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|
/* Redis CLI (command line interface)
*
* 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 "fmacros.h"
#include "version.h"
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#include <signal.h>
#include <unistd.h>
#include <time.h>
#include <ctype.h>
#include <errno.h>
#include <sys/stat.h>
#include <sys/time.h>
#include <assert.h>
#include <fcntl.h>
#include <limits.h>
#include <math.h>
#include <hiredis.h>
#ifdef USE_OPENSSL
#include <openssl/ssl.h>
#include <openssl/err.h>
#include <hiredis_ssl.h>
#endif
#include <sds.h> /* use sds.h from hiredis, so that only one set of sds functions will be present in the binary */
#include "dict.h"
#include "adlist.h"
#include "zmalloc.h"
#include "linenoise.h"
#include "help.h"
#include "anet.h"
#include "ae.h"
#define UNUSED(V) ((void) V)
#define OUTPUT_STANDARD 0
#define OUTPUT_RAW 1
#define OUTPUT_CSV 2
#define REDIS_CLI_KEEPALIVE_INTERVAL 15 /* seconds */
#define REDIS_CLI_DEFAULT_PIPE_TIMEOUT 30 /* seconds */
#define REDIS_CLI_HISTFILE_ENV "REDISCLI_HISTFILE"
#define REDIS_CLI_HISTFILE_DEFAULT ".rediscli_history"
#define REDIS_CLI_RCFILE_ENV "REDISCLI_RCFILE"
#define REDIS_CLI_RCFILE_DEFAULT ".redisclirc"
#define REDIS_CLI_AUTH_ENV "REDISCLI_AUTH"
#define CLUSTER_MANAGER_SLOTS 16384
#define CLUSTER_MANAGER_MIGRATE_TIMEOUT 60000
#define CLUSTER_MANAGER_MIGRATE_PIPELINE 10
#define CLUSTER_MANAGER_REBALANCE_THRESHOLD 2
#define CLUSTER_MANAGER_INVALID_HOST_ARG \
"[ERR] Invalid arguments: you need to pass either a valid " \
"address (ie. 120.0.0.1:7000) or space separated IP " \
"and port (ie. 120.0.0.1 7000)\n"
#define CLUSTER_MANAGER_MODE() (config.cluster_manager_command.name != NULL)
#define CLUSTER_MANAGER_MASTERS_COUNT(nodes, replicas) (nodes/(replicas + 1))
#define CLUSTER_MANAGER_COMMAND(n,...) \
(redisCommand(n->context, __VA_ARGS__))
#define CLUSTER_MANAGER_NODE_ARRAY_FREE(array) zfree(array->alloc)
#define CLUSTER_MANAGER_PRINT_REPLY_ERROR(n, err) \
clusterManagerLogErr("Node %s:%d replied with error:\n%s\n", \
n->ip, n->port, err);
#define clusterManagerLogInfo(...) \
clusterManagerLog(CLUSTER_MANAGER_LOG_LVL_INFO,__VA_ARGS__)
#define clusterManagerLogErr(...) \
clusterManagerLog(CLUSTER_MANAGER_LOG_LVL_ERR,__VA_ARGS__)
#define clusterManagerLogWarn(...) \
clusterManagerLog(CLUSTER_MANAGER_LOG_LVL_WARN,__VA_ARGS__)
#define clusterManagerLogOk(...) \
clusterManagerLog(CLUSTER_MANAGER_LOG_LVL_SUCCESS,__VA_ARGS__)
#define CLUSTER_MANAGER_FLAG_MYSELF 1 << 0
#define CLUSTER_MANAGER_FLAG_SLAVE 1 << 1
#define CLUSTER_MANAGER_FLAG_FRIEND 1 << 2
#define CLUSTER_MANAGER_FLAG_NOADDR 1 << 3
#define CLUSTER_MANAGER_FLAG_DISCONNECT 1 << 4
#define CLUSTER_MANAGER_FLAG_FAIL 1 << 5
#define CLUSTER_MANAGER_CMD_FLAG_FIX 1 << 0
#define CLUSTER_MANAGER_CMD_FLAG_SLAVE 1 << 1
#define CLUSTER_MANAGER_CMD_FLAG_YES 1 << 2
#define CLUSTER_MANAGER_CMD_FLAG_AUTOWEIGHTS 1 << 3
#define CLUSTER_MANAGER_CMD_FLAG_EMPTYMASTER 1 << 4
#define CLUSTER_MANAGER_CMD_FLAG_SIMULATE 1 << 5
#define CLUSTER_MANAGER_CMD_FLAG_REPLACE 1 << 6
#define CLUSTER_MANAGER_CMD_FLAG_COPY 1 << 7
#define CLUSTER_MANAGER_CMD_FLAG_COLOR 1 << 8
#define CLUSTER_MANAGER_CMD_FLAG_CHECK_OWNERS 1 << 9
#define CLUSTER_MANAGER_OPT_GETFRIENDS 1 << 0
#define CLUSTER_MANAGER_OPT_COLD 1 << 1
#define CLUSTER_MANAGER_OPT_UPDATE 1 << 2
#define CLUSTER_MANAGER_OPT_QUIET 1 << 6
#define CLUSTER_MANAGER_OPT_VERBOSE 1 << 7
#define CLUSTER_MANAGER_LOG_LVL_INFO 1
#define CLUSTER_MANAGER_LOG_LVL_WARN 2
#define CLUSTER_MANAGER_LOG_LVL_ERR 3
#define CLUSTER_MANAGER_LOG_LVL_SUCCESS 4
#define CLUSTER_JOIN_CHECK_AFTER 20
#define LOG_COLOR_BOLD "29;1m"
#define LOG_COLOR_RED "31;1m"
#define LOG_COLOR_GREEN "32;1m"
#define LOG_COLOR_YELLOW "33;1m"
#define LOG_COLOR_RESET "0m"
/* cliConnect() flags. */
#define CC_FORCE (1<<0) /* Re-connect if already connected. */
#define CC_QUIET (1<<1) /* Don't log connecting errors. */
/* --latency-dist palettes. */
int spectrum_palette_color_size = 19;
int spectrum_palette_color[] = {0,233,234,235,237,239,241,243,245,247,144,143,142,184,226,214,208,202,196};
int spectrum_palette_mono_size = 13;
int spectrum_palette_mono[] = {0,233,234,235,237,239,241,243,245,247,249,251,253};
/* The actual palette in use. */
int *spectrum_palette;
int spectrum_palette_size;
/* Dict Helpers */
static uint64_t dictSdsHash(const void *key);
static int dictSdsKeyCompare(void *privdata, const void *key1,
const void *key2);
static void dictSdsDestructor(void *privdata, void *val);
static void dictListDestructor(void *privdata, void *val);
/* Cluster Manager Command Info */
typedef struct clusterManagerCommand {
char *name;
