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|
/* Redis Sentinel implementation
*
* Copyright (c) 2009-2012, Salvatore Sanfilippo <antirez at gmail dot com>
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* * Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* * Neither the name of Redis nor the names of its contributors may be used
* to endorse or promote products derived from this software without
* specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
#include "redis.h"
#include "hiredis.h"
#include "async.h"
#include <ctype.h>
#include <arpa/inet.h>
#include <sys/socket.h>
#include <sys/wait.h>
#include <fcntl.h>
extern char **environ;
#define REDIS_SENTINEL_PORT 26379
/* ======================== Sentinel global state =========================== */
/* Address object, used to describe an ip:port pair. */
typedef struct sentinelAddr {
char *ip;
int port;
} sentinelAddr;
/* A Sentinel Redis Instance object is monitoring. */
#define SRI_MASTER (1<<0)
#define SRI_SLAVE (1<<1)
#define SRI_SENTINEL (1<<2)
#define SRI_S_DOWN (1<<3) /* Subjectively down (no quorum). */
#define SRI_O_DOWN (1<<4) /* Objectively down (confirmed by others). */
#define SRI_MASTER_DOWN (1<<5) /* A Sentinel with this flag set thinks that
its master is down. */
#define SRI_FAILOVER_IN_PROGRESS (1<<6) /* Failover is in progress for
this master. */
#define SRI_PROMOTED (1<<7) /* Slave selected for promotion. */
#define SRI_RECONF_SENT (1<<8) /* SLAVEOF <newmaster> sent. */
#define SRI_RECONF_INPROG (1<<9) /* Slave synchronization in progress. */
#define SRI_RECONF_DONE (1<<10) /* Slave synchronized with new master. */
#define SRI_FORCE_FAILOVER (1<<11) /* Force failover with master up. */
#define SRI_SCRIPT_KILL_SENT (1<<12) /* SCRIPT KILL already sent on -BUSY */
/* Note: times are in milliseconds. */
#define SENTINEL_INFO_PERIOD 10000
#define SENTINEL_PING_PERIOD 1000
#define SENTINEL_ASK_PERIOD 1000
#define SENTINEL_PUBLISH_PERIOD 2000
#define SENTINEL_DEFAULT_DOWN_AFTER 30000
#define SENTINEL_HELLO_CHANNEL "__sentinel__:hello"
#define SENTINEL_TILT_TRIGGER 2000
#define SENTINEL_TILT_PERIOD (SENTINEL_PING_PERIOD*30)
#define SENTINEL_DEFAULT_SLAVE_PRIORITY 100
#define SENTINEL_SLAVE_RECONF_TIMEOUT 10000
#define SENTINEL_DEFAULT_PARALLEL_SYNCS 1
#define SENTINEL_MIN_LINK_RECONNECT_PERIOD 15000
#define SENTINEL_DEFAULT_FAILOVER_TIMEOUT (60*3*1000)
#define SENTINEL_MAX_PENDING_COMMANDS 100
#define SENTINEL_ELECTION_TIMEOUT 10000
#define SENTINEL_MAX_DESYNC 1000
/* Failover machine different states. */
#define SENTINEL_FAILOVER_STATE_NONE 0 /* No failover in progress. */
#define SENTINEL_FAILOVER_STATE_WAIT_START 1 /* Wait for failover_start_time*/
#define SENTINEL_FAILOVER_STATE_SELECT_SLAVE 2 /* Select slave to promote */
#define SENTINEL_FAILOVER_STATE_SEND_SLAVEOF_NOONE 3 /* Slave -> Master */
#define SENTINEL_FAILOVER_STATE_WAIT_PROMOTION 4 /* Wait slave to change role */
#define SENTINEL_FAILOVER_STATE_RECONF_SLAVES 5 /* SLAVEOF newmaster */
#define SENTINEL_FAILOVER_STATE_UPDATE_CONFIG 6 /* Monitor promoted slave. */
#define SENTINEL_MASTER_LINK_STATUS_UP 0
#define SENTINEL_MASTER_LINK_STATUS_DOWN 1
/* Generic flags that can be used with different functions.
* They use higher bits to avoid colliding with the function specific
* flags. */
#define SENTINEL_NO_FLAGS 0
#define SENTINEL_GENERATE_EVENT (1<<16)
#define SENTINEL_LEADER (1<<17)
#define SENTINEL_OBSERVER (1<<18)
/* Script execution flags and limits. */
#define SENTINEL_SCRIPT_NONE 0
#define SENTINEL_SCRIPT_RUNNING 1
#define SENTINEL_SCRIPT_MAX_QUEUE 256
#define SENTINEL_SCRIPT_MAX_RUNNING 16
#define SENTINEL_SCRIPT_MAX_RUNTIME 60000 /* 60 seconds max exec time. */
#define SENTINEL_SCRIPT_MAX_RETRY 10
#define SENTINEL_SCRIPT_RETRY_DELAY 30000 /* 30 seconds between retries. */
/* SENTINEL SIMULATE-FAILURE command flags. */
#define SENTINEL_SIMFAILURE_NONE 0
#define SENTINEL_SIMFAILURE_CRASH_AFTER_ELECTION (1<<0)
#define SENTINEL_SIMFAILURE_CRASH_AFTER_PROMOTION (1<<1)
/* The link to a sentinelRedisInstance. When we have the same set of Sentinels
* monitoring many masters, we have different instances representing the
* same Sentinels, one per master, and we need to share the hiredis connections
* among them. Oherwise if 5 Sentinels are monitoring 100 masters we create
* 500 outgoing connections instead of 5.
*
* So this structure represents a reference counted link in terms of the two
* hiredis connections for commands and Pub/Sub, and the fields needed for
* failure detection, since the ping/pong time are now local to the link: if
* the link is available, the instance is avaialbe. This way we don't just
* have 5 connections instead of 500, we also send 5 pings instead of 500.
*
* Links are shared only for Sentinels: master and slave instances have
* a link with refcount = 1, always. */
typedef struct instanceLink {
int refcount; /* Number of sentinelRedisInstance owners. */
int disconnected; /* Non-zero if we need to reconnect cc or pc. */
int pending_commands; /* Number of commands sent waiting for a reply. */
redisAsyncContext *cc; /* Hiredis context for commands. */
redisAsyncContext *pc; /* Hiredis context for Pub / Sub. */
mstime_t cc_conn_time; /* cc connection time. */
mstime_t pc_conn_time; /* pc connection time. */
mstime_t pc_last_activity; /* Last time we received any message. */
mstime_t last_avail_time; /* Last time the instance replied to ping with
a reply we consider valid. */
mstime_t act_ping_time; /* Time at which the last pending ping (no pong
received after it) was sent. This field is
set to 0 when a pong is received, and set again
to the current time if the value is 0 and a new
ping is sent. */
mstime_t last_ping_time; /* Time at which we sent the last ping. This is
only used to avoid sending too many pings
during failure. Idle time is computed using
the act_ping_time field. */
mstime_t last_pong_time; /* Last time the instance replied to ping,
whatever the reply was. That's used to check
if the link is idle and must be reconnected. */
mstime_t last_reconn_time; /* Last reconnection attempt performed when
the link was down. */
} instanceLink;
typedef struct sentinelRedisInstance {
int flags; /* See SRI_... defines */
char *name; /* Master name from the point of view of this sentinel. */
char *runid; /* Run ID of this instance, or unique ID if is a Sentinel.*/
uint64_t config_epoch; /* Configuration epoch. */
sentinelAddr *addr; /* Master host. */
instanceLink *link; /* Link to the instance, may be shared for Sentinels. */
mstime_t last_pub_time; /* Last time we sent hello via Pub/Sub. */
mstime_t last_hello_time; /* Only used if SRI_SENTINEL is set. Last time
we received a hello from this Sentinel
via Pub/Sub. */
mstime_t last_master_down_reply_time; /* Time of last reply to
SENTINEL is-master-down command. */
mstime_t s_down_since_time; /* Subjectively down since time. */
mstime_t o_down_since_time; /* Objectively down since time. */
mstime_t down_after_period; /* Consider it down after that period. */
mstime_t info_refresh; /* Time at which we received INFO output from it. */
/* Role and the first time we observed it.
* This is useful in order to delay replacing what the instance reports
* with our own configuration. We need to always wait some time in order
* to give a chance to the leader to report the new configuration before
* we do silly things. */
int role_reported;
mstime_t role_reported_time;
mstime_t slave_conf_change_time; /* Last time slave master addr changed. */
/* Master specific. */
dict *sentinels; /* Other sentinels monitoring the same master. */
dict *slaves; /* Slaves for this master instance. */
unsigned int quorum;/* Number of sentinels that need to agree on failure. */
int parallel_syncs; /* How many slaves to reconfigure at same time. */
char *auth_pass; /* Password to use for AUTH against master & slaves. */
/* Slave specific. */
mstime_t master_link_down_time; /* Slave replication link down time. */
int slave_priority; /* Slave priority according to its INFO output. */
mstime_t slave_reconf_sent_time; /* Time at which we sent SLAVE OF <new> */
struct sentinelRedisInstance *master; /* Master instance if it's slave. */
char *slave_master_host; /* Master host as reported by INFO */
int slave_master_port; /* Master port as reported by INFO */
int slave_master_link_status; /* Master link status as reported by INFO */
unsigned long long slave_repl_offset; /* Slave replication offset. */
/* Failover */
char *leader; /* If this is a master instance, this is the runid of
the Sentinel that should perform the failover. If
this is a Sentinel, this is the runid of the Sentinel
that this Sentinel voted as leader. */
uint64_t leader_epoch; /* Epoch of the 'leader' field. */
uint64_t failover_epoch; /* Epoch of the currently started failover. */
int failover_state; /* See SENTINEL_FAILOVER_STATE_* defines. */
mstime_t failover_state_change_time;
mstime_t failover_start_time; /* Last failover attempt start time. */
mstime_t failover_timeout; /* Max time to refresh failover state. */
mstime_t failover_delay_logged; /* For what failover_start_time value we
logged the failover delay. */
struct sentinelRedisInstance *promoted_slave; /* Promoted slave instance. */
/* Scripts executed to notify admin or reconfigure clients: when they
* are set to NULL no script is executed. */
char *notification_script;
char *client_reconfig_script;
sds info; /* cached INFO output */
} sentinelRedisInstance;
/* Main state. */
struct sentinelState {
char myid[REDIS_RUN_ID_SIZE+1]; /* This sentinel ID. */
uint64_t current_epoch; /* Current epoch. */
dict *masters; /* Dictionary of master sentinelRedisInstances.
Key is the instance name, value is the
sentinelRedisInstance structure pointer. */
int tilt; /* Are we in TILT mode? */
int running_scripts; /* Number of scripts in execution right now. */
mstime_t tilt_start_time; /* When TITL started. */
mstime_t previous_time; /* Last time we ran the time handler. */
list *scripts_queue; /* Queue of user scripts to execute. */
char *announce_ip; /* IP addr that is gossiped to other sentinels if
not NULL. */
int announce_port; /* Port that is gossiped to other sentinels if
non zero. */
unsigned long simfailure_flags; /* Failures simulation. */
} sentinel;
/* A script execution job. */
typedef struct sentinelScriptJob {
int flags; /* Script job flags: SENTINEL_SCRIPT_* */
int retry_num; /* Number of times we tried to execute it. */
char **argv; /* Arguments to call the script. */
mstime_t start_time; /* Script execution time if the script is running,
otherwise 0 if we are allowed to retry the
execution at any time. If the script is not
running and it's not 0, it means: do not run
before the specified time. */
pid_t pid; /* Script execution pid. */
} sentinelScriptJob;
/* ======================= hiredis ae.c adapters =============================
* Note: this implementation is taken from hiredis/adapters/ae.h, however
* we have our modified copy for Sentinel in order to use our allocator
* and to have full control over how the adapter works. */
typedef struct redisAeEvents {
redisAsyncContext *context;
aeEventLoop *loop;
int fd;
int reading, writing;
} redisAeEvents;
static void redisAeReadEvent(aeEventLoop *el, int fd, void *privdata, int mask) {
((void)el); ((void)fd); ((void)mask);
redisAeEvents *e = (redisAeEvents*)privdata;
redisAsyncHandleRead(e->context);
}
static void redisAeWriteEvent(aeEventLoop *el, int fd, void *privdata, int mask) {
((void)el); ((void)fd); ((void)mask);
redisAeEvents *e = (redisAeEvents*)privdata;
redisAsyncHandleWrite(e->context);
}
static void redisAeAddRead(void *privdata) {
redisAeEvents *e = (redisAeEvents*)privdata;
aeEventLoop *loop = e->loop;
if (!e->reading) {
e->reading = 1;
aeCreateFileEvent(loop,e->fd,AE_READABLE,redisAeReadEvent,e);
}
}
static void redisAeDelRead(void *privdata) {
redisAeEvents *e = (redisAeEvents*)privdata;
aeEventLoop *loop = e->loop;
if (e->reading) {
e->reading = 0;
aeDeleteFileEvent(loop,e->fd,AE_READABLE);
}
}
static void redisAeAddWrite(void *privdata) {
redisAeEvents *e = (redisAeEvents*)privdata;
aeEventLoop *loop = e->loop;
if (!e->writing) {
e->writing = 1;
aeCreateFileEvent(loop,e->fd,AE_WRITABLE,redisAeWriteEvent,e);
}
}
static void redisAeDelWrite(void *privdata) {
redisAeEvents *e = (redisAeEvents*)privdata;
aeEventLoop *loop = e->loop;
if (e->writing) {
e->writing = 0;
aeDeleteFileEvent(loop,e->fd,AE_WRITABLE);
}
}
static void redisAeCleanup(void *privdata) {
redisAeEvents *e = (redisAeEvents*)privdata;
redisAeDelRead(privdata);
redisAeDelWrite(privdata);
zfree(e);
}
static int redisAeAttach(aeEventLoop *loop, redisAsyncContext *ac) {
redisContext *c = &(ac->c);
redisAeEvents *e;
/* Nothing should be attached when something is already attached */
if (ac->ev.data != NULL)
return REDIS_ERR;
/* Create container for context and r/w events */
e = (redisAeEvents*)zmalloc(sizeof(*e));
e->context = ac;
e->loop = loop;
e->fd = c->fd;
e->reading = e->writing = 0;
/* Register functions to start/stop listening for events */
ac->ev.addRead = redisAeAddRead;
ac->ev.delRead = redisAeDelRead;
ac->ev.addWrite = redisAeAddWrite;
ac->ev.delWrite = redisAeDelWrite;
ac->ev.cleanup = redisAeCleanup;
ac->ev.data = e;
return REDIS_OK;
}
/* ============================= Prototypes ================================= */
void sentinelLinkEstablishedCallback(const redisAsyncContext *c, int status);
void sentinelDisconnectCallback(const redisAsyncContext *c, int status);
void sentinelReceiveHelloMessages(redisAsyncContext *c, void *reply, void *privdata);
sentinelRedisInstance *sentinelGetMasterByName(char *name);
char *sentinelGetSubjectiveLeader(sentinelRedisInstance *master);
char *sentinelGetObjectiveLeader(sentinelRedisInstance *master);
int yesnotoi(char *s);
void instanceLinkConnectionError(const redisAsyncContext *c);
const char *sentinelRedisInstanceTypeStr(sentinelRedisInstance *ri);
void sentinelAbortFailover(sentinelRedisInstance *ri);
void sentinelEvent(int level, char *type, sentinelRedisInstance *ri, const char *fmt, ...);
sentinelRedisInstance *sentinelSelectSlave(sentinelRedisInstance *master);
void sentinelScheduleScriptExecution(char *path, ...);
void sentinelStartFailover(sentinelRedisInstance *master);
void sentinelDiscardReplyCallback(redisAsyncContext *c, void *reply, void *privdata);
int sentinelSendSlaveOf(sentinelRedisInstance *ri, char *host, int port);
char *sentinelVoteLeader(sentinelRedisInstance *master, uint64_t req_epoch, char *req_runid, uint64_t *leader_epoch);
void sentinelFlushConfig(void);
void sentinelGenerateInitialMonitorEvents(void);
int sentinelSendPing(sentinelRedisInstance *ri);
int sentinelForceHelloUpdateForMaster(sentinelRedisInstance *master);
sentinelRedisInstance *getSentinelRedisInstanceByAddrAndRunID(dict *instances, char *ip, int port, char *runid);
void sentinelSimFailureCrash(void);
/* ========================= Dictionary types =============================== */
unsigned int dictSdsHash(const void *key);
int dictSdsKeyCompare(void *privdata, const void *key1, const void *key2);
void releaseSentinelRedisInstance(sentinelRedisInstance *ri);
void dictInstancesValDestructor (void *privdata, void *obj) {
REDIS_NOTUSED(privdata);
releaseSentinelRedisInstance(obj);
}
/* Instance name (sds) -> instance (sentinelRedisInstance pointer)
*
* also used for: sentinelRedisInstance->sentinels dictionary that maps
* sentinels ip:port to last seen time in Pub/Sub hello message. */
dictType instancesDictType = {
dictSdsHash, /* hash function */
NULL, /* key dup */
NULL, /* val dup */
dictSdsKeyCompare, /* key compare */
NULL, /* key destructor */
dictInstancesValDestructor /* val destructor */
};
/* Instance runid (sds) -> votes (long casted to void*)
*
* This is useful into sentinelGetObjectiveLeader() function in order to
* count the votes and understand who is the leader. */
dictType leaderVotesDictType = {
dictSdsHash, /* hash function */
NULL, /* key dup */
NULL, /* val dup */
dictSdsKeyCompare, /* key compare */
NULL, /* key destructor */
NULL /* val destructor */
};
/* =========================== Initialization =============================== */
void sentinelCommand(redisClient *c);
void sentinelInfoCommand(redisClient *c);
void sentinelSetCommand(redisClient *c);
void sentinelPublishCommand(redisClient *c);
void sentinelRoleCommand(redisClient *c);
struct redisCommand sentinelcmds[] = {
{"ping",pingCommand,1,"",0,NULL,0,0,0,0,0},
{"sentinel",sentinelCommand,-2,"",0,NULL,0,0,0,0,0},
{"subscribe",subscribeCommand,-2,"",0,NULL,0,0,0,0,0},
{"unsubscribe",unsubscribeCommand,-1,"",0,NULL,0,0,0,0,0},
{"psubscribe",psubscribeCommand,-2,"",0,NULL,0,0,0,0,0},
{"punsubscribe",punsubscribeCommand,-1,"",0,NULL,0,0,0,0,0},
{"publish",sentinelPublishCommand,3,"",0,NULL,0,0,0,0,0},
{"info",sentinelInfoCommand,-1,"",0,NULL,0,0,0,0,0},
{"role",sentinelRoleCommand,1,"l",0,NULL,0,0,0,0,0},
{"client",clientCommand,-2,"rs",0,NULL,0,0,0,0,0},
{"shutdown",shutdownCommand,-1,"",0,NULL,0,0,0,0,0}
};
/* This function overwrites a few normal Redis config default with Sentinel
* specific defaults. */
void initSentinelConfig(void) {
server.port = REDIS_SENTINEL_PORT;
}
/* Perform the Sentinel mode initialization. */
void initSentinel(void) {
unsigned int j;
/* Remove usual Redis commands from the command table, then just add
* the SENTINEL command. */
dictEmpty(server.commands,NULL);
for (j = 0; j < sizeof(sentinelcmds)/sizeof(sentinelcmds[0]); j++) {
int retval;
struct redisCommand *cmd = sentinelcmds+j;
retval = dictAdd(server.commands, sdsnew(cmd->name), cmd);
redisAssert(retval == DICT_OK);
}
/* Initialize various data structures. */
sentinel.current_epoch = 0;
sentinel.masters = dictCreate(&instancesDictType,NULL);
sentinel.tilt = 0;
sentinel.tilt_start_time = 0;
sentinel.previous_time = mstime();
sentinel.running_scripts = 0;
sentinel.scripts_queue = listCreate();
sentinel.announce_ip = NULL;
sentinel.announce_port = 0;
sentinel.simfailure_flags = SENTINEL_SIMFAILURE_NONE;
memset(sentinel.myid,0,sizeof(sentinel.myid));
}
/* This function gets called when the server is in Sentinel mode, started,
* loaded the configuration, and is ready for normal operations. */
void sentinelIsRunning(void) {
int j;
if (server.configfile == NULL) {
redisLog(REDIS_WARNING,
"Sentinel started without a config file. Exiting...");
exit(1);
} else if (access(server.configfile,W_OK) == -1) {
redisLog(REDIS_WARNING,
"Sentinel config file %s is not writable: %s. Exiting...",
server.configfile,strerror(errno));
exit(1);
}
/* If this Sentinel has yet no ID set in the configuration file, we
* pick a random one and persist the config on disk. From now on this
* will be this Sentinel ID across restarts. */
for (j = 0; j < REDIS_RUN_ID_SIZE; j++)
if (sentinel.myid[j] != 0) break;
if (j == REDIS_RUN_ID_SIZE) {
/* Pick ID and presist the config. */
getRandomHexChars(sentinel.myid,REDIS_RUN_ID_SIZE);
sentinelFlushConfig();
}
/* Log its ID to make debugging of issues simpler. */
redisLog(REDIS_WARNING,"Sentinel ID is %s", sentinel.myid);
/* We want to generate a +monitor event for every configured master
* at startup. */
sentinelGenerateInitialMonitorEvents();
}
/* ============================== sentinelAddr ============================== */
/* Create a sentinelAddr object and return it on success.
