/* Configuration file parsing and CONFIG GET/SET commands implementation. * * Copyright (c) 2009-2012, Salvatore Sanfilippo * 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 "connection.h" #include "bio.h" #include #include #include #include #include #include /*----------------------------------------------------------------------------- * Config file name-value maps. *----------------------------------------------------------------------------*/ typedef struct deprecatedConfig { const char *name; const int argc_min; const int argc_max; } deprecatedConfig; 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}, {"nothing", LL_NOTHING}, {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 shutdown_on_sig_enum[] = { {"default", 0}, {"save", SHUTDOWN_SAVE}, {"nosave", SHUTDOWN_NOSAVE}, {"now", SHUTDOWN_NOW}, {"force", SHUTDOWN_FORCE}, {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} }; configEnum tls_auth_clients_enum[] = { {"no", TLS_CLIENT_AUTH_NO}, {"yes", TLS_CLIENT_AUTH_YES}, {"optional", TLS_CLIENT_AUTH_OPTIONAL}, {NULL, 0} }; configEnum oom_score_adj_enum[] = { {"no", OOM_SCORE_ADJ_NO}, {"yes", OOM_SCORE_RELATIVE}, {"relative", OOM_SCORE_RELATIVE}, {"absolute", OOM_SCORE_ADJ_ABSOLUTE}, {NULL, 0} }; configEnum acl_pubsub_default_enum[] = { {"allchannels", SELECTOR_FLAG_ALLCHANNELS}, {"resetchannels", 0}, {NULL, 0} }; configEnum sanitize_dump_payload_enum[] = { {"no", SANITIZE_DUMP_NO}, {"yes", SANITIZE_DUMP_YES}, {"clients", SANITIZE_DUMP_CLIENTS}, {NULL, 0} }; configEnum protected_action_enum[] = { {"no", PROTECTED_ACTION_ALLOWED_NO}, {"yes", PROTECTED_ACTION_ALLOWED_YES}, {"local", PROTECTED_ACTION_ALLOWED_LOCAL}, {NULL, 0} }; configEnum cluster_preferred_endpoint_type_enum[] = { {"ip", CLUSTER_ENDPOINT_TYPE_IP}, {"hostname", CLUSTER_ENDPOINT_TYPE_HOSTNAME}, {"unknown-endpoint", CLUSTER_ENDPOINT_TYPE_UNKNOWN_ENDPOINT}, {NULL, 0} }; configEnum propagation_error_behavior_enum[] = { {"ignore", PROPAGATION_ERR_BEHAVIOR_IGNORE}, {"panic", PROPAGATION_ERR_BEHAVIOR_PANIC}, {"panic-on-replicas", PROPAGATION_ERR_BEHAVIOR_PANIC_ON_REPLICAS}, {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 */ }; /* OOM Score defaults */ int configOOMScoreAdjValuesDefaults[CONFIG_OOM_COUNT] = { 0, 200, 800 }; /* Generic config infrastructure function pointers * int is_valid_fn(val, err) * Return 1 when val is valid, and 0 when invalid. * Optionally set err to a static error string. */ /* 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 */ int default_value; /* The default value of the config on rewrite */ int (*is_valid_fn)(int val, const char **err); /* Optional function to check validity of new value (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, const char **err); /* Optional function to check validity of new value (generic doc above) */ int convert_empty_to_null; /* Boolean indicating if empty strings should be stored as a NULL value. */ } stringConfigData; typedef struct sdsConfigData { sds *config; /* Pointer to the server config this value is stored in. */ char *default_value; /* Default value of the config on rewrite. */ int (*is_valid_fn)(sds val, const char **err); /* Optional function to check validity of new value (generic doc above) */ int convert_empty_to_null; /* Boolean indicating if empty SDS strings should be stored as a NULL value. */ } sdsConfigData; 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 */ int default_value; /* The default value of the config on rewrite */ int (*is_valid_fn)(int val, const char **err); /* Optional function to check validity of new value (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 */ unsigned int flags; 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 */ long long default_value; /* The default value of the config on rewrite */ int (*is_valid_fn)(long long val, const char **err); /* Optional function to check validity of new value (generic doc above) */ } numericConfigData; typedef union typeData { boolConfigData yesno; stringConfigData string; sdsConfigData sds; enumConfigData enumd; numericConfigData numeric; } typeData; typedef struct standardConfig standardConfig; typedef int (*apply_fn)(const char **err); typedef struct typeInterface { /* Called on server start, to init the server with default value */ void (*init)(standardConfig *config); /* Called on server startup and CONFIG SET, returns 1 on success, * 2 meaning no actual change done, 0 on error and can set a verbose err * string */ int (*set)(standardConfig *config, sds *argv, int argc, const char **err); /* Optional: called after `set()` to apply the config change. Used only in * the context of CONFIG SET. Returns 1 on success, 0 on failure. * Optionally set err to a static error string. */ apply_fn apply; /* Called on CONFIG GET, returns sds to be used in reply */ sds (*get)(standardConfig *config); /* Called on CONFIG REWRITE, required to rewrite the config state */ void (*rewrite)(standardConfig *config, const char *name, struct rewriteConfigState *state); } typeInterface; 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 */ unsigned int flags; /* Flags for this specific config */ typeInterface interface; /* The function pointers that define the type interface */ typeData data; /* The type specific data exposed used by the interface */ configType type; /* The type of config this is. */ void *privdata; /* privdata for this config, for module configs this is a ModuleConfig struct */ }; dict *configs = NULL; /* Runtime config values */ /* Lookup a config by the provided sds string name, or return NULL * if the config does not exist */ static standardConfig *lookupConfig(sds name) { dictEntry *de = dictFind(configs, name); return de ? dictGetVal(de) : NULL; } /*----------------------------------------------------------------------------- * Enum access functions *----------------------------------------------------------------------------*/ /* Get enum value from name. If there is no match INT_MIN is returned. */ int configEnumGetValue(configEnum *ce, sds *argv, int argc, int bitflags) { if (argc == 0 || (!bitflags && argc != 1)) return INT_MIN; int values = 0; for (int i = 0; i < argc; i++) { int matched = 0; for (configEnum *ceItem = ce; ceItem->name != NULL; ceItem++) { if (!strcasecmp(argv[i],ceItem->name)) { values |= ceItem->val; matched = 1; } } if (!matched) return INT_MIN; } return values; } /* Get enum name/s from value. If no matches are found "unknown" is returned. */ static sds configEnumGetName(configEnum *ce, int values, int bitflags) { sds names = NULL; int unmatched = values; for( ; ce->name != NULL; ce++) { if (values == ce->val) { /* Short path for perfect match */ sdsfree(names); return sdsnew(ce->name); } /* Note: for bitflags, we want them sorted from high to low, so that if there are several / partially * overlapping entries, we'll prefer the ones matching more bits. */ if (bitflags && ce->val && ce->val == (unmatched & ce->val)) { names = names ? sdscatfmt(names, " %s", ce->name) : sdsnew(ce->name); unmatched &= ~ce->val; } } if (!names || unmatched) { sdsfree(names); return sdsnew("unknown"); } return names; } /* Used for INFO generation. */ const char *evictPolicyToString(void) { for (configEnum *ce = maxmemory_policy_enum; ce->name != NULL; ce++) { if (server.maxmemory_policy == ce->val) return ce->name; } serverPanic("unknown eviction 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 = argc ? zmalloc(sizeof(robj*)*argc) : NULL; 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); } /* Parse an array of `arg_len` sds strings, validate and populate * server.client_obuf_limits if valid. * Used in CONFIG SET and configuration file parsing. */ static int updateClientOutputBufferLimit(sds *args, int arg_len, const char **err) { int j; int class; unsigned long long hard, soft; int hard_err, soft_err; int soft_seconds; char *soft_seconds_eptr; clientBufferLimitsConfig values[CLIENT_TYPE_OBUF_COUNT]; int classes[CLIENT_TYPE_OBUF_COUNT] = {0}; /* We need a multiple of 4: */ if (arg_len % 4) { if (err) *err = "Wrong number of arguments in " "buffer limit configuration."; return 0; } /* 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 < arg_len; j += 4) { class = getClientTypeByName(args[j]); if (class == -1 || class == CLIENT_TYPE_MASTER) { if (err) *err = "Invalid client class specified in " "buffer limit configuration."; return 0; } hard = memtoull(args[j+1], &hard_err); soft = memtoull(args[j+2], &soft_err); soft_seconds = strtoll(args[j+3], &soft_seconds_eptr, 10); if (hard_err || soft_err || soft_seconds < 0 || *soft_seconds_eptr != '\0') { if (err) *err = "Error in hard, soft or soft_seconds setting in " "buffer limit configuration."; return 0; } values[class].hard_limit_bytes = hard; values[class].soft_limit_bytes = soft; values[class].soft_limit_seconds = soft_seconds; classes[class] = 1; } /* Finally set the new config. */ for (j = 0; j < CLIENT_TYPE_OBUF_COUNT; j++) { if (classes[j]) server.client_obuf_limits[j] = values[j]; } return 1; } /* Note this is here to support detecting we're running a config set from * within conf file parsing. This is only needed to support the deprecated * abnormal aggregate `save T C` functionality. Remove in the future. */ static int reading_config_file; void loadServerConfigFromString(char *config) { deprecatedConfig deprecated_configs[] = { {"list-max-ziplist-entries", 2, 2}, {"list-max-ziplist-value", 2, 2}, {"lua-replicate-commands", 2, 2}, {NULL, 0}, }; char buf[1024]; const char *err = NULL; int linenum = 0, totlines, i; sds *lines; sds *argv = NULL; int argc; reading_config_file = 1; lines = sdssplitlen(config,strlen(config),"\n",1,&totlines); for (i = 0; i < totlines; i++) { 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); argv = NULL; continue; } sdstolower(argv[0]); /* Iterate the configs that are standard */ standardConfig *config = lookupConfig(argv[0]); if (config) { /* For normal single arg configs enforce we have a single argument. * Note that MULTI_ARG_CONFIGs need to validate arg count on their own */ if (!(config->flags & MULTI_ARG_CONFIG) && argc != 2) { err = "wrong number of arguments"; goto loaderr; } if ((config->flags & MULTI_ARG_CONFIG) && argc == 2 && sdslen(argv[1])) { /* For MULTI_ARG_CONFIGs, if we only have one argument, try to split it by spaces. * Only if the argument is not empty, otherwise something like --save "" will fail. * So that we can support something like --config "arg1 arg2 arg3". */ sds *new_argv; int new_argc; new_argv = sdssplitargs(argv[1], &new_argc); if (!config->interface.set(config, new_argv, new_argc, &err)) { if(new_argv) sdsfreesplitres(new_argv, new_argc); goto loaderr; } sdsfreesplitres(new_argv, new_argc); } else { /* Set config using all arguments that follows */ if (!config->interface.set(config, &argv[1], argc-1, &err)) { goto loaderr; } } sdsfreesplitres(argv,argc); argv = NULL; continue; } else { int match = 0; for (deprecatedConfig *config = deprecated_configs; config->name != NULL; config++) { if (!strcasecmp(argv[0], config->name) && config->argc_min <= argc && argc <= config->argc_max) { match = 1; break; } } if (match) { sdsfreesplitres(argv,argc); argv = NULL; continue; } } /* Execute config directives */ if (!strcasecmp(argv[0],"include") && argc == 2) { loadServerConfig(argv[1], 0, NULL); } else if (!strcasecmp(argv[0],"rename-command") && argc == 3) { struct redisCommand *cmd = lookupCommandBySds(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],"user") && argc >= 2) { int argc_err; if (ACLAppendUserForLoading(argv,argc,&argc_err) == C_ERR) { const 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 (strchr(argv[0], '.')) { if (argc < 2) { err = "Module config specified without value"; goto loaderr; } sds name = sdsdup(argv[0]); sds val = sdsdup(argv[1]); for (int i = 2; i < argc; i++) val = sdscatfmt(val, " %S", argv[i]); if (!dictReplace(server.module_configs_queue, name, val)) sdsfree(name); } 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; } queueSentinelConfig(argv+1,argc-1,linenum,lines[i]); } } else { err = "Bad directive or wrong number of arguments"; goto loaderr; } sdsfreesplitres(argv,argc); argv = NULL; } if (server.logfile[0] != '\0') { FILE *logfp; /* 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); } /* Sanity checks. */ if (server.cluster_enabled && server.masterhost) { err = "replicaof directive not allowed in cluster mode"; goto loaderr; } /* in case cluster mode is enabled dbnum must be 1 */ if (server.cluster_enabled && server.dbnum > 