int argc;
char **argv;
int flags;
int replicas;
char *from;
char *to;
char **weight;
int weight_argc;
char *master_id;
int slots;
int timeout;
int pipeline;
float threshold;
char *backup_dir;
} clusterManagerCommand;
static void createClusterManagerCommand(char *cmdname, int argc, char **argv);
static redisContext *context;
static struct config {
char *hostip;
int hostport;
char *hostsocket;
int tls;
char *sni;
char *cacert;
char *cacertdir;
char *cert;
char *key;
long repeat;
long interval;
int dbnum;
int interactive;
int shutdown;
int monitor_mode;
int pubsub_mode;
int latency_mode;
int latency_dist_mode;
int latency_history;
int lru_test_mode;
long long lru_test_sample_size;
int cluster_mode;
int cluster_reissue_command;
int slave_mode;
int pipe_mode;
int pipe_timeout;
int getrdb_mode;
int stat_mode;
int scan_mode;
int intrinsic_latency_mode;
int intrinsic_latency_duration;
char *pattern;
char *rdb_filename;
int bigkeys;
int memkeys;
unsigned memkeys_samples;
int hotkeys;
int stdinarg; /* get last arg from stdin. (-x option) */
char *auth;
char *user;
int output; /* output mode, see OUTPUT_* defines */
sds mb_delim;
char prompt[128];
char *eval;
int eval_ldb;
int eval_ldb_sync; /* Ask for synchronous mode of the Lua debugger. */
int eval_ldb_end; /* Lua debugging session ended. */
int enable_ldb_on_eval; /* Handle manual SCRIPT DEBUG + EVAL commands. */
int last_cmd_type;
int verbose;
clusterManagerCommand cluster_manager_command;
int no_auth_warning;
int resp3;
} config;
/* User preferences. */
static struct pref {
int hints;
} pref;
static volatile sig_atomic_t force_cancel_loop = 0;
static void usage(void);
static void slaveMode(void);
char *redisGitSHA1(void);
char *redisGitDirty(void);
static int cliConnect(int force);
static char *getInfoField(char *info, char *field);
static long getLongInfoField(char *info, char *field);
/*------------------------------------------------------------------------------
* Utility functions
*--------------------------------------------------------------------------- */
uint16_t crc16(const char *buf, int len);
static long long ustime(void) {
struct timeval tv;
long long ust;
gettimeofday(&tv, NULL);
ust = ((long long)tv.tv_sec)*1000000;
ust += tv.tv_usec;
return ust;
}
static long long mstime(void) {
return ustime()/1000;
}
static void cliRefreshPrompt(void) {
if (config.eval_ldb) return;
sds prompt = sdsempty();
if (config.hostsocket != NULL) {
prompt = sdscatfmt(prompt,"redis %s",config.hostsocket);
} else {
char addr[256];
anetFormatAddr(addr, sizeof(addr), config.hostip, config.hostport);
prompt = sdscatlen(prompt,addr,strlen(addr));
}
/* Add [dbnum] if needed */
if (config.dbnum != 0)
prompt = sdscatfmt(prompt,"[%i]",config.dbnum);
/* Copy the prompt in the static buffer. */
prompt = sdscatlen(prompt,"> ",2);
snprintf(config.prompt,sizeof(config.prompt),"%s",prompt);
sdsfree(prompt);
}
/* Return the name of the dotfile for the specified 'dotfilename'.
* Normally it just concatenates user $HOME to the file specified
* in 'dotfilename'. However if the environment varialbe 'envoverride'
* is set, its value is taken as the path.
*
* The function returns NULL (if the file is /dev/null or cannot be
* obtained for some error), or an SDS string that must be freed by
* the user. */
static sds getDotfilePath(char *envoverride, char *dotfilename) {
char *path = NULL;
sds dotPath = NULL;
/* Check the env for a dotfile override. */
path = getenv(envoverride);
if (path != NULL && *path != '\0') {
if (!strcmp("/dev/null", path)) {
return NULL;
}
/* If the env is set, return it. */
dotPath = sdsnew(path);
} else {
char *home = getenv("HOME");
if (home != NULL && *home != '\0') {
/* If no override is set use $HOME/<dotfilename>. */
dotPath = sdscatprintf(sdsempty(), "%s/%s", home, dotfilename);
}
}
return dotPath;
}
/* URL-style percent decoding. */
#define isHexChar(c) (isdigit(c) || (c >= 'a' && c <= 'f'))
#define decodeHexChar(c) (isdigit(c) ? c - '0' : c - 'a' + 10)
#define decodeHex(h, l) ((decodeHexChar(h) << 4) + decodeHexChar(l))
static sds percentDecode(const char *pe, size_t len) {
const char *end = pe + len;
sds ret = sdsempty();
const char *curr = pe;
while (curr < end) {
if (*curr == '%') {
if ((end - curr) < 2) {
fprintf(stderr, "Incomplete URI encoding\n");
exit(1);
}
char h = tolower(*(++curr));
char l = tolower(*(++curr));
if (!isHexChar(h) || !isHexChar(l)) {
fprintf(stderr, "Illegal character in URI encoding\n");
exit(1);
}
char c = decodeHex(h, l);
ret = sdscatlen(ret, &c, 1);
curr++;
} else {
ret = sdscatlen(ret, curr++, 1);
}
}
return ret;
}
/* Parse a URI and extract the server connection information.
