
rewriteConfigRewriteLine(state,"save",line,1);
}
/* Mark "save" as processed in case server.saveparamslen is zero. */
rewriteConfigMarkAsProcessed(state,"save");
}
/* Rewrite the user option. */
void rewriteConfigUserOption(struct rewriteConfigState *state) {
/* If there is a user file defined we just mark this configuration
* directive as processed, so that all the lines containing users
* inside the config file gets discarded. */
if (server.acl_filename[0] != '\0') {
rewriteConfigMarkAsProcessed(state,"user");
return;
}
/* Otherwise scan the list of users and rewrite every line. Note that
* in case the list here is empty, the effect will just be to comment
* all the users directive inside the config file. */
raxIterator ri;
raxStart(&ri,Users);
raxSeek(&ri,"^",NULL,0);
while(raxNext(&ri)) {
user *u = ri.data;
sds line = sdsnew("user ");
line = sdscatsds(line,u->name);
line = sdscatlen(line," ",1);
sds descr = ACLDescribeUser(u);
line = sdscatsds(line,descr);
sdsfree(descr);
rewriteConfigRewriteLine(state,"user",line,1);
}
raxStop(&ri);
/* Mark "user" as processed in case there are no defined users. */
rewriteConfigMarkAsProcessed(state,"user");
}
/* Rewrite the dir option, always using absolute paths.*/
void rewriteConfigDirOption(struct rewriteConfigState *state) {
char cwd[1024];
if (getcwd(cwd,sizeof(cwd)) == NULL) {
rewriteConfigMarkAsProcessed(state,"dir");
return; /* no rewrite on error. */
}
rewriteConfigStringOption(state,"dir",cwd,NULL);
}
/* Rewrite the slaveof option. */
void rewriteConfigSlaveofOption(struct rewriteConfigState *state, char *option) {
sds line;
/* If this is a master, we want all the slaveof config options
* in the file to be removed. Note that if this is a cluster instance
* we don't want a slaveof directive inside redis.conf. */
if (server.cluster_enabled || server.masterhost == NULL) {
rewriteConfigMarkAsProcessed(state,option);
return;
}
line = sdscatprintf(sdsempty(),"%s %s %d", option,
server.masterhost, server.masterport);
rewriteConfigRewriteLine(state,option,line,1);
}
/* Rewrite the notify-keyspace-events option. */
void rewriteConfigNotifykeyspaceeventsOption(struct rewriteConfigState *state) {
int force = server.notify_keyspace_events != 0;
char *option = "notify-keyspace-events";
sds line, flags;
flags = keyspaceEventsFlagsToString(server.notify_keyspace_events);
line = sdsnew(option);
line = sdscatlen(line, " ", 1);
line = sdscatrepr(line, flags, sdslen(flags));
sdsfree(flags);
rewriteConfigRewriteLine(state,option,line,force);
}
/* Rewrite the client-output-buffer-limit option. */
void rewriteConfigClientoutputbufferlimitOption(struct rewriteConfigState *state) {
int j;
char *option = "client-output-buffer-limit";
for (j = 0; j < CLIENT_TYPE_OBUF_COUNT; j++) {
int force = (server.client_obuf_limits[j].hard_limit_bytes !=
clientBufferLimitsDefaults[j].hard_limit_bytes) ||
(server.client_obuf_limits[j].soft_limit_bytes !=
clientBufferLimitsDefaults[j].soft_limit_bytes) ||
(server.client_obuf_limits[j].soft_limit_seconds !=
clientBufferLimitsDefaults[j].soft_limit_seconds);
sds line;
char hard[64], soft[64];
rewriteConfigFormatMemory(hard,sizeof(hard),
server.client_obuf_limits[j].hard_limit_bytes);
rewriteConfigFormatMemory(soft,sizeof(soft),
server.client_obuf_limits[j].soft_limit_bytes);
char *typename = getClientTypeName(j);
if (!strcmp(typename,"slave")) typename = "replica";
line = sdscatprintf(sdsempty(),"%s %s %s %s %ld",
option, typename, hard, soft,
(long) server.client_obuf_limits[j].soft_limit_seconds);
rewriteConfigRewriteLine(state,option,line,force);
}
}
/* Rewrite the bind option. */
void rewriteConfigBindOption(struct rewriteConfigState *state) {
int force = 1;
sds line, addresses;
char *option = "bind";
/* Nothing to rewrite if we don't have bind addresses. */
if (server.bindaddr_count == 0) {
rewriteConfigMarkAsProcessed(state,option);
return;
}
/* Rewrite as bind <addr1> <addr2> ... <addrN> */
addresses = sdsjoin(server.bindaddr,server.bindaddr_count," ");
line = sdsnew(option);
line = sdscatlen(line, " ", 1);
line = sdscatsds(line, addresses);
sdsfree(addresses);
rewriteConfigRewriteLine(state,option,line,force);
}
/* Rewrite the requirepass option. */
void rewriteConfigRequirepassOption(struct rewriteConfigState *state, char *option) {
int force = 1;
sds line;
sds password = ACLDefaultUserFirstPassword();
/* If there is no password set, we don't want the requirepass option
* to be present in the configuration at all. */
if (password == NULL) {
rewriteConfigMarkAsProcessed(state,option);
return;
}
line = sdsnew(option);
line = sdscatlen(line, " ", 1);
line = sdscatsds(line, password);
rewriteConfigRewriteLine(state,option,line,force);
}
/* Glue together the configuration lines in the current configuration
* rewrite state into a single string, stripping multiple empty lines. */
sds rewriteConfigGetContentFromState(struct rewriteConfigState *state) {
sds content = sdsempty();
int j, was_empty = 0;
for (j = 0; j < state->numlines; j++) {
/* Every cluster of empty lines is turned into a single empty line. */
if (sdslen(state->lines[j]) == 0) {
if (was_empty) continue;
was_empty = 1;
} else {
was_empty = 0;
}
content = sdscatsds(content,state->lines[j]);
content = sdscatlen(content,"\n",1);
}
return content;
}
/* Free the configuration rewrite state. */
void rewriteConfigReleaseState(struct rewriteConfigState *state) {
sdsfreesplitres(state->lines,state->numlines);
dictRelease(state->option_to_line);
dictRelease(state->rewritten);
zfree(state);
}
/* At the end of the rewrite process the state contains the remaining
* map between "option name" => "lines in the original config file".
* Lines used by the rewrite process were removed by the function
* rewriteConfigRewriteLine(), all the other lines are "orphaned" and
* should be replaced by empty lines.
*
* This function does just this, iterating all the option names and
* blanking all the lines still associated. */
void rewriteConfigRemoveOrphaned(struct rewriteConfigState *state) {
dictIterator *di = dictGetIterator(state->option_to_line);
dictEntry *de;
while((de = dictNext(di)) != NULL) {
list *l = dictGetVal(de);
sds option = dictGetKey(de);
/* Don't blank lines about options the rewrite process
* don't understand. */
if (dictFind(state->rewritten,option) == NULL) {
serverLog(LL_DEBUG,"Not rewritten option: %s", option);
continue;
}
while(listLength(l)) {
listNode *ln = listFirst(l);
int linenum = (long) ln->value;
sdsfree(state->lines[linenum]);
state->lines[linenum] = sdsempty();
listDelNode(l,ln);
}
}
dictReleaseIterator(di);
}
/* This function overwrites the old configuration file with the new content.