1) { serverLog(LL_WARNING, "WARNING: Changing databases number from %d to 1 since we are in cluster mode", server.dbnum); server.dbnum = 1; } /* To ensure backward compatibility and work while hz is out of range */ 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; sdsfreesplitres(lines,totlines); reading_config_file = 0; return; loaderr: if (argv) sdsfreesplitres(argv,argc); fprintf(stderr, "\n*** FATAL CONFIG FILE ERROR (Redis %s) ***\n", REDIS_VERSION); if (i < totlines) { 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. */ #define CONFIG_READ_LEN 1024 void loadServerConfig(char *filename, char config_from_stdin, char *options) { sds config = sdsempty(); char buf[CONFIG_READ_LEN+1]; FILE *fp; glob_t globbuf; /* Load the file content */ if (filename) { /* The logic for handling wildcards has slightly different behavior in cases where * there is a failure to locate the included file. * Whether or not a wildcard is specified, we should ALWAYS log errors when attempting * to open included config files. * * However, we desire a behavioral difference between instances where a wildcard was * specified and those where it hasn't: * no wildcards : attempt to open the specified file and fail with a logged error * if the file cannot be found and opened. * with wildcards : attempt to glob the specified pattern; if no files match the * pattern, then gracefully continue on to the next entry in the * config file, as if the current entry was never encountered. * This will allow for empty conf.d directories to be included. */ if (strchr(filename, '*') || strchr(filename, '?') || strchr(filename, '[')) { /* A wildcard character detected in filename, so let us use glob */ if (glob(filename, 0, NULL, &globbuf) == 0) { for (size_t i = 0; i < globbuf.gl_pathc; i++) { if ((fp = fopen(globbuf.gl_pathv[i], "r")) == NULL) { serverLog(LL_WARNING, "Fatal error, can't open config file '%s': %s", globbuf.gl_pathv[i], strerror(errno)); exit(1); } while(fgets(buf,CONFIG_READ_LEN+1,fp) != NULL) config = sdscat(config,buf); fclose(fp); } globfree(&globbuf); } } else { /* No wildcard in filename means we can use the original logic to read and * potentially fail traditionally */ if ((fp = fopen(filename, "r")) == NULL) { serverLog(LL_WARNING, "Fatal error, can't open config file '%s': %s", filename, strerror(errno)); exit(1); } while(fgets(buf,CONFIG_READ_LEN+1,fp) != NULL) config = sdscat(config,buf); fclose(fp); } } /* Append content from stdin */ if (config_from_stdin) { serverLog(LL_NOTICE,"Reading config from stdin"); fp = stdin; while(fgets(buf,CONFIG_READ_LEN+1,fp) != NULL) config = sdscat(config,buf); } /* Append the additional options */ if (options) { config = sdscat(config,"\n"); config = sdscat(config,options); } loadServerConfigFromString(config); sdsfree(config); } static int performInterfaceSet(standardConfig *config, sds value, const char **errstr) { sds *argv; int argc, res; if (config->flags & MULTI_ARG_CONFIG) { argv = sdssplitlen(value, sdslen(value), " ", 1, &argc); } else { argv = (char**)&value; argc = 1; } /* Set the config */ res = config->interface.set(config, argv, argc, errstr); if (config->flags & MULTI_ARG_CONFIG) sdsfreesplitres(argv, argc); return res; } /* Find the config by name and attempt to set it to value. */ int performModuleConfigSetFromName(sds name, sds value, const char **err) { standardConfig *config = lookupConfig(name); if (!config || !(config->flags & MODULE_CONFIG)) { *err = "Config name not found"; return 0; } return performInterfaceSet(config, value, err); } /* Find config by name and attempt to set it to its default value. */ int performModuleConfigSetDefaultFromName(sds name, const char **err) { standardConfig *config = lookupConfig(name); serverAssert(config); if (!(config->flags & MODULE_CONFIG)) { *err = "Config name not found"; return 0; } switch (config->type) { case BOOL_CONFIG: return setModuleBoolConfig(config->privdata, config->data.yesno.default_value, err); case SDS_CONFIG: return setModuleStringConfig(config->privdata, config->data.sds.default_value, err); case NUMERIC_CONFIG: return setModuleNumericConfig(config->privdata, config->data.numeric.default_value, err); case ENUM_CONFIG: return setModuleEnumConfig(config->privdata, config->data.enumd.default_value, err); default: serverPanic("Config type of module config is not allowed."); } return 0; } static void restoreBackupConfig(standardConfig **set_configs, sds *old_values, int count, apply_fn *apply_fns, list *module_configs) { int i; const char *errstr = "unknown error"; /* Set all backup values */ for (i = 0; i < count; i++) { if (!performInterfaceSet(set_configs[i], old_values[i], &errstr)) serverLog(LL_WARNING, "Failed restoring failed CONFIG SET command. Error setting %s to '%s': %s", set_configs[i]->name, old_values[i], errstr); } /* Apply backup */ if (apply_fns) { for (i = 0; i < count && apply_fns[i] != NULL; i++) { if (!apply_fns[i](&errstr)) serverLog(LL_WARNING, "Failed applying restored failed CONFIG SET command: %s", errstr); } } if (module_configs) { if (!moduleConfigApplyConfig(module_configs, &errstr, NULL)) serverLog(LL_WARNING, "Failed applying restored failed CONFIG SET command: %s", errstr); } } /*----------------------------------------------------------------------------- * CONFIG SET implementation *----------------------------------------------------------------------------*/ void configSetCommand(client *c) { const char *errstr = NULL; const char *invalid_arg_name = NULL; const char *err_arg_name = NULL; standardConfig **set_configs; /* TODO: make this a dict for better performance */ list *module_configs_apply; const char **config_names; sds *new_values; sds *old_values = NULL; apply_fn *apply_fns; /* TODO: make this a set for better performance */ int config_count, i, j; int invalid_args = 0, deny_loading_error = 0; int *config_map_fns; /* Make sure we have an even number of arguments: conf-val pairs */ if (c->argc & 1) { addReplyErrorObject(c, shared.syntaxerr); return; } config_count = (c->argc - 2) / 2; module_configs_apply = listCreate(); set_configs = zcalloc(sizeof(standardConfig*)*config_count); config_names = zcalloc(sizeof(char*)*config_count); new_values = zmalloc(sizeof(sds*)*config_count); old_values = zcalloc(sizeof(sds*)*config_count); apply_fns = zcalloc(sizeof(apply_fn)*config_count); config_map_fns = zmalloc(sizeof(int)*config_count); /* Find all relevant configs */ for (i = 0; i < config_count; i++) { standardConfig *config = lookupConfig(c->argv[2+i*2]->ptr); /* Fail if we couldn't find this config */ if (!config) { if (!invalid_args) { invalid_arg_name = c->argv[2+i*2]->ptr; invalid_args = 1; } continue; } /* Note: it's important we run over ALL passed configs and check if we need to call `redactClientCommandArgument()`. * This is in order to avoid anyone using this command for a log/slowlog/monitor/etc. displaying sensitive info. * So even if we encounter an error we still continue running over the remaining arguments. */ if (config->flags & SENSITIVE_CONFIG) { redactClientCommandArgument(c,2+i*2+1); } /* We continue to make sure we redact all the configs */ if (invalid_args) continue; if (config->flags & IMMUTABLE_CONFIG || (config->flags & PROTECTED_CONFIG && !allowProtectedAction(server.enable_protected_configs, c))) { /* Note: we don't abort the loop since we still want to handle redacting sensitive configs (above) */ errstr = (config->flags & IMMUTABLE_CONFIG) ? "can't set immutable config" : "can't set protected config"; err_arg_name = c->argv[2+i*2]->ptr; invalid_args = 1; continue; } if (server.loading && config->flags & DENY_LOADING_CONFIG) { /* Note: we don't abort the loop since we still want to handle redacting sensitive configs (above) */ deny_loading_error = 1; invalid_args = 1; continue; } /* If this config appears twice then fail */ for (j = 0; j < i; j++) { if (set_configs[j] == config) { /* Note: we don't abort the loop since we still want to handle redacting sensitive configs (above) */ errstr = "duplicate parameter"; err_arg_name = c->argv[2+i*2]->ptr; invalid_args = 1; break; } } set_configs[i] = config; config_names[i] = config->name; new_values[i] = c->argv[2+i*2+1]->ptr; } if (invalid_args) goto err; /* Backup old values before setting new ones */ for (i = 0; i < config_count; i++) old_values[i] = set_configs[i]->interface.get(set_configs[i]); /* Set all new values (don't apply yet) */ for (i = 0; i < config_count; i++) { int res = performInterfaceSet(set_configs[i], new_values[i], &errstr); if (!res) { restoreBackupConfig(set_configs, old_values, i+1, NULL, NULL); err_arg_name = set_configs[i]->name; goto err; } else if (res == 1) { /* A new value was set, if this config has an apply function then store it for execution later */ if (set_configs[i]->flags & MODULE_CONFIG) { addModuleConfigApply(module_configs_apply, set_configs[i]->privdata); } else if (set_configs[i]->interface.apply) { /* Check if this apply function is already stored */ int exists = 0; for (j = 0; apply_fns[j] != NULL && j <= i; j++) { if (apply_fns[j] == set_configs[i]->interface.apply) { exists = 1; break; } } /* Apply function not stored, store it */ if (!exists) { apply_fns[j] = set_configs[i]->interface.apply; config_map_fns[j] = i; } } } } /* Apply all configs after being set */ for (i = 0; i < config_count && apply_fns[i] != NULL; i++) { if (!apply_fns[i](&errstr)) { serverLog(LL_WARNING, "Failed applying new configuration. Possibly related to new %s setting. Restoring previous settings.", set_configs[config_map_fns[i]]->name); restoreBackupConfig(set_configs, old_values, config_count, apply_fns, NULL); err_arg_name = set_configs[config_map_fns[i]]->name; goto err; } } /* Apply all module configs that were set. */ if (!moduleConfigApplyConfig(module_configs_apply, &errstr, &err_arg_name)) { serverLogRaw(LL_WARNING, "Failed applying new module configuration. Restoring previous settings."); restoreBackupConfig(set_configs, old_values, config_count, apply_fns, module_configs_apply); goto err; } RedisModuleConfigChangeV1 cc = {.num_changes = config_count, .config_names = config_names}; moduleFireServerEvent(REDISMODULE_EVENT_CONFIG, REDISMODULE_SUBEVENT_CONFIG_CHANGE, &cc); addReply(c,shared.ok); goto end; err: if (deny_loading_error) { /* We give the loading error precedence because it may be handled by clients differently, unlike a plain -ERR. */ addReplyErrorObject(c,shared.loadingerr); } else if (invalid_arg_name) { addReplyErrorFormat(c,"Unknown option or number of arguments for CONFIG SET - '%s'", invalid_arg_name); } else if (errstr) { addReplyErrorFormat(c,"CONFIG SET failed (possibly related to argument '%s') - %s", err_arg_name, errstr); } else { addReplyErrorFormat(c,"CONFIG SET failed (possibly related to argument '%s')", err_arg_name); } end: zfree(set_configs); zfree(config_names); zfree(new_values); for (i = 0; i < config_count; i++) sdsfree(old_values[i]); zfree(old_values); zfree(apply_fns); zfree(config_map_fns); listRelease(module_configs_apply); } /*----------------------------------------------------------------------------- * CONFIG GET implementation *----------------------------------------------------------------------------*/ void configGetCommand(client *c) { int i; dictEntry *de; dictIterator *di; /* Create a dictionary to store the matched configs */ dict *matches = dictCreate(&externalStringType); for (i = 0; i < c->argc - 2; i++) { robj *o = c->argv[2+i]; sds name = o->ptr; /* If the string doesn't contain glob patterns, just directly * look up the key in the dictionary. */ if (!strpbrk(name, "[*?")) { if (dictFind(matches, name)) continue; standardConfig *config = lookupConfig(name); if (config) { dictAdd(matches, name, config); } continue; } /* Otherwise, do a match against all items in the dictionary. */ di = dictGetIterator(configs); while ((de = dictNext(di)) != NULL) { standardConfig *config = dictGetVal(de); /* Note that hidden configs require an exact match (not a pattern) */ if (config->flags & HIDDEN_CONFIG) continue; if (dictFind(matches, config->name)) continue; if (stringmatch(name, dictGetKey(de), 1)) { dictAdd(matches, dictGetKey(de), config); } } dictReleaseIterator(di); } di = dictGetIterator(matches); addReplyMapLen(c, dictSize(matches)); while ((de = dictNext(di)) != NULL) { standardConfig *config = (standardConfig *) dictGetVal(de); addReplyBulkCString(c, dictGetKey(de)); addReplyBulkSds(c, config->interface.get(config)); } dictReleaseIterator(di); dictRelease(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). */ void dictListDestructor(dict *d, 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 */ NULL /* allow to expand */ }; dictType optionSetDictType = { dictSdsCaseHash, /* hash function */ NULL, /* key dup */ NULL, /* val dup */ dictSdsKeyCaseCompare, /* key compare */ dictSdsDestructor, /* key destructor */ NULL, /* val destructor */ NULL /* allow to expand */ }; /* 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 needs_signature; /* True if we need to append the rewrite signature. */ int force_write; /* True if we want all keywords to be force written. Currently only used for testing and debug information. */ }; /* 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); } /* Create the configuration rewrite state */ struct rewriteConfigState *rewriteConfigCreateState(void) { struct rewriteConfigState *state = zmalloc(sizeof(*state)); state->option_to_line = dictCreate(&optionToLineDictType); state->rewritten = dictCreate(&optionSetDictType); state->numlines = 0; state->lines = NULL; state->needs_signature = 1; state->force_write = 0; return state; } /* 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; struct redis_stat sb; if (fp && redis_fstat(fileno(fp),&sb) == -1) return NULL; int linenum = -1; struct rewriteConfigState *state = rewriteConfigCreateState(); if (fp == NULL || sb.st_size == 0) return state; /* Load the file content */ sds config = sdsnewlen(SDS_NOINIT,sb.st_size); if (fread(config,1,sb.st_size,fp) == 0) { sdsfree(config); rewriteConfigReleaseState(state); fclose(fp); return NULL; } int i, totlines; sds *lines = sdssplitlen(config,sdslen(config),"\n",1,&totlines); /* Read the old content line by line, populate the state. */ for (i = 0; i < totlines; i++) { int argc; sds *argv; sds line = sdstrim(lines[i],"\r\n\t "); lines[i] = NULL; linenum++; /* Zero based, so we init at -1 */ /* Handle comments and empty lines. */ if (line[0] == '#' || line[0] == '\0') { if (state->needs_signature && !strcmp(line,REDIS_CONFIG_REWRITE_SIGNATURE)) state->needs_signature = 0; rewriteConfigAppendLine(state,line); continue; } /* Not a comment, split into arguments. */ argv = sdssplitargs(line,&argc); if (argv == NULL || (!lookupConfig(argv[0]) && /* The following is a list of config features that are only supported in * config file parsing and are not recognized by lookupConfig */ strcasecmp(argv[0],"include") && strcasecmp(argv[0],"rename-command") && strcasecmp(argv[0],"user") && strcasecmp(argv[0],"loadmodule") && strcasecmp(argv[0],"sentinel"))) { /* The line is either unparsable for some reason, for * instance it may have unbalanced quotes, may contain a * config that doesn't exist anymore, for instance a module that got * unloaded. Load it as a comment. */ sds aux = sdsnew("# ??? "); aux = sdscatsds(aux,line); if (argv) sdsfreesplitres(argv, argc); 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); /* If this is a alias config, replace it with the original name. */ standardConfig *s_conf = lookupConfig(argv[0]); if (s_conf && s_conf->flags & ALIAS_CONFIG) { sdsfree(argv[0]); argv[0] = sdsnew(s_conf->alias); } /* If this is sentinel config, we use sentinel "sentinel " as option to avoid messing up the sequence. */ if (server.sentinel_mode && argc > 1 && !strcasecmp(argv[0],"sentinel")) { sds sentinelOption = sdsempty(); sentinelOption = sdscatfmt(sentinelOption,"%S %S",argv[0],argv[1]); rewriteConfigAddLineNumberToOption(state,sentinelOption,linenum); sdsfree(sentinelOption); } else { rewriteConfigAddLineNumberToOption(state,argv[0],linenum); } sdsfreesplitres(argv,argc); } fclose(fp); sdsfreesplitres(lines,totlines); sdsfree(config); 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. */ int 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 && !state->force_write) { /* Option not used previously, and we are not forced to use it. */ sdsfree(line); sdsfree(o); return 0; } 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->needs_signature) { rewriteConfigAppendLine(state, sdsnew(REDIS_CONFIG_REWRITE_SIGNATURE)); state->needs_signature = 0; } rewriteConfigAppendLine(state,line); } sdsfree(o); return 1; } /* 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 " 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 simple "option-name n%" configuration option. */ void rewriteConfigPercentOption(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 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 SDS string option. */ void rewriteConfigSdsOption(struct rewriteConfigState *state, const char *option, sds value, const char *defvalue) { int force = 1; sds line; /* If there is no value set, we don't want the SDS option * to be present in the configuration at all. */ 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, sdslen(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 an octal option. */ void rewriteConfigOctalOption(struct rewriteConfigState *state, const char *option, long long value, long long defvalue) { int force = value != defvalue; sds line = sdscatprintf(sdsempty(),"%s %llo",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, standardConfig *config) { int multiarg = config->flags & MULTI_ARG_CONFIG; sds names = configEnumGetName(config->data.enumd.enum_value,value,multiarg); sds line = sdscatfmt(sdsempty(),"%s %s",option,names); sdsfree(names); int force = value != config->data.enumd.default_value; rewriteConfigRewriteLine(state,option,line,force); } /* Rewrite the save option. */ void rewriteConfigSaveOption(standardConfig *config, const char *name, struct rewriteConfigState *state) { UNUSED(config); int j; sds line; /* In Sentinel mode we don't need to rewrite the save parameters */ if (server.sentinel_mode) { rewriteConfigMarkAsProcessed(state,name); return; } /* Rewrite save parameters, or an empty 'save ""' line to avoid the * defaults from being used. */ if (!server.saveparamslen) { rewriteConfigRewriteLine(state,name,sdsnew("save \"\""),1); } else { for (j = 0; j < server.saveparamslen; j++) { line = sdscatprintf(sdsempty(),"save %ld %d", (long) server.saveparams[j].seconds, server.saveparams[j].changes); rewriteConfigRewriteLine(state,name,line,1); } } /* Mark "save" as processed in case server.saveparamslen is zero. */ rewriteConfigMarkAsProcessed(state,name); } /* 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); robj *descr = ACLDescribeUser(u); line = sdscatsds(line,descr->ptr); decrRefCount(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(standardConfig *config, const char *name, struct rewriteConfigState *state) { UNUSED(config); char cwd[1024]; if (getcwd(cwd,sizeof(cwd)) == NULL) { rewriteConfigMarkAsProcessed(state,name); return; /* no rewrite on error. */ } rewriteConfigStringOption(state,name,cwd,NULL); } /* Rewrite the slaveof option. */ void rewriteConfigReplicaOfOption(standardConfig *config, const char *name, struct rewriteConfigState *state) { UNUSED(config); 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, name); return; } line = sdscatprintf(sdsempty(),"%s %s %d", name, server.masterhost, server.masterport); rewriteConfigRewriteLine(state,name,line,1); } /* Rewrite the notify-keyspace-events option. */ void rewriteConfigNotifyKeyspaceEventsOption(standardConfig *config, const char *name, struct rewriteConfigState *state) { UNUSED(config); int force = server.notify_keyspace_events != 0; sds line, flags; flags = keyspaceEventsFlagsToString(server.notify_keyspace_events); line = sdsnew(name); line = sdscatlen(line, " ", 1); line = sdscatrepr(line, flags, sdslen(flags)); sdsfree(flags); rewriteConfigRewriteLine(state,name,line,force); } /* Rewrite the client-output-buffer-limit option. */ void rewriteConfigClientOutputBufferLimitOption(standardConfig *config, const char *name, struct rewriteConfigState *state) { UNUSED(config); int j; 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", name, typename, hard, soft, (long) server.client_obuf_limits[j].soft_limit_seconds); rewriteConfigRewriteLine(state,name,line,force); } } /* Rewrite the oom-score-adj-values option. */ void rewriteConfigOOMScoreAdjValuesOption(standardConfig *config, const char *name, struct rewriteConfigState *state) { UNUSED(config); int force = 0; int j; sds line; line = sdsnew(name); line = sdscatlen(line, " ", 1); for (j = 0; j < CONFIG_OOM_COUNT; j++) { if (server.oom_score_adj_values[j] != configOOMScoreAdjValuesDefaults[j]) force = 1; line = sdscatprintf(line, "%d", server.oom_score_adj_values[j]); if (j+1 != CONFIG_OOM_COUNT) line = sdscatlen(line, " ", 1); } rewriteConfigRewriteLine(state,name,line,force); } /* Rewrite the bind option. */ void rewriteConfigBindOption(standardConfig *config, const char *name, struct rewriteConfigState *state) { UNUSED(config); int force = 1; sds line, addresses; int is_default = 0; /* Compare server.bindaddr with CONFIG_DEFAULT_BINDADDR */ if (server.bindaddr_count == CONFIG_DEFAULT_BINDADDR_COUNT) { is_default = 1; char *default_bindaddr[CONFIG_DEFAULT_BINDADDR_COUNT] = CONFIG_DEFAULT_BINDADDR; for (int j = 0; j < CONFIG_DEFAULT_BINDADDR_COUNT; j++) { if (strcmp(server.bindaddr[j], default_bindaddr[j]) != 0) { is_default = 0; break; } } } if (is_default) { rewriteConfigMarkAsProcessed(state,name); return; } /* Rewrite as bind ... */ if (server.bindaddr_count > 0) addresses = sdsjoin(server.bindaddr,server.bindaddr_count," "); else addresses = sdsnew("\"\""); line = sdsnew(name); line = sdscatlen(line, " ", 1); line = sdscatsds(line, addresses); sdsfree(addresses); rewriteConfigRewriteLine(state,name,line,force); } /* Rewrite the loadmodule option. */ void rewriteConfigLoadmoduleOption(struct rewriteConfigState *state) { sds line; dictIterator *di = dictGetIterator(modules); dictEntry *de; while ((de = dictNext(di)) != NULL) { struct RedisModule *module = dictGetVal(de); line = sdsnew("loadmodule "); line = sdscatsds(line, module->loadmod->path); for (int i = 0; i < module->loadmod->argc; i++) { line = sdscatlen(line, " ", 1); line = sdscatsds(line, module->loadmod->argv[i]->ptr); } rewriteConfigRewriteLine(state,"loadmodule",line,1); } dictReleaseIterator(di); /* Mark "loadmodule" as processed in case modules is empty. */ rewriteConfigMarkAsProcessed(state,"loadmodule"); } /* 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; } /* 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 returns a string representation of all the config options * marked with DEBUG_CONFIG, which can be used to help with debugging. */ sds getConfigDebugInfo(void) { struct rewriteConfigState *state = rewriteConfigCreateState(); state->force_write = 1; /* Force the output */ state->needs_signature = 0; /* Omit the rewrite signature */ /* Iterate the configs and "rewrite" the ones that have * the debug flag. */ dictIterator *di = dictGetIterator(configs); dictEntry *de; while ((de = dictNext(di)) != NULL) { standardConfig *config = dictGetVal(de); if (!