* URI scheme is based on the the provisional specification[1] excluding support
* for query parameters. Valid URIs are:
* scheme: "redis://"
* authority: [[<username> ":"] <password> "@"] [<hostname> [":" <port>]]
* path: ["/" [<db>]]
*
* [1]: https://www.iana.org/assignments/uri-schemes/prov/redis */
static void parseRedisUri(const char *uri) {
const char *scheme = "redis://";
const char *curr = uri;
const char *end = uri + strlen(uri);
const char *userinfo, *username, *port, *host, *path;
/* URI must start with a valid scheme. */
if (strncasecmp(scheme, curr, strlen(scheme))) {
fprintf(stderr,"Invalid URI scheme\n");
exit(1);
}
curr += strlen(scheme);
if (curr == end) return;
/* Extract user info. */
if ((userinfo = strchr(curr,'@'))) {
if ((username = strchr(curr, ':')) && username < userinfo) {
/* If provided, username is ignored. */
curr = username + 1;
}
config.auth = percentDecode(curr, userinfo - curr);
curr = userinfo + 1;
}
if (curr == end) return;
/* Extract host and port. */
path = strchr(curr, '/');
if (*curr != '/') {
host = path ? path - 1 : end;
if ((port = strchr(curr, ':'))) {
config.hostport = atoi(port + 1);
host = port - 1;
}
config.hostip = sdsnewlen(curr, host - curr + 1);
}
curr = path ? path + 1 : end;
if (curr == end) return;
/* Extract database number. */
config.dbnum = atoi(curr);
}
static uint64_t dictSdsHash(const void *key) {
return dictGenHashFunction((unsigned char*)key, sdslen((char*)key));
}
static int dictSdsKeyCompare(void *privdata, const void *key1,
const void *key2)
{
int l1,l2;
DICT_NOTUSED(privdata);
l1 = sdslen((sds)key1);
l2 = sdslen((sds)key2);
if (l1 != l2) return 0;
return memcmp(key1, key2, l1) == 0;
}
static void dictSdsDestructor(void *privdata, void *val)
{
DICT_NOTUSED(privdata);
sdsfree(val);
}
void dictListDestructor(void *privdata, void *val)
{
DICT_NOTUSED(privdata);
listRelease((list*)val);
}
/* _serverAssert is needed by dict */
void _serverAssert(const char *estr, const char *file, int line) {
fprintf(stderr, "=== ASSERTION FAILED ===");
fprintf(stderr, "==> %s:%d '%s' is not true",file,line,estr);
*((char*)-1) = 'x';
}
/*------------------------------------------------------------------------------
* Help functions
*--------------------------------------------------------------------------- */
#define CLI_HELP_COMMAND 1
#define CLI_HELP_GROUP 2
typedef struct {
int type;
int argc;
sds *argv;
sds full;
/* Only used for help on commands */
struct commandHelp *org;
} helpEntry;
static helpEntry *helpEntries;
static int helpEntriesLen;
static sds cliVersion(void) {
sds version;
version = sdscatprintf(sdsempty(), "%s", REDIS_VERSION);
/* Add git commit and working tree status when available */
if (strtoll(redisGitSHA1(),NULL,16)) {
version = sdscatprintf(version, " (git:%s", redisGitSHA1());
if (strtoll(redisGitDirty(),NULL,10))
version = sdscatprintf(version, "-dirty");
version = sdscat(version, ")");
}
return version;
}
static void cliInitHelp(void) {
int commandslen = sizeof(commandHelp)/sizeof(struct commandHelp);
int groupslen = sizeof(commandGroups)/sizeof(char*);
int i, len, pos = 0;
helpEntry tmp;
helpEntriesLen = len = commandslen+groupslen;
helpEntries = zmalloc(sizeof(helpEntry)*len);
for (i = 0; i < groupslen; i++) {
tmp.argc = 1;
tmp.argv = zmalloc(sizeof(sds));
tmp.argv[0] = sdscatprintf(sdsempty(),"@%s",commandGroups[i]);
tmp.full = tmp.argv[0];
tmp.type = CLI_HELP_GROUP;
tmp.org = NULL;
helpEntries[pos++] = tmp;
}
for (i = 0; i < commandslen; i++) {
tmp.argv = sdssplitargs(commandHelp[i].name,&tmp.argc);
tmp.full = sdsnew(commandHelp[i].name);
tmp.type = CLI_HELP_COMMAND;
tmp.org = &commandHelp[i];
helpEntries[pos++] = tmp;
}
}
/* cliInitHelp() setups the helpEntries array with the command and group
* names from the help.h file. However the Redis instance we are connecting
* to may support more commands, so this function integrates the previous
* entries with additional entries obtained using the COMMAND command
* available in recent versions of Redis. */
static void cliIntegrateHelp(void) {
if (cliConnect(CC_QUIET) == REDIS_ERR) return;
redisReply *reply = redisCommand(context, "COMMAND");
if(reply == NULL || reply->type != REDIS_REPLY_ARRAY) return;
/* Scan the array reported by COMMAND and fill only the entries that
* don't already match what we have. */
for (size_t j = 0; j < reply->elements; j++) {
redisReply *entry = reply->element[j];
if (entry->type != REDIS_REPLY_ARRAY || entry->elements < 4 ||
entry->element[0]->type != REDIS_REPLY_STRING ||
entry->element[1]->type != REDIS_REPLY_INTEGER ||
entry->element[3]->type != REDIS_REPLY_INTEGER) return;
char *cmdname = entry->element[0]->str;
int i;
for (i = 0; i < helpEntriesLen; i++) {
helpEntry *he = helpEntries+i;
if (!strcasecmp(he->argv[0],cmdname))
break;
}
if (i != helpEntriesLen) continue;
helpEntriesLen++;
helpEntries = zrealloc(helpEntries,sizeof(helpEntry)*helpEntriesLen);
helpEntry *new = helpEntries+(helpEntriesLen-1);
new->argc = 1;
new->argv = zmalloc(sizeof(sds));
new->argv[0] = sdsnew(cmdname);
new->full = new->argv[0];
new->type = CLI_HELP_COMMAND;
sdstoupper(new->argv[0]);
struct commandHelp *ch = zmalloc(sizeof(*ch));