*
* 1) The old file length is obtained.
* 2) If the new content is smaller, padding is added.
* 3) A single write(2) call is used to replace the content of the file.
* 4) Later the file is truncated to the length of the new content.
*
* This way we are sure the file is left in a consistent state even if the
* process is stopped between any of the four operations.
*
* The function returns 0 on success, otherwise -1 is returned and errno
* set accordingly. */
int rewriteConfigOverwriteFile(char *configfile, sds content) {
int retval = 0;
int fd = open(configfile,O_RDWR|O_CREAT,0644);
int content_size = sdslen(content), padding = 0;
struct stat sb;
sds content_padded;
/* 1) Open the old file (or create a new one if it does not
* exist), get the size. */
if (fd == -1) return -1; /* errno set by open(). */
if (fstat(fd,&sb) == -1) {
close(fd);
return -1; /* errno set by fstat(). */
}
/* 2) Pad the content at least match the old file size. */
content_padded = sdsdup(content);
if (content_size < sb.st_size) {
/* If the old file was bigger, pad the content with
* a newline plus as many "#" chars as required. */
padding = sb.st_size - content_size;
content_padded = sdsgrowzero(content_padded,sb.st_size);
content_padded[content_size] = '\n';
memset(content_padded+content_size+1,'#',padding-1);
}
/* 3) Write the new content using a single write(2). */
if (write(fd,content_padded,strlen(content_padded)) == -1) {
retval = -1;
goto cleanup;
}
/* 4) Truncate the file to the right length if we used padding. */
if (padding) {
if (ftruncate(fd,content_size) == -1) {
/* Non critical error... */
}
}
cleanup:
sdsfree(content_padded);
close(fd);
return retval;
}
/* Rewrite the configuration file at "path".
* If the configuration file already exists, we try at best to retain comments
* and overall structure.
*
* Configuration parameters that are at their default value, unless already
* explicitly included in the old configuration file, are not rewritten.
*
* On error -1 is returned and errno is set accordingly, otherwise 0. */
int rewriteConfig(char *path) {
struct rewriteConfigState *state;
sds newcontent;
int retval;
/* Step 1: read the old config into our rewrite state. */
if ((state = rewriteConfigReadOldFile(path)) == NULL) return -1;
/* Step 2: rewrite every single option, replacing or appending it inside
* the rewrite state. */
/* Iterate the configs that are standard */
for (standardConfig *config = configs; config->name != NULL; config++) {
config->interface.rewrite(config->data, config->name, state);
}
rewriteConfigBindOption(state);
rewriteConfigOctalOption(state,"unixsocketperm",server.unixsocketperm,CONFIG_DEFAULT_UNIX_SOCKET_PERM);
rewriteConfigStringOption(state,"logfile",server.logfile,CONFIG_DEFAULT_LOGFILE);
rewriteConfigSaveOption(state);
rewriteConfigUserOption(state);
rewriteConfigDirOption(state);
rewriteConfigSlaveofOption(state,"replicaof");
rewriteConfigRequirepassOption(state,"requirepass");
rewriteConfigBytesOption(state,"client-query-buffer-limit",server.client_max_querybuf_len,PROTO_MAX_QUERYBUF_LEN);
rewriteConfigStringOption(state,"cluster-config-file",server.cluster_configfile,CONFIG_DEFAULT_CLUSTER_CONFIG_FILE);
rewriteConfigNotifykeyspaceeventsOption(state);
rewriteConfigClientoutputbufferlimitOption(state);
/* Rewrite Sentinel config if in Sentinel mode. */
if (server.sentinel_mode) rewriteConfigSentinelOption(state);
/* Step 3: remove all the orphaned lines in the old file, that is, lines
* that were used by a config option and are no longer used, like in case
* of multiple "save" options or duplicated options. */
rewriteConfigRemoveOrphaned(state);
/* Step 4: generate a new configuration file from the modified state
* and write it into the original file. */
newcontent = rewriteConfigGetContentFromState(state);
retval = rewriteConfigOverwriteFile(server.configfile,newcontent);
sdsfree(newcontent);
rewriteConfigReleaseState(state);
return retval;
}
/*-----------------------------------------------------------------------------
* Configs that fit one of the major types and require no special handling
*----------------------------------------------------------------------------*/
#define LOADBUF_SIZE 256
static char loadbuf[LOADBUF_SIZE];
#define MODIFIABLE_CONFIG 1
#define IMMUTABLE_CONFIG 0
#define embedCommonConfig(config_name, config_alias, is_modifiable) \
.name = (config_name), \
.alias = (config_alias), \
.modifiable = (is_modifiable),
#define embedConfigInterface(initfn, loadfn, setfn, getfn, rewritefn) .interface = { \
.init = (initfn), \
.load = (loadfn), \
.set = (setfn), \
.get = (getfn), \
.rewrite = (rewritefn) \
},
/* What follows is the generic config types that are supported. To add a new
* config with one of these types, add it to the standardConfig table with
* the creation macro for each type.
*
* Each type contains the following:
* * A function defining how to load this type on startup.
* * A function defining how to update this type on CONFIG SET.
* * A function defining how to serialize this type on CONFIG SET.
* * A function defining how to rewrite this type on CONFIG REWRITE.
* * A Macro defining how to create this type.