(config->flags & DEBUG_CONFIG)) continue; config->interface.rewrite(config, config->name, state); } dictReleaseIterator(di); sds info = rewriteConfigGetContentFromState(state); rewriteConfigReleaseState(state); return info; } /* This function replaces the old configuration file with the new content * in an atomic manner. * * The function returns 0 on success, otherwise -1 is returned and errno * is set accordingly. */ int rewriteConfigOverwriteFile(char *configfile, sds content) { int fd = -1; int retval = -1; char tmp_conffile[PATH_MAX]; const char *tmp_suffix = ".XXXXXX"; size_t offset = 0; ssize_t written_bytes = 0; int old_errno; int tmp_path_len = snprintf(tmp_conffile, sizeof(tmp_conffile), "%s%s", configfile, tmp_suffix); if (tmp_path_len <= 0 || (unsigned int)tmp_path_len >= sizeof(tmp_conffile)) { serverLog(LL_WARNING, "Config file full path is too long"); errno = ENAMETOOLONG; return retval; } #if defined(_GNU_SOURCE) && !defined(__HAIKU__) fd = mkostemp(tmp_conffile, O_CLOEXEC); #else /* There's a theoretical chance here to leak the FD if a module thread forks & execv in the middle */ fd = mkstemp(tmp_conffile); #endif if (fd == -1) { serverLog(LL_WARNING, "Could not create tmp config file (%s)", strerror(errno)); return retval; } while (offset < sdslen(content)) { written_bytes = write(fd, content + offset, sdslen(content) - offset); if (written_bytes <= 0) { if (errno == EINTR) continue; /* FD is blocking, no other retryable errors */ serverLog(LL_WARNING, "Failed after writing (%zd) bytes to tmp config file (%s)", offset, strerror(errno)); goto cleanup; } offset+=written_bytes; } if (fsync(fd)) serverLog(LL_WARNING, "Could not sync tmp config file to disk (%s)", strerror(errno)); else if (fchmod(fd, 0644 & ~server.umask) == -1) serverLog(LL_WARNING, "Could not chmod config file (%s)", strerror(errno)); else if (rename(tmp_conffile, configfile) == -1) serverLog(LL_WARNING, "Could not rename tmp config file (%s)", strerror(errno)); else if (fsyncFileDir(configfile) == -1) serverLog(LL_WARNING, "Could not sync config file dir (%s)", strerror(errno)); else { retval = 0; serverLog(LL_DEBUG, "Rewritten config file (%s) successfully", configfile); } cleanup: old_errno = errno; close(fd); if (retval) unlink(tmp_conffile); errno = old_errno; 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. * The force_write flag overrides this behavior and forces everything to be * written. This is currently only used for testing purposes. * * On error -1 is returned and errno is set accordingly, otherwise 0. */ int rewriteConfig(char *path, int force_write) { struct rewriteConfigState *state; sds newcontent; int retval; /* Step 1: read the old config into our rewrite state. */ if ((state = rewriteConfigReadOldFile(path)) == NULL) return -1; if (force_write) state->force_write = 1; /* Step 2: rewrite every single option, replacing or appending it inside * the rewrite state. */ /* Iterate the configs that are standard */ dictIterator *di = dictGetIterator(configs); dictEntry *de; while ((de = dictNext(di)) != NULL) { standardConfig *config = dictGetVal(de); /* Only rewrite the primary names */ if (config->flags & ALIAS_CONFIG) continue; if (config->interface.rewrite) config->interface.rewrite(config, dictGetKey(de), state); } dictReleaseIterator(di); rewriteConfigUserOption(state); rewriteConfigLoadmoduleOption(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 embedCommonConfig(config_name, config_alias, config_flags) \ .name = (config_name), \ .alias = (config_alias), \ .flags = (config_flags), #define embedConfigInterface(initfn, setfn, getfn, rewritefn, applyfn) .interface = { \ .init = (initfn), \ .set = (setfn), \ .get = (getfn), \ .rewrite = (rewritefn), \ .apply = (applyfn) \ }, /* 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(standardConfig *config) { *config->data.yesno.config = config->data.yesno.default_value; } static int boolConfigSet(standardConfig *config, sds *argv, int argc, const char **err) { UNUSED(argc); int yn = yesnotoi(argv[0]); if (yn == -1) { *err = "argument must be 'yes' or 'no'"; return 0; } if (config->data.yesno.is_valid_fn && !config->data.yesno.is_valid_fn(yn, err)) return 0; int prev = config->flags & MODULE_CONFIG ? getModuleBoolConfig(config->privdata) : *(config->data.yesno.config); if (prev != yn) { if (config->flags & MODULE_CONFIG) { return setModuleBoolConfig(config->privdata, yn, err); } *(config->data.yesno.config) = yn; return 1; } return (config->flags & VOLATILE_CONFIG) ? 1 : 2; } static sds boolConfigGet(standardConfig *config) { if (config->flags & MODULE_CONFIG) { return sdsnew(getModuleBoolConfig(config->privdata) ? "yes" : "no"); } return sdsnew(*config->data.yesno.config ? "yes" : "no"); } static void boolConfigRewrite(standardConfig *config, const char *name, struct rewriteConfigState *state) { int val = config->flags & MODULE_CONFIG ? getModuleBoolConfig(config->privdata) : *(config->data.yesno.config); rewriteConfigYesNoOption(state, name, val, config->data.yesno.default_value); } #define createBoolConfig(name, alias, flags, config_addr, default, is_valid, apply) { \ embedCommonConfig(name, alias, flags) \ embedConfigInterface(boolConfigInit, boolConfigSet, boolConfigGet, boolConfigRewrite, apply) \ .type = BOOL_CONFIG, \ .data.yesno = { \ .config = &(config_addr), \ .default_value = (default), \ .is_valid_fn = (is_valid), \ } \ } /* String Configs */ static void stringConfigInit(standardConfig *config) { *config->data.string.config = (config->data.string.convert_empty_to_null && !config->data.string.default_value) ? NULL : zstrdup(config->data.string.default_value); } static int stringConfigSet(standardConfig *config, sds *argv, int argc, const char **err) { UNUSED(argc); if (config->data.string.is_valid_fn && !config->data.string.is_valid_fn(argv[0], err)) return 0; char *prev = *config->data.string.config; char *new = (config->data.string.convert_empty_to_null && !argv[0][0]) ? NULL : argv[0]; if (new != prev && (new == NULL || prev == NULL || strcmp(prev, new))) { *config->data.string.config = new != NULL ? zstrdup(new) : NULL; zfree(prev); return 1; } return (config->flags & VOLATILE_CONFIG) ? 1 : 2; } static sds stringConfigGet(standardConfig *config) { return sdsnew(*config->data.string.config ? *config->data.string.config : ""); } static void stringConfigRewrite(standardConfig *config, const char *name, struct rewriteConfigState *state) { rewriteConfigStringOption(state, name,*(config->data.string.config), config->data.string.default_value); } /* SDS Configs */ static void sdsConfigInit(standardConfig *config) { *config->data.sds.config = (config->data.sds.convert_empty_to_null && !config->data.sds.default_value) ? NULL : sdsnew(config->data.sds.default_value); } static int sdsConfigSet(standardConfig *config, sds *argv, int argc, const char **err) { UNUSED(argc); if (config->data.sds.is_valid_fn && !config->data.sds.is_valid_fn(argv[0], err)) return 0; sds prev = config->flags & MODULE_CONFIG ? getModuleStringConfig(config->privdata) : *config->data.sds.config; sds new = (config->data.string.convert_empty_to_null && (sdslen(argv[0]) == 0)) ? NULL : argv[0]; /* if prev and new configuration are not equal, set the new one */ if (new != prev && (new == NULL || prev == NULL || sdscmp(prev, new))) { /* If MODULE_CONFIG flag is set, then free temporary prev getModuleStringConfig returned. * Otherwise, free the actual previous config value Redis held (Same action, different reasons) */ sdsfree(prev); if (config->flags & MODULE_CONFIG) { return setModuleStringConfig(config->privdata, new, err); } *config->data.sds.config = new != NULL ? sdsdup(new) : NULL; return 1; } if (config->flags & MODULE_CONFIG && prev) sdsfree(prev); return (config->flags & VOLATILE_CONFIG) ? 1 : 2; } static sds sdsConfigGet(standardConfig *config) { sds val = config->flags & MODULE_CONFIG ? getModuleStringConfig(config->privdata) : *config->data.sds.config; if (val) { if (config->flags & MODULE_CONFIG) return val; return sdsdup(val); } else { return sdsnew(""); } } static void sdsConfigRewrite(standardConfig *config, const char *name, struct rewriteConfigState *state) { sds val = config->flags & MODULE_CONFIG ? getModuleStringConfig(config->privdata) : *config->data.sds.config; rewriteConfigSdsOption(state, name, val, config->data.sds.default_value); if ((val) && (config->flags & MODULE_CONFIG)) sdsfree(val); } #define ALLOW_EMPTY_STRING 0 #define EMPTY_STRING_IS_NULL 1 #define createStringConfig(name, alias, flags, empty_to_null, config_addr, default, is_valid, apply) { \ embedCommonConfig(name, alias, flags) \ embedConfigInterface(stringConfigInit, stringConfigSet, stringConfigGet, stringConfigRewrite, apply) \ .type = STRING_CONFIG, \ .data.string = { \ .config = &(config_addr), \ .default_value = (default), \ .is_valid_fn = (is_valid), \ .convert_empty_to_null = (empty_to_null), \ } \ } #define createSDSConfig(name, alias, flags, empty_to_null, config_addr, default, is_valid, apply) { \ embedCommonConfig(name, alias, flags) \ embedConfigInterface(sdsConfigInit, sdsConfigSet, sdsConfigGet, sdsConfigRewrite, apply) \ .type = SDS_CONFIG, \ .data.sds = { \ .config = &(config_addr), \ .default_value = (default), \ .is_valid_fn = (is_valid), \ .convert_empty_to_null = (empty_to_null), \ } \ } /* Enum configs */ static void enumConfigInit(standardConfig *config) { *config->data.enumd.config = config->data.enumd.default_value; } static int enumConfigSet(standardConfig *config, sds *argv, int argc, const char **err) { int enumval; int bitflags = !!(config->flags & MULTI_ARG_CONFIG); enumval = configEnumGetValue(config->data.enumd.enum_value, argv, argc, bitflags); if (enumval == INT_MIN) { sds enumerr = sdsnew("argument(s) must be one of the following: "); configEnum *enumNode = config->data.enumd.enum_value; while(enumNode->name != NULL) { enumerr = sdscatlen(enumerr, enumNode->name, strlen(enumNode->name)); enumerr = sdscatlen(enumerr, ", ", 2); enumNode++; } sdsrange(enumerr,0,-3); /* Remove final ", ". */ redis_strlcpy(loadbuf, enumerr, LOADBUF_SIZE); sdsfree(enumerr); *err = loadbuf; return 0; } if (config->data.enumd.is_valid_fn && !config->data.enumd.is_valid_fn(enumval, err)) return 0; int prev = config->flags & MODULE_CONFIG ? getModuleEnumConfig(config->privdata) : *(config->data.enumd.config); if (prev != enumval) { if (config->flags & MODULE_CONFIG) return setModuleEnumConfig(config->privdata, enumval, err); *(config->data.enumd.config) = enumval; return 1; } return (config->flags & VOLATILE_CONFIG) ? 1 : 2; } static sds enumConfigGet(standardConfig *config) { int val = config->flags & MODULE_CONFIG ? getModuleEnumConfig(config->privdata) : *(config->data.enumd.config); int bitflags = !!(config->flags & MULTI_ARG_CONFIG); return configEnumGetName(config->data.enumd.enum_value,val,bitflags); } static void enumConfigRewrite(standardConfig *config, const char *name, struct rewriteConfigState *state) { int val = config->flags & MODULE_CONFIG ? getModuleEnumConfig(config->privdata) : *(config->data.enumd.config); rewriteConfigEnumOption(state, name, val, config); } #define createEnumConfig(name, alias, flags, enum, config_addr, default, is_valid, apply) { \ embedCommonConfig(name, alias, flags) \ embedConfigInterface(enumConfigInit, enumConfigSet, enumConfigGet, enumConfigRewrite, apply) \ .type = ENUM_CONFIG, \ .data.enumd = { \ .config = &(config_addr), \ .default_value = (default), \ .is_valid_fn = (is_valid), \ .enum_value = (enum), \ } \ } /* Gets a 'long long val' and sets it into the union, using a macro to get * compile time type check. */ int setNumericType(standardConfig *config, long long val, const char **err) { if (config->data.numeric.numeric_type == NUMERIC_TYPE_INT) { *(config->data.numeric.config.i) = (int) val; } else if (config->data.numeric.numeric_type == NUMERIC_TYPE_UINT) { *(config->data.numeric.config.ui) = (unsigned int) val; } else if (config->data.numeric.numeric_type == NUMERIC_TYPE_LONG) { *(config->data.numeric.config.l) = (long) val; } else if (config->data.numeric.numeric_type == NUMERIC_TYPE_ULONG) { *(config->data.numeric.config.ul) = (unsigned long) val; } else if (config->data.numeric.numeric_type == NUMERIC_TYPE_LONG_LONG) { if (config->flags & MODULE_CONFIG) return setModuleNumericConfig(config->privdata, val, err); else *(config->data.numeric.config.ll) = (long long) val; } else if (config->data.numeric.numeric_type == NUMERIC_TYPE_ULONG_LONG) { *(config->data.numeric.config.ull) = (unsigned long long) val; } else if (config->data.numeric.numeric_type == NUMERIC_TYPE_SIZE_T) { *(config->data.numeric.config.st) = (size_t) val; } else if (config->data.numeric.numeric_type == NUMERIC_TYPE_SSIZE_T) { *(config->data.numeric.config.sst) = (ssize_t) val; } else if (config->data.numeric.numeric_type == NUMERIC_TYPE_OFF_T) { *(config->data.numeric.config.ot) = (off_t) val; } else if (config->data.numeric.numeric_type == NUMERIC_TYPE_TIME_T) { *(config->data.numeric.config.tt) = (time_t) val; } return 1; } /* 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 (config->data.numeric.numeric_type == NUMERIC_TYPE_INT) { \ val = *(config->data.numeric.config.i); \ } else if (config->data.numeric.numeric_type == NUMERIC_TYPE_UINT) { \ val = *(config->data.numeric.config.ui); \ } else if (config->data.numeric.numeric_type == NUMERIC_TYPE_LONG) { \ val = *(config->data.numeric.config.l); \ } else if (config->data.numeric.numeric_type == NUMERIC_TYPE_ULONG) { \ val = *(config->data.numeric.config.ul); \ } else if (config->data.numeric.numeric_type == NUMERIC_TYPE_LONG_LONG) { \ if (config->flags & MODULE_CONFIG) val = getModuleNumericConfig(config->privdata); \ else val = *(config->data.numeric.config.ll); \ } else if (config->data.numeric.numeric_type == NUMERIC_TYPE_ULONG_LONG) { \ val = *(config->data.numeric.config.ull); \ } else if (config->data.numeric.numeric_type == NUMERIC_TYPE_SIZE_T) { \ val = *(config->data.numeric.config.st); \ } else if (config->data.numeric.numeric_type == NUMERIC_TYPE_SSIZE_T) { \ val = *(config->data.numeric.config.sst); \ } else if (config->data.numeric.numeric_type == NUMERIC_TYPE_OFF_T) { \ val = *(config->data.numeric.config.ot); \ } else if (config->data.numeric.numeric_type == NUMERIC_TYPE_TIME_T) { \ val = *(config->data.numeric.config.tt); \ } /* Numeric configs */ static void numericConfigInit(standardConfig *config) { setNumericType(config, config->data.numeric.default_value, NULL); } static int numericBoundaryCheck(standardConfig *config, long long ll, const char **err) { if (config->data.numeric.numeric_type == NUMERIC_TYPE_ULONG_LONG || config->data.numeric.numeric_type == NUMERIC_TYPE_UINT || config->data.numeric.numeric_type == NUMERIC_TYPE_SIZE_T) { /* Boundary check for unsigned types */ unsigned long long ull = ll; unsigned long long upper_bound = config->data.numeric.upper_bound; unsigned long long lower_bound = config->data.numeric.lower_bound; if (ull > upper_bound || ull < lower_bound) { if (config->data.numeric.flags & OCTAL_CONFIG) { snprintf(loadbuf, LOADBUF_SIZE, "argument must be between %llo and %llo inclusive", lower_bound, upper_bound); } else { snprintf(loadbuf, LOADBUF_SIZE, "argument must be between %llu and %llu inclusive", lower_bound, upper_bound); } *err = loadbuf; return 0; } } else { /* Boundary check for percentages */ if (config->data.numeric.flags & PERCENT_CONFIG && ll < 0) { if (ll < config->data.numeric.lower_bound) { snprintf(loadbuf, LOADBUF_SIZE, "percentage argument must be less or equal to %lld", -config->data.numeric.lower_bound); *err = loadbuf; return 0; } } /* Boundary check for signed types */ else if (ll > config->data.numeric.upper_bound || ll < config->data.numeric.lower_bound) { snprintf(loadbuf, LOADBUF_SIZE, "argument must be between %lld and %lld inclusive", config->data.numeric.lower_bound, config->data.numeric.upper_bound); *err = loadbuf; return 0; } } return 1; } static int numericParseString(standardConfig *config, sds value, const char **err, long long *res) { /* First try to parse as memory */ if (config->data.numeric.flags & MEMORY_CONFIG) { int memerr; *res = memtoull(value, &memerr); if (!memerr) return 1; } /* Attempt to parse as percent */ if (config->data.numeric.flags & PERCENT_CONFIG && sdslen(value) > 1 && value[sdslen(value)-1] == '%' && string2ll(value, sdslen(value)-1, res) && *res >= 0) { /* We store percentage as negative value */ *res = -*res; return 1; } /* Attempt to parse as an octal number */ if (config->data.numeric.flags & OCTAL_CONFIG) { char *endptr; errno = 0; *res = strtoll(value, &endptr, 8); if (errno == 0 && *endptr == '\0') return 1; /* No overflow or invalid characters */ } /* Attempt a simple number (no special flags set) */ if (!config->data.numeric.flags && string2ll(value, sdslen(value), res)) return 1; /* Select appropriate error string */ if (config->data.numeric.flags & MEMORY_CONFIG && config->data.numeric.flags & PERCENT_CONFIG) *err = "argument must be a memory or percent value" ; else if (config->data.numeric.flags & MEMORY_CONFIG) *err = "argument must be a memory value"; else if (config->data.numeric.flags & OCTAL_CONFIG) *err = "argument couldn't be parsed as an octal number"; else *err = "argument couldn't be parsed into an integer"; return 0; } static int numericConfigSet(standardConfig *config, sds *argv, int argc, const char **err) { UNUSED(argc); long long ll, prev = 0; if (!numericParseString(config, argv[0], err, &ll)) return 0; if (!numericBoundaryCheck(config, ll, err)) return 0; if (config->data.numeric.is_valid_fn && !config->data.numeric.is_valid_fn(ll, err)) return 0; GET_NUMERIC_TYPE(prev) if (prev != ll) { return setNumericType(config, ll, err); } return (config->flags & VOLATILE_CONFIG) ? 1 : 2; } static sds numericConfigGet(standardConfig *config) { char buf[128]; long long value = 0; GET_NUMERIC_TYPE(value) if (config->data.numeric.flags & PERCENT_CONFIG && value < 0) { int len = ll2string(buf, sizeof(buf), -value); buf[len] = '%'; buf[len+1] = '\0'; } else if (config->data.numeric.flags & MEMORY_CONFIG) { ull2string(buf, sizeof(buf), value); } else if (config->data.numeric.flags & OCTAL_CONFIG) { snprintf(buf, sizeof(buf), "%llo", value); } else { ll2string(buf, sizeof(buf), value); } return sdsnew(buf); } static void numericConfigRewrite(standardConfig *config, const char *name, struct rewriteConfigState *state) { long long value = 0; GET_NUMERIC_TYPE(value) if (config->data.numeric.flags & PERCENT_CONFIG && value < 0) { rewriteConfigPercentOption(state, name, -value, config->data.numeric.default_value); } else if (config->data.numeric.flags & MEMORY_CONFIG) { rewriteConfigBytesOption(state, name, value, config->data.numeric.default_value); } else if (config->data.numeric.flags & OCTAL_CONFIG) { rewriteConfigOctalOption(state, name, value, config->data.numeric.default_value); } else { rewriteConfigNumericalOption(state, name, value, config->data.numeric.default_value); } } #define embedCommonNumericalConfig(name, alias, _flags, lower, upper, config_addr, default, num_conf_flags, is_valid, apply) { \ embedCommonConfig(name, alias, _flags) \ embedConfigInterface(numericConfigInit, numericConfigSet, numericConfigGet, numericConfigRewrite, apply) \ .type = NUMERIC_CONFIG, \ .data.numeric = { \ .lower_bound = (lower), \ .upper_bound = (upper), \ .default_value = (default), \ .is_valid_fn = (is_valid), \ .flags = (num_conf_flags), #define createIntConfig(name, alias, flags, lower, upper, config_addr, default, num_conf_flags, is_valid, apply) \ embedCommonNumericalConfig(name, alias, flags, lower, upper, config_addr, default, num_conf_flags, is_valid, apply) \ .numeric_type = NUMERIC_TYPE_INT, \ .config.i = &(config_addr) \ } \ } #define createUIntConfig(name, alias, flags, lower, upper, config_addr, default, num_conf_flags, is_valid, apply) \ embedCommonNumericalConfig(name, alias, flags, lower, upper, config_addr, default, num_conf_flags, is_valid, apply) \ .numeric_type = NUMERIC_TYPE_UINT, \ .config.ui = &(config_addr) \ } \ } #define createLongConfig(name, alias, flags, lower, upper, config_addr, default, num_conf_flags, is_valid, apply) \ embedCommonNumericalConfig(name, alias, flags, lower, upper, config_addr, default, num_conf_flags, is_valid, apply) \ .numeric_type = NUMERIC_TYPE_LONG, \ .config.l = &(config_addr) \ } \ } #define createULongConfig(name, alias, flags, lower, upper, config_addr, default, num_conf_flags, is_valid, apply) \ embedCommonNumericalConfig(name, alias, flags, lower, upper, config_addr, default, num_conf_flags, is_valid, apply) \ .numeric_type = NUMERIC_TYPE_ULONG, \ .config.ul = &(config_addr) \ } \ } #define createLongLongConfig(name, alias, flags, lower, upper, config_addr, default, num_conf_flags, is_valid, apply) \ embedCommonNumericalConfig(name, alias, flags, lower, upper, config_addr, default, num_conf_flags, is_valid, apply) \ .numeric_type = NUMERIC_TYPE_LONG_LONG, \ .config.ll = &(config_addr) \ } \ } #define createULongLongConfig(name, alias, flags, lower, upper, config_addr, default, num_conf_flags, is_valid, apply) \ embedCommonNumericalConfig(name, alias, flags, lower, upper, config_addr, default, num_conf_flags, is_valid, apply) \ .numeric_type = NUMERIC_TYPE_ULONG_LONG, \ .config.ull = &(config_addr) \ } \ } #define createSizeTConfig(name, alias, flags, lower, upper, config_addr, default, num_conf_flags, is_valid, apply) \ embedCommonNumericalConfig(name, alias, flags, lower, upper, config_addr, default, num_conf_flags, is_valid, apply) \ .numeric_type = NUMERIC_TYPE_SIZE_T, \ .config.st = &(config_addr) \ } \ } #define createSSizeTConfig(name, alias, flags, lower, upper, config_addr, default, num_conf_flags, is_valid, apply) \ embedCommonNumericalConfig(name, alias, flags, lower, upper, config_addr, default, num_conf_flags, is_valid, apply) \ .numeric_type = NUMERIC_TYPE_SSIZE_T, \ .config.sst = &(config_addr) \ } \ } #define createTimeTConfig(name, alias, flags, lower, upper, config_addr, default, num_conf_flags, is_valid, apply) \ embedCommonNumericalConfig(name, alias, flags, lower, upper, config_addr, default, num_conf_flags, is_valid, apply) \ .numeric_type = NUMERIC_TYPE_TIME_T, \ .config.tt = &(config_addr) \ } \ } #define createOffTConfig(name, alias, flags, lower, upper, config_addr, default, num_conf_flags, is_valid, apply) \ embedCommonNumericalConfig(name, alias, flags, lower, upper, config_addr, default, num_conf_flags, is_valid, apply) \ .numeric_type = NUMERIC_TYPE_OFF_T, \ .config.ot = &(config_addr) \ } \ } #define createSpecialConfig(name, alias, modifiable, setfn, getfn, rewritefn, applyfn) { \ .type = SPECIAL_CONFIG, \ embedCommonConfig(name, alias, modifiable) \ embedConfigInterface(NULL, setfn, getfn, rewritefn, applyfn) \ } static int isValidActiveDefrag(int val, const 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, const char **err) { if (!pathIsBaseName(val)) { *err = "dbfilename can't be a path, just a filename"; return 0; } return 1; } static int isValidAOFfilename(char *val, const char **err) { if (!strcmp(val, "")) { *err = "appendfilename can't be empty"; return 0; } if (!pathIsBaseName(val)) { *err = "appendfilename can't be a path, just a filename"; return 0; } return 1; } static int isValidAOFdirname(char *val, const char **err) { if (!strcmp(val, "")) { *err = "appenddirname can't be empty"; return 0; } if (!pathIsBaseName(val)) { *err = "appenddirname can't be a path, just a dirname"; return 0; } return 1; } static int isValidShutdownOnSigFlags(int val, const char **err) { /* Individual arguments are validated by createEnumConfig logic. * We just need to ensure valid combinations here. */ if (val & SHUTDOWN_NOSAVE && val & SHUTDOWN_SAVE) { *err = "shutdown options SAVE and NOSAVE can't be used simultaneously"; return 0; } return 1; } static int isValidAnnouncedNodename(char *val,const char **err) { if (!(isValidAuxString(val,sdslen(val)))) { *err = "Announced human node name contained invalid character"; return 0; } return 1; } static int isValidAnnouncedHostname(char *val, const char **err) { if (strlen(val) >= NET_HOST_STR_LEN) { *err = "Hostnames must be less than " STRINGIFY(NET_HOST_STR_LEN) " characters"; return 0; } int i = 0; char c; while ((c = val[i])) { /* We just validate the character set to make sure that everything * is parsed and handled correctly. */ if (!((c >= 'A' && c <= 'Z') || (c >= 'a' && c <= 'z') || (c >= '0' && c <= '9') || (c == '-') || (c == '.'))) { *err = "Hostnames may only contain alphanumeric characters, " "hyphens or dots"; return 0; } c = val[i++]; } return 1; } /* Validate specified string is a valid proc-title-template */ static int isValidProcTitleTemplate(char *val, const char **err) { if (!validateProcTitleTemplate(val)) { *err = "template format is invalid or contains unknown variables"; return 0; } return 1; } static int updateLocaleCollate(const char **err) { const char *s = setlocale(LC_COLLATE, server.locale_collate); if (s == NULL) { *err = "Invalid locale name"; return 0; } return 1; } static int updateProcTitleTemplate(const char **err) { if (redisSetProcTitle(NULL) == C_ERR) { *err = "failed to set process title"; return 0; } return 1; } static int updateHZ(const char **err) { UNUSED(err); /* Hz is more a hint from the user, so we accept values out of range * but cap them to reasonable values. */ 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 updatePort(const char **err) { connListener *listener = listenerByType(CONN_TYPE_SOCKET); serverAssert(listener != NULL); listener->bindaddr = server.bindaddr; listener->bindaddr_count = server.bindaddr_count; listener->port = server.port; listener->ct = connectionByType(CONN_TYPE_SOCKET); if (changeListener(listener) == C_ERR) { *err = "Unable to listen on this port. Check server logs."; return 0; } return 1; } static int updateJemallocBgThread(const char **err) { UNUSED(err); set_jemalloc_bg_thread(server.jemalloc_bg_thread); return 1; } static int updateReplBacklogSize(const char **err) { UNUSED(err); resizeReplicationBacklog(); return 1; } static int updateMaxmemory(const char **err) { UNUSED(err); if (server.maxmemory) { size_t used = zmalloc_used_memory()-freeMemoryGetNotCountedMemory(); if (server.maxmemory < used) { serverLog(LL_WARNING,"WARNING: the new maxmemory value set via CONFIG SET (%llu) is smaller than the current memory usage (%zu). This will result in key eviction and/or the inability to accept new write commands depending on the maxmemory-policy.", server.maxmemory, used); } startEvictionTimeProc(); } return 1; } static int updateGoodSlaves(const char **err) { UNUSED(err); refreshGoodSlavesCount(); return 1; } static