ch->name = new->argv[0];
ch->params = sdsempty();
int args = llabs(entry->element[1]->integer);
args--; /* Remove the command name itself. */
if (entry->element[3]->integer == 1) {
ch->params = sdscat(ch->params,"key ");
args--;
}
while(args-- > 0) ch->params = sdscat(ch->params,"arg ");
if (entry->element[1]->integer < 0)
ch->params = sdscat(ch->params,"...options...");
ch->summary = "Help not available";
ch->group = 0;
ch->since = "not known";
new->org = ch;
}
freeReplyObject(reply);
}
/* Output command help to stdout. */
static void cliOutputCommandHelp(struct commandHelp *help, int group) {
printf("\r\n \x1b[1m%s\x1b[0m \x1b[90m%s\x1b[0m\r\n", help->name, help->params);
printf(" \x1b[33msummary:\x1b[0m %s\r\n", help->summary);
printf(" \x1b[33msince:\x1b[0m %s\r\n", help->since);
if (group) {
printf(" \x1b[33mgroup:\x1b[0m %s\r\n", commandGroups[help->group]);
}
}
/* Print generic help. */
static void cliOutputGenericHelp(void) {
sds version = cliVersion();
printf(
"redis-cli %s\n"
"To get help about Redis commands type:\n"
" \"help @<group>\" to get a list of commands in <group>\n"
" \"help <command>\" for help on <command>\n"
" \"help <tab>\" to get a list of possible help topics\n"
" \"quit\" to exit\n"
"\n"
"To set redis-cli preferences:\n"
" \":set hints\" enable online hints\n"
" \":set nohints\" disable online hints\n"
"Set your preferences in ~/.redisclirc\n",
version
);
sdsfree(version);
}
/* Output all command help, filtering by group or command name. */
static void cliOutputHelp(int argc, char **argv) {
int i, j, len;
int group = -1;
helpEntry *entry;
struct commandHelp *help;
if (argc == 0) {
cliOutputGenericHelp();
return;
} else if (argc > 0 && argv[0][0] == '@') {
len = sizeof(commandGroups)/sizeof(char*);
for (i = 0; i < len; i++) {
if (strcasecmp(argv[0]+1,commandGroups[i]) == 0) {
group = i;
break;
}
}
}
assert(argc > 0);
for (i = 0; i < helpEntriesLen; i++) {
entry = &helpEntries[i];
if (entry->type != CLI_HELP_COMMAND) continue;
help = entry->org;
if (group == -1) {
/* Compare all arguments */
if (argc == entry->argc) {
for (j = 0; j < argc; j++) {
if (strcasecmp(argv[j],entry->argv[j]) != 0) break;
}
if (j == argc) {
cliOutputCommandHelp(help,1);
}
}
} else {
if (group == help->group) {
cliOutputCommandHelp(help,0);
}
}
}
printf("\r\n");
}
/* Linenoise completion callback. */
static void completionCallback(const char *buf, linenoiseCompletions *lc) {
size_t startpos = 0;
int mask;
int i;
size_t matchlen;
sds tmp;
if (strncasecmp(buf,"help ",5) == 0) {
startpos = 5;
while (isspace(buf[startpos])) startpos++;
mask = CLI_HELP_COMMAND | CLI_HELP_GROUP;
} else {
mask = CLI_HELP_COMMAND;
}
for (i = 0; i < helpEntriesLen; i++) {
if (!(helpEntries[i].type & mask)) continue;
matchlen = strlen(buf+startpos);
if (strncasecmp(buf+startpos,helpEntries[i].full,matchlen) == 0) {
tmp = sdsnewlen(buf,startpos);
tmp = sdscat(tmp,helpEntries[i].full);
linenoiseAddCompletion(lc,tmp);
sdsfree(tmp);
}
}
}
/* Linenoise hints callback. */
static char *hintsCallback(const char *buf, int *color, int *bold) {
if (!pref.hints) return NULL;
int i, argc, buflen = strlen(buf);
sds *argv = sdssplitargs(buf,&argc);
int endspace = buflen && isspace(buf[buflen-1]);
/* Check if the argument list is empty and return ASAP. */
if (argc == 0) {
sdsfreesplitres(argv,argc);
return NULL;
}
for (i = 0; i < helpEntriesLen; i++) {
if (!(helpEntries[i].type & CLI_HELP_COMMAND)) continue;
if (strcasecmp(argv[0],helpEntries[i].full) == 0)
{
*color = 90;
*bold = 0;
sds hint = sdsnew(helpEntries[i].org->params);
/* Remove arguments from the returned hint to show only the
* ones the user did not yet typed. */
int toremove = argc-1;
while(toremove > 0 && sdslen(hint)) {
if (hint[0] == '[') break;
if (hint[0] == ' ') toremove--;
sdsrange(hint,1,-1);
}
/* Add an initial space if needed. */
if (!endspace) {
sds newhint = sdsnewlen(" ",1);
newhint = sdscatsds(newhint,hint);
sdsfree(hint);
hint = newhint;
}
sdsfreesplitres(argv,argc);
return hint;
}
}
sdsfreesplitres(argv,argc);
return NULL;
}
static void freeHintsCallback(void *ptr) {
sdsfree(ptr);
}
/*------------------------------------------------------------------------------
* Networking / parsing
*--------------------------------------------------------------------------- */
/* Send AUTH command to the server */
static int cliAuth(void) {
redisReply *reply;
if (config.auth == NULL) return REDIS_OK;
if (config.user == NULL)
reply = redisCommand(context,"AUTH %s",config.auth);
else
reply = redisCommand(context,"AUTH %s %s",config.user,config.auth);
if (reply != NULL) {
if (reply->type == REDIS_REPLY_ERROR)
fprintf(stderr,"Warning: AUTH failed\n");
freeReplyObject(reply);
return REDIS_OK;
}
return REDIS_ERR;
}
/* Send SELECT dbnum to the server */
static int cliSelect(void) {
redisReply *reply;
if (config.dbnum == 0) return REDIS_OK;
reply = redisCommand(context,"SELECT %d",config.dbnum);
if (reply != NULL) {
int result = REDIS_OK;
if (reply->type == REDIS_REPLY_ERROR) result = REDIS_ERR;
freeReplyObject(reply);
return result;
}
return REDIS_ERR;
}
/* Wrapper around redisSecureConnection to avoid hiredis_ssl dependencies if
* not building with TLS support.