*/
/* Bool Configs */
static void boolConfigInit(typeData data) {
*data.yesno.config = data.yesno.default_value;
}
static int boolConfigLoad(typeData data, sds *argv, int argc, char **err) {
int yn;
if (argc != 2) {
*err = "wrong number of arguments";
return 0;
}
if ((yn = yesnotoi(argv[1])) == -1) {
*err = "argument must be 'yes' or 'no'";
return 0;
}
if (data.yesno.is_valid_fn && !data.yesno.is_valid_fn(yn, err))
return 0;
*data.yesno.config = yn;
return 1;
}
static int boolConfigSet(typeData data, sds value, char **err) {
int yn = yesnotoi(value);
if (yn == -1) return 0;
if (data.yesno.is_valid_fn && !data.yesno.is_valid_fn(yn, err))
return 0;
int prev = *(data.yesno.config);
*(data.yesno.config) = yn;
if (data.yesno.update_fn && !data.yesno.update_fn(yn, prev, err)) {
*(data.yesno.config) = prev;
return 0;
}
return 1;
}
static void boolConfigGet(client *c, typeData data) {
addReplyBulkCString(c, *data.yesno.config ? "yes" : "no");
}
static void boolConfigRewrite(typeData data, const char *name, struct rewriteConfigState *state) {
rewriteConfigYesNoOption(state, name,*(data.yesno.config), data.yesno.default_value);
}
#define createBoolConfig(name, alias, modifiable, config_addr, default, is_valid, update) { \
embedCommonConfig(name, alias, modifiable) \
embedConfigInterface(boolConfigInit, boolConfigLoad, boolConfigSet, boolConfigGet, boolConfigRewrite) \
.data.yesno = { \
.config = &(config_addr), \
.default_value = (default), \
.is_valid_fn = (is_valid), \
.update_fn = (update), \
} \
}
/* String Configs */
static void stringConfigInit(typeData data) {
if (data.string.convert_empty_to_null) {
*data.string.config = data.string.default_value ? zstrdup(data.string.default_value) : NULL;
} else {
*data.string.config = zstrdup(data.string.default_value);
}
}
static int stringConfigLoad(typeData data, sds *argv, int argc, char **err) {
if (argc != 2) {
*err = "wrong number of arguments";
return 0;
}
if (data.string.is_valid_fn && !data.string.is_valid_fn(argv[1], err))
return 0;
zfree(*data.string.config);
if (data.string.convert_empty_to_null) {
*data.string.config = argv[1][0] ? zstrdup(argv[1]) : NULL;
} else {
*data.string.config = zstrdup(argv[1]);
}
return 1;
}
static int stringConfigSet(typeData data, sds value, char **err) {
if (data.string.is_valid_fn && !data.string.is_valid_fn(value, err))
return 0;
char *prev = *data.string.config;
if (data.string.convert_empty_to_null) {
*data.string.config = value[0] ? zstrdup(value) : NULL;
} else {
*data.string.config = zstrdup(value);
}
if (data.string.update_fn && !data.string.update_fn(*data.string.config, prev, err)) {
zfree(*data.string.config);
*data.string.config = prev;
return 0;
}
zfree(prev);
return 1;
}
static void stringConfigGet(client *c, typeData data) {
addReplyBulkCString(c, *data.string.config ? *data.string.config : "");
}
static void stringConfigRewrite(typeData data, const char *name, struct rewriteConfigState *state) {
rewriteConfigStringOption(state, name,*(data.string.config), data.string.default_value);
}
#define ALLOW_EMPTY_STRING 0
#define EMPTY_STRING_IS_NULL 1
#define createStringConfig(name, alias, modifiable, empty_to_null, config_addr, default, is_valid, update) { \
embedCommonConfig(name, alias, modifiable) \
embedConfigInterface(stringConfigInit, stringConfigLoad, stringConfigSet, stringConfigGet, stringConfigRewrite) \
.data.string = { \
.config = &(config_addr), \
.default_value = (default), \
.is_valid_fn = (is_valid), \
.update_fn = (update), \
.convert_empty_to_null = (empty_to_null), \
} \
}
/* Enum configs */
static void configEnumInit(typeData data) {
*data.enumd.config = data.enumd.default_value;
}
static int configEnumLoad(typeData data, sds *argv, int argc, char **err) {
if (argc != 2) {
*err = "wrong number of arguments";
return 0;
}
int enumval = configEnumGetValue(data.enumd.enum_value, argv[1]);
if (enumval == INT_MIN) {
sds enumerr = sdsnew("argument must be one of the following: ");
configEnum *enumNode = data.enumd.enum_value;
while(enumNode->name != NULL) {
enumerr = sdscatlen(enumerr, enumNode->name, strlen(enumNode->name));
enumerr = sdscatlen(enumerr, ", ", 2);
enumNode++;
}
enumerr[sdslen(enumerr) - 2] = '\0';
/* Make sure we don't overrun the fixed buffer */
enumerr[LOADBUF_SIZE - 1] = '\0';
strncpy(loadbuf, enumerr, LOADBUF_SIZE);
sdsfree(enumerr);
*err = loadbuf;
return 0;
}
if (data.enumd.is_valid_fn && !data.enumd.is_valid_fn(enumval, err))
return 0;
*(data.enumd.config) = enumval;
return 1;
}
static int configEnumSet(typeData data, sds value, char **err) {
int enumval = configEnumGetValue(data.enumd.enum_value, value);
if (enumval == INT_MIN) return 0;
if (data.enumd.is_valid_fn && !data.enumd.is_valid_fn(enumval, err))
return 0;
int prev = *(data.enumd.config);
*(data.enumd.config) = enumval;
if (data.enumd.update_fn && !data.enumd.update_fn(enumval, prev, err)) {
*(data.enumd.config) = prev;
return 0;
}
return 1;
}
static void configEnumGet(client *c, typeData data) {
addReplyBulkCString(c, configEnumGetNameOrUnknown(data.enumd.enum_value,*data.enumd.config));
}
static void configEnumRewrite(typeData data, const char *name, struct rewriteConfigState *state) {
rewriteConfigEnumOption(state, name,*(data.enumd.config), data.enumd.enum_value, data.enumd.default_value);
}
#define createEnumConfig(name, alias, modifiable, enum, config_addr, default, is_valid, update) { \
embedCommonConfig(name, alias, modifiable) \
embedConfigInterface(configEnumInit, configEnumLoad, configEnumSet, configEnumGet, configEnumRewrite) \
.data.enumd = { \
.config = &(config_addr), \
.default_value = (default), \
.is_valid_fn = (is_valid), \
.update_fn = (update), \
.enum_value = (enum), \
} \
}
/* Gets a 'long long val' and sets it into the union, using a macro to get
* compile time type check. */
#define SET_NUMERIC_TYPE(val) \
if (data.numeric.numeric_type == NUMERIC_TYPE_INT) { \
*(data.numeric.config.i) = (int) val; \
} else if (data.numeric.numeric_type == NUMERIC_TYPE_UINT) { \