int updateWatchdogPeriod(const char **err) { UNUSED(err); applyWatchdogPeriod(); return 1; } static int updateAppendonly(const char **err) { if (!server.aof_enabled && server.aof_state != AOF_OFF) { stopAppendOnly(); } else if (server.aof_enabled && server.aof_state == AOF_OFF) { if (startAppendOnly() == C_ERR) { *err = "Unable to turn on AOF. Check server logs."; return 0; } } return 1; } static int updateAofAutoGCEnabled(const char **err) { UNUSED(err); if (!server.aof_disable_auto_gc) { aofDelHistoryFiles(); } return 1; } static int updateSighandlerEnabled(const char **err) { UNUSED(err); if (server.crashlog_enabled) setupSignalHandlers(); else removeSignalHandlers(); return 1; } static int updateMaxclients(const char **err) { unsigned int new_maxclients = server.maxclients; adjustOpenFilesLimit(); if (server.maxclients != new_maxclients) { static char msg[128]; snprintf(msg, sizeof(msg), "The operating system is not able to handle the specified number of clients, try with %d", server.maxclients); *err = msg; 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; } static int updateOOMScoreAdj(const char **err) { if (setOOMScoreAdj(-1) == C_ERR) { *err = "Failed to set current oom_score_adj. Check server logs."; return 0; } return 1; } int updateRequirePass(const char **err) { UNUSED(err); /* The old "requirepass" directive just translates to setting * a password to the default user. The only thing we do * additionally is to remember the cleartext password in this * case, for backward compatibility with Redis <= 5. */ ACLUpdateDefaultUserPassword(server.requirepass); return 1; } int updateAppendFsync(const char **err) { UNUSED(err); if (server.aof_fsync == AOF_FSYNC_ALWAYS) { /* Wait for all bio jobs related to AOF to drain before proceeding. This prevents a race * between updates to `fsynced_reploff_pending` done in the main thread and those done on the * worker thread. */ bioDrainWorker(BIO_AOF_FSYNC); } return 1; } /* applyBind affects both TCP and TLS (if enabled) together */ static int applyBind(const char **err) { connListener *tcp_listener = listenerByType(CONN_TYPE_SOCKET); connListener *tls_listener = listenerByType(CONN_TYPE_TLS); serverAssert(tcp_listener != NULL); tcp_listener->bindaddr = server.bindaddr; tcp_listener->bindaddr_count = server.bindaddr_count; tcp_listener->port = server.port; tcp_listener->ct = connectionByType(CONN_TYPE_SOCKET); if (changeListener(tcp_listener) == C_ERR) { *err = "Failed to bind to specified addresses."; if (tls_listener) closeListener(tls_listener); /* failed with TLS together */ return 0; } if (server.tls_port != 0) { serverAssert(tls_listener != NULL); tls_listener->bindaddr = server.bindaddr; tls_listener->bindaddr_count = server.bindaddr_count; tls_listener->port = server.tls_port; tls_listener->ct = connectionByType(CONN_TYPE_TLS); if (changeListener(tls_listener) == C_ERR) { *err = "Failed to bind to specified addresses."; closeListener(tcp_listener); /* failed with TCP together */ return 0; } } return 1; } int updateClusterFlags(const char **err) { UNUSED(err); clusterUpdateMyselfFlags(); return 1; } static int updateClusterAnnouncedPort(const char **err) { UNUSED(err); clusterUpdateMyselfAnnouncedPorts(); return 1; } static int updateClusterIp(const char **err) { UNUSED(err); clusterUpdateMyselfIp(); return 1; } int updateClusterHostname(const char **err) { UNUSED(err); clusterUpdateMyselfHostname(); return 1; } int updateClusterHumanNodename(const char **err) { UNUSED(err); clusterUpdateMyselfHumanNodename(); return 1; } static int applyTlsCfg(const char **err) { UNUSED(err); /* If TLS is enabled, try to configure OpenSSL. */ if ((server.tls_port || server.tls_replication || server.tls_cluster) && connTypeConfigure(connectionTypeTls(), &server.tls_ctx_config, 1) == C_ERR) { *err = "Unable to update TLS configuration. Check server logs."; return 0; } return 1; } static int applyTLSPort(const char **err) { /* Configure TLS in case it wasn't enabled */ if (connTypeConfigure(connectionTypeTls(), &server.tls_ctx_config, 0) == C_ERR) { *err = "Unable to update TLS configuration. Check server logs."; return 0; } connListener *listener = listenerByType(CONN_TYPE_TLS); serverAssert(listener != NULL); listener->bindaddr = server.bindaddr; listener->bindaddr_count = server.bindaddr_count; listener->port = server.tls_port; listener->ct = connectionByType(CONN_TYPE_TLS); if (changeListener(listener) == C_ERR) { *err = "Unable to listen on this port. Check server logs."; return 0; } return 1; } static int setConfigDirOption(standardConfig *config, sds *argv, int argc, const char **err) { UNUSED(config); if (argc != 1) { *err = "wrong number of arguments"; return 0; } if (chdir(argv[0]) == -1) { *err = strerror(errno); return 0; } return 1; } static sds getConfigDirOption(standardConfig *config) { UNUSED(config); char buf[1024]; if (getcwd(buf,sizeof(buf)) == NULL) buf[0] = '\0'; return sdsnew(buf); } static int setConfigSaveOption(standardConfig *config, sds *argv, int argc, const char **err) { UNUSED(config); int j; /* Special case: treat single arg "" as zero args indicating empty save configuration */ if (argc == 1 && !strcasecmp(argv[0],"")) { resetServerSaveParams(); argc = 0; } /* Perform sanity check before setting the new config: * - Even number of args * - Seconds >= 1, changes >= 0 */ if (argc & 1) { *err = "Invalid save parameters"; return 0; } for (j = 0; j < argc; j++) { char *eptr; long val; val = strtoll(argv[j], &eptr, 10); if (eptr[0] != '\0' || ((j & 1) == 0 && val < 1) || ((j & 1) == 1 && val < 0)) { *err = "Invalid save parameters"; return 0; } } /* Finally set the new config */ if (!reading_config_file) { resetServerSaveParams(); } else { /* We don't reset save params before loading, because if they're not part * of the file the defaults should be used. */ static int save_loaded = 0; if (!save_loaded) { save_loaded = 1; resetServerSaveParams(); } } for (j = 0; j < argc; j += 2) { time_t seconds; int changes; seconds = strtoll(argv[j],NULL,10); changes = strtoll(argv[j+1],NULL,10); appendServerSaveParams(seconds, changes); } return 1; } static sds getConfigSaveOption(standardConfig *config) { UNUSED(config); 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); } return buf; } static int setConfigClientOutputBufferLimitOption(standardConfig *config, sds *argv, int argc, const char **err) { UNUSED(config); return updateClientOutputBufferLimit(argv, argc, err); } static sds getConfigClientOutputBufferLimitOption(standardConfig *config) { UNUSED(config); 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); } return buf; } /* Parse an array of CONFIG_OOM_COUNT sds strings, validate and populate * server.oom_score_adj_values if valid. */ static int setConfigOOMScoreAdjValuesOption(standardConfig *config, sds *argv, int argc, const char **err) { int i; int values[CONFIG_OOM_COUNT]; int change = 0; UNUSED(config); if (argc != CONFIG_OOM_COUNT) { *err = "wrong number of arguments"; return 0; } for (i = 0; i < CONFIG_OOM_COUNT; i++) { char *eptr; long long val = strtoll(argv[i], &eptr, 10); if (*eptr != '\0' || val < -2000 || val > 2000) { if (err) *err = "Invalid oom-score-adj-values, elements must be between -2000 and 2000."; return 0; } values[i] = val; } /* Verify that the values make sense. If they don't omit a warning but * keep the configuration, which may still be valid for privileged processes. */ if (values[CONFIG_OOM_REPLICA] < values[CONFIG_OOM_MASTER] || values[CONFIG_OOM_BGCHILD] < values[CONFIG_OOM_REPLICA]) { serverLog(LL_WARNING, "The oom-score-adj-values configuration may not work for non-privileged processes! " "Please consult the documentation."); } for (i = 0; i < CONFIG_OOM_COUNT; i++) { if (server.oom_score_adj_values[i] != values[i]) { server.oom_score_adj_values[i] = values[i]; change = 1; } } return change ? 1 : 2; } static sds getConfigOOMScoreAdjValuesOption(standardConfig *config) { UNUSED(config); sds buf = sdsempty(); int j; for (j = 0; j < CONFIG_OOM_COUNT; j++) { buf = sdscatprintf(buf,"%d", server.oom_score_adj_values[j]); if (j != CONFIG_OOM_COUNT-1) buf = sdscatlen(buf," ",1); } return buf; } static int setConfigNotifyKeyspaceEventsOption(standardConfig *config, sds *argv, int argc, const char **err) { UNUSED(config); if (argc != 1) { *err = "wrong number of arguments"; return 0; } int flags = keyspaceEventsStringToFlags(argv[0]); if (flags == -1) { *err = "Invalid event class character. Use 'Ag$lshzxeKEtmdn'."; return 0; } server.notify_keyspace_events = flags; return 1; } static sds getConfigNotifyKeyspaceEventsOption(standardConfig *config) { UNUSED(config); return keyspaceEventsFlagsToString(server.notify_keyspace_events); } static int setConfigBindOption(standardConfig *config, sds* argv, int argc, const char **err) { UNUSED(config); int j; if (argc > CONFIG_BINDADDR_MAX) { *err = "Too many bind addresses specified."; return 0; } /* A single empty argument is treated as a zero bindaddr count */ if (argc == 1 && sdslen(argv[0]) == 0) argc = 0; /* Free old bind addresses */ for (j = 0; j < server.bindaddr_count; j++) { zfree(server.bindaddr[j]); } for (j = 0; j < argc; j++) server.bindaddr[j] = zstrdup(argv[j]); server.bindaddr_count = argc; return 1; } static int setConfigReplicaOfOption(standardConfig *config, sds* argv, int argc, const char **err) { UNUSED(config); if (argc != 2) { *err = "wrong number of arguments"; return 0; } sdsfree(server.masterhost); server.masterhost = NULL; if (!strcasecmp(argv[0], "no") && !strcasecmp(argv[1], "one")) { return 1; } char *ptr; server.masterport = strtol(argv[1], &ptr, 10); if (server.masterport < 0 || server.masterport > 65535 || *ptr != '\0') { *err = "Invalid master port"; return 0; } server.masterhost = sdsnew(argv[0]); server.repl_state = REPL_STATE_CONNECT; return 1; } static sds getConfigBindOption(standardConfig *config) { UNUSED(config); return sdsjoin(server.bindaddr,server.bindaddr_count," "); } static sds getConfigReplicaOfOption(standardConfig *config) { UNUSED(config); char buf[256]; if (server.masterhost) snprintf(buf,sizeof(buf),"%s %d", server.masterhost, server.masterport); else buf[0] = '\0'; return sdsnew(buf); } int allowProtectedAction(int config, client *c) { return (config == PROTECTED_ACTION_ALLOWED_YES) || (config == PROTECTED_ACTION_ALLOWED_LOCAL && (connIsLocal(c->conn) == 1)); } static int setConfigLatencyTrackingInfoPercentilesOutputOption(standardConfig *config, sds *argv, int argc, const char **err) { UNUSED(config); zfree(server.latency_tracking_info_percentiles); server.latency_tracking_info_percentiles = NULL; server.latency_tracking_info_percentiles_len = argc; /* Special case: treat single arg "" as zero args indicating empty percentile configuration */ if (argc == 1 && sdslen(argv[0]) == 0) server.latency_tracking_info_percentiles_len = 0; else server.latency_tracking_info_percentiles = zmalloc(sizeof(double)*argc); for (int j = 0; j < server.latency_tracking_info_percentiles_len; j++) { double percentile; if (!string2d(argv[j], sdslen(argv[j]), &percentile)) { *err = "Invalid latency-tracking-info-percentiles parameters"; goto configerr; } if (percentile > 100.0 || percentile < 0.0) { *err = "latency-tracking-info-percentiles parameters should sit between [0.0,100.0]"; goto configerr; } server.latency_tracking_info_percentiles[j] = percentile; } return 1; configerr: zfree(server.latency_tracking_info_percentiles); server.latency_tracking_info_percentiles = NULL; server.latency_tracking_info_percentiles_len = 0; return 0; } static sds getConfigLatencyTrackingInfoPercentilesOutputOption(standardConfig *config) { UNUSED(config); sds buf = sdsempty(); for (int j = 0; j < server.latency_tracking_info_percentiles_len; j++) { char fbuf[128]; size_t len = snprintf(fbuf, sizeof(fbuf), "%f", server.latency_tracking_info_percentiles[j]); len = trimDoubleString(fbuf, len); buf = sdscatlen(buf, fbuf, len); if (j != server.latency_tracking_info_percentiles_len-1) buf = sdscatlen(buf," ",1); } return buf; } /* Rewrite the latency-tracking-info-percentiles option. */ void rewriteConfigLatencyTrackingInfoPercentilesOutputOption(standardConfig *config, const char *name, struct rewriteConfigState *state) { UNUSED(config); sds line = sdsnew(name); /* Rewrite latency-tracking-info-percentiles parameters, * or an empty 'latency-tracking-info-percentiles ""' line to avoid the * defaults from being used. */ if (!server.latency_tracking_info_percentiles_len) { line = sdscat(line," \"\""); } else { for (int j = 0; j < server.latency_tracking_info_percentiles_len; j++) { char fbuf[128]; size_t len = snprintf(fbuf, sizeof(fbuf), " %f", server.latency_tracking_info_percentiles[j]); len = trimDoubleString(fbuf, len); line = sdscatlen(line, fbuf, len); } } rewriteConfigRewriteLine(state,name,line,1); } static int applyClientMaxMemoryUsage(const char **err) { UNUSED(err); listIter li; listNode *ln; /* server.client_mem_usage_buckets is an indication that the previous config * was non-zero, in which case we can exit and no apply is needed. */ if(server.maxmemory_clients !