* On error NULL is returned and errno is set to:
* ENOENT: Can't resolve the hostname.
* EINVAL: Invalid port number.
*/
sentinelAddr *createSentinelAddr(char *hostname, int port) {
char ip[REDIS_IP_STR_LEN];
sentinelAddr *sa;
if (port <= 0 || port > 65535) {
errno = EINVAL;
return NULL;
}
if (anetResolve(NULL,hostname,ip,sizeof(ip)) == ANET_ERR) {
errno = ENOENT;
return NULL;
}
sa = zmalloc(sizeof(*sa));
sa->ip = sdsnew(ip);
sa->port = port;
return sa;
}
/* Return a duplicate of the source address. */
sentinelAddr *dupSentinelAddr(sentinelAddr *src) {
sentinelAddr *sa;
sa = zmalloc(sizeof(*sa));
sa->ip = sdsnew(src->ip);
sa->port = src->port;
return sa;
}
/* Free a Sentinel address. Can't fail. */
void releaseSentinelAddr(sentinelAddr *sa) {
sdsfree(sa->ip);
zfree(sa);
}
/* Return non-zero if two addresses are equal. */
int sentinelAddrIsEqual(sentinelAddr *a, sentinelAddr *b) {
return a->port == b->port && !strcasecmp(a->ip,b->ip);
}
/* =========================== Events notification ========================== */
/* Send an event to log, pub/sub, user notification script.
*
* 'level' is the log level for logging. Only REDIS_WARNING events will trigger
* the execution of the user notification script.
*
* 'type' is the message type, also used as a pub/sub channel name.
*
* 'ri', is the redis instance target of this event if applicable, and is
* used to obtain the path of the notification script to execute.
*
* The remaining arguments are printf-alike.
* If the format specifier starts with the two characters "%@" then ri is
* not NULL, and the message is prefixed with an instance identifier in the
* following format:
*
* <instance type> <instance name> <ip> <port>
*
* If the instance type is not master, than the additional string is
* added to specify the originating master:
*
* @ <master name> <master ip> <master port>
*
* Any other specifier after "%@" is processed by printf itself.
*/
void sentinelEvent(int level, char *type, sentinelRedisInstance *ri,
const char *fmt, ...) {
va_list ap;
char msg[REDIS_MAX_LOGMSG_LEN];
robj *channel, *payload;
/* Handle %@ */
if (fmt[0] == '%' && fmt[1] == '@') {
sentinelRedisInstance *master = (ri->flags & SRI_MASTER) ?
NULL : ri->master;
if (master) {
snprintf(msg, sizeof(msg), "%s %s %s %d @ %s %s %d",
sentinelRedisInstanceTypeStr(ri),
ri->name, ri->addr->ip, ri->addr->port,
master->name, master->addr->ip, master->addr->port);
} else {
snprintf(msg, sizeof(msg), "%s %s %s %d",
sentinelRedisInstanceTypeStr(ri),
ri->name, ri->addr->ip, ri->addr->port);
}
fmt += 2;
} else {
msg[0] = '\0';
}
/* Use vsprintf for the rest of the formatting if any. */
if (fmt[0] != '\0') {
va_start(ap, fmt);
vsnprintf(msg+strlen(msg), sizeof(msg)-strlen(msg), fmt, ap);
va_end(ap);
}
/* Log the message if the log level allows it to be logged. */
if (level >= server.verbosity)
redisLog(level,"%s %s",type,msg);
/* Publish the message via Pub/Sub if it's not a debugging one. */
if (level != REDIS_DEBUG) {
channel = createStringObject(type,strlen(type));
payload = createStringObject(msg,strlen(msg));
pubsubPublishMessage(channel,payload);
decrRefCount(channel);
decrRefCount(payload);
}
/* Call the notification script if applicable. */
if (level == REDIS_WARNING && ri != NULL) {
sentinelRedisInstance *master = (ri->flags & SRI_MASTER) ?
ri : ri->master;
if (master && master->notification_script) {
sentinelScheduleScriptExecution(master->notification_script,
type,msg,NULL);
}
}
}
/* This function is called only at startup and is used to generate a
* +monitor event for every configured master. The same events are also
* generated when a master to monitor is added at runtime via the
* SENTINEL MONITOR command. */
void sentinelGenerateInitialMonitorEvents(void) {
dictIterator *di;
dictEntry *de;
di = dictGetIterator(sentinel.masters);
while((de = dictNext(di)) != NULL) {
sentinelRedisInstance *ri = dictGetVal(de);
sentinelEvent(REDIS_WARNING,"+monitor",ri,"%@ quorum %d",ri->quorum);
}
dictReleaseIterator(di);
}
/* ============================ script execution ============================ */
/* Release a script job structure and all the associated data. */
void sentinelReleaseScriptJob(sentinelScriptJob *sj) {
int j = 0;
while(sj->argv[j]) sdsfree(sj->argv[j++]);
zfree(sj->argv);
zfree(sj);
}
#define SENTINEL_SCRIPT_MAX_ARGS 16
void sentinelScheduleScriptExecution(char *path, ...) {
va_list ap;
char *argv[SENTINEL_SCRIPT_MAX_ARGS+1];
int argc = 1;
sentinelScriptJob *sj;
va_start(ap, path);
while(argc < SENTINEL_SCRIPT_MAX_ARGS) {
argv[argc] = va_arg(ap,char*);
if (!argv[argc]) break;
argv[argc] = sdsnew(argv[argc]); /* Copy the string. */
argc++;
}
va_end(ap);
argv[0] = sdsnew(path);
sj = zmalloc(sizeof(*sj));
sj->flags = SENTINEL_SCRIPT_NONE;
sj->retry_num = 0;
sj->argv = zmalloc(sizeof(char*)*(argc+1));
sj->start_time = 0;
sj->pid = 0;
memcpy(sj->argv,argv,sizeof(char*)*(argc+1));
listAddNodeTail(sentinel.scripts_queue,sj);
/* Remove the oldest non running script if we already hit the limit. */
if (listLength(sentinel.scripts_queue) > SENTINEL_SCRIPT_MAX_QUEUE) {
listNode *ln;
listIter li;
listRewind(sentinel.scripts_queue,&li);
while ((ln = listNext(&li)) != NULL) {
sj = ln->value;
if (sj->flags & SENTINEL_SCRIPT_RUNNING) continue;
/* The first node is the oldest as we add on tail. */
listDelNode(sentinel.scripts_queue,ln);
sentinelReleaseScriptJob(sj);
break;
}
redisAssert(listLength(sentinel.scripts_queue) <=
SENTINEL_SCRIPT_MAX_QUEUE);
}
}
/* Lookup a script in the scripts queue via pid, and returns the list node
* (so that we can easily remove it from the queue if needed). */
listNode *sentinelGetScriptListNodeByPid(pid_t pid) {
listNode *ln;
listIter li;
listRewind(sentinel.scripts_queue,&li);
while ((ln = listNext(&li)) != NULL) {
sentinelScriptJob *sj = ln->value;
if ((sj->flags & SENTINEL_SCRIPT_RUNNING) && sj->pid == pid)
return ln;
}
return NULL;
}
/* Run pending scripts if we are not already at max number of running
* scripts. */
void sentinelRunPendingScripts(void) {
listNode *ln;
listIter li;
mstime_t now = mstime();
/* Find jobs that are not running and run them, from the top to the
* tail of the queue, so we run older jobs first. */
listRewind(sentinel.scripts_queue,&li);
while (sentinel.running_scripts < SENTINEL_SCRIPT_MAX_RUNNING &&
(ln = listNext(&li)) != NULL)
{
sentinelScriptJob *sj = ln->value;
pid_t pid;
/* Skip if already running. */
if (sj->flags & SENTINEL_SCRIPT_RUNNING) continue;
/* Skip if it's a retry, but not enough time has elapsed. */
if (sj->start_time && sj->start_time > now) continue;
sj->flags |= SENTINEL_SCRIPT_RUNNING;
sj->start_time = mstime();
sj->retry_num++;
pid = fork();
if (pid == -1) {
/* Parent (fork error).
* We report fork errors as signal 99, in order to unify the
* reporting with other kind of errors. */
sentinelEvent(REDIS_WARNING,"-script-error",NULL,
"%s %d %d", sj->argv[0], 99, 0);
sj->flags &= ~SENTINEL_SCRIPT_RUNNING;
sj->pid = 0;
} else if (pid == 0) {
/* Child */
execve(sj->argv[0],sj->argv,environ);
/* If we are here an error occurred. */
_exit(2); /* Don't retry execution. */
} else {
sentinel.running_scripts++;
sj->pid = pid;
sentinelEvent(REDIS_DEBUG,"+script-child",NULL,"%ld",(long)pid);
}
}
}
/* How much to delay the execution of a script that we need to retry after
* an error?
*
* We double the retry delay for every further retry we do. So for instance
* if RETRY_DELAY is set to 30 seconds and the max number of retries is 10
* starting from the second attempt to execute the script the delays are:
* 30 sec, 60 sec, 2 min, 4 min, 8 min, 16 min, 32 min, 64 min, 128 min. */
mstime_t sentinelScriptRetryDelay(int retry_num) {
mstime_t delay = SENTINEL_SCRIPT_RETRY_DELAY;
while (retry_num-- > 1) delay *= 2;
return delay;
}
/* Check for scripts that terminated, and remove them from the queue if the
* script terminated successfully. If instead the script was terminated by
* a signal, or returned exit code "1", it is scheduled to run again if
* the max number of retries did not already elapsed. */
void sentinelCollectTerminatedScripts(void) {
int statloc;
pid_t pid;
while ((pid = wait3(&statloc,WNOHANG,NULL)) > 0) {
int exitcode = WEXITSTATUS(statloc);
int bysignal = 0;
listNode *ln;
sentinelScriptJob *sj;
if (WIFSIGNALED(statloc)) bysignal = WTERMSIG(statloc);
sentinelEvent(REDIS_DEBUG,"-script-child",NULL,"%ld %d %d",
(long)pid, exitcode, bysignal);
ln = sentinelGetScriptListNodeByPid(pid);
if (ln == NULL) {
redisLog(REDIS_WARNING,"wait3() returned a pid (%ld) we can't find in our scripts execution queue!", (long)pid);
continue;
}
sj = ln->value;
/* If the script was terminated by a signal or returns an
* exit code of "1" (that means: please retry), we reschedule it
* if the max number of retries is not already reached. */
if ((bysignal || exitcode == 1) &&
sj->retry_num != SENTINEL_SCRIPT_MAX_RETRY)
{
sj->flags &= ~SENTINEL_SCRIPT_RUNNING;
sj->pid = 0;
sj->start_time = mstime() +
sentinelScriptRetryDelay(sj->retry_num);
} else {
/* Otherwise let's remove the script, but log the event if the
* execution did not terminated in the best of the ways. */
if (bysignal || exitcode != 0) {
sentinelEvent(REDIS_WARNING,"-script-error",NULL,
"%s %d %d", sj->argv[0], bysignal, exitcode);
}
listDelNode(sentinel.scripts_queue,ln);
sentinelReleaseScriptJob(sj);
sentinel.running_scripts--;
}
}
}
/* Kill scripts in timeout, they'll be collected by the
* sentinelCollectTerminatedScripts() function. */
void sentinelKillTimedoutScripts(void) {
listNode *ln;
listIter li;
mstime_t now = mstime();
listRewind(sentinel.scripts_queue,&li);
while ((ln = listNext(&li)) != NULL) {
sentinelScriptJob *sj = ln->value;
if (sj->flags & SENTINEL_SCRIPT_RUNNING &&
(now - sj->start_time) > SENTINEL_SCRIPT_MAX_RUNTIME)
{
sentinelEvent(REDIS_WARNING,"-script-timeout",NULL,"%s %ld",
sj->argv[0], (long)sj->pid);
kill(sj->pid,SIGKILL);
}
}
}
/* Implements SENTINEL PENDING-SCRIPTS command. */
void sentinelPendingScriptsCommand(redisClient *c) {
listNode *ln;
listIter li;
addReplyMultiBulkLen(c,listLength(sentinel.scripts_queue));
listRewind(sentinel.scripts_queue,&li);
while ((ln = listNext(&li)) != NULL) {
sentinelScriptJob *sj = ln->value;
int j = 0;
addReplyMultiBulkLen(c,10);
addReplyBulkCString(c,"argv");
while (sj->argv[j]) j++;
addReplyMultiBulkLen(c,j);
j = 0;
while (sj->argv[j]) addReplyBulkCString(c,sj->argv[j++]);
addReplyBulkCString(c,"flags");
addReplyBulkCString(c,
(sj->flags & SENTINEL_SCRIPT_RUNNING) ? "running" : "scheduled");
addReplyBulkCString(c,"pid");
addReplyBulkLongLong(c,sj->pid);
if (sj->flags & SENTINEL_SCRIPT_RUNNING) {
addReplyBulkCString(c,"run-time");
addReplyBulkLongLong(c,mstime() - sj->start_time);
} else {
mstime_t delay = sj->start_time ? (sj->start_time-mstime()) : 0;
if (delay < 0) delay = 0;
addReplyBulkCString(c,"run-delay");
addReplyBulkLongLong(c,delay);
}
addReplyBulkCString(c,"retry-num");
addReplyBulkLongLong(c,sj->retry_num);
}
}
/* This function calls, if any, the client reconfiguration script with the
* following parameters:
*
* <master-name> <role> <state> <from-ip> <from-port> <to-ip> <to-port>
*
* It is called every time a failover is performed.
*
* <state> is currently always "failover".
* <role> is either "leader" or "observer".
*
* from/to fields are respectively master -> promoted slave addresses for
* "start" and "end". */
void sentinelCallClientReconfScript(sentinelRedisInstance *master, int role, char *state, sentinelAddr *from, sentinelAddr *to) {
char fromport[32], toport[32];
if (master->client_reconfig_script == NULL) return;
ll2string(fromport,sizeof(fromport),from->port);
ll2string(toport,sizeof(toport),to->port);
sentinelScheduleScriptExecution(master->client_reconfig_script,
master->name,
(role == SENTINEL_LEADER) ? "leader" : "observer",
state, from->ip, fromport, to->ip, toport, NULL);
}
/* =============================== instanceLink ============================= */
/* Create a not yet connected link object. */
instanceLink *createInstanceLink(void) {
instanceLink *link = zmalloc(sizeof(*link));
link->refcount = 1;
link->disconnected = 1;
link->pending_commands = 0;
link->cc = NULL;
link->pc = NULL;
link->cc_conn_time = 0;
link->pc_conn_time = 0;
link->last_reconn_time = 0;
link->pc_last_activity = 0;
/* We set the act_ping_time to "now" even if we actually don't have yet
* a connection with the node, nor we sent a ping.
* This is useful to detect a timeout in case we'll not be able to connect
* with the node at all. */
link->act_ping_time = mstime();
link->last_ping_time = 0;
link->last_avail_time = mstime();
link->last_pong_time = mstime();
return link;
}
/* Disconnect an hiredis connection in the context of an instance link. */
void instanceLinkCloseConnection(instanceLink *link, redisAsyncContext *c) {
if (c == NULL) return;
if (link->cc == c) {
link->cc = NULL;
link->pending_commands = 0;
}
if (link->pc == c) link->pc = NULL;
c->data = NULL;
link->disconnected = 1;
redisAsyncFree(c);
}
/* Decrement the refcount of a link object, if it drops to zero, actually
* free it and return NULL. Otherwise don't do anything and return the pointer
* to the object.
*
* If we are not going to free the link and ri is not NULL, we rebind all the
* pending requests in link->cc (hiredis connection for commands) to a
* callback that will just ignore them. This is useful to avoid processing
* replies for an instance that no longer exists. */
instanceLink *releaseInstanceLink(instanceLink *link, sentinelRedisInstance *ri)
{
redisAssert(link->refcount > 0);
link->refcount--;
if (link->refcount != 0) {
if (ri && ri->link->cc) {
/* This instance may have pending callbacks in the hiredis async
* context, having as 'privdata' the instance that we are going to
* free. Let's rewrite the callback list, directly exploiting
* hiredis internal data structures, in order to bind them with
* a callback that will ignore the reply at all. */
redisCallback *cb;
redisCallbackList *callbacks = &link->cc->replies;
cb = callbacks->head;
while(cb) {
if (cb->privdata == ri) {
cb->fn = sentinelDiscardReplyCallback;
cb->privdata = NULL; /* Not strictly needed. */
}
cb = cb->next;
}
}
return link; /* Other active users. */
}
instanceLinkCloseConnection(link,link->cc);
instanceLinkCloseConnection(link,link->pc);
zfree(link);
return NULL;
}
/* This function will attempt to share the instance link we already have
* for the same Sentinel in the context of a different master, with the
* instance we are passing as argument.
*
* This way multiple Sentinel objects that refer all to the same physical
* Sentinel instance but in the context of different masters will use
* a single connection, will send a single PING per second for failure
* detection and so forth.
*
* Return REDIS_OK if a matching Sentinel was found in the context of a
* different master and sharing was performed. Otherwise REDIS_ERR
* is returned. */
int sentinelTryConnectionSharing(sentinelRedisInstance *ri) {
redisAssert(ri->flags & SRI_SENTINEL);
dictIterator *di;
dictEntry *de;
if (ri->runid == NULL) return REDIS_ERR; /* No way to identify it. */
if (ri->link->refcount > 1) return REDIS_ERR; /* Already shared. */
di = dictGetIterator(sentinel.masters);
while((de = dictNext(di)) != NULL) {
sentinelRedisInstance *master = dictGetVal(de), *match;
/* We want to share with the same physical Sentinel referenced
* in other masters, so skip our master. */
if (master == ri->master) continue;
match = getSentinelRedisInstanceByAddrAndRunID(master->sentinels,
NULL,0,ri->runid);
if (match == NULL) continue; /* No match. */
if (match == ri) continue; /* Should never happen but... safer. */
/* We identified a matching Sentinel, great! Let's free our link
* and use the one of the matching Sentinel. */
releaseInstanceLink(ri->link,NULL);
ri->link = match->link;
match->link->refcount++;
return REDIS_OK;
}
dictReleaseIterator(di);
return REDIS_ERR;
}
/* When we detect a Sentinel to switch address (reporting a different IP/port
* pair in Hello messages), let's update all the matching Sentinels in the
* context of other masters as well and disconnect the links, so that everybody
* will be updated.
*
* Return the number of updated Sentinel addresses. */
int sentinelUpdateSentinelAddressInAllMasters(sentinelRedisInstance *ri) {
redisAssert(ri->flags & SRI_SENTINEL);
dictIterator *di;
dictEntry *de;
int reconfigured = 0;
di = dictGetIterator(sentinel.masters);
while((de = dictNext(di)) != NULL) {
sentinelRedisInstance *master = dictGetVal(de), *match;
match = getSentinelRedisInstanceByAddrAndRunID(master->sentinels,
NULL,0,ri->runid);
if (match->link->disconnected == 0) {
instanceLinkCloseConnection(match->link,match->link->cc);
instanceLinkCloseConnection(match->link,match->link->pc);
}
if (match == ri) continue; /* Address already updated for it. */
/* Update the address of the matching Sentinel by copying the address
* of the Sentinel object that received the address update. */
releaseSentinelAddr(match->addr);
match->addr = dupSentinelAddr(ri->addr);
reconfigured++;
}
dictReleaseIterator(di);
if (reconfigured)
sentinelEvent(REDIS_NOTICE,"+sentinel-address-update", ri,
"%@ %d additional matching instances", reconfigured);
return reconfigured;
}
/* This function is called when an hiredis connection reported an error.