*/
static int cliSecureConnection(redisContext *c, const char **err) {
#ifdef USE_OPENSSL
static SSL_CTX *ssl_ctx = NULL;
if (!ssl_ctx) {
ssl_ctx = SSL_CTX_new(SSLv23_client_method());
if (!ssl_ctx) {
*err = "Failed to create SSL_CTX";
goto error;
}
SSL_CTX_set_options(ssl_ctx, SSL_OP_NO_SSLv2 | SSL_OP_NO_SSLv3);
SSL_CTX_set_verify(ssl_ctx, SSL_VERIFY_PEER, NULL);
if (config.cacert || config.cacertdir) {
if (!SSL_CTX_load_verify_locations(ssl_ctx, config.cacert, config.cacertdir)) {
*err = "Invalid CA Certificate File/Directory";
goto error;
}
} else {
if (!SSL_CTX_set_default_verify_paths(ssl_ctx)) {
*err = "Failed to use default CA paths";
goto error;
}
}
if (config.cert && !SSL_CTX_use_certificate_chain_file(ssl_ctx, config.cert)) {
*err = "Invalid client certificate";
goto error;
}
if (config.key && !SSL_CTX_use_PrivateKey_file(ssl_ctx, config.key, SSL_FILETYPE_PEM)) {
*err = "Invalid private key";
goto error;
}
}
SSL *ssl = SSL_new(ssl_ctx);
if (!ssl) {
*err = "Failed to create SSL object";
return REDIS_ERR;
}
if (config.sni && !SSL_set_tlsext_host_name(ssl, config.sni)) {
*err = "Failed to configure SNI";
SSL_free(ssl);
return REDIS_ERR;
}
return redisInitiateSSL(c, ssl);
error:
SSL_CTX_free(ssl_ctx);
ssl_ctx = NULL;
return REDIS_ERR;
#else
(void) c;
(void) err;
return REDIS_OK;
#endif
}
/* Select RESP3 mode if redis-cli was started with the -3 option. */
static int cliSwitchProto(void) {
redisReply *reply;
if (config.resp3 == 0) return REDIS_OK;
reply = redisCommand(context,"HELLO 3");
if (reply != NULL) {
int result = REDIS_OK;
if (reply->type == REDIS_REPLY_ERROR) result = REDIS_ERR;
freeReplyObject(reply);
return result;
}
return REDIS_ERR;
}
/* Connect to the server. It is possible to pass certain flags to the function:
* CC_FORCE: The connection is performed even if there is already
* a connected socket.
* CC_QUIET: Don't print errors if connection fails. */
static int cliConnect(int flags) {
if (context == NULL || flags & CC_FORCE) {
if (context != NULL) {
redisFree(context);
}
if (config.hostsocket == NULL) {
context = redisConnect(config.hostip,config.hostport);
} else {
context = redisConnectUnix(config.hostsocket);
}
if (!context->err && config.tls) {
const char *err = NULL;
if (cliSecureConnection(context, &err) == REDIS_ERR && err) {
fprintf(stderr, "Could not negotiate a TLS connection: %s\n", err);
context = NULL;
redisFree(context);
return REDIS_ERR;
}
}
if (context->err) {
if (!(flags & CC_QUIET)) {
fprintf(stderr,"Could not connect to Redis at ");
if (config.hostsocket == NULL)
fprintf(stderr,"%s:%d: %s\n",
config.hostip,config.hostport,context->errstr);
else
fprintf(stderr,"%s: %s\n",
config.hostsocket,context->errstr);
}
redisFree(context);
context = NULL;
return REDIS_ERR;
}
/* Set aggressive KEEP_ALIVE socket option in the Redis context socket
* in order to prevent timeouts caused by the execution of long
* commands. At the same time this improves the detection of real
* errors. */
anetKeepAlive(NULL, context->fd, REDIS_CLI_KEEPALIVE_INTERVAL);
/* Do AUTH, select the right DB, switch to RESP3 if needed. */
if (cliAuth() != REDIS_OK)
return REDIS_ERR;
if (cliSelect() != REDIS_OK)
return REDIS_ERR;
if (cliSwitchProto() != REDIS_OK)
return REDIS_ERR;
}
return REDIS_OK;
}
static void cliPrintContextError(void) {
if (context == NULL) return;
fprintf(stderr,"Error: %s\n",context->errstr);
}
static sds cliFormatReplyTTY(redisReply *r, char *prefix) {
sds out = sdsempty();
switch (r->type) {
case REDIS_REPLY_ERROR:
out = sdscatprintf(out,"(error) %s\n", r->str);
break;
case REDIS_REPLY_STATUS:
out = sdscat(out,r->str);
out = sdscat(out,"\n");
break;
case REDIS_REPLY_INTEGER:
out = sdscatprintf(out,"(integer) %lld\n",r->integer);
break;
case REDIS_REPLY_DOUBLE:
out = sdscatprintf(out,"(double) %s\n",r->str);
break;
case REDIS_REPLY_STRING:
case REDIS_REPLY_VERB:
/* If you are producing output for the standard output we want
* a more interesting output with quoted characters and so forth,
* unless it's a verbatim string type. */
if (r->type == REDIS_REPLY_STRING) {
out = sdscatrepr(out,r->str,r->len);
out = sdscat(out,"\n");
} else {
out = sdscatlen(out,r->str,r->len);
out = sdscat(out,"\n");
}
break;
case REDIS_REPLY_NIL:
out = sdscat(out,"(nil)\n");
break;
case REDIS_REPLY_BOOL:
out = sdscat(out,r->integer ? "(true)\n" : "(false)\n");
break;
case REDIS_REPLY_ARRAY:
case REDIS_REPLY_MAP:
case REDIS_REPLY_SET:
if (r->elements == 0) {
if (r->type == REDIS_REPLY_ARRAY)
out = sdscat(out,"(empty array)\n");
else if (r->type == REDIS_REPLY_MAP)
out = sdscat(out,"(empty hash)\n");
else if (r->type == REDIS_REPLY_SET)
out = sdscat(out,"(empty set)\n");
else
out = sdscat(out,"(empty aggregate type)\n");
} else {
unsigned int i, idxlen = 0;
char _prefixlen[16];
char _prefixfmt[16];
sds _prefix;
sds tmp;
/* Calculate chars needed to represent the largest index */
i = r->elements;
if (r->type == REDIS_REPLY_MAP) i /= 2;
do {
idxlen++;
i /= 10;
} while(i);
/* Prefix for nested multi bulks should grow with idxlen+2 spaces */
memset(_prefixlen,' ',idxlen+2);
_prefixlen[idxlen+2] = '\0';
_prefix = sdscat(sdsnew(prefix),_prefixlen);
/* Setup prefix format for every entry */
char numsep;
if (r->type == REDIS_REPLY_SET) numsep = '~';
else if (r->type == REDIS_REPLY_MAP) numsep = '#';
else numsep = ')';
snprintf(_prefixfmt,sizeof(_prefixfmt),"%%s%%%ud%c ",idxlen,numsep);
for (i = 0; i < r->elements; i++) {
unsigned int human_idx = (r->type == REDIS_REPLY_MAP) ?