*(data.numeric.config.ui) = (unsigned int) val; \
} else if (data.numeric.numeric_type == NUMERIC_TYPE_LONG) { \
*(data.numeric.config.l) = (long) val; \
} else if (data.numeric.numeric_type == NUMERIC_TYPE_ULONG) { \
*(data.numeric.config.ul) = (unsigned long) val; \
} else if (data.numeric.numeric_type == NUMERIC_TYPE_LONG_LONG) { \
*(data.numeric.config.ll) = (long long) val; \
} else if (data.numeric.numeric_type == NUMERIC_TYPE_ULONG_LONG) { \
*(data.numeric.config.ull) = (unsigned long long) val; \
} else if (data.numeric.numeric_type == NUMERIC_TYPE_SIZE_T) { \
*(data.numeric.config.st) = (size_t) val; \
} else if (data.numeric.numeric_type == NUMERIC_TYPE_SSIZE_T) { \
*(data.numeric.config.sst) = (ssize_t) val; \
} else if (data.numeric.numeric_type == NUMERIC_TYPE_OFF_T) { \
*(data.numeric.config.ot) = (off_t) val; \
} else if (data.numeric.numeric_type == NUMERIC_TYPE_TIME_T) { \
*(data.numeric.config.tt) = (time_t) val; \
}
/* Gets a 'long long val' and sets it with the value from the union, using a
* macro to get compile time type check. */
#define GET_NUMERIC_TYPE(val) \
if (data.numeric.numeric_type == NUMERIC_TYPE_INT) { \
val = *(data.numeric.config.i); \
} else if (data.numeric.numeric_type == NUMERIC_TYPE_UINT) { \
val = *(data.numeric.config.ui); \
} else if (data.numeric.numeric_type == NUMERIC_TYPE_LONG) { \
val = *(data.numeric.config.l); \
} else if (data.numeric.numeric_type == NUMERIC_TYPE_ULONG) { \
val = *(data.numeric.config.ul); \
} else if (data.numeric.numeric_type == NUMERIC_TYPE_LONG_LONG) { \
val = *(data.numeric.config.ll); \
} else if (data.numeric.numeric_type == NUMERIC_TYPE_ULONG_LONG) { \
val = *(data.numeric.config.ull); \
} else if (data.numeric.numeric_type == NUMERIC_TYPE_SIZE_T) { \
val = *(data.numeric.config.st); \
} else if (data.numeric.numeric_type == NUMERIC_TYPE_SSIZE_T) { \
val = *(data.numeric.config.sst); \
} else if (data.numeric.numeric_type == NUMERIC_TYPE_OFF_T) { \
val = *(data.numeric.config.ot); \
} else if (data.numeric.numeric_type == NUMERIC_TYPE_TIME_T) { \
val = *(data.numeric.config.tt); \
}
/* Numeric configs */
static void numericConfigInit(typeData data) {
SET_NUMERIC_TYPE(data.numeric.default_value)
}
static int numericBoundaryCheck(typeData data, long long ll, char **err) {
if (data.numeric.numeric_type == NUMERIC_TYPE_ULONG_LONG ||
data.numeric.numeric_type == NUMERIC_TYPE_UINT ||
data.numeric.numeric_type == NUMERIC_TYPE_SIZE_T) {
/* Boundary check for unsigned types */
unsigned long long ull = ll;
unsigned long long upper_bound = data.numeric.upper_bound;
unsigned long long lower_bound = data.numeric.lower_bound;
if (ull > upper_bound || ull < lower_bound) {
snprintf(loadbuf, LOADBUF_SIZE,
"argument must be between %llu and %llu inclusive",
lower_bound,
upper_bound);
*err = loadbuf;
return 0;
}
} else {
/* Boundary check for signed types */
if (ll > data.numeric.upper_bound || ll < data.numeric.lower_bound) {
snprintf(loadbuf, LOADBUF_SIZE,
"argument must be between %lld and %lld inclusive",
data.numeric.lower_bound,
data.numeric.upper_bound);
*err = loadbuf;
return 0;
}
}
return 1;
}
static int numericConfigLoad(typeData data, sds *argv, int argc, char **err) {
long long ll;
if (argc != 2) {
*err = "wrong number of arguments";
return 0;
}
if (data.numeric.is_memory) {
int memerr;
ll = memtoll(argv[1], &memerr);
if (memerr || ll < 0) {
*err = "argument must be a memory value";
return 0;
}
} else {
if (!string2ll(argv[1], sdslen(argv[1]),&ll)) {
*err = "argument couldn't be parsed into an integer" ;
return 0;
}
}
if (!numericBoundaryCheck(data, ll, err))
return 0;
if (data.numeric.is_valid_fn && !data.numeric.is_valid_fn(ll, err))
return 0;
SET_NUMERIC_TYPE(ll)
return 1;
}
static int numericConfigSet(typeData data, sds value, char **err) {
long long ll, prev = 0;
if (data.numeric.is_memory) {
int memerr;
ll = memtoll(value, &memerr);
if (memerr || ll < 0) return 0;
} else {
if (!string2ll(value, sdslen(value),&ll)) return 0;
}
if (!numericBoundaryCheck(data, ll, err))
return 0;
if (data.numeric.is_valid_fn && !data.numeric.is_valid_fn(ll, err))
return 0;
GET_NUMERIC_TYPE(prev)
SET_NUMERIC_TYPE(ll)
if (data.numeric.update_fn && !data.numeric.update_fn(ll, prev, err)) {
SET_NUMERIC_TYPE(prev)
return 0;
}
return 1;
}
static void numericConfigGet(client *c, typeData data) {
char buf[128];
long long value = 0;
GET_NUMERIC_TYPE(value)
ll2string(buf, sizeof(buf), value);
addReplyBulkCString(c, buf);
}
static void numericConfigRewrite(typeData data, const char *name, struct rewriteConfigState *state) {
long long value = 0;
GET_NUMERIC_TYPE(value)
if (data.numeric.is_memory) {
rewriteConfigBytesOption(state, name, value, data.numeric.default_value);
} else {
rewriteConfigNumericalOption(state, name, value, data.numeric.default_value);
}
}
#define INTEGER_CONFIG 0
#define MEMORY_CONFIG 1
#define embedCommonNumericalConfig(name, alias, modifiable, lower, upper, config_addr, default, memory, is_valid, update) { \
embedCommonConfig(name, alias, modifiable) \
embedConfigInterface(numericConfigInit, numericConfigLoad, numericConfigSet, numericConfigGet, numericConfigRewrite) \
.data.numeric = { \
.lower_bound = (lower), \
.upper_bound = (upper), \
.default_value = (default), \
.is_valid_fn = (is_valid), \
.update_fn = (update), \
.is_memory = (memory),
#define createIntConfig(name, alias, modifiable, lower, upper, config_addr, default, memory, is_valid, update) \
embedCommonNumericalConfig(name, alias, modifiable, lower, upper, config_addr, default, memory, is_valid, update) \
.numeric_type = NUMERIC_TYPE_INT, \
.config.i = &(config_addr) \
} \
}
#define createUIntConfig(name, alias, modifiable, lower, upper, config_addr, default, memory, is_valid, update) \
embedCommonNumericalConfig(name, alias, modifiable, lower, upper, config_addr, default, memory, is_valid, update) \
.numeric_type = NUMERIC_TYPE_UINT, \
.config.ui = &(config_addr) \
} \
}