* We set it to NULL and mark the link as disconnected so that it will be
* reconnected again.
*
* Note: we don't free the hiredis context as hiredis will do it for us
* for async connections. */
void instanceLinkConnectionError(const redisAsyncContext *c) {
instanceLink *link = c->data;
int pubsub;
if (!link) return;
pubsub = (link->pc == c);
if (pubsub)
link->pc = NULL;
else
link->cc = NULL;
link->disconnected = 1;
}
/* Hiredis connection established / disconnected callbacks. We need them
* just to cleanup our link state. */
void sentinelLinkEstablishedCallback(const redisAsyncContext *c, int status) {
if (status != REDIS_OK) instanceLinkConnectionError(c);
}
void sentinelDisconnectCallback(const redisAsyncContext *c, int status) {
REDIS_NOTUSED(status);
instanceLinkConnectionError(c);
}
/* ========================== sentinelRedisInstance ========================= */
/* Create a redis instance, the following fields must be populated by the
* caller if needed:
* runid: set to NULL but will be populated once INFO output is received.
* info_refresh: is set to 0 to mean that we never received INFO so far.
*
* If SRI_MASTER is set into initial flags the instance is added to
* sentinel.masters table.
*
* if SRI_SLAVE or SRI_SENTINEL is set then 'master' must be not NULL and the
* instance is added into master->slaves or master->sentinels table.
*
* If the instance is a slave or sentinel, the name parameter is ignored and
* is created automatically as hostname:port.
*
* The function fails if hostname can't be resolved or port is out of range.
* When this happens NULL is returned and errno is set accordingly to the
* createSentinelAddr() function.
*
* The function may also fail and return NULL with errno set to EBUSY if
* a master or slave with the same name already exists. */
sentinelRedisInstance *createSentinelRedisInstance(char *name, int flags, char *hostname, int port, int quorum, sentinelRedisInstance *master) {
sentinelRedisInstance *ri;
sentinelAddr *addr;
dict *table = NULL;
char slavename[REDIS_PEER_ID_LEN], *sdsname;
redisAssert(flags & (SRI_MASTER|SRI_SLAVE|SRI_SENTINEL));
redisAssert((flags & SRI_MASTER) || master != NULL);
/* Check address validity. */
addr = createSentinelAddr(hostname,port);
if (addr == NULL) return NULL;
/* For slaves and sentinel we use ip:port as name. */
if (flags & (SRI_SLAVE|SRI_SENTINEL)) {
anetFormatAddr(slavename, sizeof(slavename), hostname, port);
name = slavename;
}
/* Make sure the entry is not duplicated. This may happen when the same
* name for a master is used multiple times inside the configuration or
* if we try to add multiple times a slave or sentinel with same ip/port
* to a master. */
if (flags & SRI_MASTER) table = sentinel.masters;
else if (flags & SRI_SLAVE) table = master->slaves;
else if (flags & SRI_SENTINEL) table = master->sentinels;
sdsname = sdsnew(name);
if (dictFind(table,sdsname)) {
releaseSentinelAddr(addr);
sdsfree(sdsname);
errno = EBUSY;
return NULL;
}
/* Create the instance object. */
ri = zmalloc(sizeof(*ri));
/* Note that all the instances are started in the disconnected state,
* the event loop will take care of connecting them. */
ri->flags = flags;
ri->name = sdsname;
ri->runid = NULL;
ri->config_epoch = 0;
ri->addr = addr;
ri->link = createInstanceLink();
ri->last_pub_time = mstime();
ri->last_hello_time = mstime();
ri->last_master_down_reply_time = mstime();
ri->s_down_since_time = 0;
ri->o_down_since_time = 0;
ri->down_after_period = master ? master->down_after_period :
SENTINEL_DEFAULT_DOWN_AFTER;
ri->master_link_down_time = 0;
ri->auth_pass = NULL;
ri->slave_priority = SENTINEL_DEFAULT_SLAVE_PRIORITY;
ri->slave_reconf_sent_time = 0;
ri->slave_master_host = NULL;
ri->slave_master_port = 0;
ri->slave_master_link_status = SENTINEL_MASTER_LINK_STATUS_DOWN;
ri->slave_repl_offset = 0;
ri->sentinels = dictCreate(&instancesDictType,NULL);
ri->quorum = quorum;
ri->parallel_syncs = SENTINEL_DEFAULT_PARALLEL_SYNCS;
ri->master = master;
ri->slaves = dictCreate(&instancesDictType,NULL);
ri->info_refresh = 0;
/* Failover state. */
ri->leader = NULL;
ri->leader_epoch = 0;
ri->failover_epoch = 0;
ri->failover_state = SENTINEL_FAILOVER_STATE_NONE;
ri->failover_state_change_time = 0;
ri->failover_start_time = 0;
ri->failover_timeout = SENTINEL_DEFAULT_FAILOVER_TIMEOUT;
ri->failover_delay_logged = 0;
ri->promoted_slave = NULL;
ri->notification_script = NULL;
ri->client_reconfig_script = NULL;
ri->info = NULL;
/* Role */
ri->role_reported = ri->flags & (SRI_MASTER|SRI_SLAVE);
ri->role_reported_time = mstime();
ri->slave_conf_change_time = mstime();
/* Add into the right table. */
dictAdd(table, ri->name, ri);
return ri;
}
/* Release this instance and all its slaves, sentinels, hiredis connections.
* This function does not take care of unlinking the instance from the main
* masters table (if it is a master) or from its master sentinels/slaves table
* if it is a slave or sentinel. */
void releaseSentinelRedisInstance(sentinelRedisInstance *ri) {
/* Release all its slaves or sentinels if any. */
dictRelease(ri->sentinels);
dictRelease(ri->slaves);
/* Disconnect the instance. */
releaseInstanceLink(ri->link,ri);
/* Free other resources. */
sdsfree(ri->name);
sdsfree(ri->runid);
sdsfree(ri->notification_script);
sdsfree(ri->client_reconfig_script);
sdsfree(ri->slave_master_host);
sdsfree(ri->leader);
sdsfree(ri->auth_pass);
sdsfree(ri->info);
releaseSentinelAddr(ri->addr);
/* Clear state into the master if needed. */
if ((ri->flags & SRI_SLAVE) && (ri->flags & SRI_PROMOTED) && ri->master)
ri->master->promoted_slave = NULL;
zfree(ri);
}
/* Lookup a slave in a master Redis instance, by ip and port. */
sentinelRedisInstance *sentinelRedisInstanceLookupSlave(
sentinelRedisInstance *ri, char *ip, int port)
{
sds key;
sentinelRedisInstance *slave;
char buf[REDIS_PEER_ID_LEN];
redisAssert(ri->flags & SRI_MASTER);
anetFormatAddr(buf,sizeof(buf),ip,port);
key = sdsnew(buf);
slave = dictFetchValue(ri->slaves,key);
sdsfree(key);
return slave;
}
/* Return the name of the type of the instance as a string. */
const char *sentinelRedisInstanceTypeStr(sentinelRedisInstance *ri) {
if (ri->flags & SRI_MASTER) return "master";
else if (ri->flags & SRI_SLAVE) return "slave";
else if (ri->flags & SRI_SENTINEL) return "sentinel";
else return "unknown";
}
/* This function remove the Sentinel with the specified ID from the
* specified master.
*
* If "runid" is NULL the function returns ASAP.
*
* This function is useful because on Sentinels address switch, we want to
* remove our old entry and add a new one for the same ID but with the new
* address.
*
* The function returns 1 if the matching Sentinel was removed, otherwise
* 0 if there was no Sentinel with this ID. */
int removeMatchingSentinelFromMaster(sentinelRedisInstance *master, char *runid) {
dictIterator *di;
dictEntry *de;
int removed = 0;
if (runid == NULL) return 0;
di = dictGetSafeIterator(master->sentinels);
while((de = dictNext(di)) != NULL) {
sentinelRedisInstance *ri = dictGetVal(de);
if (ri->runid && strcmp(ri->runid,runid) == 0) {
dictDelete(master->sentinels,ri->name);
removed++;
}
}
dictReleaseIterator(di);
return removed;
}
/* Search an instance with the same runid, ip and port into a dictionary
* of instances. Return NULL if not found, otherwise return the instance
* pointer.
*
* runid or ip can be NULL. In such a case the search is performed only
* by the non-NULL field. */
sentinelRedisInstance *getSentinelRedisInstanceByAddrAndRunID(dict *instances, char *ip, int port, char *runid) {
dictIterator *di;
dictEntry *de;
sentinelRedisInstance *instance = NULL;
redisAssert(ip || runid); /* User must pass at least one search param. */
di = dictGetIterator(instances);
while((de = dictNext(di)) != NULL) {
sentinelRedisInstance *ri = dictGetVal(de);
if (runid && !ri->runid) continue;
if ((runid == NULL || strcmp(ri->runid, runid) == 0) &&
(ip == NULL || (strcmp(ri->addr->ip, ip) == 0 &&
ri->addr->port == port)))
{
instance = ri;
break;
}
}
dictReleaseIterator(di);
return instance;
}
/* Master lookup by name */
sentinelRedisInstance *sentinelGetMasterByName(char *name) {
sentinelRedisInstance *ri;
sds sdsname = sdsnew(name);
ri = dictFetchValue(sentinel.masters,sdsname);
sdsfree(sdsname);
return ri;
}
/* Add the specified flags to all the instances in the specified dictionary. */
void sentinelAddFlagsToDictOfRedisInstances(dict *instances, int flags) {
dictIterator *di;
dictEntry *de;
di = dictGetIterator(instances);
while((de = dictNext(di)) != NULL) {
sentinelRedisInstance *ri = dictGetVal(de);
ri->flags |= flags;
}
dictReleaseIterator(di);
}
/* Remove the specified flags to all the instances in the specified
* dictionary. */
void sentinelDelFlagsToDictOfRedisInstances(dict *instances, int flags) {
dictIterator *di;
dictEntry *de;
di = dictGetIterator(instances);
while((de = dictNext(di)) != NULL) {
sentinelRedisInstance *ri = dictGetVal(de);
ri->flags &= ~flags;
}
dictReleaseIterator(di);
}
/* Reset the state of a monitored master:
* 1) Remove all slaves.
* 2) Remove all sentinels.
* 3) Remove most of the flags resulting from runtime operations.
* 4) Reset timers to their default value. For example after a reset it will be
* possible to failover again the same master ASAP, without waiting the
* failover timeout delay.
* 5) In the process of doing this undo the failover if in progress.
* 6) Disconnect the connections with the master (will reconnect automatically).
*/
#define SENTINEL_RESET_NO_SENTINELS (1<<0)
void sentinelResetMaster(sentinelRedisInstance *ri, int flags) {
redisAssert(ri->flags & SRI_MASTER);
dictRelease(ri->slaves);
ri->slaves = dictCreate(&instancesDictType,NULL);
if (!(flags & SENTINEL_RESET_NO_SENTINELS)) {
dictRelease(ri->sentinels);
ri->sentinels = dictCreate(&instancesDictType,NULL);
}
instanceLinkCloseConnection(ri->link,ri->link->cc);
instanceLinkCloseConnection(ri->link,ri->link->pc);
ri->flags &= SRI_MASTER;
if (ri->leader) {
sdsfree(ri->leader);
ri->leader = NULL;
}
ri->failover_state = SENTINEL_FAILOVER_STATE_NONE;
ri->failover_state_change_time = 0;
ri->failover_start_time = 0; /* We can failover again ASAP. */
ri->promoted_slave = NULL;
sdsfree(ri->runid);
sdsfree(ri->slave_master_host);
ri->runid = NULL;
ri->slave_master_host = NULL;
ri->link->act_ping_time = mstime();
ri->link->last_ping_time = 0;
ri->link->last_avail_time = mstime();
ri->link->last_pong_time = mstime();
ri->role_reported_time = mstime();
ri->role_reported = SRI_MASTER;
if (flags & SENTINEL_GENERATE_EVENT)
sentinelEvent(REDIS_WARNING,"+reset-master",ri,"%@");
}
/* Call sentinelResetMaster() on every master with a name matching the specified
* pattern. */
int sentinelResetMastersByPattern(char *pattern, int flags) {
dictIterator *di;
dictEntry *de;
int reset = 0;
di = dictGetIterator(sentinel.masters);
while((de = dictNext(di)) != NULL) {
sentinelRedisInstance *ri = dictGetVal(de);
if (ri->name) {
if (stringmatch(pattern,ri->name,0)) {
sentinelResetMaster(ri,flags);
reset++;
}
}
}
dictReleaseIterator(di);
return reset;
}
/* Reset the specified master with sentinelResetMaster(), and also change
* the ip:port address, but take the name of the instance unmodified.
*
* This is used to handle the +switch-master event.
*
* The function returns REDIS_ERR if the address can't be resolved for some
* reason. Otherwise REDIS_OK is returned. */
int sentinelResetMasterAndChangeAddress(sentinelRedisInstance *master, char *ip, int port) {
sentinelAddr *oldaddr, *newaddr;
sentinelAddr **slaves = NULL;
int numslaves = 0, j;
dictIterator *di;
dictEntry *de;
newaddr = createSentinelAddr(ip,port);
if (newaddr == NULL) return REDIS_ERR;
/* Make a list of slaves to add back after the reset.
* Don't include the one having the address we are switching to. */
di = dictGetIterator(master->slaves);
while((de = dictNext(di)) != NULL) {
sentinelRedisInstance *slave = dictGetVal(de);
if (sentinelAddrIsEqual(slave->addr,newaddr)) continue;
slaves = zrealloc(slaves,sizeof(sentinelAddr*)*(numslaves+1));
slaves[numslaves++] = createSentinelAddr(slave->addr->ip,
slave->addr->port);
}
dictReleaseIterator(di);
/* If we are switching to a different address, include the old address
* as a slave as well, so that we'll be able to sense / reconfigure
* the old master. */
if (!sentinelAddrIsEqual(newaddr,master->addr)) {
slaves = zrealloc(slaves,sizeof(sentinelAddr*)*(numslaves+1));
slaves[numslaves++] = createSentinelAddr(master->addr->ip,
master->addr->port);
}
/* Reset and switch address. */
sentinelResetMaster(master,SENTINEL_RESET_NO_SENTINELS);
oldaddr = master->addr;
master->addr = newaddr;
master->o_down_since_time = 0;
master->s_down_since_time = 0;
/* Add slaves back. */
for (j = 0; j < numslaves; j++) {
sentinelRedisInstance *slave;
slave = createSentinelRedisInstance(NULL,SRI_SLAVE,slaves[j]->ip,
slaves[j]->port, master->quorum, master);
releaseSentinelAddr(slaves[j]);
if (slave) sentinelEvent(REDIS_NOTICE,"+slave",slave,"%@");
}
zfree(slaves);
/* Release the old address at the end so we are safe even if the function
* gets the master->addr->ip and master->addr->port as arguments. */
releaseSentinelAddr(oldaddr);
sentinelFlushConfig();
return REDIS_OK;
}
/* Return non-zero if there was no SDOWN or ODOWN error associated to this
* instance in the latest 'ms' milliseconds. */
int sentinelRedisInstanceNoDownFor(sentinelRedisInstance *ri, mstime_t ms) {
mstime_t most_recent;
most_recent = ri->s_down_since_time;
if (ri->o_down_since_time > most_recent)
most_recent = ri->o_down_since_time;
return most_recent == 0 || (mstime() - most_recent) > ms;
}
/* Return the current master address, that is, its address or the address
* of the promoted slave if already operational. */
sentinelAddr *sentinelGetCurrentMasterAddress(sentinelRedisInstance *master) {
/* If we are failing over the master, and the state is already
* SENTINEL_FAILOVER_STATE_RECONF_SLAVES or greater, it means that we
* already have the new configuration epoch in the master, and the
* slave acknowledged the configuration switch. Advertise the new
* address. */
if ((master->flags & SRI_FAILOVER_IN_PROGRESS) &&
master->promoted_slave &&
master->failover_state >= SENTINEL_FAILOVER_STATE_RECONF_SLAVES)
{
return master->promoted_slave->addr;
} else {
return master->addr;
}
}
/* This function sets the down_after_period field value in 'master' to all
* the slaves and sentinel instances connected to this master. */
void sentinelPropagateDownAfterPeriod(sentinelRedisInstance *master) {
dictIterator *di;
dictEntry *de;
int j;
dict *d[] = {master->slaves, master->sentinels, NULL};
for (j = 0; d[j]; j++) {
di = dictGetIterator(d[j]);
while((de = dictNext(di)) != NULL) {
sentinelRedisInstance *ri = dictGetVal(de);
ri->down_after_period = master->down_after_period;
}
dictReleaseIterator(di);
}
}
char *sentinelGetInstanceTypeString(sentinelRedisInstance *ri) {
if (ri->flags & SRI_MASTER) return "master";
else if (ri->flags & SRI_SLAVE) return "slave";
else if (ri->flags & SRI_SENTINEL) return "sentinel";
else return "unknown";
}
/* ============================ Config handling ============================= */
char *sentinelHandleConfiguration(char **argv, int argc) {
sentinelRedisInstance *ri;
if (!strcasecmp(argv[0],"monitor") && argc == 5) {
/* monitor <name> <host> <port> <quorum> */
int quorum = atoi(argv[4]);
if (quorum <= 0) return "Quorum must be 1 or greater.";
if (createSentinelRedisInstance(argv[1],SRI_MASTER,argv[2],
atoi(argv[3]),quorum,NULL) == NULL)
{
switch(errno) {
case EBUSY: return "Duplicated master name.";
case ENOENT: return "Can't resolve master instance hostname.";
case EINVAL: return "Invalid port number";
}
}
} else if (!strcasecmp(argv[0],"down-after-milliseconds") && argc == 3) {
/* down-after-milliseconds <name> <milliseconds> */
ri = sentinelGetMasterByName(argv[1]);
if (!ri) return "No such master with specified name.";
ri->down_after_period = atoi(argv[2]);
if (ri->down_after_period <= 0)
return "negative or zero time parameter.";
sentinelPropagateDownAfterPeriod(ri);
} else if (!strcasecmp(argv[0],"failover-timeout") && argc == 3) {
/* failover-timeout <name> <milliseconds> */
ri = sentinelGetMasterByName(argv[1]);
if (!ri) return "No such master with specified name.";
ri->failover_timeout = atoi(argv[2]);
if (ri->failover_timeout <= 0)
return "negative or zero time parameter.";
} else if (!strcasecmp(argv[0],"parallel-syncs") && argc == 3) {
/* parallel-syncs <name> <milliseconds> */
ri = sentinelGetMasterByName(argv[1]);
if (!ri) return "No such master with specified name.";
ri->parallel_syncs = atoi(argv[2]);
} else if (!strcasecmp(argv[0],"notification-script") && argc == 3) {
/* notification-script <name> <path> */
ri = sentinelGetMasterByName(argv[1]);
if (!ri) return "No such master with specified name.";
if (access(argv[2],X_OK) == -1)
return "Notification script seems non existing or non executable.";
ri->notification_script = sdsnew(argv[2]);
} else if (!strcasecmp(argv[0],"client-reconfig-script") && argc == 3) {
/* client-reconfig-script <name> <path> */
ri = sentinelGetMasterByName(argv[1]);
if (!ri) return "No such master with specified name.";
if (access(argv[2],X_OK) == -1)
return "Client reconfiguration script seems non existing or "
"non executable.";
ri->client_reconfig_script = sdsnew(argv[2]);
} else if (!strcasecmp(argv[0],"auth-pass") && argc == 3) {
/* auth-pass <name> <password> */
ri = sentinelGetMasterByName(argv[1]);
if (!ri) return "No such master with specified name.";
ri->auth_pass = sdsnew(argv[2]);
} else if (!strcasecmp(argv[0],"current-epoch") && argc == 2) {
/* current-epoch <epoch> */
unsigned long long current_epoch = strtoull(argv[1],NULL,10);
if (current_epoch > sentinel.current_epoch)
sentinel.current_epoch = current_epoch;
} else if (!strcasecmp(argv[0],"myid") && argc == 2) {
if (strlen(argv[1]) != REDIS_RUN_ID_SIZE)
return "Malformed Sentinel id in myid option.";
memcpy(sentinel.myid,argv[1],REDIS_RUN_ID_SIZE);
} else if (!strcasecmp(argv[0],"config-epoch") && argc == 3) {
/* config-epoch <name> <epoch> */
ri = sentinelGetMasterByName(argv[1]);
if (!ri) return "No such master with specified name.";
ri->config_epoch = strtoull(argv[2],NULL,10);
/* The following update of current_epoch is not really useful as
* now the current epoch is persisted on the config file, but
* we leave this check here for redundancy. */
if (ri->config_epoch > sentinel.current_epoch)
sentinel.current_epoch = ri->config_epoch;
} else if (!strcasecmp(argv[0],"leader-epoch") && argc == 3) {
/* leader-epoch <name> <epoch> */
ri = sentinelGetMasterByName(argv[1]);
if (!ri) return "No such master with specified name.";
ri->leader_epoch = strtoull(argv[2],NULL,10);
} else if (!strcasecmp(argv[0],"known-slave") && argc == 4) {
sentinelRedisInstance *slave;
/* known-slave <name> <ip> <port> */
ri = sentinelGetMasterByName(argv[1]);
if (!ri) return "No such master with specified name.";
if ((slave = createSentinelRedisInstance(NULL,SRI_SLAVE,argv[2],
atoi(argv[3]), ri->quorum, ri)) == NULL)
{
return "Wrong hostname or port for slave.";
}
} else if (!strcasecmp(argv[0],"known-sentinel") &&
(argc == 4 || argc == 5)) {
sentinelRedisInstance *si;
/* known-sentinel <name> <ip> <port> [runid] */
ri = sentinelGetMasterByName(argv[1]);
if (!ri) return "No such master with specified name.";
if ((si = createSentinelRedisInstance(NULL,SRI_SENTINEL,argv[2],
atoi(argv[3]), ri->quorum, ri)) == NULL)
{
return "Wrong hostname or port for sentinel.";
}
if (argc == 5) {
si->runid = sdsnew(argv[4]);
sentinelTryConnectionSharing(si);
}
} else if (!strcasecmp(argv[0],"announce-ip") && argc == 2) {
/* announce-ip <ip-address> */
if (strlen(argv[1]))
sentinel.announce_ip = sdsnew(argv[1]);
} else if (!strcasecmp(argv[0],"announce-port") && argc == 2) {
/* announce-port <port> */
sentinel.announce_port = atoi(argv[1]);
} else {
return "Unrecognized sentinel configuration statement.";
}
return NULL;
}
/* Implements CONFIG REWRITE for "sentinel" option.