i/2 : i;
human_idx++; /* Make it 1-based. */
/* Don't use the prefix for the first element, as the parent
* caller already prepended the index number. */
out = sdscatprintf(out,_prefixfmt,i == 0 ? "" : prefix,human_idx);
/* Format the multi bulk entry */
tmp = cliFormatReplyTTY(r->element[i],_prefix);
out = sdscatlen(out,tmp,sdslen(tmp));
sdsfree(tmp);
/* For maps, format the value as well. */
if (r->type == REDIS_REPLY_MAP) {
i++;
sdsrange(out,0,-2);
out = sdscat(out," => ");
tmp = cliFormatReplyTTY(r->element[i],_prefix);
out = sdscatlen(out,tmp,sdslen(tmp));
sdsfree(tmp);
}
}
sdsfree(_prefix);
}
break;
default:
fprintf(stderr,"Unknown reply type: %d\n", r->type);
exit(1);
}
return out;
}
int isColorTerm(void) {
char *t = getenv("TERM");
return t != NULL && strstr(t,"xterm") != NULL;
}
/* Helper function for sdsCatColorizedLdbReply() appending colorize strings
* to an SDS string. */
sds sdscatcolor(sds o, char *s, size_t len, char *color) {
if (!isColorTerm()) return sdscatlen(o,s,len);
int bold = strstr(color,"bold") != NULL;
int ccode = 37; /* Defaults to white. */
if (strstr(color,"red")) ccode = 31;
else if (strstr(color,"green")) ccode = 32;
else if (strstr(color,"yellow")) ccode = 33;
else if (strstr(color,"blue")) ccode = 34;
else if (strstr(color,"magenta")) ccode = 35;
else if (strstr(color,"cyan")) ccode = 36;
else if (strstr(color,"white")) ccode = 37;
o = sdscatfmt(o,"\033[%i;%i;49m",bold,ccode);
o = sdscatlen(o,s,len);
o = sdscat(o,"\033[0m");
return o;
}
/* Colorize Lua debugger status replies according to the prefix they
* have. */
sds sdsCatColorizedLdbReply(sds o, char *s, size_t len) {
char *color = "white";
if (strstr(s,"<debug>")) color = "bold";
if (strstr(s,"<redis>")) color = "green";
if (strstr(s,"<reply>")) color = "cyan";
if (strstr(s,"<error>")) color = "red";
if (strstr(s,"<hint>")) color = "bold";
if (strstr(s,"<value>") || strstr(s,"<retval>")) color = "magenta";
if (len > 4 && isdigit(s[3])) {
if (s[1] == '>') color = "yellow"; /* Current line. */
else if (s[2] == '#') color = "bold"; /* Break point. */
}
return sdscatcolor(o,s,len,color);
}
static sds cliFormatReplyRaw(redisReply *r) {
sds out = sdsempty(), tmp;
size_t i;
switch (r->type) {
case REDIS_REPLY_NIL:
/* Nothing... */
break;
case REDIS_REPLY_ERROR:
out = sdscatlen(out,r->str,r->len);
out = sdscatlen(out,"\n",1);
break;
case REDIS_REPLY_STATUS:
case REDIS_REPLY_STRING:
case REDIS_REPLY_VERB:
if (r->type == REDIS_REPLY_STATUS && config.eval_ldb) {
/* The Lua debugger replies with arrays of simple (status)
* strings. We colorize the output for more fun if this
* is a debugging session. */
/* Detect the end of a debugging session. */
if (strstr(r->str,"<endsession>") == r->str) {
config.enable_ldb_on_eval = 0;
config.eval_ldb = 0;
config.eval_ldb_end = 1; /* Signal the caller session ended. */
config.output = OUTPUT_STANDARD;
cliRefreshPrompt();
} else {
out = sdsCatColorizedLdbReply(out,r->str,r->len);
}
} else {
out = sdscatlen(out,r->str,r->len);
}
break;
case REDIS_REPLY_BOOL:
out = sdscat(out,r->integer ? "(true)" : "(false)");
break;
case REDIS_REPLY_INTEGER:
out = sdscatprintf(out,"%lld",r->integer);
break;
case REDIS_REPLY_DOUBLE:
out = sdscatprintf(out,"%s",r->str);
break;
case REDIS_REPLY_ARRAY:
for (i = 0; i < r->elements; i++) {
if (i > 0) out = sdscat(out,config.mb_delim);
tmp = cliFormatReplyRaw(r->element[i]);
out = sdscatlen(out,tmp,sdslen(tmp));
sdsfree(tmp);
}
break;
case REDIS_REPLY_MAP:
for (i = 0; i < r->elements; i += 2) {
if (i > 0) out = sdscat(out,config.mb_delim);
tmp = cliFormatReplyRaw(r->element[i]);
out = sdscatlen(out,tmp,sdslen(tmp));
sdsfree(tmp);
out = sdscatlen(out," ",1);
tmp = cliFormatReplyRaw(r->element[i+1]);
out = sdscatlen(out,tmp,sdslen(tmp));
sdsfree(tmp);
}
break;
default:
fprintf(stderr,"Unknown reply type: %d\n", r->type);
exit(1);
}
return out;
}
static sds cliFormatReplyCSV(redisReply *r) {
unsigned int i;
sds out = sdsempty();
switch (r->type) {
case REDIS_REPLY_ERROR:
out = sdscat(out,"ERROR,");
out = sdscatrepr(out,r->str,strlen(r->str));
break;
case REDIS_REPLY_STATUS:
out = sdscatrepr(out,r->str,r->len);
break;
case REDIS_REPLY_INTEGER:
out = sdscatprintf(out,"%lld",r->integer);
break;
case REDIS_REPLY_DOUBLE:
out = sdscatprintf(out,"%s",r->str);
break;
case REDIS_REPLY_STRING:
case REDIS_REPLY_VERB:
out = sdscatrepr(out,r->str,r->len);
break;
case REDIS_REPLY_NIL:
out = sdscat(out,"NULL");
break;
case REDIS_REPLY_BOOL:
out = sdscat(out,r->integer ? "true" : "false");
break;
case REDIS_REPLY_ARRAY:
case REDIS_REPLY_MAP: /* CSV has no map type, just output flat list. */