=0 && server.client_mem_usage_buckets) return 1; if (server.maxmemory_clients != 0) initServerClientMemUsageBuckets(); /* When client eviction is enabled update memory buckets for all clients. * When disabled, clear that data structure. */ listRewind(server.clients, &li); while ((ln = listNext(&li)) != NULL) { client *c = listNodeValue(ln); if (server.maxmemory_clients == 0) { /* Remove client from memory usage bucket. */ removeClientFromMemUsageBucket(c, 0); } else { /* Update each client(s) memory usage and add to appropriate bucket. */ updateClientMemUsageAndBucket(c); } } if (server.maxmemory_clients == 0) freeServerClientMemUsageBuckets(); return 1; } standardConfig static_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, DEBUG_CONFIG | IMMUTABLE_CONFIG, server.io_threads_do_reads, 0,NULL, NULL), /* Read + parse from threads? */ 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("rdb-del-sync-files", NULL, MODIFIABLE_CONFIG, server.rdb_del_sync_files, 0, 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("set-proc-title", NULL, IMMUTABLE_CONFIG, server.set_proc_title, 1, NULL, NULL), /* Should setproctitle be used? */ createBoolConfig("dynamic-hz", NULL, MODIFIABLE_CONFIG, server.dynamic_hz, 1, NULL, NULL), /* Adapt hz to # of clients.*/ createBoolConfig("lazyfree-lazy-eviction", NULL, DEBUG_CONFIG | MODIFIABLE_CONFIG, server.lazyfree_lazy_eviction, 0, NULL, NULL), createBoolConfig("lazyfree-lazy-expire", NULL, DEBUG_CONFIG | MODIFIABLE_CONFIG, server.lazyfree_lazy_expire, 0, NULL, NULL), createBoolConfig("lazyfree-lazy-server-del", NULL, DEBUG_CONFIG | MODIFIABLE_CONFIG, server.lazyfree_lazy_server_del, 0, NULL, NULL), createBoolConfig("lazyfree-lazy-user-del", NULL, DEBUG_CONFIG | MODIFIABLE_CONFIG, server.lazyfree_lazy_user_del , 0, NULL, NULL), createBoolConfig("lazyfree-lazy-user-flush", NULL, DEBUG_CONFIG | MODIFIABLE_CONFIG, server.lazyfree_lazy_user_flush , 0, NULL, NULL), createBoolConfig("repl-disable-tcp-nodelay", NULL, MODIFIABLE_CONFIG, server.repl_disable_tcp_nodelay, 0, NULL, NULL), createBoolConfig("repl-diskless-sync", NULL, DEBUG_CONFIG | MODIFIABLE_CONFIG, server.repl_diskless_sync, 1, 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("aof-timestamp-enabled", NULL, MODIFIABLE_CONFIG, server.aof_timestamp_enabled, 0, NULL, NULL), createBoolConfig("cluster-replica-no-failover", "cluster-slave-no-failover", MODIFIABLE_CONFIG, server.cluster_slave_no_failover, 0, NULL, updateClusterFlags), /* 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", DEBUG_CONFIG | 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, DEBUG_CONFIG | 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 | DENY_LOADING_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), createBoolConfig("cluster-allow-pubsubshard-when-down", NULL, MODIFIABLE_CONFIG, server.cluster_allow_pubsubshard_when_down, 1, NULL, NULL), createBoolConfig("crash-log-enabled", NULL, MODIFIABLE_CONFIG, server.crashlog_enabled, 1, NULL, updateSighandlerEnabled), createBoolConfig("crash-memcheck-enabled", NULL, MODIFIABLE_CONFIG, server.memcheck_enabled, 1, NULL, NULL), createBoolConfig("use-exit-on-panic", NULL, MODIFIABLE_CONFIG | HIDDEN_CONFIG, server.use_exit_on_panic, 0, NULL, NULL), createBoolConfig("disable-thp", NULL, IMMUTABLE_CONFIG, server.disable_thp, 1, NULL, NULL), createBoolConfig("cluster-allow-replica-migration", NULL, MODIFIABLE_CONFIG, server.cluster_allow_replica_migration, 1, NULL, NULL), createBoolConfig("replica-announced", NULL, MODIFIABLE_CONFIG, server.replica_announced, 1, NULL, NULL), createBoolConfig("latency-tracking", NULL, MODIFIABLE_CONFIG, server.latency_tracking_enabled, 1, NULL, NULL), createBoolConfig("aof-disable-auto-gc", NULL, MODIFIABLE_CONFIG | HIDDEN_CONFIG, server.aof_disable_auto_gc, 0, NULL, updateAofAutoGCEnabled), createBoolConfig("replica-ignore-disk-write-errors", NULL, MODIFIABLE_CONFIG, server.repl_ignore_disk_write_error, 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 | SENSITIVE_CONFIG, EMPTY_STRING_IS_NULL, server.masteruser, NULL, NULL, NULL), createStringConfig("cluster-announce-ip", NULL, MODIFIABLE_CONFIG, EMPTY_STRING_IS_NULL, server.cluster_announce_ip, NULL, NULL, updateClusterIp), createStringConfig("cluster-config-file", NULL, IMMUTABLE_CONFIG, ALLOW_EMPTY_STRING, server.cluster_configfile, "nodes.conf", NULL, NULL), createStringConfig("cluster-announce-hostname", NULL, MODIFIABLE_CONFIG, EMPTY_STRING_IS_NULL, server.cluster_announce_hostname, NULL, isValidAnnouncedHostname, updateClusterHostname), createStringConfig("cluster-announce-human-nodename", NULL, MODIFIABLE_CONFIG, EMPTY_STRING_IS_NULL, server.cluster_announce_human_nodename, NULL, isValidAnnouncedNodename, updateClusterHumanNodename), createStringConfig("syslog-ident", NULL, IMMUTABLE_CONFIG, ALLOW_EMPTY_STRING, server.syslog_ident, "redis", NULL, NULL), createStringConfig("dbfilename", NULL, MODIFIABLE_CONFIG | PROTECTED_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), createStringConfig("appenddirname", NULL, IMMUTABLE_CONFIG, ALLOW_EMPTY_STRING, server.aof_dirname, "appendonlydir", isValidAOFdirname, NULL), createStringConfig("server_cpulist", NULL, IMMUTABLE_CONFIG, EMPTY_STRING_IS_NULL, server.server_cpulist, NULL, NULL, NULL), createStringConfig("bio_cpulist", NULL, IMMUTABLE_CONFIG, EMPTY_STRING_IS_NULL, server.bio_cpulist, NULL, NULL, NULL), createStringConfig("aof_rewrite_cpulist", NULL, IMMUTABLE_CONFIG, EMPTY_STRING_IS_NULL, server.aof_rewrite_cpulist, NULL, NULL, NULL), createStringConfig("bgsave_cpulist", NULL, IMMUTABLE_CONFIG, EMPTY_STRING_IS_NULL, server.bgsave_cpulist, NULL, NULL, NULL), createStringConfig("ignore-warnings", NULL, MODIFIABLE_CONFIG, ALLOW_EMPTY_STRING, server.ignore_warnings, "", NULL, NULL), createStringConfig("proc-title-template", NULL, MODIFIABLE_CONFIG, ALLOW_EMPTY_STRING, server.proc_title_template, CONFIG_DEFAULT_PROC_TITLE_TEMPLATE, isValidProcTitleTemplate, updateProcTitleTemplate), createStringConfig("bind-source-addr", NULL, MODIFIABLE_CONFIG, EMPTY_STRING_IS_NULL, server.bind_source_addr, NULL, NULL, NULL), createStringConfig("logfile", NULL, IMMUTABLE_CONFIG, ALLOW_EMPTY_STRING, server.logfile, "", NULL, NULL), #ifdef LOG_REQ_RES createStringConfig("req-res-logfile", NULL, IMMUTABLE_CONFIG | HIDDEN_CONFIG, EMPTY_STRING_IS_NULL, server.req_res_logfile, NULL, NULL, NULL), #endif createStringConfig("locale-collate", NULL, MODIFIABLE_CONFIG, ALLOW_EMPTY_STRING, server.locale_collate, "", NULL, updateLocaleCollate), /* SDS Configs */ createSDSConfig("masterauth", NULL, MODIFIABLE_CONFIG | SENSITIVE_CONFIG, EMPTY_STRING_IS_NULL, server.masterauth, NULL, NULL, NULL), createSDSConfig("requirepass", NULL, MODIFIABLE_CONFIG | SENSITIVE_CONFIG, EMPTY_STRING_IS_NULL, server.requirepass, NULL, NULL, updateRequirePass), /* 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, DEBUG_CONFIG | MODIFIABLE_CONFIG | DENY_LOADING_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, updateAppendFsync), createEnumConfig("oom-score-adj", NULL, MODIFIABLE_CONFIG, oom_score_adj_enum, server.oom_score_adj, OOM_SCORE_ADJ_NO, NULL, updateOOMScoreAdj), createEnumConfig("acl-pubsub-default", NULL, MODIFIABLE_CONFIG, acl_pubsub_default_enum, server.acl_pubsub_default, 0, NULL, NULL), createEnumConfig("sanitize-dump-payload", NULL, DEBUG_CONFIG | MODIFIABLE_CONFIG, sanitize_dump_payload_enum, server.sanitize_dump_payload, SANITIZE_DUMP_NO, NULL, NULL), createEnumConfig("enable-protected-configs", NULL, IMMUTABLE_CONFIG, protected_action_enum, server.enable_protected_configs, PROTECTED_ACTION_ALLOWED_NO, NULL, NULL), createEnumConfig("enable-debug-command", NULL, IMMUTABLE_CONFIG, protected_action_enum, server.enable_debug_cmd, PROTECTED_ACTION_ALLOWED_NO, NULL, NULL), createEnumConfig("enable-module-command", NULL, IMMUTABLE_CONFIG, protected_action_enum, server.enable_module_cmd, PROTECTED_ACTION_ALLOWED_NO, NULL, NULL), createEnumConfig("cluster-preferred-endpoint-type", NULL, MODIFIABLE_CONFIG, cluster_preferred_endpoint_type_enum, server.cluster_preferred_endpoint_type, CLUSTER_ENDPOINT_TYPE_IP, NULL, NULL), createEnumConfig("propagation-error-behavior", NULL, MODIFIABLE_CONFIG, propagation_error_behavior_enum, server.propagation_error_behavior, PROPAGATION_ERR_BEHAVIOR_IGNORE, NULL, NULL), createEnumConfig("shutdown-on-sigint", NULL, MODIFIABLE_CONFIG | MULTI_ARG_CONFIG, shutdown_on_sig_enum, server.shutdown_on_sigint, 0, isValidShutdownOnSigFlags, NULL), createEnumConfig("shutdown-on-sigterm", NULL, MODIFIABLE_CONFIG | MULTI_ARG_CONFIG, shutdown_on_sig_enum, server.shutdown_on_sigterm, 0, isValidShutdownOnSigFlags, NULL), /* Integer configs */ createIntConfig("databases", NULL, IMMUTABLE_CONFIG, 1, INT_MAX, server.dbnum, 16, INTEGER_CONFIG, NULL, NULL), createIntConfig("port", NULL, MODIFIABLE_CONFIG, 0, 65535, server.port, 6379, INTEGER_CONFIG, NULL, updatePort), /* TCP port. */ createIntConfig("io-threads", NULL, DEBUG_CONFIG | IMMUTABLE_CONFIG, 1, 128, 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-listpack-size", "list-max-ziplist-size", MODIFIABLE_CONFIG, INT_MIN, INT_MAX, server.list_max_listpack_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("maxmemory-eviction-tenacity", NULL, MODIFIABLE_CONFIG, 0, 100, server.maxmemory_eviction_tenacity, 10, 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-port", NULL, IMMUTABLE_CONFIG, 0, 65535, server.cluster_port, 0, INTEGER_CONFIG, NULL, NULL), createIntConfig("cluster-announce-bus-port", NULL, MODIFIABLE_CONFIG, 0, 65535, server.cluster_announce_bus_port, 0, INTEGER_CONFIG, NULL, updateClusterAnnouncedPort), /* Default: Use +10000 offset. */ createIntConfig("cluster-announce-port", NULL, MODIFIABLE_CONFIG, 0, 65535, server.cluster_announce_port, 0, INTEGER_CONFIG, NULL, updateClusterAnnouncedPort), /* Use server.port */ createIntConfig("cluster-announce-tls-port", NULL, MODIFIABLE_CONFIG, 0, 65535, server.cluster_announce_tls_port, 0, INTEGER_CONFIG, NULL, updateClusterAnnouncedPort), /* Use server.tls_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, DEBUG_CONFIG | MODIFIABLE_CONFIG, 0, INT_MAX, server.list_compress_depth, 0, INTEGER_CONFIG, NULL, NULL), createIntConfig("rdb-key-save-delay", NULL, MODIFIABLE_CONFIG | HIDDEN_CONFIG, INT_MIN, INT_MAX, server.rdb_key_save_delay, 0, INTEGER_CONFIG, NULL, NULL), createIntConfig("key-load-delay", NULL, MODIFIABLE_CONFIG | HIDDEN_CONFIG, INT_MIN, INT_MAX, server.key_load_delay, 0, INTEGER_CONFIG, NULL, NULL), 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), createIntConfig("watchdog-period", NULL, MODIFIABLE_CONFIG | HIDDEN_CONFIG, 0, INT_MAX, server.watchdog_period, 0, INTEGER_CONFIG, NULL, updateWatchdogPeriod), createIntConfig("shutdown-timeout", NULL, MODIFIABLE_CONFIG, 0, INT_MAX, server.shutdown_timeout, 10, INTEGER_CONFIG, NULL, NULL), createIntConfig("repl-diskless-sync-max-replicas", NULL, MODIFIABLE_CONFIG, 0, INT_MAX, server.repl_diskless_sync_max_replicas, 0, INTEGER_CONFIG, NULL, NULL), /* Unsigned int configs */ createUIntConfig("maxclients", NULL, MODIFIABLE_CONFIG, 1, UINT_MAX, server.maxclients, 10000, INTEGER_CONFIG, NULL, updateMaxclients), createUIntConfig("unixsocketperm", NULL, IMMUTABLE_CONFIG, 0, 0777, server.unixsocketperm, 0, OCTAL_CONFIG, NULL, NULL), createUIntConfig("socket-mark-id", NULL, IMMUTABLE_CONFIG, 0, UINT_MAX, server.socket_mark_id, 0, INTEGER_CONFIG, NULL, NULL), #ifdef LOG_REQ_RES createUIntConfig("client-default-resp", NULL, IMMUTABLE_CONFIG | HIDDEN_CONFIG, 2, 3, server.client_default_resp, 2, INTEGER_CONFIG, NULL, NULL), #endif /* 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), createULongConfig("acllog-max-len", NULL, MODIFIABLE_CONFIG, 0, LONG_MAX, server.acllog_max_len, 128, INTEGER_CONFIG, NULL, NULL), /* Long Long configs */ createLongLongConfig("busy-reply-threshold", "lua-time-limit", MODIFIABLE_CONFIG, 0, LONG_MAX, server.busy_reply_threshold, 