* This is used not just to rewrite the configuration given by the user
* (the configured masters) but also in order to retain the state of
* Sentinel across restarts: config epoch of masters, associated slaves
* and sentinel instances, and so forth. */
void rewriteConfigSentinelOption(struct rewriteConfigState *state) {
dictIterator *di, *di2;
dictEntry *de;
sds line;
/* sentinel unique ID. */
line = sdscatprintf(sdsempty(), "sentinel myid %s", sentinel.myid);
rewriteConfigRewriteLine(state,"sentinel",line,1);
/* For every master emit a "sentinel monitor" config entry. */
di = dictGetIterator(sentinel.masters);
while((de = dictNext(di)) != NULL) {
sentinelRedisInstance *master, *ri;
sentinelAddr *master_addr;
/* sentinel monitor */
master = dictGetVal(de);
master_addr = sentinelGetCurrentMasterAddress(master);
line = sdscatprintf(sdsempty(),"sentinel monitor %s %s %d %d",
master->name, master_addr->ip, master_addr->port,
master->quorum);
rewriteConfigRewriteLine(state,"sentinel",line,1);
/* sentinel down-after-milliseconds */
if (master->down_after_period != SENTINEL_DEFAULT_DOWN_AFTER) {
line = sdscatprintf(sdsempty(),
"sentinel down-after-milliseconds %s %ld",
master->name, (long) master->down_after_period);
rewriteConfigRewriteLine(state,"sentinel",line,1);
}
/* sentinel failover-timeout */
if (master->failover_timeout != SENTINEL_DEFAULT_FAILOVER_TIMEOUT) {
line = sdscatprintf(sdsempty(),
"sentinel failover-timeout %s %ld",
master->name, (long) master->failover_timeout);
rewriteConfigRewriteLine(state,"sentinel",line,1);
}
/* sentinel parallel-syncs */
if (master->parallel_syncs != SENTINEL_DEFAULT_PARALLEL_SYNCS) {
line = sdscatprintf(sdsempty(),
"sentinel parallel-syncs %s %d",
master->name, master->parallel_syncs);
rewriteConfigRewriteLine(state,"sentinel",line,1);
}
/* sentinel notification-script */
if (master->notification_script) {
line = sdscatprintf(sdsempty(),
"sentinel notification-script %s %s",
master->name, master->notification_script);
rewriteConfigRewriteLine(state,"sentinel",line,1);
}
/* sentinel client-reconfig-script */
if (master->client_reconfig_script) {
line = sdscatprintf(sdsempty(),
"sentinel client-reconfig-script %s %s",
master->name, master->client_reconfig_script);
rewriteConfigRewriteLine(state,"sentinel",line,1);
}
/* sentinel auth-pass */
if (master->auth_pass) {
line = sdscatprintf(sdsempty(),
"sentinel auth-pass %s %s",
master->name, master->auth_pass);
rewriteConfigRewriteLine(state,"sentinel",line,1);
}
/* sentinel config-epoch */
line = sdscatprintf(sdsempty(),
"sentinel config-epoch %s %llu",
master->name, (unsigned long long) master->config_epoch);
rewriteConfigRewriteLine(state,"sentinel",line,1);
/* sentinel leader-epoch */
line = sdscatprintf(sdsempty(),
"sentinel leader-epoch %s %llu",
master->name, (unsigned long long) master->leader_epoch);
rewriteConfigRewriteLine(state,"sentinel",line,1);
/* sentinel known-slave */
di2 = dictGetIterator(master->slaves);
while((de = dictNext(di2)) != NULL) {
sentinelAddr *slave_addr;
ri = dictGetVal(de);
slave_addr = ri->addr;
/* If master_addr (obtained using sentinelGetCurrentMasterAddress()
* so it may be the address of the promoted slave) is equal to this
* slave's address, a failover is in progress and the slave was
* already successfully promoted. So as the address of this slave
* we use the old master address instead. */
if (sentinelAddrIsEqual(slave_addr,master_addr))
slave_addr = master->addr;
line = sdscatprintf(sdsempty(),
"sentinel known-slave %s %s %d",
master->name, slave_addr->ip, slave_addr->port);
rewriteConfigRewriteLine(state,"sentinel",line,1);
}
dictReleaseIterator(di2);
/* sentinel known-sentinel */
di2 = dictGetIterator(master->sentinels);
while((de = dictNext(di2)) != NULL) {
ri = dictGetVal(de);
line = sdscatprintf(sdsempty(),
"sentinel known-sentinel %s %s %d%s%s",
master->name, ri->addr->ip, ri->addr->port,
ri->runid ? " " : "",
ri->runid ? ri->runid : "");
rewriteConfigRewriteLine(state,"sentinel",line,1);
}
dictReleaseIterator(di2);
}
/* sentinel current-epoch is a global state valid for all the masters. */
line = sdscatprintf(sdsempty(),
"sentinel current-epoch %llu", (unsigned long long) sentinel.current_epoch);
rewriteConfigRewriteLine(state,"sentinel",line,1);
/* sentinel announce-ip. */
if (sentinel.announce_ip) {
line = sdsnew("sentinel announce-ip ");
line = sdscatrepr(line, sentinel.announce_ip, sdslen(sentinel.announce_ip));
rewriteConfigRewriteLine(state,"sentinel",line,1);
}
/* sentinel announce-port. */
if (sentinel.announce_port) {
line = sdscatprintf(sdsempty(),"sentinel announce-port %d",
sentinel.announce_port);
rewriteConfigRewriteLine(state,"sentinel",line,1);
}
dictReleaseIterator(di);
}
/* This function uses the config rewriting Redis engine in order to persist
* the state of the Sentinel in the current configuration file.
*
* Before returning the function calls fsync() against the generated
* configuration file to make sure changes are committed to disk.
*
* On failure the function logs a warning on the Redis log. */
void sentinelFlushConfig(void) {
int fd = -1;
int saved_hz = server.hz;
int rewrite_status;
server.hz = REDIS_DEFAULT_HZ;
rewrite_status = rewriteConfig(server.configfile);
server.hz = saved_hz;
if (rewrite_status == -1) goto werr;
if ((fd = open(server.configfile,O_RDONLY)) == -1) goto werr;
if (fsync(fd) == -1) goto werr;
if (close(fd) == EOF) goto werr;
return;
werr:
if (fd != -1) close(fd);
redisLog(REDIS_WARNING,"WARNING: Sentinel was not able to save the new configuration on disk!!!: %s", strerror(errno));
}
/* ====================== hiredis connection handling ======================= */
/* Send the AUTH command with the specified master password if needed.
* Note that for slaves the password set for the master is used.
*
* We don't check at all if the command was successfully transmitted
* to the instance as if it fails Sentinel will detect the instance down,
* will disconnect and reconnect the link and so forth. */
void sentinelSendAuthIfNeeded(sentinelRedisInstance *ri, redisAsyncContext *c) {
char *auth_pass = (ri->flags & SRI_MASTER) ? ri->auth_pass :
ri->master->auth_pass;
if (auth_pass) {
if (redisAsyncCommand(c, sentinelDiscardReplyCallback, ri, "AUTH %s",
auth_pass) == REDIS_OK) ri->link->pending_commands++;
}
}
/* Use CLIENT SETNAME to name the connection in the Redis instance as
* sentinel-<first_8_chars_of_runid>-<connection_type>
* The connection type is "cmd" or "pubsub" as specified by 'type'.
*
* This makes it possible to list all the sentinel instances connected
* to a Redis servewr with CLIENT LIST, grepping for a specific name format. */
void sentinelSetClientName(sentinelRedisInstance *ri, redisAsyncContext *c, char *type) {
char name[64];
snprintf(name,sizeof(name),"sentinel-%.8s-%s",sentinel.myid,type);
if (redisAsyncCommand(c, sentinelDiscardReplyCallback, ri,
"CLIENT SETNAME %s", name) == REDIS_OK)
{
ri->link->pending_commands++;
}
}
/* Create the async connections for the instance link if the link
* is disconnected. Note that link->disconnected is true even if just
* one of the two links (commands and pub/sub) is missing. */
void sentinelReconnectInstance(sentinelRedisInstance *ri) {
if (ri->link->disconnected == 0) return;
instanceLink *link = ri->link;
mstime_t now = mstime();
if (now - ri->link->last_reconn_time < SENTINEL_PING_PERIOD) return;
ri->link->last_reconn_time = now;
/* Commands connection. */
if (link->cc == NULL) {
link->cc = redisAsyncConnectBind(ri->addr->ip,ri->addr->port,REDIS_BIND_ADDR);
if (link->cc->err) {
sentinelEvent(REDIS_DEBUG,"-cmd-link-reconnection",ri,"%@ #%s",
link->cc->errstr);
instanceLinkCloseConnection(link,link->cc);
} else {
link->cc_conn_time = mstime();
link->cc->data = link;
redisAeAttach(server.el,link->cc);
redisAsyncSetConnectCallback(link->cc,
sentinelLinkEstablishedCallback);
redisAsyncSetDisconnectCallback(link->cc,
sentinelDisconnectCallback);
sentinelSendAuthIfNeeded(ri,link->cc);
sentinelSetClientName(ri,link->cc,"cmd");
/* Send a PING ASAP when reconnecting. */
sentinelSendPing(ri);
}
}
/* Pub / Sub */
if ((ri->flags & (SRI_MASTER|SRI_SLAVE)) && link->pc == NULL) {
link->pc = redisAsyncConnectBind(ri->addr->ip,ri->addr->port,REDIS_BIND_ADDR);
if (link->pc->err) {
sentinelEvent(REDIS_DEBUG,"-pubsub-link-reconnection",ri,"%@ #%s",
link->pc->errstr);
instanceLinkCloseConnection(link,link->pc);
} else {
int retval;
link->pc_conn_time = mstime();
link->pc->data = link;
redisAeAttach(server.el,link->pc);
redisAsyncSetConnectCallback(link->pc,
sentinelLinkEstablishedCallback);
redisAsyncSetDisconnectCallback(link->pc,
sentinelDisconnectCallback);
sentinelSendAuthIfNeeded(ri,link->pc);
sentinelSetClientName(ri,link->pc,"pubsub");
/* Now we subscribe to the Sentinels "Hello" channel. */
retval = redisAsyncCommand(link->pc,
sentinelReceiveHelloMessages, ri, "SUBSCRIBE %s",
SENTINEL_HELLO_CHANNEL);
if (retval != REDIS_OK) {
/* If we can't subscribe, the Pub/Sub connection is useless
* and we can simply disconnect it and try again. */
instanceLinkCloseConnection(link,link->pc);
return;
}
}
}
/* Clear the disconnected status only if we have both the connections
* (or just the commands connection if this is a sentinel instance). */
if (link->cc && (ri->flags & SRI_SENTINEL || link->pc))
link->disconnected = 0;
}
/* ======================== Redis instances pinging ======================== */
/* Return true if master looks "sane", that is:
* 1) It is actually a master in the current configuration.
* 2) It reports itself as a master.
* 3) It is not SDOWN or ODOWN.
* 4) We obtained last INFO no more than two times the INFO period time ago. */
int sentinelMasterLooksSane(sentinelRedisInstance *master) {
return
master->flags & SRI_MASTER &&
master->role_reported == SRI_MASTER &&
(master->flags & (SRI_S_DOWN|SRI_O_DOWN)) == 0 &&
(mstime() - master->info_refresh) < SENTINEL_INFO_PERIOD*2;
}
/* Process the INFO output from masters. */
void sentinelRefreshInstanceInfo(sentinelRedisInstance *ri, const char *info) {
sds *lines;
int numlines, j;
int role = 0;
/* cache full INFO output for instance */
sdsfree(ri->info);
ri->info = sdsnew(info);
/* The following fields must be reset to a given value in the case they
* are not found at all in the INFO output. */
ri->master_link_down_time = 0;
/* Process line by line. */
lines = sdssplitlen(info,strlen(info),"\r\n",2,&numlines);
for (j = 0; j < numlines; j++) {
sentinelRedisInstance *slave;
sds l = lines[j];
/* run_id:<40 hex chars>*/
if (sdslen(l) >= 47 && !memcmp(l,"run_id:",7)) {
if (ri->runid == NULL) {
ri->runid = sdsnewlen(l+7,40);
} else {
if (strncmp(ri->runid,l+7,40) != 0) {
sentinelEvent(REDIS_NOTICE,"+reboot",ri,"%@");
sdsfree(ri->runid);
ri->runid = sdsnewlen(l+7,40);
}
}
}
/* old versions: slave0:<ip>,<port>,<state>
* new versions: slave0:ip=127.0.0.1,port=9999,... */
if ((ri->flags & SRI_MASTER) &&
sdslen(l) >= 7 &&
!memcmp(l,"slave",5) && isdigit(l[5]))
{
char *ip, *port, *end;
if (strstr(l,"ip=") == NULL) {
/* Old format. */
ip = strchr(l,':'); if (!ip) continue;
ip++; /* Now ip points to start of ip address. */
port = strchr(ip,','); if (!port) continue;
*port = '\0'; /* nul term for easy access. */
port++; /* Now port points to start of port number. */
end = strchr(port,','); if (!end) continue;
*end = '\0'; /* nul term for easy access. */
} else {
/* New format. */
ip = strstr(l,"ip="); if (!ip) continue;
ip += 3; /* Now ip points to start of ip address. */
port = strstr(l,"port="); if (!port) continue;
port += 5; /* Now port points to start of port number. */
/* Nul term both fields for easy access. */
end = strchr(ip,','); if (end) *end = '\0';
end = strchr(port,','); if (end) *end = '\0';
}
/* Check if we already have this slave into our table,
* otherwise add it. */
if (sentinelRedisInstanceLookupSlave(ri,ip,atoi(port)) == NULL) {
if ((slave = createSentinelRedisInstance(NULL,SRI_SLAVE,ip,
atoi(port), ri->quorum, ri)) != NULL)
{
sentinelEvent(REDIS_NOTICE,"+slave",slave,"%@");
sentinelFlushConfig();
}
}
}
/* master_link_down_since_seconds:<seconds> */
if (sdslen(l) >= 32 &&
!memcmp(l,"master_link_down_since_seconds",30))
{
ri->master_link_down_time = strtoll(l+31,NULL,10)*1000;
}
/* role:<role> */
if (!memcmp(l,"role:master",11)) role = SRI_MASTER;
else if (!memcmp(l,"role:slave",10)) role = SRI_SLAVE;
if (role == SRI_SLAVE) {
/* master_host:<host> */
if (sdslen(l) >= 12 && !memcmp(l,"master_host:",12)) {
if (ri->slave_master_host == NULL ||
strcasecmp(l+12,ri->slave_master_host))
{
sdsfree(ri->slave_master_host);
ri->slave_master_host = sdsnew(l+12);
ri->slave_conf_change_time = mstime();
}
}
/* master_port:<port> */
if (sdslen(l) >= 12 && !memcmp(l,"master_port:",12)) {
int slave_master_port = atoi(l+12);
if (ri->slave_master_port != slave_master_port) {
ri->slave_master_port = slave_master_port;
ri->slave_conf_change_time = mstime();
}
}
/* master_link_status:<status> */
if (sdslen(l) >= 19 && !memcmp(l,"master_link_status:",19)) {
ri->slave_master_link_status =
(strcasecmp(l+19,"up") == 0) ?
SENTINEL_MASTER_LINK_STATUS_UP :
SENTINEL_MASTER_LINK_STATUS_DOWN;
}
/* slave_priority:<priority> */
if (sdslen(l) >= 15 && !memcmp(l,"slave_priority:",15))
ri->slave_priority = atoi(l+15);
/* slave_repl_offset:<offset> */
if (sdslen(l) >= 18 && !memcmp(l,"slave_repl_offset:",18))
ri->slave_repl_offset = strtoull(l+18,NULL,10);
}
}
ri->info_refresh = mstime();
sdsfreesplitres(lines,numlines);
/* ---------------------------- Acting half -----------------------------
* Some things will not happen if sentinel.tilt is true, but some will
* still be processed. */
/* Remember when the role changed. */
if (role != ri->role_reported) {
ri->role_reported_time = mstime();
ri->role_reported = role;
if (role == SRI_SLAVE) ri->slave_conf_change_time = mstime();
/* Log the event with +role-change if the new role is coherent or
* with -role-change if there is a mismatch with the current config. */
sentinelEvent(REDIS_VERBOSE,
((ri->flags & (SRI_MASTER|SRI_SLAVE)) == role) ?