#define createLongConfig(name, alias, modifiable, lower, upper, config_addr, default, memory, is_valid, update) \
embedCommonNumericalConfig(name, alias, modifiable, lower, upper, config_addr, default, memory, is_valid, update) \
.numeric_type = NUMERIC_TYPE_LONG, \
.config.l = &(config_addr) \
} \
}
#define createULongConfig(name, alias, modifiable, lower, upper, config_addr, default, memory, is_valid, update) \
embedCommonNumericalConfig(name, alias, modifiable, lower, upper, config_addr, default, memory, is_valid, update) \
.numeric_type = NUMERIC_TYPE_ULONG, \
.config.ul = &(config_addr) \
} \
}
#define createLongLongConfig(name, alias, modifiable, lower, upper, config_addr, default, memory, is_valid, update) \
embedCommonNumericalConfig(name, alias, modifiable, lower, upper, config_addr, default, memory, is_valid, update) \
.numeric_type = NUMERIC_TYPE_LONG_LONG, \
.config.ll = &(config_addr) \
} \
}
#define createULongLongConfig(name, alias, modifiable, lower, upper, config_addr, default, memory, is_valid, update) \
embedCommonNumericalConfig(name, alias, modifiable, lower, upper, config_addr, default, memory, is_valid, update) \
.numeric_type = NUMERIC_TYPE_ULONG_LONG, \
.config.ull = &(config_addr) \
} \
}
#define createSizeTConfig(name, alias, modifiable, lower, upper, config_addr, default, memory, is_valid, update) \
embedCommonNumericalConfig(name, alias, modifiable, lower, upper, config_addr, default, memory, is_valid, update) \
.numeric_type = NUMERIC_TYPE_SIZE_T, \
.config.st = &(config_addr) \
} \
}
#define createSSizeTConfig(name, alias, modifiable, lower, upper, config_addr, default, memory, is_valid, update) \
embedCommonNumericalConfig(name, alias, modifiable, lower, upper, config_addr, default, memory, is_valid, update) \
.numeric_type = NUMERIC_TYPE_SSIZE_T, \
.config.sst = &(config_addr) \
} \
}
#define createTimeTConfig(name, alias, modifiable, lower, upper, config_addr, default, memory, is_valid, update) \
embedCommonNumericalConfig(name, alias, modifiable, lower, upper, config_addr, default, memory, is_valid, update) \
.numeric_type = NUMERIC_TYPE_TIME_T, \
.config.tt = &(config_addr) \
} \
}
#define createOffTConfig(name, alias, modifiable, lower, upper, config_addr, default, memory, is_valid, update) \
embedCommonNumericalConfig(name, alias, modifiable, lower, upper, config_addr, default, memory, is_valid, update) \
.numeric_type = NUMERIC_TYPE_OFF_T, \
.config.ot = &(config_addr) \
} \
}
static int isValidActiveDefrag(int val, char **err) {
#ifndef HAVE_DEFRAG
if (val) {
*err = "Active defragmentation cannot be enabled: it "
"requires a Redis server compiled with a modified Jemalloc "
"like the one shipped by default with the Redis source "
"distribution";
return 0;
}
#else
UNUSED(val);
UNUSED(err);
#endif
return 1;
}
static int isValidDBfilename(char *val, char **err) {
if (!pathIsBaseName(val)) {
*err = "dbfilename can't be a path, just a filename";
return 0;
}
return 1;
}
static int isValidAOFfilename(char *val, char **err) {
if (!pathIsBaseName(val)) {
*err = "appendfilename can't be a path, just a filename";
return 0;
}
return 1;
}
static int updateHZ(long long val, long long prev, char **err) {
UNUSED(prev);
UNUSED(err);
/* Hz is more an hint from the user, so we accept values out of range
* but cap them to reasonable values. */
server.config_hz = val;
if (server.config_hz < CONFIG_MIN_HZ) server.config_hz = CONFIG_MIN_HZ;
if (server.config_hz > CONFIG_MAX_HZ) server.config_hz = CONFIG_MAX_HZ;
server.hz = server.config_hz;
return 1;
}
static int updateJemallocBgThread(int val, int prev, char **err) {
UNUSED(prev);
UNUSED(err);
set_jemalloc_bg_thread(val);
return 1;
}
static int updateReplBacklogSize(long long val, long long prev, char **err) {
/* resizeReplicationBacklog sets server.repl_backlog_size, and relies on
* being able to tell when the size changes, so restore prev becore calling it. */
UNUSED(err);
server.repl_backlog_size = prev;
resizeReplicationBacklog(val);
return 1;
}
static int updateMaxmemory(long long val, long long prev, char **err) {
UNUSED(prev);
UNUSED(err);
if (val) {
if ((unsigned long long)val < zmalloc_used_memory()) {
serverLog(LL_WARNING,"WARNING: the new maxmemory value set via CONFIG SET is smaller than the current memory usage. This will result in key eviction and/or the inability to accept new write commands depending on the maxmemory-policy.");
}
freeMemoryIfNeededAndSafe();
}
return 1;
}
static int updateGoodSlaves(long long val, long long prev, char **err) {
UNUSED(val);
UNUSED(prev);
UNUSED(err);
refreshGoodSlavesCount();
return 1;
}
static int updateAppendonly(int val, int prev, char **err) {
UNUSED(prev);
if (val == 0 && server.aof_state != AOF_OFF) {
stopAppendOnly();
} else if (val && server.aof_state == AOF_OFF) {
if (startAppendOnly() == C_ERR) {
*err = "Unable to turn on AOF. Check server logs.";
return 0;
}
}
return 1;
}
static int updateMaxclients(long long val, long long prev, char **err) {
/* Try to check if the OS is capable of supporting so many FDs. */
if (val > prev) {
adjustOpenFilesLimit();
if (server.maxclients != val) {
static char msg[128];
sprintf(msg, "The operating system is not able to handle the specified number of clients, try with %d", server.maxclients);
*err = msg;
if (server.maxclients > prev) {
server.maxclients = prev;
adjustOpenFilesLimit();
}
return 0;
}
if ((unsigned int) aeGetSetSize(server.el) <
server.maxclients + CONFIG_FDSET_INCR)
{
if (aeResizeSetSize(server.el,
server.maxclients + CONFIG_FDSET_INCR) == AE_ERR)
{
*err = "The event loop API used by Redis is not able to handle the specified number of clients";
return 0;
}
}
}
return 1;
}
#ifdef USE_OPENSSL
static int updateTlsCfg(char *val, char *prev, char **err) {
UNUSED(val);
UNUSED(prev);
UNUSED(err);
if (tlsConfigure(&server.tls_ctx_config) == C_ERR) {
*err = "Unable to configure tls-cert-file. Check server logs.";
return 0;
}
return 1;
}
static int updateTlsCfgBool(int val, int prev, char **err) {
UNUSED(val);
UNUSED(prev);