for (i = 0; i < r->elements; i++) {
sds tmp = cliFormatReplyCSV(r->element[i]);
out = sdscatlen(out,tmp,sdslen(tmp));
if (i != r->elements-1) out = sdscat(out,",");
sdsfree(tmp);
}
break;
default:
fprintf(stderr,"Unknown reply type: %d\n", r->type);
exit(1);
}
return out;
}
static int cliReadReply(int output_raw_strings) {
void *_reply;
redisReply *reply;
sds out = NULL;
int output = 1;
if (redisGetReply(context,&_reply) != REDIS_OK) {
if (config.shutdown) {
redisFree(context);
context = NULL;
return REDIS_OK;
}
if (config.interactive) {
/* Filter cases where we should reconnect */
if (context->err == REDIS_ERR_IO &&
(errno == ECONNRESET || errno == EPIPE))
return REDIS_ERR;
if (context->err == REDIS_ERR_EOF)
return REDIS_ERR;
}
cliPrintContextError();
exit(1);
return REDIS_ERR; /* avoid compiler warning */
}
reply = (redisReply*)_reply;
config.last_cmd_type = reply->type;
/* Check if we need to connect to a different node and reissue the
* request. */
if (config.cluster_mode && reply->type == REDIS_REPLY_ERROR &&
(!strncmp(reply->str,"MOVED",5) || !strcmp(reply->str,"ASK")))
{
char *p = reply->str, *s;
int slot;
output = 0;
/* Comments show the position of the pointer as:
*
* [S] for pointer 's'
* [P] for pointer 'p'
*/
s = strchr(p,' '); /* MOVED[S]3999 127.0.0.1:6381 */
p = strchr(s+1,' '); /* MOVED[S]3999[P]127.0.0.1:6381 */
*p = '\0';
slot = atoi(s+1);
s = strrchr(p+1,':'); /* MOVED 3999[P]127.0.0.1[S]6381 */
*s = '\0';
sdsfree(config.hostip);
config.hostip = sdsnew(p+1);
config.hostport = atoi(s+1);
if (config.interactive)
printf("-> Redirected to slot [%d] located at %s:%d\n",
slot, config.hostip, config.hostport);
config.cluster_reissue_command = 1;
cliRefreshPrompt();
}
if (output) {
if (output_raw_strings) {
out = cliFormatReplyRaw(reply);
} else {
if (config.output == OUTPUT_RAW) {
out = cliFormatReplyRaw(reply);
out = sdscat(out,"\n");
} else if (config.output == OUTPUT_STANDARD) {
out = cliFormatReplyTTY(reply,"");
} else if (config.output == OUTPUT_CSV) {
out = cliFormatReplyCSV(reply);
out = sdscat(out,"\n");
}
}
fwrite(out,sdslen(out),1,stdout);
sdsfree(out);
}
freeReplyObject(reply);
return REDIS_OK;
}
static int cliSendCommand(int argc, char **argv, long repeat) {
char *command = argv[0];
size_t *argvlen;
int j, output_raw;
if (!config.eval_ldb && /* In debugging mode, let's pass "help" to Redis. */
(!strcasecmp(command,"help") || !strcasecmp(command,"?"))) {
cliOutputHelp(--argc, ++argv);
return REDIS_OK;
}
if (context == NULL) return REDIS_ERR;
output_raw = 0;
if (!strcasecmp(command,"info") ||
!strcasecmp(command,"lolwut") ||
(argc >= 2 && !strcasecmp(command,"debug") &&
!strcasecmp(argv[1],"htstats")) ||
(argc >= 2 && !strcasecmp(command,"debug") &&
!strcasecmp(argv[1],"htstats-key")) ||
(argc >= 2 && !strcasecmp(command,"memory") &&
(!strcasecmp(argv[1],"malloc-stats") ||
!strcasecmp(argv[1],"doctor"))) ||
(argc == 2 && !strcasecmp(command,"cluster") &&
(!strcasecmp(argv[1],"nodes") ||
!strcasecmp(argv[1],"info"))) ||
(argc >= 2 && !strcasecmp(command,"client") &&
!strcasecmp(argv[1],"list")) ||
(argc == 3 && !strcasecmp(command,"latency") &&
!strcasecmp(argv[1],"graph")) ||
(argc == 2 && !strcasecmp(command,"latency") &&
!strcasecmp(argv[1],"doctor")))
{
output_raw = 1;
}
if (!strcasecmp(command,"shutdown")) config.shutdown = 1;
if (!strcasecmp(command,"monitor")) config.monitor_mode = 1;
if (!strcasecmp(command,"subscribe") ||
!strcasecmp(command,"psubscribe")) config.pubsub_mode = 1;
if (!strcasecmp(command,"sync") ||
!strcasecmp(command,"psync")) config.slave_mode = 1;
/* When the user manually calls SCRIPT DEBUG, setup the activation of
* debugging mode on the next eval if needed. */
if (argc == 3 && !strcasecmp(argv[0],"script") &&
!strcasecmp(argv[1],"debug"))
{
if (!strcasecmp(argv[2],"yes") || !strcasecmp(argv[2],"sync")) {
config.enable_ldb_on_eval = 1;
} else {
config.enable_ldb_on_eval = 0;
}
}
/* Actually activate LDB on EVAL if needed. */
if (!strcasecmp(command,"eval") && config.enable_ldb_on_eval) {
config.eval_ldb = 1;
config.output = OUTPUT_RAW;
}
/* Setup argument length */
argvlen = zmalloc(argc*sizeof(size_t));
for (j = 0; j < argc; j++)
argvlen[j] = sdslen(argv[j]);
/* Negative repeat is allowed and causes infinite loop,
works well with the interval option. */
while(repeat < 0 || repeat-- > 0) {
redisAppendCommandArgv(context,argc,(const char**)argv,argvlen);
while (config.monitor_mode) {
if (cliReadReply(output_raw) != REDIS_OK) exit(1);
fflush(stdout);
}
if (config.pubsub_mode) {
if (config.output != OUTPUT_RAW)