"+role-change" : "-role-change",
ri, "%@ new reported role is %s",
role == SRI_MASTER ? "master" : "slave",
ri->flags & SRI_MASTER ? "master" : "slave");
}
/* None of the following conditions are processed when in tilt mode, so
* return asap. */
if (sentinel.tilt) return;
/* Handle master -> slave role switch. */
if ((ri->flags & SRI_MASTER) && role == SRI_SLAVE) {
/* Nothing to do, but masters claiming to be slaves are
* considered to be unreachable by Sentinel, so eventually
* a failover will be triggered. */
}
/* Handle slave -> master role switch. */
if ((ri->flags & SRI_SLAVE) && role == SRI_MASTER) {
/* If this is a promoted slave we can change state to the
* failover state machine. */
if ((ri->flags & SRI_PROMOTED) &&
(ri->master->flags & SRI_FAILOVER_IN_PROGRESS) &&
(ri->master->failover_state ==
SENTINEL_FAILOVER_STATE_WAIT_PROMOTION))
{
/* Now that we are sure the slave was reconfigured as a master
* set the master configuration epoch to the epoch we won the
* election to perform this failover. This will force the other
* Sentinels to update their config (assuming there is not
* a newer one already available). */
ri->master->config_epoch = ri->master->failover_epoch;
ri->master->failover_state = SENTINEL_FAILOVER_STATE_RECONF_SLAVES;
ri->master->failover_state_change_time = mstime();
sentinelFlushConfig();
sentinelEvent(REDIS_WARNING,"+promoted-slave",ri,"%@");
if (sentinel.simfailure_flags &
SENTINEL_SIMFAILURE_CRASH_AFTER_PROMOTION)
sentinelSimFailureCrash();
sentinelEvent(REDIS_WARNING,"+failover-state-reconf-slaves",
ri->master,"%@");
sentinelCallClientReconfScript(ri->master,SENTINEL_LEADER,
"start",ri->master->addr,ri->addr);
sentinelForceHelloUpdateForMaster(ri->master);
} else {
/* A slave turned into a master. We want to force our view and
* reconfigure as slave. Wait some time after the change before
* going forward, to receive new configs if any. */
mstime_t wait_time = SENTINEL_PUBLISH_PERIOD*4;
if (!(ri->flags & SRI_PROMOTED) &&
sentinelMasterLooksSane(ri->master) &&
sentinelRedisInstanceNoDownFor(ri,wait_time) &&
mstime() - ri->role_reported_time > wait_time)
{
int retval = sentinelSendSlaveOf(ri,
ri->master->addr->ip,
ri->master->addr->port);
if (retval == REDIS_OK)
sentinelEvent(REDIS_NOTICE,"+convert-to-slave",ri,"%@");
}
}
}
/* Handle slaves replicating to a different master address. */
if ((ri->flags & SRI_SLAVE) &&
role == SRI_SLAVE &&
(ri->slave_master_port != ri->master->addr->port ||
strcasecmp(ri->slave_master_host,ri->master->addr->ip)))
{
mstime_t wait_time = ri->master->failover_timeout;
/* Make sure the master is sane before reconfiguring this instance
* into a slave. */
if (sentinelMasterLooksSane(ri->master) &&
sentinelRedisInstanceNoDownFor(ri,wait_time) &&
mstime() - ri->slave_conf_change_time > wait_time)
{
int retval = sentinelSendSlaveOf(ri,
ri->master->addr->ip,
ri->master->addr->port);
if (retval == REDIS_OK)
sentinelEvent(REDIS_NOTICE,"+fix-slave-config",ri,"%@");
}
}
/* Detect if the slave that is in the process of being reconfigured
* changed state. */
if ((ri->flags & SRI_SLAVE) && role == SRI_SLAVE &&
(ri->flags & (SRI_RECONF_SENT|SRI_RECONF_INPROG)))
{
/* SRI_RECONF_SENT -> SRI_RECONF_INPROG. */
if ((ri->flags & SRI_RECONF_SENT) &&
ri->slave_master_host &&
strcmp(ri->slave_master_host,
ri->master->promoted_slave->addr->ip) == 0 &&
ri->slave_master_port == ri->master->promoted_slave->addr->port)
{
ri->flags &= ~SRI_RECONF_SENT;
ri->flags |= SRI_RECONF_INPROG;
sentinelEvent(REDIS_NOTICE,"+slave-reconf-inprog",ri,"%@");
}
/* SRI_RECONF_INPROG -> SRI_RECONF_DONE */
if ((ri->flags & SRI_RECONF_INPROG) &&
ri->slave_master_link_status == SENTINEL_MASTER_LINK_STATUS_UP)
{
ri->flags &= ~SRI_RECONF_INPROG;
ri->flags |= SRI_RECONF_DONE;
sentinelEvent(REDIS_NOTICE,"+slave-reconf-done",ri,"%@");
}
}
}
void sentinelInfoReplyCallback(redisAsyncContext *c, void *reply, void *privdata) {
sentinelRedisInstance *ri = privdata;
instanceLink *link = c->data;
redisReply *r;
if (!reply || !link) return;
link->pending_commands--;
r = reply;
if (r->type == REDIS_REPLY_STRING)
sentinelRefreshInstanceInfo(ri,r->str);
}
/* Just discard the reply. We use this when we are not monitoring the return
* value of the command but its effects directly. */
void sentinelDiscardReplyCallback(redisAsyncContext *c, void *reply, void *privdata) {
instanceLink *link = c->data;
REDIS_NOTUSED(reply);
REDIS_NOTUSED(privdata);
if (link) link->pending_commands--;
}
void sentinelPingReplyCallback(redisAsyncContext *c, void *reply, void *privdata) {
sentinelRedisInstance *ri = privdata;
instanceLink *link = c->data;
redisReply *r;
if (!reply || !link) return;
link->pending_commands--;
r = reply;
if (r->type == REDIS_REPLY_STATUS ||
r->type == REDIS_REPLY_ERROR) {
/* Update the "instance available" field only if this is an
* acceptable reply. */
if (strncmp(r->str,"PONG",4) == 0 ||
strncmp(r->str,"LOADING",7) == 0 ||
strncmp(r->str,"MASTERDOWN",10) == 0)
{
link->last_avail_time = mstime();
link->act_ping_time = 0; /* Flag the pong as received. */
} else {
/* Send a SCRIPT KILL command if the instance appears to be
* down because of a busy script. */
if (strncmp(r->str,"BUSY",4) == 0 &&
(ri->flags & SRI_S_DOWN) &&
!(ri->flags & SRI_SCRIPT_KILL_SENT))
{
if (redisAsyncCommand(ri->link->cc,
sentinelDiscardReplyCallback, ri,
"SCRIPT KILL") == REDIS_OK)
ri->link->pending_commands++;
ri->flags |= SRI_SCRIPT_KILL_SENT;
}
}
}
link->last_pong_time = mstime();
}
/* This is called when we get the reply about the PUBLISH command we send
* to the master to advertise this sentinel. */
void sentinelPublishReplyCallback(redisAsyncContext *c, void *reply, void *privdata) {
sentinelRedisInstance *ri = privdata;
instanceLink *link = c->data;
redisReply *r;
if (!reply || !link) return;
link->pending_commands--;
r = reply;
/* Only update pub_time if we actually published our message. Otherwise
* we'll retry again in 100 milliseconds. */
if (r->type != REDIS_REPLY_ERROR)
ri->last_pub_time = mstime();
}
/* Process an hello message received via Pub/Sub in master or slave instance,
* or sent directly to this sentinel via the (fake) PUBLISH command of Sentinel.
*
* If the master name specified in the message is not known, the message is
* discarded. */
void sentinelProcessHelloMessage(char *hello, int hello_len) {
/* Format is composed of 8 tokens:
* 0=ip,1=port,2=runid,3=current_epoch,4=master_name,
* 5=master_ip,6=master_port,7=master_config_epoch. */
int numtokens, port, removed, master_port;
uint64_t current_epoch, master_config_epoch;
char **token = sdssplitlen(hello, hello_len, ",", 1, &numtokens);
sentinelRedisInstance *si, *master;
if (numtokens == 8) {
/* Obtain a reference to the master this hello message is about */
master = sentinelGetMasterByName(token[4]);
if (!master) goto cleanup; /* Unknown master, skip the message. */
/* First, try to see if we already have this sentinel. */
port = atoi(token[1]);
master_port = atoi(token[6]);
si = getSentinelRedisInstanceByAddrAndRunID(
master->sentinels,token[0],port,token[2]);
current_epoch = strtoull(token[3],NULL,10);
master_config_epoch = strtoull(token[7],NULL,10);
if (!si) {
/* If not, remove all the sentinels that have the same runid
* because there was an address change, and add the same Sentinel
* with the new address back. */
removed = removeMatchingSentinelFromMaster(master,token[2]);
if (removed) {
sentinelEvent(REDIS_NOTICE,"+sentinel-address-switch",master,
"%@ ip %s port %d for %s", token[0],port,token[2]);
}
/* Add the new sentinel. */
si = createSentinelRedisInstance(NULL,SRI_SENTINEL,
token[0],port,master->quorum,master);
if (si) {
if (!removed) sentinelEvent(REDIS_NOTICE,"+sentinel",si,"%@");
/* The runid is NULL after a new instance creation and
* for Sentinels we don't have a later chance to fill it,
* so do it now. */
si->runid = sdsnew(token[2]);
sentinelTryConnectionSharing(si);
if (removed) sentinelUpdateSentinelAddressInAllMasters(si);
sentinelFlushConfig();
}
}
/* Update local current_epoch if received current_epoch is greater.*/
if (current_epoch > sentinel.current_epoch) {
sentinel.current_epoch = current_epoch;
sentinelFlushConfig();
sentinelEvent(REDIS_WARNING,"+new-epoch",master,"%llu",
(unsigned long long) sentinel.current_epoch);
}
/* Update master info if received configuration is newer. */
if (master->config_epoch < master_config_epoch) {
master->config_epoch = master_config_epoch;
if (master_port != master->addr->port ||
strcmp(master->addr->ip, token[5]))
{
sentinelAddr *old_addr;
sentinelEvent(REDIS_WARNING,"+config-update-from",si,"%@");
sentinelEvent(REDIS_WARNING,"+switch-master",
master,"%s %s %d %s %d",
master->name,
master->addr->ip, master->addr->port,
token[5], master_port);
old_addr = dupSentinelAddr(master->addr);
sentinelResetMasterAndChangeAddress(master, token[5], master_port);
sentinelCallClientReconfScript(master,
SENTINEL_OBSERVER,"start",
old_addr,master->addr);
releaseSentinelAddr(old_addr);
}
}
/* Update the state of the Sentinel. */
if (si) si->last_hello_time = mstime();
}
cleanup:
sdsfreesplitres(token,numtokens);
}
/* This is our Pub/Sub callback for the Hello channel. It's useful in order
* to discover other sentinels attached at the same master. */
void sentinelReceiveHelloMessages(redisAsyncContext *c, void *reply, void *privdata) {
sentinelRedisInstance *ri = privdata;
redisReply *r;
REDIS_NOTUSED(c);
if (!reply || !ri) return;
r = reply;
/* Update the last activity in the pubsub channel. Note that since we
* receive our messages as well this timestamp can be used to detect
* if the link is probably disconnected even if it seems otherwise. */
ri->link->pc_last_activity = mstime();
/* Sanity check in the reply we expect, so that the code that follows
* can avoid to check for details. */
if (r->type != REDIS_REPLY_ARRAY ||
r->elements != 3 ||
r->element[0]->type != REDIS_REPLY_STRING ||
r->element[1]->type != REDIS_REPLY_STRING ||
r->element[2]->type != REDIS_REPLY_STRING ||
strcmp(r->element[0]->str,"message") != 0) return;
/* We are not interested in meeting ourselves */
if (strstr(r->element[2]->str,sentinel.myid) != NULL) return;
sentinelProcessHelloMessage(r->element[2]->str, r->element[2]->len);
}
/* Send an "Hello" message via Pub/Sub to the specified 'ri' Redis
* instance in order to broadcast the current configuraiton for this
* master, and to advertise the existence of this Sentinel at the same time.
*
* The message has the following format:
*
* sentinel_ip,sentinel_port,sentinel_runid,current_epoch,
* master_name,master_ip,master_port,master_config_epoch.
*
* Returns REDIS_OK if the PUBLISH was queued correctly, otherwise
* REDIS_ERR is returned. */
int sentinelSendHello(sentinelRedisInstance *ri) {
char ip[REDIS_IP_STR_LEN];
char payload[REDIS_IP_STR_LEN+1024];
int retval;
char *announce_ip;
int announce_port;
sentinelRedisInstance *master = (ri->flags & SRI_MASTER) ? ri : ri->master;
sentinelAddr *master_addr = sentinelGetCurrentMasterAddress(master);
if (ri->link->disconnected) return REDIS_ERR;
/* Use the specified announce address if specified, otherwise try to
* obtain our own IP address. */
if (sentinel.announce_ip) {
announce_ip = sentinel.announce_ip;
} else {
if (anetSockName(ri->link->cc->c.fd,ip,sizeof(ip),NULL) == -1)
return REDIS_ERR;
announce_ip = ip;
}
announce_port = sentinel.announce_port ?
sentinel.announce_port : server.port;
/* Format and send the Hello message. */
snprintf(payload,sizeof(payload),
"%s,%d,%s,%llu," /* Info about this sentinel. */
"%s,%s,%d,%llu", /* Info about current master. */
announce_ip, announce_port, sentinel.myid,
(unsigned long long) sentinel.current_epoch,
/* --- */
master->name,master_addr->ip,master_addr->port,
(unsigned long long) master->config_epoch);
retval = redisAsyncCommand(ri->link->cc,
sentinelPublishReplyCallback, ri, "PUBLISH %s %s",
SENTINEL_HELLO_CHANNEL,payload);
if (retval != REDIS_OK) return REDIS_ERR;
ri->link->pending_commands++;
return REDIS_OK;
}
/* Reset last_pub_time in all the instances in the specified dictionary
* in order to force the delivery of an Hello update ASAP. */
void sentinelForceHelloUpdateDictOfRedisInstances(dict *instances) {
dictIterator *di;
dictEntry *de;
di = dictGetSafeIterator(instances);
while((de = dictNext(di)) != NULL) {
sentinelRedisInstance *ri = dictGetVal(de);
if (ri->last_pub_time >= (SENTINEL_PUBLISH_PERIOD+1))
ri->last_pub_time -= (SENTINEL_PUBLISH_PERIOD+1);
}
dictReleaseIterator(di);
}
/* This function forces the delivery of an "Hello" message (see
* sentinelSendHello() top comment for further information) to all the Redis
* and Sentinel instances related to the specified 'master'.
*
* It is technically not needed since we send an update to every instance
* with a period of SENTINEL_PUBLISH_PERIOD milliseconds, however when a
* Sentinel upgrades a configuration it is a good idea to deliever an update
* to the other Sentinels ASAP. */
int sentinelForceHelloUpdateForMaster(sentinelRedisInstance *master) {
if (!(master->flags & SRI_MASTER)) return REDIS_ERR;
if (master->last_pub_time >= (SENTINEL_PUBLISH_PERIOD+1))
master->last_pub_time -= (SENTINEL_PUBLISH_PERIOD+1);
sentinelForceHelloUpdateDictOfRedisInstances(master->sentinels);
sentinelForceHelloUpdateDictOfRedisInstances(master->slaves);
return REDIS_OK;
}
/* Send a PING to the specified instance and refresh the act_ping_time
* if it is zero (that is, if we received a pong for the previous ping).
*
* On error zero is returned, and we can't consider the PING command
* queued in the connection. */
int sentinelSendPing(sentinelRedisInstance *ri) {
int retval = redisAsyncCommand(ri->link->cc,
sentinelPingReplyCallback, ri, "PING");
if (retval == REDIS_OK) {
ri->link->pending_commands++;
ri->link->last_ping_time = mstime();
/* We update the active ping time only if we received the pong for
* the previous ping, otherwise we are technically waiting since the
* first ping that did not received a reply. */
if (ri->link->act_ping_time == 0)
ri->link->act_ping_time = ri->link->last_ping_time;
return 1;
} else {
return 0;
}
}
/* Send periodic PING, INFO, and PUBLISH to the Hello channel to
* the specified master or slave instance. */
void sentinelSendPeriodicCommands(sentinelRedisInstance *ri) {
mstime_t now = mstime();
mstime_t info_period, ping_period;
int retval;
/* Return ASAP if we have already a PING or INFO already pending, or
* in the case the instance is not properly connected. */
if (ri->link->disconnected) return;
/* For INFO, PING, PUBLISH that are not critical commands to send we
* also have a limit of SENTINEL_MAX_PENDING_COMMANDS. We don't
* want to use a lot of memory just because a link is not working
* properly (note that anyway there is a redundant protection about this,
* that is, the link will be disconnected and reconnected if a long
* timeout condition is detected. */
if (ri->link->pending_commands >=
SENTINEL_MAX_PENDING_COMMANDS * ri->link->refcount) return;
/* If this is a slave of a master in O_DOWN condition we start sending
* it INFO every second, instead of the usual SENTINEL_INFO_PERIOD
* period. In this state we want to closely monitor slaves in case they
* are turned into masters by another Sentinel, or by the sysadmin. */
if ((ri->flags & SRI_SLAVE) &&
(ri->master->flags & (SRI_O_DOWN|SRI_FAILOVER_IN_PROGRESS))) {
info_period = 1000;
} else {
info_period = SENTINEL_INFO_PERIOD;
}
/* We ping instances every time the last received pong is older than
* the configured 'down-after-milliseconds' time, but every second
* anyway if 'down-after-milliseconds' is greater than 1 second. */
ping_period = ri->down_after_period;
if (ping_period > SENTINEL_PING_PERIOD) ping_period = SENTINEL_PING_PERIOD;
if ((ri->flags & SRI_SENTINEL) == 0 &&
(ri->info_refresh == 0 ||
(now - ri->info_refresh) > info_period))
{
/* Send INFO to masters and slaves, not sentinels. */
retval = redisAsyncCommand(ri->link->cc,
sentinelInfoReplyCallback, ri, "INFO");
if (retval == REDIS_OK) ri->link->pending_commands++;
} else if ((now - ri->link->last_pong_time) > ping_period &&
(now - ri->link->last_ping_time) > ping_period/2) {
/* Send PING to all the three kinds of instances. */
sentinelSendPing(ri);
} else if ((now - ri->last_pub_time) > SENTINEL_PUBLISH_PERIOD) {
/* PUBLISH hello messages to all the three kinds of instances. */
sentinelSendHello(ri);
}
}
/* =========================== SENTINEL command ============================= */
const char *sentinelFailoverStateStr(int state) {
switch(state) {
case SENTINEL_FAILOVER_STATE_NONE: return "none";
case SENTINEL_FAILOVER_STATE_WAIT_START: return "wait_start";
case SENTINEL_FAILOVER_STATE_SELECT_SLAVE: return "select_slave";
case SENTINEL_FAILOVER_STATE_SEND_SLAVEOF_NOONE: return "send_slaveof_noone";
case SENTINEL_FAILOVER_STATE_WAIT_PROMOTION: return "wait_promotion";
case SENTINEL_FAILOVER_STATE_RECONF_SLAVES: return "reconf_slaves";
case SENTINEL_FAILOVER_STATE_UPDATE_CONFIG: return "update_config";
default: return "unknown";
}
}
/* Redis instance to Redis protocol representation. */
void addReplySentinelRedisInstance(redisClient *c, sentinelRedisInstance *ri) {
char *flags = sdsempty();
void *mbl;
int fields = 0;
mbl = addDeferredMultiBulkLength(c);
addReplyBulkCString(c,"name");
addReplyBulkCString(c,ri->name);
fields++;
addReplyBulkCString(c,"ip");
addReplyBulkCString(c,ri->addr->ip);
fields++;
addReplyBulkCString(c,"port");
addReplyBulkLongLong(c,ri->addr->port);
fields++;
addReplyBulkCString(c,"runid");
addReplyBulkCString(c,ri->runid ? ri->runid : "");
fields++;
addReplyBulkCString(c,"flags");
if (ri->flags & SRI_S_DOWN) flags = sdscat(flags,"s_down,");
if (ri->flags & SRI_O_DOWN) flags = sdscat(flags,"o_down,");
if (ri->flags & SRI_MASTER) flags = sdscat(flags,"master,");
if (ri->flags & SRI_SLAVE) flags = sdscat(flags,"slave,");
if (ri->flags & SRI_SENTINEL) flags = sdscat(flags,"sentinel,");
if (ri->link->disconnected) flags = sdscat(flags,"disconnected,");
if (ri->flags & SRI_MASTER_DOWN) flags = sdscat(flags,"master_down,");
if (ri->flags & SRI_FAILOVER_IN_PROGRESS)
flags = sdscat(flags,"failover_in_progress,");
if (ri->flags & SRI_PROMOTED) flags = sdscat(flags,"promoted,");
if (ri->flags & SRI_RECONF_SENT) flags = sdscat(flags,"reconf_sent,");
if (ri->flags & SRI_RECONF_INPROG) flags = sdscat(flags,"reconf_inprog,");
if (ri->flags & SRI_RECONF_DONE) flags = sdscat(flags,"reconf_done,");
if (sdslen(flags) != 0) sdsrange(flags,0,-2); /* remove last "," */
addReplyBulkCString(c,flags);
sdsfree(flags);
fields++;
addReplyBulkCString(c,"link-pending-commands");
addReplyBulkLongLong(c,ri->link->pending_commands);
fields++;
addReplyBulkCString(c,"link-refcount");
addReplyBulkLongLong(c,ri->link->refcount);
fields++;
if (ri->flags & SRI_FAILOVER_IN_PROGRESS) {
addReplyBulkCString(c,"failover-state");
addReplyBulkCString(c,(char*)sentinelFailoverStateStr(ri->failover_state));
fields++;
}
addReplyBulkCString(c,"last-ping-sent");
addReplyBulkLongLong(c,
ri->link->act_ping_time ? (mstime() - ri->link->act_ping_time) : 0);
fields++;
addReplyBulkCString(c,"last-ok-ping-reply");
addReplyBulkLongLong(c,mstime() - ri->link->last_avail_time);
fields++;
addReplyBulkCString(c,"last-ping-reply");
addReplyBulkLongLong(c,mstime() - ri->link->last_pong_time);
fields++;
if (ri->flags & SRI_S_DOWN) {
addReplyBulkCString(c,"s-down-time");
addReplyBulkLongLong(c,mstime()-ri->s_down_since_time);
fields++;
}
if (ri->flags & SRI_O_DOWN) {
addReplyBulkCString(c,"o-down-time");
addReplyBulkLongLong(c,mstime()-ri->o_down_since_time);
fields++;
}
addReplyBulkCString(c,"down-after-milliseconds");
addReplyBulkLongLong(c,ri->down_after_period);
fields++;
/* Masters and Slaves */
if (ri->flags & (SRI_MASTER|SRI_SLAVE)) {
addReplyBulkCString(c,"info-refresh");
addReplyBulkLongLong(c,mstime() - ri->info_refresh);
fields++;
addReplyBulkCString(c,"role-reported");
addReplyBulkCString(c, (ri->role_reported == SRI_MASTER) ? "master" :
"slave");
fields++;
addReplyBulkCString(c,"role-reported-time");
addReplyBulkLongLong(c,mstime() - ri->role_reported_time);
fields++;
}
/* Only masters */
if (ri->flags & SRI_MASTER) {
addReplyBulkCString(c,"config-epoch");
addReplyBulkLongLong(c,ri->config_epoch);
fields++;
addReplyBulkCString(c,"num-slaves");
addReplyBulkLongLong(c,dictSize(ri->slaves));
fields++;
addReplyBulkCString(c,"num-other-sentinels");
addReplyBulkLongLong(c,dictSize(ri->sentinels));
fields++;
addReplyBulkCString(c,"quorum");
addReplyBulkLongLong(c,ri->quorum);
fields++;
addReplyBulkCString(c,"failover-timeout");
addReplyBulkLongLong(c,ri->failover_timeout);
fields++;
addReplyBulkCString(c,"parallel-syncs");
addReplyBulkLongLong(c,ri->parallel_syncs);
fields++;
if (ri->notification_script) {
addReplyBulkCString(c,"notification-script");
addReplyBulkCString(c,ri->notification_script);
fields++;
}
if (ri->client_reconfig_script) {
addReplyBulkCString(c,"client-reconfig-script");
addReplyBulkCString(c,ri->client_reconfig_script);
fields++;
}
}
/* Only slaves */
if (ri->flags & SRI_SLAVE) {
addReplyBulkCString(c,"master-link-down-time");
addReplyBulkLongLong(c,ri->master_link_down_time);
fields++;
addReplyBulkCString(c,"master-link-status");
addReplyBulkCString(c,
(ri->slave_master_link_status == SENTINEL_MASTER_LINK_STATUS_UP) ?