return updateTlsCfg(NULL, NULL, err);
}
#endif /* USE_OPENSSL */
standardConfig configs[] = {
/* Bool configs */
createBoolConfig("rdbchecksum", NULL, IMMUTABLE_CONFIG, server.rdb_checksum, 1, NULL, NULL),
createBoolConfig("daemonize", NULL, IMMUTABLE_CONFIG, server.daemonize, 0, NULL, NULL),
createBoolConfig("io-threads-do-reads", NULL, IMMUTABLE_CONFIG, server.io_threads_do_reads, 0,NULL, NULL), /* Read + parse from threads? */
createBoolConfig("lua-replicate-commands", NULL, MODIFIABLE_CONFIG, server.lua_always_replicate_commands, 1, NULL, NULL),
createBoolConfig("always-show-logo", NULL, IMMUTABLE_CONFIG, server.always_show_logo, 0, NULL, NULL),
createBoolConfig("protected-mode", NULL, MODIFIABLE_CONFIG, server.protected_mode, 1, NULL, NULL),
createBoolConfig("rdbcompression", NULL, MODIFIABLE_CONFIG, server.rdb_compression, 1, NULL, NULL),
createBoolConfig("activerehashing", NULL, MODIFIABLE_CONFIG, server.activerehashing, 1, NULL, NULL),
createBoolConfig("stop-writes-on-bgsave-error", NULL, MODIFIABLE_CONFIG, server.stop_writes_on_bgsave_err, 1, NULL, NULL),
createBoolConfig("dynamic-hz", NULL, MODIFIABLE_CONFIG, server.dynamic_hz, 1, NULL, NULL), /* Adapt hz to # of clients.*/
createBoolConfig("lazyfree-lazy-eviction", NULL, MODIFIABLE_CONFIG, server.lazyfree_lazy_eviction, 0, NULL, NULL),
createBoolConfig("lazyfree-lazy-expire", NULL, MODIFIABLE_CONFIG, server.lazyfree_lazy_expire, 0, NULL, NULL),
createBoolConfig("lazyfree-lazy-server-del", NULL, MODIFIABLE_CONFIG, server.lazyfree_lazy_server_del, 0, NULL, NULL),
createBoolConfig("repl-disable-tcp-nodelay", NULL, MODIFIABLE_CONFIG, server.repl_disable_tcp_nodelay, 0, NULL, NULL),
createBoolConfig("repl-diskless-sync", NULL, MODIFIABLE_CONFIG, server.repl_diskless_sync, 0, NULL, NULL),
createBoolConfig("gopher-enabled", NULL, MODIFIABLE_CONFIG, server.gopher_enabled, 0, NULL, NULL),
createBoolConfig("aof-rewrite-incremental-fsync", NULL, MODIFIABLE_CONFIG, server.aof_rewrite_incremental_fsync, 1, NULL, NULL),
createBoolConfig("no-appendfsync-on-rewrite", NULL, MODIFIABLE_CONFIG, server.aof_no_fsync_on_rewrite, 0, NULL, NULL),
createBoolConfig("cluster-require-full-coverage", NULL, MODIFIABLE_CONFIG, server.cluster_require_full_coverage, 1, NULL, NULL),
createBoolConfig("rdb-save-incremental-fsync", NULL, MODIFIABLE_CONFIG, server.rdb_save_incremental_fsync, 1, NULL, NULL),
createBoolConfig("aof-load-truncated", NULL, MODIFIABLE_CONFIG, server.aof_load_truncated, 1, NULL, NULL),
createBoolConfig("aof-use-rdb-preamble", NULL, MODIFIABLE_CONFIG, server.aof_use_rdb_preamble, 1, NULL, NULL),
createBoolConfig("cluster-replica-no-failover", "cluster-slave-no-failover", MODIFIABLE_CONFIG, server.cluster_slave_no_failover, 0, NULL, NULL), /* Failover by default. */
createBoolConfig("replica-lazy-flush", "slave-lazy-flush", MODIFIABLE_CONFIG, server.repl_slave_lazy_flush, 0, NULL, NULL),
createBoolConfig("replica-serve-stale-data", "slave-serve-stale-data", MODIFIABLE_CONFIG, server.repl_serve_stale_data, 1, NULL, NULL),
createBoolConfig("replica-read-only", "slave-read-only", MODIFIABLE_CONFIG, server.repl_slave_ro, 1, NULL, NULL),
createBoolConfig("replica-ignore-maxmemory", "slave-ignore-maxmemory", MODIFIABLE_CONFIG, server.repl_slave_ignore_maxmemory, 1, NULL, NULL),
createBoolConfig("jemalloc-bg-thread", NULL, MODIFIABLE_CONFIG, server.jemalloc_bg_thread, 1, NULL, updateJemallocBgThread),
createBoolConfig("activedefrag", NULL, MODIFIABLE_CONFIG, server.active_defrag_enabled, 0, isValidActiveDefrag, NULL),
createBoolConfig("syslog-enabled", NULL, IMMUTABLE_CONFIG, server.syslog_enabled, 0, NULL, NULL),
createBoolConfig("cluster-enabled", NULL, IMMUTABLE_CONFIG, server.cluster_enabled, 0, NULL, NULL),
createBoolConfig("appendonly", NULL, MODIFIABLE_CONFIG, server.aof_enabled, 0, NULL, updateAppendonly),
createBoolConfig("cluster-allow-reads-when-down", NULL, MODIFIABLE_CONFIG, server.cluster_allow_reads_when_down, 0, NULL, NULL),
/* String Configs */
createStringConfig("aclfile", NULL, IMMUTABLE_CONFIG, ALLOW_EMPTY_STRING, server.acl_filename, "", NULL, NULL),
createStringConfig("unixsocket", NULL, IMMUTABLE_CONFIG, EMPTY_STRING_IS_NULL, server.unixsocket, NULL, NULL, NULL),
createStringConfig("pidfile", NULL, IMMUTABLE_CONFIG, EMPTY_STRING_IS_NULL, server.pidfile, NULL, NULL, NULL),
createStringConfig("replica-announce-ip", "slave-announce-ip", MODIFIABLE_CONFIG, EMPTY_STRING_IS_NULL, server.slave_announce_ip, NULL, NULL, NULL),
createStringConfig("masteruser", NULL, MODIFIABLE_CONFIG, EMPTY_STRING_IS_NULL, server.masteruser, NULL, NULL, NULL),
createStringConfig("masterauth", NULL, MODIFIABLE_CONFIG, EMPTY_STRING_IS_NULL, server.masterauth, NULL, NULL, NULL),
createStringConfig("cluster-announce-ip", NULL, MODIFIABLE_CONFIG, EMPTY_STRING_IS_NULL, server.cluster_announce_ip, NULL, NULL, NULL),
createStringConfig("syslog-ident", NULL, IMMUTABLE_CONFIG, ALLOW_EMPTY_STRING, server.syslog_ident, "redis", NULL, NULL),
createStringConfig("dbfilename", NULL, MODIFIABLE_CONFIG, ALLOW_EMPTY_STRING, server.rdb_filename, "dump.rdb", isValidDBfilename, NULL),
createStringConfig("appendfilename", NULL, IMMUTABLE_CONFIG, ALLOW_EMPTY_STRING, server.aof_filename, "appendonly.aof", isValidAOFfilename, NULL),
/* Enum Configs */
createEnumConfig("supervised", NULL, IMMUTABLE_CONFIG, supervised_mode_enum, server.supervised_mode, SUPERVISED_NONE, NULL, NULL),
createEnumConfig("syslog-facility", NULL, IMMUTABLE_CONFIG, syslog_facility_enum, server.syslog_facility, LOG_LOCAL0, NULL, NULL),
createEnumConfig("repl-diskless-load", NULL, MODIFIABLE_CONFIG, repl_diskless_load_enum, server.repl_diskless_load, REPL_DISKLESS_LOAD_DISABLED, NULL, NULL),
createEnumConfig("loglevel", NULL, MODIFIABLE_CONFIG, loglevel_enum, server.verbosity, LL_NOTICE, NULL, NULL),
createEnumConfig("maxmemory-policy", NULL, MODIFIABLE_CONFIG, maxmemory_policy_enum, server.maxmemory_policy, MAXMEMORY_NO_EVICTION, NULL, NULL),