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("cluster-ping-interval", NULL, MODIFIABLE_CONFIG | HIDDEN_CONFIG, 0, LLONG_MAX, server.cluster_ping_interval, 0, 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, DEBUG_CONFIG | MODIFIABLE_CONFIG, 1024*1024, LONG_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), createULongLongConfig("cluster-link-sendbuf-limit", NULL, MODIFIABLE_CONFIG, 0, ULLONG_MAX, server.cluster_link_msg_queue_limit_bytes, 0, MEMORY_CONFIG, NULL, NULL), /* Size_t configs */ createSizeTConfig("hash-max-listpack-entries", "hash-max-ziplist-entries", MODIFIABLE_CONFIG, 0, LONG_MAX, server.hash_max_listpack_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("set-max-listpack-entries", NULL, MODIFIABLE_CONFIG, 0, LONG_MAX, server.set_max_listpack_entries, 128, INTEGER_CONFIG, NULL, NULL), createSizeTConfig("set-max-listpack-value", NULL, MODIFIABLE_CONFIG, 0, LONG_MAX, server.set_max_listpack_value, 64, INTEGER_CONFIG, NULL, NULL), createSizeTConfig("zset-max-listpack-entries", "zset-max-ziplist-entries", MODIFIABLE_CONFIG, 0, LONG_MAX, server.zset_max_listpack_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-listpack-value", "hash-max-ziplist-value", MODIFIABLE_CONFIG, 0, LONG_MAX, server.hash_max_listpack_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-listpack-value", "zset-max-ziplist-value", MODIFIABLE_CONFIG, 0, LONG_MAX, server.zset_max_listpack_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), createSizeTConfig("tracking-table-max-keys", NULL, MODIFIABLE_CONFIG, 0, LONG_MAX, server.tracking_table_max_keys, 1000000, INTEGER_CONFIG, NULL, NULL), /* Default: 1 million keys max. */ createSizeTConfig("client-query-buffer-limit", NULL, DEBUG_CONFIG | MODIFIABLE_CONFIG, 1024*1024, LONG_MAX, server.client_max_querybuf_len, 1024*1024*1024, MEMORY_CONFIG, NULL, NULL), /* Default: 1GB max query buffer. */ createSSizeTConfig("maxmemory-clients", NULL, MODIFIABLE_CONFIG, -100, SSIZE_MAX, server.maxmemory_clients, 0, MEMORY_CONFIG | PERCENT_CONFIG, NULL, applyClientMaxMemoryUsage), /* 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), createOffTConfig("loading-process-events-interval-bytes", NULL, MODIFIABLE_CONFIG | HIDDEN_CONFIG, 1024, INT_MAX, server.loading_process_events_interval_bytes, 1024*1024*2, INTEGER_CONFIG, NULL, NULL), createIntConfig("tls-port", NULL, MODIFIABLE_CONFIG, 0, 65535, server.tls_port, 0, INTEGER_CONFIG, NULL, applyTLSPort), /* TCP port. */ createIntConfig("tls-session-cache-size", NULL, MODIFIABLE_CONFIG, 0, INT_MAX, server.tls_ctx_config.session_cache_size, 20*1024, INTEGER_CONFIG, NULL, applyTlsCfg), createIntConfig("tls-session-cache-timeout", NULL, MODIFIABLE_CONFIG, 0, INT_MAX, server.tls_ctx_config.session_cache_timeout, 300, INTEGER_CONFIG, NULL, applyTlsCfg), createBoolConfig("tls-cluster", NULL, MODIFIABLE_CONFIG, server.tls_cluster, 0, NULL, applyTlsCfg), createBoolConfig("tls-replication", NULL, MODIFIABLE_CONFIG, server.tls_replication, 0, NULL, applyTlsCfg), createEnumConfig("tls-auth-clients", NULL, MODIFIABLE_CONFIG, tls_auth_clients_enum, server.tls_auth_clients, TLS_CLIENT_AUTH_YES, NULL, NULL), createBoolConfig("tls-prefer-server-ciphers", NULL, MODIFIABLE_CONFIG, server.tls_ctx_config.prefer_server_ciphers, 0, NULL, applyTlsCfg), createBoolConfig("tls-session-caching", NULL, MODIFIABLE_CONFIG, server.tls_ctx_config.session_caching, 1, NULL, applyTlsCfg), createStringConfig("tls-cert-file", NULL, VOLATILE_CONFIG | MODIFIABLE_CONFIG, EMPTY_STRING_IS_NULL, server.tls_ctx_config.cert_file, NULL, NULL, applyTlsCfg), createStringConfig("tls-key-file", NULL, VOLATILE_CONFIG | MODIFIABLE_CONFIG, EMPTY_STRING_IS_NULL, server.tls_ctx_config.key_file, NULL, NULL, applyTlsCfg), createStringConfig("tls-key-file-pass", NULL, MODIFIABLE_CONFIG, EMPTY_STRING_IS_NULL, server.tls_ctx_config.key_file_pass, NULL, NULL, applyTlsCfg), createStringConfig("tls-client-cert-file", NULL, VOLATILE_CONFIG | MODIFIABLE_CONFIG, EMPTY_STRING_IS_NULL, server.tls_ctx_config.client_cert_file, NULL, NULL, applyTlsCfg), createStringConfig("tls-client-key-file", NULL, VOLATILE_CONFIG | MODIFIABLE_CONFIG, EMPTY_STRING_IS_NULL, server.tls_ctx_config.client_key_file, NULL, NULL, applyTlsCfg), createStringConfig("tls-client-key-file-pass", NULL, MODIFIABLE_CONFIG, EMPTY_STRING_IS_NULL, server.tls_ctx_config.client_key_file_pass, NULL, NULL, applyTlsCfg), createStringConfig("tls-dh-params-file", NULL, VOLATILE_CONFIG | MODIFIABLE_CONFIG, EMPTY_STRING_IS_NULL, server.tls_ctx_config.dh_params_file, NULL, NULL, applyTlsCfg), createStringConfig("tls-ca-cert-file", NULL, VOLATILE_CONFIG | MODIFIABLE_CONFIG, EMPTY_STRING_IS_NULL, server.tls_ctx_config.ca_cert_file, NULL, NULL, applyTlsCfg), createStringConfig("tls-ca-cert-dir", NULL, VOLATILE_CONFIG | MODIFIABLE_CONFIG, EMPTY_STRING_IS_NULL, server.tls_ctx_config.ca_cert_dir, NULL, NULL, applyTlsCfg), createStringConfig("tls-protocols", NULL, MODIFIABLE_CONFIG, EMPTY_STRING_IS_NULL, server.tls_ctx_config.protocols, NULL, NULL, applyTlsCfg), createStringConfig("tls-ciphers", NULL, MODIFIABLE_CONFIG, EMPTY_STRING_IS_NULL, server.tls_ctx_config.ciphers, NULL, NULL, applyTlsCfg), createStringConfig("tls-ciphersuites", NULL, MODIFIABLE_CONFIG, EMPTY_STRING_IS_NULL, server.tls_ctx_config.ciphersuites, NULL, NULL, applyTlsCfg), /* Special configs */ createSpecialConfig("dir", NULL, MODIFIABLE_CONFIG | PROTECTED_CONFIG | DENY_LOADING_CONFIG, setConfigDirOption, getConfigDirOption, rewriteConfigDirOption, NULL), createSpecialConfig("save", NULL, MODIFIABLE_CONFIG | MULTI_ARG_CONFIG, setConfigSaveOption, getConfigSaveOption, rewriteConfigSaveOption, NULL), createSpecialConfig("client-output-buffer-limit", NULL, MODIFIABLE_CONFIG | MULTI_ARG_CONFIG, setConfigClientOutputBufferLimitOption, getConfigClientOutputBufferLimitOption, rewriteConfigClientOutputBufferLimitOption, NULL), createSpecialConfig("oom-score-adj-values", NULL, MODIFIABLE_CONFIG | MULTI_ARG_CONFIG, setConfigOOMScoreAdjValuesOption, getConfigOOMScoreAdjValuesOption, rewriteConfigOOMScoreAdjValuesOption, updateOOMScoreAdj), createSpecialConfig("notify-keyspace-events", NULL, MODIFIABLE_CONFIG, setConfigNotifyKeyspaceEventsOption, getConfigNotifyKeyspaceEventsOption, rewriteConfigNotifyKeyspaceEventsOption, NULL), createSpecialConfig("bind", NULL, MODIFIABLE_CONFIG | MULTI_ARG_CONFIG, setConfigBindOption, getConfigBindOption, rewriteConfigBindOption, applyBind), createSpecialConfig("replicaof", "slaveof", IMMUTABLE_CONFIG | MULTI_ARG_CONFIG, setConfigReplicaOfOption, getConfigReplicaOfOption, rewriteConfigReplicaOfOption, NULL), createSpecialConfig("latency-tracking-info-percentiles", NULL, MODIFIABLE_CONFIG | MULTI_ARG_CONFIG, setConfigLatencyTrackingInfoPercentilesOutputOption, getConfigLatencyTrackingInfoPercentilesOutputOption, rewriteConfigLatencyTrackingInfoPercentilesOutputOption, NULL), /* NULL Terminator, this is dropped when we convert to the runtime array. */ {NULL} }; /* Create a new config by copying the passed in config. Returns 1 on success * or 0 when their was already a config with the same name.. */ int registerConfigValue(const char *name, const standardConfig *config, int alias) { standardConfig *new = zmalloc(sizeof(standardConfig)); memcpy(new, config, sizeof(standardConfig)); if (alias) { new->flags |= ALIAS_CONFIG; new->name = config->alias; new->alias = config->name; } return dictAdd(configs, sdsnew(name), new) == DICT_OK; } /* Initialize configs to their default values and create and populate the * runtime configuration dictionary. */ void initConfigValues(void) { configs = dictCreate(&sdsHashDictType); dictExpand(configs, sizeof(static_configs) / sizeof(standardConfig)); for (standardConfig *config = static_configs; config->name != NULL; config++) { if (config->interface.init) config->interface.init(config); /* Add the primary config to the dictionary. */ int ret = registerConfigValue(config->name, config, 0); serverAssert(ret); /* Aliases are the same as their primary counter parts, but they * also have a flag indicating they are the alias. */ if (config->alias) { int ret = registerConfigValue(config->alias, config, ALIAS_CONFIG); serverAssert(ret); } } } /* Remove a config by name from the configs dict. */ void removeConfig(sds name) { standardConfig *config = lookupConfig(name); if (!config) return; if (config->flags & MODULE_CONFIG) { sdsfree((sds) config->name); if (config->type == ENUM_CONFIG) { configEnum *enumNode = config->data.enumd.enum_value; while(enumNode->name != NULL) { zfree(enumNode->name); enumNode++; } zfree(config->data.enumd.enum_value); } else if (config->type == SDS_CONFIG) { if (config->data.sds.default_value) sdsfree((sds)config->data.sds.default_value); } } dictDelete(configs, name); } /*----------------------------------------------------------------------------- * Module Config *----------------------------------------------------------------------------*/ /* Create a bool/string/enum/numeric standardConfig for a module config in the configs dictionary */ void addModuleBoolConfig(const char *module_name, const char *name, int flags, void *privdata, int default_val) { sds config_name = sdscatfmt(sdsempty(), "%s.%s", module_name, name); int config_dummy_address; standardConfig module_config = createBoolConfig(config_name, NULL, flags | MODULE_CONFIG, config_dummy_address, default_val, NULL, NULL); module_config.data.yesno.config = NULL; module_config.privdata = privdata; registerConfigValue(config_name, &module_config, 0); } void addModuleStringConfig(const char *module_name, const char *name, int flags, void *privdata, sds default_val) { sds config_name = sdscatfmt(sdsempty(), "%s.%s", module_name, name); sds config_dummy_address; standardConfig module_config = createSDSConfig(config_name, NULL, flags | MODULE_CONFIG, 0, config_dummy_address, default_val, NULL, NULL); module_config.data.sds.config = NULL; module_config.privdata = privdata; registerConfigValue(config_name, &module_config, 0); } void addModuleEnumConfig(const char *module_name, const char *name, int flags, void *privdata, int default_val, configEnum *enum_vals) { sds config_name = sdscatfmt(sdsempty(), "%s.%s", module_name, name); int config_dummy_address; standardConfig module_config = createEnumConfig(config_name, NULL, flags | MODULE_CONFIG, enum_vals, config_dummy_address, default_val, NULL, NULL); module_config.data.enumd.config = NULL; module_config.privdata = privdata; registerConfigValue(config_name, &module_config, 0); } void addModuleNumericConfig(const char *module_name, const char *name, int flags, void *privdata, long long default_val, int conf_flags, long long lower, long long upper) { sds config_name = sdscatfmt(sdsempty(), "%s.%s", module_name, name); long long config_dummy_address; standardConfig module_config = createLongLongConfig(config_name, NULL, flags | MODULE_CONFIG, lower, upper, config_dummy_address, default_val, conf_flags, NULL, NULL); module_config.data.numeric.config.ll = NULL; module_config.privdata = privdata; registerConfigValue(config_name, &module_config, 0); } /*----------------------------------------------------------------------------- * CONFIG HELP *----------------------------------------------------------------------------*/ void configHelpCommand(client *c) { const char *help[] = { "GET ", " Return parameters matching the glob-like and their values.", "SET ", " Set the configuration to .", "RESETSTAT", " Reset statistics reported by the INFO command.", "REWRITE", " Rewrite the configuration file.", NULL }; addReplyHelp(c, help); } /*----------------------------------------------------------------------------- * CONFIG RESETSTAT *----------------------------------------------------------------------------*/ void configResetStatCommand(client *c) { resetServerStats(); resetCommandTableStats(server.commands); resetErrorTableStats(); addReply(c,shared.ok); } /*----------------------------------------------------------------------------- * CONFIG REWRITE *----------------------------------------------------------------------------*/ void configRewriteCommand(client *c) { if (server.configfile == NULL) { addReplyError(c,"The server is running without a config file"); return; } if (rewriteConfig(server.configfile, 0) == -1) { /* save errno in case of being tainted. */ int err = errno; serverLog(LL_WARNING,"CONFIG REWRITE failed: %s", strerror(err)); addReplyErrorFormat(c,"Rewriting config file: %s", strerror(err)); } else { serverLog(LL_NOTICE,"CONFIG REWRITE executed with success."); addReply(c,shared.ok); } }