"ok" : "err");
fields++;
addReplyBulkCString(c,"master-host");
addReplyBulkCString(c,
ri->slave_master_host ? ri->slave_master_host : "?");
fields++;
addReplyBulkCString(c,"master-port");
addReplyBulkLongLong(c,ri->slave_master_port);
fields++;
addReplyBulkCString(c,"slave-priority");
addReplyBulkLongLong(c,ri->slave_priority);
fields++;
addReplyBulkCString(c,"slave-repl-offset");
addReplyBulkLongLong(c,ri->slave_repl_offset);
fields++;
}
/* Only sentinels */
if (ri->flags & SRI_SENTINEL) {
addReplyBulkCString(c,"last-hello-message");
addReplyBulkLongLong(c,mstime() - ri->last_hello_time);
fields++;
addReplyBulkCString(c,"voted-leader");
addReplyBulkCString(c,ri->leader ? ri->leader : "?");
fields++;
addReplyBulkCString(c,"voted-leader-epoch");
addReplyBulkLongLong(c,ri->leader_epoch);
fields++;
}
setDeferredMultiBulkLength(c,mbl,fields*2);
}
/* Output a number of instances contained inside a dictionary as
* Redis protocol. */
void addReplyDictOfRedisInstances(redisClient *c, dict *instances) {
dictIterator *di;
dictEntry *de;
di = dictGetIterator(instances);
addReplyMultiBulkLen(c,dictSize(instances));
while((de = dictNext(di)) != NULL) {
sentinelRedisInstance *ri = dictGetVal(de);
addReplySentinelRedisInstance(c,ri);
}
dictReleaseIterator(di);
}
/* Lookup the named master into sentinel.masters.
* If the master is not found reply to the client with an error and returns
* NULL. */
sentinelRedisInstance *sentinelGetMasterByNameOrReplyError(redisClient *c,
robj *name)
{
sentinelRedisInstance *ri;
ri = dictFetchValue(sentinel.masters,name->ptr);
if (!ri) {
addReplyError(c,"No such master with that name");
return NULL;
}
return ri;
}
#define SENTINEL_ISQR_OK 0
#define SENTINEL_ISQR_NOQUORUM (1<<0)
#define SENTINEL_ISQR_NOAUTH (1<<1)
int sentinelIsQuorumReachable(sentinelRedisInstance *master, int *usableptr) {
dictIterator *di;
dictEntry *de;
int usable = 1; /* Number of usable Sentinels. Init to 1 to count myself. */
int result = SENTINEL_ISQR_OK;
int voters = dictSize(master->sentinels)+1; /* Known Sentinels + myself. */
di = dictGetIterator(master->sentinels);
while((de = dictNext(di)) != NULL) {
sentinelRedisInstance *ri = dictGetVal(de);
if (ri->flags & (SRI_S_DOWN|SRI_O_DOWN)) continue;
usable++;
}
dictReleaseIterator(di);
if (usable < (int)master->quorum) result |= SENTINEL_ISQR_NOQUORUM;
if (usable < voters/2+1) result |= SENTINEL_ISQR_NOAUTH;
if (usableptr) *usableptr = usable;
return result;
}
void sentinelCommand(redisClient *c) {
if (!strcasecmp(c->argv[1]->ptr,"masters")) {
/* SENTINEL MASTERS */
if (c->argc != 2) goto numargserr;
addReplyDictOfRedisInstances(c,sentinel.masters);
} else if (!strcasecmp(c->argv[1]->ptr,"master")) {
/* SENTINEL MASTER <name> */
sentinelRedisInstance *ri;
if (c->argc != 3) goto numargserr;
if ((ri = sentinelGetMasterByNameOrReplyError(c,c->argv[2]))
== NULL) return;
addReplySentinelRedisInstance(c,ri);
} else if (!strcasecmp(c->argv[1]->ptr,"slaves")) {
/* SENTINEL SLAVES <master-name> */
sentinelRedisInstance *ri;
if (c->argc != 3) goto numargserr;
if ((ri = sentinelGetMasterByNameOrReplyError(c,c->argv[2])) == NULL)
return;
addReplyDictOfRedisInstances(c,ri->slaves);
} else if (!strcasecmp(c->argv[1]->ptr,"sentinels")) {
/* SENTINEL SENTINELS <master-name> */
sentinelRedisInstance *ri;
if (c->argc != 3) goto numargserr;
if ((ri = sentinelGetMasterByNameOrReplyError(c,c->argv[2])) == NULL)
return;
addReplyDictOfRedisInstances(c,ri->sentinels);
} else if (!strcasecmp(c->argv[1]->ptr,"is-master-down-by-addr")) {
/* SENTINEL IS-MASTER-DOWN-BY-ADDR <ip> <port> <current-epoch> <runid>
*
* Arguments:
*
* ip and port are the ip and port of the master we want to be
* checked by Sentinel. Note that the command will not check by
* name but just by master, in theory different Sentinels may monitor
* differnet masters with the same name.
*
* current-epoch is needed in order to understand if we are allowed
* to vote for a failover leader or not. Each Sentinel can vote just
* one time per epoch.
*
* runid is "*" if we are not seeking for a vote from the Sentinel
* in order to elect the failover leader. Otherwise it is set to the
* runid we want the Sentinel to vote if it did not already voted.
*/
sentinelRedisInstance *ri;
long long req_epoch;
uint64_t leader_epoch = 0;
char *leader = NULL;
long port;
int isdown = 0;
if (c->argc != 6) goto numargserr;
if (getLongFromObjectOrReply(c,c->argv[3],&port,NULL) != REDIS_OK ||
getLongLongFromObjectOrReply(c,c->argv[4],&req_epoch,NULL)
!= REDIS_OK)
return;
ri = getSentinelRedisInstanceByAddrAndRunID(sentinel.masters,
c->argv[2]->ptr,port,NULL);
/* It exists? Is actually a master? Is subjectively down? It's down.
* Note: if we are in tilt mode we always reply with "0". */
if (!sentinel.tilt && ri && (ri->flags & SRI_S_DOWN) &&
(ri->flags & SRI_MASTER))
isdown = 1;
/* Vote for the master (or fetch the previous vote) if the request
* includes a runid, otherwise the sender is not seeking for a vote. */
if (ri && ri->flags & SRI_MASTER && strcasecmp(c->argv[5]->ptr,"*")) {
leader = sentinelVoteLeader(ri,(uint64_t)req_epoch,
c->argv[5]->ptr,
&leader_epoch);
}
/* Reply with a three-elements multi-bulk reply:
* down state, leader, vote epoch. */
addReplyMultiBulkLen(c,3);
addReply(c, isdown ? shared.cone : shared.czero);
addReplyBulkCString(c, leader ? leader : "*");
addReplyLongLong(c, (long long)leader_epoch);
if (leader) sdsfree(leader);
} else if (!strcasecmp(c->argv[1]->ptr,"reset")) {
/* SENTINEL RESET <pattern> */
if (c->argc != 3) goto numargserr;
addReplyLongLong(c,sentinelResetMastersByPattern(c->argv[2]->ptr,SENTINEL_GENERATE_EVENT));
} else if (!strcasecmp(c->argv[1]->ptr,"get-master-addr-by-name")) {
/* SENTINEL GET-MASTER-ADDR-BY-NAME <master-name> */
sentinelRedisInstance *ri;
if (c->argc != 3) goto numargserr;
ri = sentinelGetMasterByName(c->argv[2]->ptr);
if (ri == NULL) {
addReply(c,shared.nullmultibulk);
} else {
sentinelAddr *addr = sentinelGetCurrentMasterAddress(ri);
addReplyMultiBulkLen(c,2);
addReplyBulkCString(c,addr->ip);
addReplyBulkLongLong(c,addr->port);
}
} else if (!strcasecmp(c->argv[1]->ptr,"failover")) {
/* SENTINEL FAILOVER <master-name> */
sentinelRedisInstance *ri;
if (c->argc != 3) goto numargserr;
if ((ri = sentinelGetMasterByNameOrReplyError(c,c->argv[2])) == NULL)
return;
if (ri->flags & SRI_FAILOVER_IN_PROGRESS) {
addReplySds(c,sdsnew("-INPROG Failover already in progress\r\n"));
return;
}
if (sentinelSelectSlave(ri) == NULL) {
addReplySds(c,sdsnew("-NOGOODSLAVE No suitable slave to promote\r\n"));
return;
}
redisLog(REDIS_WARNING,"Executing user requested FAILOVER of '%s'",
ri->name);
sentinelStartFailover(ri);
ri->flags |= SRI_FORCE_FAILOVER;
addReply(c,shared.ok);
} else if (!strcasecmp(c->argv[1]->ptr,"pending-scripts")) {
/* SENTINEL PENDING-SCRIPTS */
if (c->argc != 2) goto numargserr;
sentinelPendingScriptsCommand(c);
} else if (!strcasecmp(c->argv[1]->ptr,"monitor")) {
/* SENTINEL MONITOR <name> <ip> <port> <quorum> */
sentinelRedisInstance *ri;
long quorum, port;
char ip[REDIS_IP_STR_LEN];
if (c->argc != 6) goto numargserr;
if (getLongFromObjectOrReply(c,c->argv[5],&quorum,"Invalid quorum")
!= REDIS_OK) return;
if (getLongFromObjectOrReply(c,c->argv[4],&port,"Invalid port")
!= REDIS_OK) return;
if (quorum <= 0) {
addReplyError(c, "Quorum must be 1 or greater.");
return;
}
/* Make sure the IP field is actually a valid IP before passing it
* to createSentinelRedisInstance(), otherwise we may trigger a
* DNS lookup at runtime. */
if (anetResolveIP(NULL,c->argv[3]->ptr,ip,sizeof(ip)) == ANET_ERR) {
addReplyError(c,"Invalid IP address specified");
return;
}
/* Parameters are valid. Try to create the master instance. */
ri = createSentinelRedisInstance(c->argv[2]->ptr,SRI_MASTER,
c->argv[3]->ptr,port,quorum,NULL);
if (ri == NULL) {
switch(errno) {
case EBUSY:
addReplyError(c,"Duplicated master name");
break;
case EINVAL:
addReplyError(c,"Invalid port number");
break;
default:
addReplyError(c,"Unspecified error adding the instance");
break;
}
} else {
sentinelFlushConfig();
sentinelEvent(REDIS_WARNING,"+monitor",ri,"%@ quorum %d",ri->quorum);
addReply(c,shared.ok);
}
} else if (!strcasecmp(c->argv[1]->ptr,"flushconfig")) {
sentinelFlushConfig();
addReply(c,shared.ok);
return;
} else if (!strcasecmp(c->argv[1]->ptr,"remove")) {
/* SENTINEL REMOVE <name> */
sentinelRedisInstance *ri;
if ((ri = sentinelGetMasterByNameOrReplyError(c,c->argv[2]))
== NULL) return;
sentinelEvent(REDIS_WARNING,"-monitor",ri,"%@");
dictDelete(sentinel.masters,c->argv[2]->ptr);
sentinelFlushConfig();
addReply(c,shared.ok);
} else if (!strcasecmp(c->argv[1]->ptr,"ckquorum")) {
/* SENTINEL CKQUORUM <name> */
sentinelRedisInstance *ri;
int usable;
if ((ri = sentinelGetMasterByNameOrReplyError(c,c->argv[2]))
== NULL) return;
int result = sentinelIsQuorumReachable(ri,&usable);
if (result == SENTINEL_ISQR_OK) {
addReplySds(c, sdscatfmt(sdsempty(),
"+OK %i usable Sentinels. Quorum and failover authorization "
"can be reached\r\n",usable));
} else {
sds e = sdscatfmt(sdsempty(),
"-NOQUORUM %i usable Sentinels. ",usable);
if (result & SENTINEL_ISQR_NOQUORUM)
e = sdscat(e,"Not enough available Sentinels to reach the"
" specified quorum for this master");
if (result & SENTINEL_ISQR_NOAUTH) {
if (result & SENTINEL_ISQR_NOQUORUM) e = sdscat(e,". ");
e = sdscat(e, "Not enough available Sentinels to reach the"
" majority and authorize a failover");
}
e = sdscat(e,"\r\n");
addReplySds(c,e);
}
} else if (!strcasecmp(c->argv[1]->ptr,"set")) {
if (c->argc < 3 || c->argc % 2 == 0) goto numargserr;
sentinelSetCommand(c);
} else if (!strcasecmp(c->argv[1]->ptr,"info-cache")) {
/* SENTINEL INFO-CACHE <name> */
if (c->argc < 2) goto numargserr;
mstime_t now = mstime();
/* Create an ad-hoc dictionary type so that we can iterate
* a dictionary composed of just the master groups the user
* requested. */
dictType copy_keeper = instancesDictType;
copy_keeper.valDestructor = NULL;
dict *masters_local = sentinel.masters;
if (c->argc > 2) {
masters_local = dictCreate(©_keeper, NULL);
for (int i = 2; i < c->argc; i++) {
sentinelRedisInstance *ri;
ri = sentinelGetMasterByName(c->argv[i]->ptr);
if (!ri) continue; /* ignore non-existing names */
dictAdd(masters_local, ri->name, ri);
}
}
/* Reply format:
* 1.) master name
* 2.) 1.) info from master
* 2.) info from replica
* ...
* 3.) other master name
* ...
*/
addReplyMultiBulkLen(c,dictSize(masters_local) * 2);
dictIterator *di;
dictEntry *de;
di = dictGetIterator(masters_local);
while ((de = dictNext(di)) != NULL) {
sentinelRedisInstance *ri = dictGetVal(de);
addReplyBulkCBuffer(c,ri->name,strlen(ri->name));
addReplyMultiBulkLen(c,dictSize(ri->slaves) + 1); /* +1 for self */
addReplyMultiBulkLen(c,2);
addReplyLongLong(c, now - ri->info_refresh);
if (ri->info)
addReplyBulkCBuffer(c,ri->info,sdslen(ri->info));
else
addReply(c,shared.nullbulk);
dictIterator *sdi;
dictEntry *sde;
sdi = dictGetIterator(ri->slaves);
while ((sde = dictNext(sdi)) != NULL) {
sentinelRedisInstance *sri = dictGetVal(sde);
addReplyMultiBulkLen(c,2);
addReplyLongLong(c, now - sri->info_refresh);
if (sri->info)
addReplyBulkCBuffer(c,sri->info,sdslen(sri->info));
else
addReply(c,shared.nullbulk);
}
dictReleaseIterator(sdi);
}
dictReleaseIterator(di);
if (masters_local != sentinel.masters) dictRelease(masters_local);
} else if (!strcasecmp(c->argv[1]->ptr,"simulate-failure")) {
/* SENTINEL SIMULATE-FAILURE <flag> <flag> ... <flag> */
int j;
sentinel.simfailure_flags = SENTINEL_SIMFAILURE_NONE;
for (j = 2; j < c->argc; j++) {
if (!strcasecmp(c->argv[j]->ptr,"crash-after-election")) {
sentinel.simfailure_flags |=
SENTINEL_SIMFAILURE_CRASH_AFTER_ELECTION;
redisLog(REDIS_WARNING,"Failure simulation: this Sentinel "
"will crash after being successfully elected as failover "
"leader");
} else if (!strcasecmp(c->argv[j]->ptr,"crash-after-promotion")) {
sentinel.simfailure_flags |=
SENTINEL_SIMFAILURE_CRASH_AFTER_PROMOTION;
redisLog(REDIS_WARNING,"Failure simulation: this Sentinel "
"will crash after promoting the selected slave to master");
} else if (!strcasecmp(c->argv[j]->ptr,"help")) {
addReplyMultiBulkLen(c,2);
addReplyBulkCString(c,"crash-after-election");
addReplyBulkCString(c,"crash-after-promotion");
} else {
addReplyError(c,"Unknown failure simulation specified");
return;
}
}
addReply(c,shared.ok);
} else {
addReplyErrorFormat(c,"Unknown sentinel subcommand '%s'",
(char*)c->argv[1]->ptr);
}
return;
numargserr:
addReplyErrorFormat(c,"Wrong number of arguments for 'sentinel %s'",
(char*)c->argv[1]->ptr);
}
/* SENTINEL INFO [section] */
void sentinelInfoCommand(redisClient *c) {
if (c->argc > 2) {
addReply(c,shared.syntaxerr);
return;
}
int defsections = 0, allsections = 0;
char *section = c->argc == 2 ? c->argv[1]->ptr : NULL;
if (section) {
allsections = !strcasecmp(section,"all");
defsections = !strcasecmp(section,"default");
} else {
defsections = 1;
}
int sections = 0;
sds info = sdsempty();
if (defsections || allsections || !strcasecmp(section,"server")) {
if (sections++) info = sdscat(info,"\r\n");
sds serversection = genRedisInfoString("server");
info = sdscatlen(info,serversection,sdslen(serversection));
sdsfree(serversection);
}
if (defsections || allsections || !strcasecmp(section,"sentinel")) {
dictIterator *di;
dictEntry *de;
int master_id = 0;
if (sections++) info = sdscat(info,"\r\n");
info = sdscatprintf(info,
"# Sentinel\r\n"
"sentinel_masters:%lu\r\n"
"sentinel_tilt:%d\r\n"
"sentinel_running_scripts:%d\r\n"
"sentinel_scripts_queue_length:%ld\r\n"
"sentinel_simulate_failure_flags:%lu\r\n",
dictSize(sentinel.masters),
sentinel.tilt,
sentinel.running_scripts,
listLength(sentinel.scripts_queue),
sentinel.simfailure_flags);
di = dictGetIterator(sentinel.masters);
while((de = dictNext(di)) != NULL) {
sentinelRedisInstance *ri = dictGetVal(de);
char *status = "ok";
if (ri->flags & SRI_O_DOWN) status = "odown";
else if (ri->flags & SRI_S_DOWN) status = "sdown";
info = sdscatprintf(info,
"master%d:name=%s,status=%s,address=%s:%d,"
"slaves=%lu,sentinels=%lu\r\n",
master_id++, ri->name, status,
ri->addr->ip, ri->addr->port,
dictSize(ri->slaves),
dictSize(ri->sentinels)+1);
}
dictReleaseIterator(di);
}
addReplyBulkSds(c, info);
}
/* Implements Sentinel verison of the ROLE command. The output is
* "sentinel" and the list of currently monitored master names. */
void sentinelRoleCommand(redisClient *c) {
dictIterator *di;
dictEntry *de;
addReplyMultiBulkLen(c,2);
addReplyBulkCBuffer(c,"sentinel",8);
addReplyMultiBulkLen(c,dictSize(sentinel.masters));
di = dictGetIterator(sentinel.masters);
while((de = dictNext(di)) != NULL) {
sentinelRedisInstance *ri = dictGetVal(de);
addReplyBulkCString(c,ri->name);
}
dictReleaseIterator(di);
}
/* SENTINEL SET <mastername> [<option> <value> ...] */
void sentinelSetCommand(redisClient *c) {
sentinelRedisInstance *ri;
int j, changes = 0;
char *option, *value;
if ((ri = sentinelGetMasterByNameOrReplyError(c,c->argv[2]))
== NULL) return;
/* Process option - value pairs. */
for (j = 3; j < c->argc; j += 2) {
option = c->argv[j]->ptr;
value = c->argv[j+1]->ptr;
robj *o = c->argv[j+1];
long long ll;
if (!strcasecmp(option,"down-after-milliseconds")) {
/* down-after-millisecodns <milliseconds> */
if (getLongLongFromObject(o,&ll) == REDIS_ERR || ll <= 0)
goto badfmt;
ri->down_after_period = ll;
sentinelPropagateDownAfterPeriod(ri);
changes++;
} else if (!strcasecmp(option,"failover-timeout")) {
/* failover-timeout <milliseconds> */
if (getLongLongFromObject(o,&ll) == REDIS_ERR || ll <= 0)
goto badfmt;
ri->failover_timeout = ll;
changes++;
} else if (!strcasecmp(option,"parallel-syncs")) {
/* parallel-syncs <milliseconds> */
if (getLongLongFromObject(o,&ll) == REDIS_ERR || ll <= 0)
goto badfmt;
ri->parallel_syncs = ll;
changes++;
} else if (!strcasecmp(option,"notification-script")) {
/* notification-script <path> */
if (strlen(value) && access(value,X_OK) == -1) {
addReplyError(c,
"Notification script seems non existing or non executable");
if (changes) sentinelFlushConfig();
return;
}
sdsfree(ri->notification_script);
ri->notification_script = strlen(value) ? sdsnew(value) : NULL;
changes++;
} else if (!strcasecmp(option,"client-reconfig-script")) {
/* client-reconfig-script <path> */
if (strlen(value) && access(value,X_OK) == -1) {
addReplyError(c,
"Client reconfiguration script seems non existing or "
"non executable");
if (changes) sentinelFlushConfig();
return;
}
sdsfree(ri->client_reconfig_script);
ri->client_reconfig_script = strlen(value) ? sdsnew(value) : NULL;
changes++;
} else if (!strcasecmp(option,"auth-pass")) {
/* auth-pass <password> */
sdsfree(ri->auth_pass);
ri->auth_pass = strlen(value) ? sdsnew(value) : NULL;
changes++;
} else if (!strcasecmp(option,"quorum")) {
/* quorum <count> */
if (getLongLongFromObject(o,&ll) == REDIS_ERR || ll <= 0)
goto badfmt;
ri->quorum = ll;
changes++;
} else {
addReplyErrorFormat(c,"Unknown option '%s' for SENTINEL SET",
option);
if (changes) sentinelFlushConfig();
return;
}
sentinelEvent(REDIS_WARNING,"+set",ri,"%@ %s %s",option,value);
}
if (changes) sentinelFlushConfig();
addReply(c,shared.ok);
return;
badfmt: /* Bad format errors */
if (changes) sentinelFlushConfig();
addReplyErrorFormat(c,"Invalid argument '%s' for SENTINEL SET '%s'",
value, option);
}
/* Our fake PUBLISH command: it is actually useful only to receive hello messages
* from the other sentinel instances, and publishing to a channel other than
* SENTINEL_HELLO_CHANNEL is forbidden.