createEnumConfig("appendfsync", NULL, MODIFIABLE_CONFIG, aof_fsync_enum, server.aof_fsync, AOF_FSYNC_EVERYSEC, NULL, NULL),
/* Integer configs */
createIntConfig("databases", NULL, IMMUTABLE_CONFIG, 1, INT_MAX, server.dbnum, 16, INTEGER_CONFIG, NULL, NULL),
createIntConfig("port", NULL, IMMUTABLE_CONFIG, 0, 65535, server.port, 6379, INTEGER_CONFIG, NULL, NULL), /* TCP port. */
createIntConfig("io-threads", NULL, IMMUTABLE_CONFIG, 1, 512, server.io_threads_num, 1, INTEGER_CONFIG, NULL, NULL), /* Single threaded by default */
createIntConfig("auto-aof-rewrite-percentage", NULL, MODIFIABLE_CONFIG, 0, INT_MAX, server.aof_rewrite_perc, 100, INTEGER_CONFIG, NULL, NULL),
createIntConfig("cluster-replica-validity-factor", "cluster-slave-validity-factor", MODIFIABLE_CONFIG, 0, INT_MAX, server.cluster_slave_validity_factor, 10, INTEGER_CONFIG, NULL, NULL), /* Slave max data age factor. */
createIntConfig("list-max-ziplist-size", NULL, MODIFIABLE_CONFIG, INT_MIN, INT_MAX, server.list_max_ziplist_size, -2, INTEGER_CONFIG, NULL, NULL),
createIntConfig("tcp-keepalive", NULL, MODIFIABLE_CONFIG, 0, INT_MAX, server.tcpkeepalive, 300, INTEGER_CONFIG, NULL, NULL),
createIntConfig("cluster-migration-barrier", NULL, MODIFIABLE_CONFIG, 0, INT_MAX, server.cluster_migration_barrier, 1, INTEGER_CONFIG, NULL, NULL),
createIntConfig("active-defrag-cycle-min", NULL, MODIFIABLE_CONFIG, 1, 99, server.active_defrag_cycle_min, 1, INTEGER_CONFIG, NULL, NULL), /* Default: 1% CPU min (at lower threshold) */
createIntConfig("active-defrag-cycle-max", NULL, MODIFIABLE_CONFIG, 1, 99, server.active_defrag_cycle_max, 25, INTEGER_CONFIG, NULL, NULL), /* Default: 25% CPU max (at upper threshold) */
createIntConfig("active-defrag-threshold-lower", NULL, MODIFIABLE_CONFIG, 0, 1000, server.active_defrag_threshold_lower, 10, INTEGER_CONFIG, NULL, NULL), /* Default: don't defrag when fragmentation is below 10% */
createIntConfig("active-defrag-threshold-upper", NULL, MODIFIABLE_CONFIG, 0, 1000, server.active_defrag_threshold_upper, 100, INTEGER_CONFIG, NULL, NULL), /* Default: maximum defrag force at 100% fragmentation */
createIntConfig("lfu-log-factor", NULL, MODIFIABLE_CONFIG, 0, INT_MAX, server.lfu_log_factor, 10, INTEGER_CONFIG, NULL, NULL),
createIntConfig("lfu-decay-time", NULL, MODIFIABLE_CONFIG, 0, INT_MAX, server.lfu_decay_time, 1, INTEGER_CONFIG, NULL, NULL),
createIntConfig("replica-priority", "slave-priority", MODIFIABLE_CONFIG, 0, INT_MAX, server.slave_priority, 100, INTEGER_CONFIG, NULL, NULL),
createIntConfig("repl-diskless-sync-delay", NULL, MODIFIABLE_CONFIG, 0, INT_MAX, server.repl_diskless_sync_delay, 5, INTEGER_CONFIG, NULL, NULL),
createIntConfig("maxmemory-samples", NULL, MODIFIABLE_CONFIG, 1, INT_MAX, server.maxmemory_samples, 5, INTEGER_CONFIG, NULL, NULL),
createIntConfig("timeout", NULL, MODIFIABLE_CONFIG, 0, INT_MAX, server.maxidletime, 0, INTEGER_CONFIG, NULL, NULL), /* Default client timeout: infinite */
createIntConfig("replica-announce-port", "slave-announce-port", MODIFIABLE_CONFIG, 0, 65535, server.slave_announce_port, 0, INTEGER_CONFIG, NULL, NULL),
createIntConfig("tcp-backlog", NULL, IMMUTABLE_CONFIG, 0, INT_MAX, server.tcp_backlog, 511, INTEGER_CONFIG, NULL, NULL), /* TCP listen backlog. */
createIntConfig("cluster-announce-bus-port", NULL, MODIFIABLE_CONFIG, 0, 65535, server.cluster_announce_bus_port, 0, INTEGER_CONFIG, NULL, NULL), /* Default: Use +10000 offset. */
createIntConfig("cluster-announce-port", NULL, MODIFIABLE_CONFIG, 0, 65535, server.cluster_announce_port, 0, INTEGER_CONFIG, NULL, NULL), /* Use server.port */
createIntConfig("repl-timeout", NULL, MODIFIABLE_CONFIG, 1, INT_MAX, server.repl_timeout, 60, INTEGER_CONFIG, NULL, NULL),
createIntConfig("repl-ping-replica-period", "repl-ping-slave-period", MODIFIABLE_CONFIG, 1, INT_MAX, server.repl_ping_slave_period, 10, INTEGER_CONFIG, NULL, NULL),
createIntConfig("list-compress-depth", NULL, MODIFIABLE_CONFIG, 0, INT_MAX, server.list_compress_depth, 0, INTEGER_CONFIG, NULL, NULL),
createIntConfig("rdb-key-save-delay", NULL, MODIFIABLE_CONFIG, 0, INT_MAX, server.rdb_key_save_delay, 0, INTEGER_CONFIG, NULL, NULL),
createIntConfig("key-load-delay", NULL, MODIFIABLE_CONFIG, 0, INT_MAX, server.key_load_delay, 0, INTEGER_CONFIG, NULL, NULL),
createIntConfig("tracking-table-max-fill", NULL, MODIFIABLE_CONFIG, 0, 100, server.tracking_table_max_fill, 10, INTEGER_CONFIG, NULL, NULL), /* Default: 10% tracking table max fill. */
createIntConfig("active-expire-effort", NULL, MODIFIABLE_CONFIG, 1, 10, server.active_expire_effort, 1, INTEGER_CONFIG, NULL, NULL), /* From 1 to 10. */
createIntConfig("hz", NULL, MODIFIABLE_CONFIG, 0, INT_MAX, server.config_hz, CONFIG_DEFAULT_HZ, INTEGER_CONFIG, NULL, updateHZ),
createIntConfig("min-replicas-to-write", "min-slaves-to-write", MODIFIABLE_CONFIG, 0, INT_MAX, server.repl_min_slaves_to_write, 0, INTEGER_CONFIG, NULL, updateGoodSlaves),
createIntConfig("min-replicas-max-lag", "min-slaves-max-lag", MODIFIABLE_CONFIG, 0, INT_MAX, server.repl_min_slaves_max_lag, 10, INTEGER_CONFIG, NULL, updateGoodSlaves),
/* Unsigned int configs */
createUIntConfig("maxclients", NULL, MODIFIABLE_CONFIG, 1, UINT_MAX, server.maxclients, 10000, INTEGER_CONFIG, NULL, updateMaxclients),
/* Unsigned Long configs */
createULongConfig("active-defrag-max-scan-fields", NULL, MODIFIABLE_CONFIG, 1, LONG_MAX, server.active_defrag_max_scan_fields, 1000, INTEGER_CONFIG, NULL, NULL), /* Default: keys with more than 1000 fields will be processed separately */
createULongConfig("slowlog-max-len", NULL, MODIFIABLE_CONFIG, 0, LONG_MAX, server.slowlog_max_len, 128, INTEGER_CONFIG, NULL, NULL),
/* Long Long configs */
createLongLongConfig("lua-time-limit", NULL, MODIFIABLE_CONFIG, 0, LONG_MAX, server.lua_time_limit, 5000, INTEGER_CONFIG, NULL, NULL),/* milliseconds */
createLongLongConfig("cluster-node-timeout", NULL, MODIFIABLE_CONFIG, 0, LLONG_MAX, server.cluster_node_timeout, 15000, INTEGER_CONFIG, NULL, NULL),