*
* Because we have a Sentinel PUBLISH, the code to send hello messages is the same
* for all the three kind of instances: masters, slaves, sentinels. */
void sentinelPublishCommand(redisClient *c) {
if (strcmp(c->argv[1]->ptr,SENTINEL_HELLO_CHANNEL)) {
addReplyError(c, "Only HELLO messages are accepted by Sentinel instances.");
return;
}
sentinelProcessHelloMessage(c->argv[2]->ptr,sdslen(c->argv[2]->ptr));
addReplyLongLong(c,1);
}
/* ===================== SENTINEL availability checks ======================= */
/* Is this instance down from our point of view? */
void sentinelCheckSubjectivelyDown(sentinelRedisInstance *ri) {
mstime_t elapsed = 0;
if (ri->link->act_ping_time)
elapsed = mstime() - ri->link->act_ping_time;
/* Check if we are in need for a reconnection of one of the
* links, because we are detecting low activity.
*
* 1) Check if the command link seems connected, was connected not less
* than SENTINEL_MIN_LINK_RECONNECT_PERIOD, but still we have a
* pending ping for more than half the timeout. */
if (ri->link->cc &&
(mstime() - ri->link->cc_conn_time) >
SENTINEL_MIN_LINK_RECONNECT_PERIOD &&
ri->link->act_ping_time != 0 && /* Ther is a pending ping... */
/* The pending ping is delayed, and we did not received
* error replies as well. */
(mstime() - ri->link->act_ping_time) > (ri->down_after_period/2) &&
(mstime() - ri->link->last_pong_time) > (ri->down_after_period/2))
{
instanceLinkCloseConnection(ri->link,ri->link->cc);
}
/* 2) Check if the pubsub link seems connected, was connected not less
* than SENTINEL_MIN_LINK_RECONNECT_PERIOD, but still we have no
* activity in the Pub/Sub channel for more than
* SENTINEL_PUBLISH_PERIOD * 3.
*/
if (ri->link->pc &&
(mstime() - ri->link->pc_conn_time) >
SENTINEL_MIN_LINK_RECONNECT_PERIOD &&
(mstime() - ri->link->pc_last_activity) > (SENTINEL_PUBLISH_PERIOD*3))
{
instanceLinkCloseConnection(ri->link,ri->link->pc);
}
/* Update the SDOWN flag. We believe the instance is SDOWN if:
*
* 1) It is not replying.
* 2) We believe it is a master, it reports to be a slave for enough time
* to meet the down_after_period, plus enough time to get two times
* INFO report from the instance. */
if (elapsed > ri->down_after_period ||
(ri->flags & SRI_MASTER &&
ri->role_reported == SRI_SLAVE &&
mstime() - ri->role_reported_time >
(ri->down_after_period+SENTINEL_INFO_PERIOD*2)))
{
/* Is subjectively down */
if ((ri->flags & SRI_S_DOWN) == 0) {
sentinelEvent(REDIS_WARNING,"+sdown",ri,"%@");
ri->s_down_since_time = mstime();
ri->flags |= SRI_S_DOWN;
}
} else {
/* Is subjectively up */
if (ri->flags & SRI_S_DOWN) {
sentinelEvent(REDIS_WARNING,"-sdown",ri,"%@");
ri->flags &= ~(SRI_S_DOWN|SRI_SCRIPT_KILL_SENT);
}
}
}
/* Is this instance down according to the configured quorum?
*
* Note that ODOWN is a weak quorum, it only means that enough Sentinels
* reported in a given time range that the instance was not reachable.
* However messages can be delayed so there are no strong guarantees about
* N instances agreeing at the same time about the down state. */
void sentinelCheckObjectivelyDown(sentinelRedisInstance *master) {
dictIterator *di;
dictEntry *de;
unsigned int quorum = 0, odown = 0;
if (master->flags & SRI_S_DOWN) {
/* Is down for enough sentinels? */
quorum = 1; /* the current sentinel. */
/* Count all the other sentinels. */
di = dictGetIterator(master->sentinels);
while((de = dictNext(di)) != NULL) {
sentinelRedisInstance *ri = dictGetVal(de);
if (ri->flags & SRI_MASTER_DOWN) quorum++;
}
dictReleaseIterator(di);
if (quorum >= master->quorum) odown = 1;
}
/* Set the flag accordingly to the outcome. */
if (odown) {
if ((master->flags & SRI_O_DOWN) == 0) {
sentinelEvent(REDIS_WARNING,"+odown",master,"%@ #quorum %d/%d",
quorum, master->quorum);
master->flags |= SRI_O_DOWN;
master->o_down_since_time = mstime();
}
} else {
if (master->flags & SRI_O_DOWN) {
sentinelEvent(REDIS_WARNING,"-odown",master,"%@");
master->flags &= ~SRI_O_DOWN;
}
}
}
/* Receive the SENTINEL is-master-down-by-addr reply, see the
* sentinelAskMasterStateToOtherSentinels() function for more information. */
void sentinelReceiveIsMasterDownReply(redisAsyncContext *c, void *reply, void *privdata) {
sentinelRedisInstance *ri = privdata;
instanceLink *link = c->data;
redisReply *r;
if (!reply || !link) return;
link->pending_commands--;
r = reply;
/* Ignore every error or unexpected reply.
* Note that if the command returns an error for any reason we'll
* end clearing the SRI_MASTER_DOWN flag for timeout anyway. */
if (r->type == REDIS_REPLY_ARRAY && r->elements == 3 &&
r->element[0]->type == REDIS_REPLY_INTEGER &&
r->element[1]->type == REDIS_REPLY_STRING &&
r->element[2]->type == REDIS_REPLY_INTEGER)
{
ri->last_master_down_reply_time = mstime();
if (r->element[0]->integer == 1) {
ri->flags |= SRI_MASTER_DOWN;
} else {
ri->flags &= ~SRI_MASTER_DOWN;
}
if (strcmp(r->element[1]->str,"*")) {
/* If the runid in the reply is not "*" the Sentinel actually
* replied with a vote. */
sdsfree(ri->leader);
if ((long long)ri->leader_epoch != r->element[2]->integer)
redisLog(REDIS_WARNING,
"%s voted for %s %llu", ri->name,
r->element[1]->str,
(unsigned long long) r->element[2]->integer);
ri->leader = sdsnew(r->element[1]->str);
ri->leader_epoch = r->element[2]->integer;
}
}
}
/* If we think the master is down, we start sending
* SENTINEL IS-MASTER-DOWN-BY-ADDR requests to other sentinels
* in order to get the replies that allow to reach the quorum
* needed to mark the master in ODOWN state and trigger a failover. */
#define SENTINEL_ASK_FORCED (1<<0)
void sentinelAskMasterStateToOtherSentinels(sentinelRedisInstance *master, int flags) {
dictIterator *di;
dictEntry *de;
di = dictGetIterator(master->sentinels);
while((de = dictNext(di)) != NULL) {
sentinelRedisInstance *ri = dictGetVal(de);
mstime_t elapsed = mstime() - ri->last_master_down_reply_time;
char port[32];
int retval;
/* If the master state from other sentinel is too old, we clear it. */
if (elapsed > SENTINEL_ASK_PERIOD*5) {
ri->flags &= ~SRI_MASTER_DOWN;
sdsfree(ri->leader);
ri->leader = NULL;
}
/* Only ask if master is down to other sentinels if:
*
* 1) We believe it is down, or there is a failover in progress.
* 2) Sentinel is connected.
* 3) We did not received the info within SENTINEL_ASK_PERIOD ms. */
if ((master->flags & SRI_S_DOWN) == 0) continue;
if (ri->link->disconnected) continue;
if (!(flags & SENTINEL_ASK_FORCED) &&
mstime() - ri->last_master_down_reply_time < SENTINEL_ASK_PERIOD)
continue;
/* Ask */
ll2string(port,sizeof(port),master->addr->port);
retval = redisAsyncCommand(ri->link->cc,
sentinelReceiveIsMasterDownReply, ri,
"SENTINEL is-master-down-by-addr %s %s %llu %s",
master->addr->ip, port,
sentinel.current_epoch,
(master->failover_state > SENTINEL_FAILOVER_STATE_NONE) ?
sentinel.myid : "*");
if (retval == REDIS_OK) ri->link->pending_commands++;
}
dictReleaseIterator(di);
}
/* =============================== FAILOVER ================================= */
/* Crash because of user request via SENTINEL simulate-failure command. */
void sentinelSimFailureCrash(void) {
redisLog(REDIS_WARNING,
"Sentinel CRASH because of SENTINEL simulate-failure");
exit(99);
}
/* Vote for the sentinel with 'req_runid' or return the old vote if already
* voted for the specifed 'req_epoch' or one greater.
*
* If a vote is not available returns NULL, otherwise return the Sentinel
* runid and populate the leader_epoch with the epoch of the vote. */
char *sentinelVoteLeader(sentinelRedisInstance *master, uint64_t req_epoch, char *req_runid, uint64_t *leader_epoch) {
if (req_epoch > sentinel.current_epoch) {
sentinel.current_epoch = req_epoch;
sentinelFlushConfig();
sentinelEvent(REDIS_WARNING,"+new-epoch",master,"%llu",
(unsigned long long) sentinel.current_epoch);
}
if (master->leader_epoch < req_epoch && sentinel.current_epoch <= req_epoch)
{
sdsfree(master->leader);
master->leader = sdsnew(req_runid);
master->leader_epoch = sentinel.current_epoch;
sentinelFlushConfig();
sentinelEvent(REDIS_WARNING,"+vote-for-leader",master,"%s %llu",
master->leader, (unsigned long long) master->leader_epoch);
/* If we did not voted for ourselves, set the master failover start
* time to now, in order to force a delay before we can start a
* failover for the same master. */
if (strcasecmp(master->leader,sentinel.myid))
master->failover_start_time = mstime()+rand()%SENTINEL_MAX_DESYNC;
}
*leader_epoch = master->leader_epoch;
return master->leader ? sdsnew(master->leader) : NULL;
}
struct sentinelLeader {
char *runid;
unsigned long votes;
};
/* Helper function for sentinelGetLeader, increment the counter
* relative to the specified runid. */
int sentinelLeaderIncr(dict *counters, char *runid) {
dictEntry *de = dictFind(counters,runid);
uint64_t oldval;
if (de) {
oldval = dictGetUnsignedIntegerVal(de);
dictSetUnsignedIntegerVal(de,oldval+1);
return oldval+1;
} else {
de = dictAddRaw(counters,runid);
redisAssert(de != NULL);
dictSetUnsignedIntegerVal(de,1);
return 1;
}
}
/* Scan all the Sentinels attached to this master to check if there
* is a leader for the specified epoch.
*
* To be a leader for a given epoch, we should have the majority of
* the Sentinels we know (ever seen since the last SENTINEL RESET) that
* reported the same instance as leader for the same epoch. */
char *sentinelGetLeader(sentinelRedisInstance *master, uint64_t epoch) {
dict *counters;
dictIterator *di;
dictEntry *de;
unsigned int voters = 0, voters_quorum;
char *myvote;
char *winner = NULL;
uint64_t leader_epoch;
uint64_t max_votes = 0;
redisAssert(master->flags & (SRI_O_DOWN|SRI_FAILOVER_IN_PROGRESS));
counters = dictCreate(&leaderVotesDictType,NULL);
voters = dictSize(master->sentinels)+1; /* All the other sentinels and me. */
/* Count other sentinels votes */
di = dictGetIterator(master->sentinels);
while((de = dictNext(di)) != NULL) {
sentinelRedisInstance *ri = dictGetVal(de);
if (ri->leader != NULL && ri->leader_epoch == sentinel.current_epoch)
sentinelLeaderIncr(counters,ri->leader);
}
dictReleaseIterator(di);
/* Check what's the winner. For the winner to win, it needs two conditions:
* 1) Absolute majority between voters (50% + 1).
* 2) And anyway at least master->quorum votes. */
di = dictGetIterator(counters);
while((de = dictNext(di)) != NULL) {
uint64_t votes = dictGetUnsignedIntegerVal(de);
if (votes > max_votes) {
max_votes = votes;
winner = dictGetKey(de);
}
}
dictReleaseIterator(di);
/* Count this Sentinel vote:
* if this Sentinel did not voted yet, either vote for the most
* common voted sentinel, or for itself if no vote exists at all. */
if (winner)
myvote = sentinelVoteLeader(master,epoch,winner,&leader_epoch);
else
myvote = sentinelVoteLeader(master,epoch,sentinel.myid,&leader_epoch);
if (myvote && leader_epoch == epoch) {
uint64_t votes = sentinelLeaderIncr(counters,myvote);
if (votes > max_votes) {
max_votes = votes;
winner = myvote;
}
}
voters_quorum = voters/2+1;
if (winner && (max_votes < voters_quorum || max_votes < master->quorum))
winner = NULL;
winner = winner ? sdsnew(winner) : NULL;
sdsfree(myvote);
dictRelease(counters);
return winner;
}
/* Send SLAVEOF to the specified instance, always followed by a
* CONFIG REWRITE command in order to store the new configuration on disk
* when possible (that is, if the Redis instance is recent enough to support
* config rewriting, and if the server was started with a configuration file).
*
* If Host is NULL the function sends "SLAVEOF NO ONE".
*
* The command returns REDIS_OK if the SLAVEOF command was accepted for
* (later) delivery otherwise REDIS_ERR. The command replies are just
* discarded. */
int sentinelSendSlaveOf(sentinelRedisInstance *ri, char *host, int port) {
char portstr[32];
int retval;
ll2string(portstr,sizeof(portstr),port);
/* If host is NULL we send SLAVEOF NO ONE that will turn the instance
* into a master. */
if (host == NULL) {
host = "NO";
memcpy(portstr,"ONE",4);
}
/* In order to send SLAVEOF in a safe way, we send a transaction performing
* the following tasks:
* 1) Reconfigure the instance according to the specified host/port params.
* 2) Rewrite the configuraiton.
* 3) Disconnect all clients (but this one sending the commnad) in order
* to trigger the ask-master-on-reconnection protocol for connected
* clients.
*
* Note that we don't check the replies returned by commands, since we
* will observe instead the effects in the next INFO output. */
retval = redisAsyncCommand(ri->link->cc,
sentinelDiscardReplyCallback, ri, "MULTI");
if (retval == REDIS_ERR) return retval;
ri->link->pending_commands++;
retval = redisAsyncCommand(ri->link->cc,
sentinelDiscardReplyCallback, ri, "SLAVEOF %s %s", host, portstr);
if (retval == REDIS_ERR) return retval;
ri->link->pending_commands++;
retval = redisAsyncCommand(ri->link->cc,
sentinelDiscardReplyCallback, ri, "CONFIG REWRITE");
if (retval == REDIS_ERR) return retval;
ri->link->pending_commands++;
/* CLIENT KILL TYPE <type> is only supported starting from Redis 2.8.12,
* however sending it to an instance not understanding this command is not
* an issue because CLIENT is variadic command, so Redis will not
* recognized as a syntax error, and the transaction will not fail (but
* only the unsupported command will fail). */
retval = redisAsyncCommand(ri->link->cc,
sentinelDiscardReplyCallback, ri, "CLIENT KILL TYPE normal");
if (retval == REDIS_ERR) return retval;
ri->link->pending_commands++;
retval = redisAsyncCommand(ri->link->cc,
sentinelDiscardReplyCallback, ri, "EXEC");
if (retval == REDIS_ERR) return retval;
ri->link->pending_commands++;
return REDIS_OK;
}
/* Setup the master state to start a failover. */
void sentinelStartFailover(sentinelRedisInstance *master) {
redisAssert(master->flags & SRI_MASTER);
master->failover_state = SENTINEL_FAILOVER_STATE_WAIT_START;
master->flags |= SRI_FAILOVER_IN_PROGRESS;
master->failover_epoch = ++sentinel.current_epoch;
sentinelEvent(REDIS_WARNING,"+new-epoch",master,"%llu",
(unsigned long long) sentinel.current_epoch);
sentinelEvent(REDIS_WARNING,"+try-failover",master,"%@");
master->failover_start_time = mstime()+rand()%SENTINEL_MAX_DESYNC;
master->failover_state_change_time = mstime();
}
/* This function checks if there are the conditions to start the failover,
* that is:
*
* 1) Master must be in ODOWN condition.
* 2) No failover already in progress.
* 3) No failover already attempted recently.
*
* We still don't know if we'll win the election so it is possible that we
* start the failover but that we'll not be able to act.
*
* Return non-zero if a failover was started. */
int sentinelStartFailoverIfNeeded(sentinelRedisInstance *master) {
/* We can't failover if the master is not in O_DOWN state. */
if (!(master->flags & SRI_O_DOWN)) return 0;
/* Failover already in progress? */
if (master->flags & SRI_FAILOVER_IN_PROGRESS) return 0;
/* Last failover attempt started too little time ago? */
if (mstime() - master->failover_start_time <
master->failover_timeout*2)
{
if (master->failover_delay_logged != master->failover_start_time) {
time_t clock = (master->failover_start_time +
master->failover_timeout*2) / 1000;
char ctimebuf[26];
ctime_r(&clock,ctimebuf);
ctimebuf[24] = '\0'; /* Remove newline. */
master->failover_delay_logged = master->failover_start_time;
redisLog(REDIS_WARNING,
"Next failover delay: I will not start a failover before %s",
ctimebuf);
}
return 0;
}
sentinelStartFailover(master);
return 1;
}
/* Select a suitable slave to promote. The current algorithm only uses
* the following parameters:
*
* 1) None of the following conditions: S_DOWN, O_DOWN, DISCONNECTED.
* 2) Last time the slave replied to ping no more than 5 times the PING period.
* 3) info_refresh not older than 3 times the INFO refresh period.
* 4) master_link_down_time no more than:
* (now - master->s_down_since_time) + (master->down_after_period * 10).
* Basically since the master is down from our POV, the slave reports
* to be disconnected no more than 10 times the configured down-after-period.
* This is pretty much black magic but the idea is, the master was not
* available so the slave may be lagging, but not over a certain time.
* Anyway we'll select the best slave according to replication offset.
* 5) Slave priority can't be zero, otherwise the slave is discarded.
*
* Among all the slaves matching the above conditions we select the slave
* with, in order of sorting key:
*
* - lower slave_priority.
* - bigger processed replication offset.
* - lexicographically smaller runid.
*
* Basically if runid is the same, the slave that processed more commands
* from the master is selected.
*
* The function returns the pointer to the selected slave, otherwise
* NULL if no suitable slave was found.
*/
/* Helper for sentinelSelectSlave(). This is used by qsort() in order to
* sort suitable slaves in a "better first" order, to take the first of
* the list. */
int compareSlavesForPromotion(const void *a, const void *b) {
sentinelRedisInstance **sa = (sentinelRedisInstance **)a,
**sb = (sentinelRedisInstance **)b;
char *sa_runid, *sb_runid;
if ((*sa)->slave_priority != (*sb)->slave_priority)
return (*sa)->slave_priority - (*sb)->slave_priority;
/* If priority is the same, select the slave with greater replication
* offset (processed more data frmo the master). */
if ((*sa)->slave_repl_offset > (*sb)->slave_repl_offset) {
return -1; /* a < b */
} else if ((*sa)->slave_repl_offset < (*sb)->slave_repl_offset) {
return 1; /* b > a */
}
/* If the replication offset is the same select the slave with that has
* the lexicographically smaller runid. Note that we try to handle runid
* == NULL as there are old Redis versions that don't publish runid in
* INFO. A NULL runid is considered bigger than any other runid. */
sa_runid = (*sa)->runid;
sb_runid = (*sb)->runid;
if (sa_runid == NULL && sb_runid == NULL) return 0;
else if (sa_runid == NULL) return 1; /* a > b */
else if (sb_runid == NULL) return -1; /* a < b */
return strcasecmp(sa_runid, sb_runid);
}
sentinelRedisInstance *sentinelSelectSlave(sentinelRedisInstance *master) {
sentinelRedisInstance **instance =
zmalloc(sizeof(instance[0])*dictSize(master->slaves));
sentinelRedisInstance *selected = NULL;
int instances = 0;
dictIterator *di;
dictEntry *de;
mstime_t max_master_down_time = 0;
if (master->flags & SRI_S_DOWN)
max_master_down_time += mstime() - master->s_down_since_time;
max_master_down_time += master->down_after_period * 10;
di = dictGetIterator(master->slaves);
while((de = dictNext(di)) != NULL) {
sentinelRedisInstance *slave = dictGetVal(de);
mstime_t info_validity_time;
if (slave->flags & (SRI_S_DOWN|SRI_O_DOWN)) continue;
if (slave->link->disconnected) continue;
if (mstime() - slave->link->last_avail_time > SENTINEL_PING_PERIOD*5) continue;
if (slave->slave_priority == 0) continue;
/* If the master is in SDOWN state we get INFO for slaves every second.
* Otherwise we get it with the usual period so we need to account for
* a larger delay. */
if (master->flags & SRI_S_DOWN)
info_validity_time = SENTINEL_PING_PERIOD*5;
else
info_validity_time = SENTINEL_INFO_PERIOD*3;
if (mstime() - slave->info_refresh > info_validity_time) continue;
if (slave->master_link_down_time > max_master_down_time) continue;
instance[instances++] = slave;
}
dictReleaseIterator(di);
if (instances) {
qsort(instance,instances,sizeof(sentinelRedisInstance*),
compareSlavesForPromotion);
selected = instance[0];
}
zfree(instance);
return selected;
}
/* ---------------- Failover state machine implementation ------------------- */
void sentinelFailoverWaitStart(sentinelRedisInstance *ri) {
char *leader;
int isleader;
/* Check if we are the leader for the failover epoch. */
leader = sentinelGetLeader(ri, ri->failover_epoch);
isleader = leader && strcasecmp(leader,sentinel.myid) == 0;
sdsfree(leader);
/* If I'm not the leader, and it is not a forced failover via
* SENTINEL FAILOVER, then I can't continue with the failover. */
if (!isleader && !(ri->flags & SRI_FORCE_FAILOVER)) {
int election_timeout = SENTINEL_ELECTION_TIMEOUT;
/* The election timeout is the MIN between SENTINEL_ELECTION_TIMEOUT
* and the configured failover timeout. */
if (election_timeout > ri->failover_timeout)
election_timeout = ri->failover_timeout;
/* Abort the failover if I'm not the leader after some time. */
if (mstime() - ri->failover_start_time > election_timeout) {
sentinelEvent(REDIS_WARNING,"-failover-abort-not-elected",ri,"%@");
sentinelAbortFailover(ri);
}
return;
}
sentinelEvent(REDIS_WARNING,"+elected-leader",ri,"%@");
if (sentinel.simfailure_flags & SENTINEL_SIMFAILURE_CRASH_AFTER_ELECTION)
sentinelSimFailureCrash();
ri->failover_state = SENTINEL_FAILOVER_STATE_SELECT_SLAVE;
ri->failover_state_change_time = mstime();
sentinelEvent(REDIS_WARNING,"+failover-state-select-slave",ri,"%@");
}
void sentinelFailoverSelectSlave(sentinelRedisInstance *ri) {
sentinelRedisInstance *slave = sentinelSelectSlave(ri);
/* We don't handle the timeout in this state as the function aborts
* the failover or go forward in the next state. */
if (slave == NULL) {
sentinelEvent(REDIS_WARNING,"-failover-abort-no-good-slave",ri,"%@");
sentinelAbortFailover(ri);
} else {
sentinelEvent(REDIS_WARNING,"+selected-slave",slave,"%@");
slave->flags |= SRI_PROMOTED;
ri->promoted_slave = slave;
ri->failover_state = SENTINEL_FAILOVER_STATE_SEND_SLAVEOF_NOONE;
ri->failover_state_change_time = mstime();
sentinelEvent(REDIS_NOTICE,"+failover-state-send-slaveof-noone",
slave, "%@");
}
}
void sentinelFailoverSendSlaveOfNoOne(sentinelRedisInstance *ri) {
int retval;
/* We can't send the command to the promoted slave if it is now
* disconnected. Retry again and again with this state until the timeout
* is reached, then abort the failover. */
if (ri->link->disconnected) {
if (mstime() - ri->failover_state_change_time > ri->failover_timeout) {
sentinelEvent(REDIS_WARNING,"-failover-abort-slave-timeout",ri,"%@");
sentinelAbortFailover(ri);
}
return;
}
/* Send SLAVEOF NO ONE command to turn the slave into a master.
* We actually register a generic callback for this command as we don't
* really care about the reply. We check if it worked indirectly observing
* if INFO returns a different role (master instead of slave). */
retval = sentinelSendSlaveOf(ri->promoted_slave,NULL,0);
if (retval != REDIS_OK) return;
sentinelEvent(REDIS_NOTICE, "+failover-state-wait-promotion",
ri->promoted_slave,"%@");
ri->failover_state = SENTINEL_FAILOVER_STATE_WAIT_PROMOTION;
ri->failover_state_change_time = mstime();
}
/* We actually wait for promotion indirectly checking with INFO when the
* slave turns into a master. */
void sentinelFailoverWaitPromotion(sentinelRedisInstance *ri) {
/* Just handle the timeout. Switching to the next state is handled
* by the function parsing the INFO command of the promoted slave. */
if (mstime() - ri->failover_state_change_time > ri->failover_timeout) {
sentinelEvent(REDIS_WARNING,"-failover-abort-slave-timeout",ri,"%@");
sentinelAbortFailover(ri);
}
}
void sentinelFailoverDetectEnd(sentinelRedisInstance *master) {
int not_reconfigured = 0, timeout = 0;
dictIterator *di;
dictEntry *de;
mstime_t elapsed = mstime() - master->failover_state_change_time;
/* We can't consider failover finished if the promoted slave is
* not reachable. */
if (master->promoted_slave == NULL ||
master->promoted_slave->flags & SRI_S_DOWN) return;
/* The failover terminates once all the reachable slaves are properly
* configured. */
di = dictGetIterator(master->slaves);
while((de = dictNext(di)) != NULL) {
sentinelRedisInstance *slave = dictGetVal(de);
if (slave->flags & (SRI_PROMOTED|SRI_RECONF_DONE)) continue;
if (slave->flags & SRI_S_DOWN) continue;
not_reconfigured++;
}
dictReleaseIterator(di);
/* Force end of failover on timeout. */
if (elapsed > master->failover_timeout) {
not_reconfigured = 0;
timeout = 1;
sentinelEvent(REDIS_WARNING,"+failover-end-for-timeout",master,"%@");
}
if (not_reconfigured == 0) {
sentinelEvent(REDIS_WARNING,"+failover-end",master,"%@");
master->failover_state = SENTINEL_FAILOVER_STATE_UPDATE_CONFIG;
master->failover_state_change_time = mstime();
}
/* If I'm the leader it is a good idea to send a best effort SLAVEOF
* command to all the slaves still not reconfigured to replicate with
* the new master. */
if (timeout) {
dictIterator *di;
dictEntry *de;
di = dictGetIterator(master->slaves);
while((de = dictNext(di)) != NULL) {
sentinelRedisInstance *slave = dictGetVal(de);
int retval;
if (slave->flags & (SRI_RECONF_DONE|SRI_RECONF_SENT)) continue;
if (slave->link->disconnected) continue;
retval = sentinelSendSlaveOf(slave,
master->promoted_slave->addr->ip,
master->promoted_slave->addr->port);
if (retval == REDIS_OK) {
sentinelEvent(REDIS_NOTICE,"+slave-reconf-sent-be",slave,"%@");
slave->flags |= SRI_RECONF_SENT;
}
}
dictReleaseIterator(di);
}
}
/* Send SLAVE OF <new master address> to all the remaining slaves that
* still don't appear to have the configuration updated. */
void sentinelFailoverReconfNextSlave(sentinelRedisInstance *master) {
dictIterator *di;
dictEntry *de;
int in_progress = 0;
di = dictGetIterator(master->slaves);
while((de = dictNext(di)) != NULL) {
sentinelRedisInstance *slave = dictGetVal(de);
if (slave->flags & (SRI_RECONF_SENT|SRI_RECONF_INPROG))
in_progress++;
}
dictReleaseIterator(di);
di = dictGetIterator(master->slaves);
while(in_progress < master->parallel_syncs &&
(de = dictNext(di)) != NULL)
{
sentinelRedisInstance *slave = dictGetVal(de);
int retval;
/* Skip the promoted slave, and already configured slaves. */
if (slave->flags & (SRI_PROMOTED|SRI_RECONF_DONE)) continue;
/* If too much time elapsed without the slave moving forward to
* the next state, consider it reconfigured even if it is not.
* Sentinels will detect the slave as misconfigured and fix its
* configuration later. */
if ((slave->flags & SRI_RECONF_SENT) &&
(mstime() - slave->slave_reconf_sent_time) >
SENTINEL_SLAVE_RECONF_TIMEOUT)
{
sentinelEvent(REDIS_NOTICE,"-slave-reconf-sent-timeout",slave,"%@");
slave->flags &= ~SRI_RECONF_SENT;
slave->flags |= SRI_RECONF_DONE;
}
/* Nothing to do for instances that are disconnected or already
* in RECONF_SENT state. */
if (slave->flags & (SRI_RECONF_SENT|SRI_RECONF_INPROG)) continue;
if (slave->link->disconnected) continue;
/* Send SLAVEOF <new master>. */
retval = sentinelSendSlaveOf(slave,
master->promoted_slave->addr->ip,
master->promoted_slave->addr->port);
if (retval == REDIS_OK) {
slave->flags |= SRI_RECONF_SENT;
slave->slave_reconf_sent_time = mstime();
sentinelEvent(REDIS_NOTICE,"+slave-reconf-sent",slave,"%@");
in_progress++;
}
}
dictReleaseIterator(di);
/* Check if all the slaves are reconfigured and handle timeout. */
sentinelFailoverDetectEnd(master);
}
/* This function is called when the slave is in
* SENTINEL_FAILOVER_STATE_UPDATE_CONFIG state. In this state we need
* to remove it from the master table and add the promoted slave instead. */
void sentinelFailoverSwitchToPromotedSlave(sentinelRedisInstance *master) {
sentinelRedisInstance *ref = master->promoted_slave ?
master->promoted_slave : master;
sentinelEvent(REDIS_WARNING,"+switch-master",master,"%s %s %d %s %d",
master->name, master->addr->ip, master->addr->port,
ref->addr->ip, ref->addr->port);
sentinelResetMasterAndChangeAddress(master,ref->addr->ip,ref->addr->port);
}
void sentinelFailoverStateMachine(sentinelRedisInstance *ri) {
redisAssert(ri->flags & SRI_MASTER);
if (!(ri->flags & SRI_FAILOVER_IN_PROGRESS)) return;
switch(ri->failover_state) {
case SENTINEL_FAILOVER_STATE_WAIT_START:
sentinelFailoverWaitStart(ri);
break;
case SENTINEL_FAILOVER_STATE_SELECT_SLAVE:
sentinelFailoverSelectSlave(ri);
break;
case SENTINEL_FAILOVER_STATE_SEND_SLAVEOF_NOONE:
sentinelFailoverSendSlaveOfNoOne(ri);
break;
case SENTINEL_FAILOVER_STATE_WAIT_PROMOTION:
sentinelFailoverWaitPromotion(ri);
break;
case SENTINEL_FAILOVER_STATE_RECONF_SLAVES:
sentinelFailoverReconfNextSlave(ri);
break;
}
}
/* Abort a failover in progress:
*
* This function can only be called before the promoted slave acknowledged
* the slave -> master switch. Otherwise the failover can't be aborted and
* will reach its end (possibly by timeout). */
void sentinelAbortFailover(sentinelRedisInstance *ri) {
redisAssert(ri->flags & SRI_FAILOVER_IN_PROGRESS);
redisAssert(ri->failover_state <= SENTINEL_FAILOVER_STATE_WAIT_PROMOTION);
ri->flags &= ~(SRI_FAILOVER_IN_PROGRESS|SRI_FORCE_FAILOVER);
ri->failover_state = SENTINEL_FAILOVER_STATE_NONE;
ri->failover_state_change_time = mstime();
if (ri->promoted_slave) {
ri->promoted_slave->flags &= ~SRI_PROMOTED;
ri->promoted_slave = NULL;
}
}
/* ======================== SENTINEL timer handler ==========================
* This is the "main" our Sentinel, being sentinel completely non blocking
* in design. The function is called every second.
* -------------------------------------------------------------------------- */
/* Perform scheduled operations for the specified Redis instance. */
void sentinelHandleRedisInstance(sentinelRedisInstance *ri) {
/* ========== MONITORING HALF ============ */
/* Every kind of instance */
sentinelReconnectInstance(ri);
sentinelSendPeriodicCommands(ri);
/* ============== ACTING HALF ============= */
/* We don't proceed with the acting half if we are in TILT mode.
* TILT happens when we find something odd with the time, like a
* sudden change in the clock. */
if (sentinel.tilt) {
if (mstime()-sentinel.tilt_start_time < SENTINEL_TILT_PERIOD) return;
sentinel.tilt = 0;
sentinelEvent(REDIS_WARNING,"-tilt",NULL,"#tilt mode exited");
}
/* Every kind of instance */
sentinelCheckSubjectivelyDown(ri);
/* Masters and slaves */
if (ri->flags & (SRI_MASTER|SRI_SLAVE)) {
/* Nothing so far. */
}
/* Only masters */
if (ri->flags & SRI_MASTER) {
sentinelCheckObjectivelyDown(ri);
if (sentinelStartFailoverIfNeeded(ri))
sentinelAskMasterStateToOtherSentinels(ri,SENTINEL_ASK_FORCED);
sentinelFailoverStateMachine(ri);
sentinelAskMasterStateToOtherSentinels(ri,SENTINEL_NO_FLAGS);
}
}
/* Perform scheduled operations for all the instances in the dictionary.
* Recursively call the function against dictionaries of slaves. */
void sentinelHandleDictOfRedisInstances(dict *instances) {
dictIterator *di;
dictEntry *de;
sentinelRedisInstance *switch_to_promoted = NULL;
/* There are a number of things we need to perform against every master. */
di = dictGetIterator(instances);
while((de = dictNext(di)) != NULL) {
sentinelRedisInstance *ri = dictGetVal(de);
sentinelHandleRedisInstance(ri);
if (ri->flags & SRI_MASTER) {
sentinelHandleDictOfRedisInstances(ri->slaves);
sentinelHandleDictOfRedisInstances(ri->sentinels);
if (ri->failover_state == SENTINEL_FAILOVER_STATE_UPDATE_CONFIG) {
switch_to_promoted = ri;
}
}
}
if (switch_to_promoted)
sentinelFailoverSwitchToPromotedSlave(switch_to_promoted);
dictReleaseIterator(di);
}
/* This function checks if we need to enter the TITL mode.
*
* The TILT mode is entered if we detect that between two invocations of the
* timer interrupt, a negative amount of time, or too much time has passed.
* Note that we expect that more or less just 100 milliseconds will pass
* if everything is fine. However we'll see a negative number or a
* difference bigger than SENTINEL_TILT_TRIGGER milliseconds if one of the
* following conditions happen:
*
* 1) The Sentiel process for some time is blocked, for every kind of
* random reason: the load is huge, the computer was frozen for some time
* in I/O or alike, the process was stopped by a signal. Everything.
* 2) The system clock was altered significantly.
*
* Under both this conditions we'll see everything as timed out and failing
* without good reasons. Instead we enter the TILT mode and wait
* for SENTINEL_TILT_PERIOD to elapse before starting to act again.
*
* During TILT time we still collect information, we just do not act. */
void sentinelCheckTiltCondition(void) {
mstime_t now = mstime();
mstime_t delta = now - sentinel.previous_time;
if (delta < 0 || delta > SENTINEL_TILT_TRIGGER) {
sentinel.tilt = 1;
sentinel.tilt_start_time = mstime();
sentinelEvent(REDIS_WARNING,"+tilt",NULL,"#tilt mode entered");
}
sentinel.previous_time = mstime();
}
void sentinelTimer(void) {
sentinelCheckTiltCondition();
sentinelHandleDictOfRedisInstances(sentinel.masters);
sentinelRunPendingScripts();
sentinelCollectTerminatedScripts();
sentinelKillTimedoutScripts();
/* We continuously change the frequency of the Redis "timer interrupt"
* in order to desynchronize every Sentinel from every other.
* This non-determinism avoids that Sentinels started at the same time
* exactly continue to stay synchronized asking to be voted at the
* same time again and again (resulting in nobody likely winning the
* election because of split brain voting). */
server.hz = REDIS_DEFAULT_HZ + rand() % REDIS_DEFAULT_HZ;
}
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