createLongLongConfig("slowlog-log-slower-than", NULL, MODIFIABLE_CONFIG, -1, LLONG_MAX, server.slowlog_log_slower_than, 10000, INTEGER_CONFIG, NULL, NULL),
createLongLongConfig("latency-monitor-threshold", NULL, MODIFIABLE_CONFIG, 0, LLONG_MAX, server.latency_monitor_threshold, 0, INTEGER_CONFIG, NULL, NULL),
createLongLongConfig("proto-max-bulk-len", NULL, MODIFIABLE_CONFIG, 0, LLONG_MAX, server.proto_max_bulk_len, 512ll*1024*1024, MEMORY_CONFIG, NULL, NULL), /* Bulk request max size */
createLongLongConfig("stream-node-max-entries", NULL, MODIFIABLE_CONFIG, 0, LLONG_MAX, server.stream_node_max_entries, 100, INTEGER_CONFIG, NULL, NULL),
createLongLongConfig("repl-backlog-size", NULL, MODIFIABLE_CONFIG, 1, LLONG_MAX, server.repl_backlog_size, 1024*1024, MEMORY_CONFIG, NULL, updateReplBacklogSize), /* Default: 1mb */
/* Unsigned Long Long configs */
createULongLongConfig("maxmemory", NULL, MODIFIABLE_CONFIG, 0, ULLONG_MAX, server.maxmemory, 0, MEMORY_CONFIG, NULL, updateMaxmemory),
/* Size_t configs */
createSizeTConfig("hash-max-ziplist-entries", NULL, MODIFIABLE_CONFIG, 0, LONG_MAX, server.hash_max_ziplist_entries, 512, INTEGER_CONFIG, NULL, NULL),
createSizeTConfig("set-max-intset-entries", NULL, MODIFIABLE_CONFIG, 0, LONG_MAX, server.set_max_intset_entries, 512, INTEGER_CONFIG, NULL, NULL),
createSizeTConfig("zset-max-ziplist-entries", NULL, MODIFIABLE_CONFIG, 0, LONG_MAX, server.zset_max_ziplist_entries, 128, INTEGER_CONFIG, NULL, NULL),
createSizeTConfig("active-defrag-ignore-bytes", NULL, MODIFIABLE_CONFIG, 1, LLONG_MAX, server.active_defrag_ignore_bytes, 100<<20, MEMORY_CONFIG, NULL, NULL), /* Default: don't defrag if frag overhead is below 100mb */
createSizeTConfig("hash-max-ziplist-value", NULL, MODIFIABLE_CONFIG, 0, LONG_MAX, server.hash_max_ziplist_value, 64, MEMORY_CONFIG, NULL, NULL),
createSizeTConfig("stream-node-max-bytes", NULL, MODIFIABLE_CONFIG, 0, LONG_MAX, server.stream_node_max_bytes, 4096, MEMORY_CONFIG, NULL, NULL),
createSizeTConfig("zset-max-ziplist-value", NULL, MODIFIABLE_CONFIG, 0, LONG_MAX, server.zset_max_ziplist_value, 64, MEMORY_CONFIG, NULL, NULL),
createSizeTConfig("hll-sparse-max-bytes", NULL, MODIFIABLE_CONFIG, 0, LONG_MAX, server.hll_sparse_max_bytes, 3000, MEMORY_CONFIG, NULL, NULL),
/* Other configs */
createTimeTConfig("repl-backlog-ttl", NULL, MODIFIABLE_CONFIG, 0, LONG_MAX, server.repl_backlog_time_limit, 60*60, INTEGER_CONFIG, NULL, NULL), /* Default: 1 hour */
createOffTConfig("auto-aof-rewrite-min-size", NULL, MODIFIABLE_CONFIG, 0, LLONG_MAX, server.aof_rewrite_min_size, 64*1024*1024, MEMORY_CONFIG, NULL, NULL),
#ifdef USE_OPENSSL
createIntConfig("tls-port", NULL, IMMUTABLE_CONFIG, 0, 65535, server.tls_port, 0, INTEGER_CONFIG, NULL, NULL), /* TCP port. */
createBoolConfig("tls-cluster", NULL, MODIFIABLE_CONFIG, server.tls_cluster, 0, NULL, NULL),
createBoolConfig("tls-replication", NULL, MODIFIABLE_CONFIG, server.tls_replication, 0, NULL, NULL),
createBoolConfig("tls-auth-clients", NULL, MODIFIABLE_CONFIG, server.tls_auth_clients, 1, NULL, NULL),
createBoolConfig("tls-prefer-server-ciphers", NULL, MODIFIABLE_CONFIG, server.tls_ctx_config.prefer_server_ciphers, 0, NULL, updateTlsCfgBool),
createStringConfig("tls-cert-file", NULL, MODIFIABLE_CONFIG, EMPTY_STRING_IS_NULL, server.tls_ctx_config.cert_file, NULL, NULL, updateTlsCfg),
createStringConfig("tls-key-file", NULL, MODIFIABLE_CONFIG, EMPTY_STRING_IS_NULL, server.tls_ctx_config.key_file, NULL, NULL, updateTlsCfg),
createStringConfig("tls-dh-params-file", NULL, MODIFIABLE_CONFIG, EMPTY_STRING_IS_NULL, server.tls_ctx_config.dh_params_file, NULL, NULL, updateTlsCfg),
createStringConfig("tls-ca-cert-file", NULL, MODIFIABLE_CONFIG, EMPTY_STRING_IS_NULL, server.tls_ctx_config.ca_cert_file, NULL, NULL, updateTlsCfg),
createStringConfig("tls-ca-cert-dir", NULL, MODIFIABLE_CONFIG, EMPTY_STRING_IS_NULL, server.tls_ctx_config.ca_cert_dir, NULL, NULL, updateTlsCfg),
createStringConfig("tls-protocols", NULL, MODIFIABLE_CONFIG, EMPTY_STRING_IS_NULL, server.tls_ctx_config.protocols, NULL, NULL, updateTlsCfg),
createStringConfig("tls-ciphers", NULL, MODIFIABLE_CONFIG, EMPTY_STRING_IS_NULL, server.tls_ctx_config.ciphers, NULL, NULL, updateTlsCfg),
createStringConfig("tls-ciphersuites", NULL, MODIFIABLE_CONFIG, EMPTY_STRING_IS_NULL, server.tls_ctx_config.ciphersuites, NULL, NULL, updateTlsCfg),
#endif
/* NULL Terminator */
{NULL}
};
/*-----------------------------------------------------------------------------
* CONFIG command entry point
*----------------------------------------------------------------------------*/
void configCommand(client *c) {
/* Only allow CONFIG GET while loading. */
if (server.loading && strcasecmp(c->argv[1]->ptr,"get")) {
addReplyError(c,"Only CONFIG GET is allowed during loading");
return;
}
if (c->argc == 2 && !strcasecmp(c->argv[1]->ptr,"help")) {
const char *help[] = {
"GET <pattern> -- Return parameters matching the glob-like <pattern> and their values.",
"SET <parameter> <value> -- Set parameter to value.",
"RESETSTAT -- Reset statistics reported by INFO.",
"REWRITE -- Rewrite the configuration file.",
NULL
};
addReplyHelp(c, help);
} else if (!strcasecmp(c->argv[1]->ptr,"set") && c->argc == 4) {
configSetCommand(c);
} else if (!strcasecmp(c->argv[1]->ptr,"get") && c->argc == 3) {
configGetCommand(c);
} else if (!strcasecmp(c->argv[1]->ptr,"resetstat") && c->argc == 2) {
resetServerStats();
resetCommandTableStats();
addReply(c,shared.ok);
} else if (!strcasecmp(c->argv[1]->ptr,"rewrite") && c->argc == 2) {
if (server.configfile == NULL) {
addReplyError(c,"The server is running without a config file");
return;
}
if (rewriteConfig(server.configfile) == -1) {
serverLog(LL_WARNING,"CONFIG REWRITE failed: %s", strerror(errno));
addReplyErrorFormat(c,"Rewriting config file: %s", strerror(errno));
} else {
serverLog(LL_WARNING,"CONFIG REWRITE executed with success.");
addReply(c,shared.ok);
}
} else {
addReplySubcommandSyntaxError(c);
return;
}
}
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