printf("Reading messages... (press Ctrl-C to quit)\n");
while (1) {
if (cliReadReply(output_raw) != REDIS_OK) exit(1);
}
}
if (config.slave_mode) {
printf("Entering replica output mode... (press Ctrl-C to quit)\n");
slaveMode();
config.slave_mode = 0;
zfree(argvlen);
return REDIS_ERR; /* Error = slaveMode lost connection to master */
}
if (cliReadReply(output_raw) != REDIS_OK) {
zfree(argvlen);
return REDIS_ERR;
} else {
/* Store database number when SELECT was successfully executed. */
if (!strcasecmp(command,"select") && argc == 2 && config.last_cmd_type != REDIS_REPLY_ERROR) {
config.dbnum = atoi(argv[1]);
cliRefreshPrompt();
} else if (!strcasecmp(command,"auth") && (argc == 2 || argc == 3))
{
cliSelect();
}
}
if (config.cluster_reissue_command){
/* If we need to reissue the command, break to prevent a
further 'repeat' number of dud interations */
break;
}
if (config.interval) usleep(config.interval);
fflush(stdout); /* Make it grep friendly */
}
zfree(argvlen);
return REDIS_OK;
}
/* Send a command reconnecting the link if needed. */
static redisReply *reconnectingRedisCommand(redisContext *c, const char *fmt, ...) {
redisReply *reply = NULL;
int tries = 0;
va_list ap;
assert(!c->err);
while(reply == NULL) {
while (c->err & (REDIS_ERR_IO | REDIS_ERR_EOF)) {
printf("\r\x1b[0K"); /* Cursor to left edge + clear line. */
printf("Reconnecting... %d\r", ++tries);
fflush(stdout);
redisFree(c);
c = redisConnect(config.hostip,config.hostport);
if (!c->err && config.tls) {
const char *err = NULL;
if (cliSecureConnection(c, &err) == REDIS_ERR && err) {
fprintf(stderr, "TLS Error: %s\n", err);
exit(1);
}
}
usleep(1000000);
}
va_start(ap,fmt);
reply = redisvCommand(c,fmt,ap);
va_end(ap);
if (c->err && !(c->err & (REDIS_ERR_IO | REDIS_ERR_EOF))) {
fprintf(stderr, "Error: %s\n", c->errstr);
exit(1);
} else if (tries > 0) {
printf("\r\x1b[0K"); /* Cursor to left edge + clear line. */
}
}
context = c;
return reply;
}
/*------------------------------------------------------------------------------
* User interface
*--------------------------------------------------------------------------- */
static int parseOptions(int argc, char **argv) {
int i;
for (i = 1; i < argc; i++) {
int lastarg = i==argc-1;
if (!strcmp(argv[i],"-h") && !lastarg) {
sdsfree(config.hostip);
config.hostip = sdsnew(argv[++i]);
} else if (!strcmp(argv[i],"-h") && lastarg) {
usage();
} else if (!strcmp(argv[i],"--help")) {
usage();
} else if (!strcmp(argv[i],"-x")) {
config.stdinarg = 1;
} else if (!strcmp(argv[i],"-p") && !lastarg) {
config.hostport = atoi(argv[++i]);
} else if (!strcmp(argv[i],"-s") && !lastarg) {
config.hostsocket = argv[++i];
} else if (!strcmp(argv[i],"-r") && !lastarg) {
config.repeat = strtoll(argv[++i],NULL,10);
} else if (!strcmp(argv[i],"-i") && !lastarg) {
double seconds = atof(argv[++i]);
config.interval = seconds*1000000;
} else if (!strcmp(argv[i],"-n") && !lastarg) {
config.dbnum = atoi(argv[++i]);
} else if (!strcmp(argv[i], "--no-auth-warning")) {
config.no_auth_warning = 1;
} else if ((!strcmp(argv[i],"-a") || !strcmp(argv[i],"--pass"))
&& !lastarg)
{
config.auth = argv[++i];
} else if (!strcmp(argv[i],"--user") && !lastarg) {
config.user = argv[++i];
} else if (!strcmp(argv[i],"-u") && !lastarg) {
parseRedisUri(argv[++i]);
} else if (!strcmp(argv[i],"--raw")) {
config.output = OUTPUT_RAW;
} else if (!strcmp(argv[i],"--no-raw")) {
config.output = OUTPUT_STANDARD;
} else if (!strcmp(argv[i],"--csv")) {
config.output = OUTPUT_CSV;
} else if (!strcmp(argv[i],"--latency")) {
config.latency_mode = 1;
} else if (!strcmp(argv[i],"--latency-dist")) {
config.latency_dist_mode = 1;
} else if (!strcmp(argv[i],"--mono")) {
spectrum_palette = spectrum_palette_mono;
spectrum_palette_size = spectrum_palette_mono_size;
} else if (!strcmp(argv[i],"--latency-history")) {
config.latency_mode = 1;
config.latency_history = 1;
} else if (!strcmp(argv[i],"--lru-test") && !lastarg) {
config.lru_test_mode = 1;
config.lru_test_sample_size = strtoll(argv[++i],NULL,10);
} else if (!strcmp(argv[i],"--slave")) {
config.slave_mode = 1;
} else if (!strcmp(argv[i],"--replica")) {
config.slave_mode = 1;
} else if (!strcmp(argv[i],"--stat")) {
config.stat_mode = 1;
} else if (!strcmp(argv[i],"--scan")) {
config.scan_mode = 1;
} else if (!strcmp(argv[i],"--pattern") && !lastarg) {
config.pattern = argv[++i];
} else if (!strcmp(argv[i],"--intrinsic-latency") && !lastarg) {
config.intrinsic_latency_mode = 1;
config.intrinsic_latency_duration = atoi(argv[++i]);
} else if (!strcmp(argv[i],"--rdb") && !lastarg) {
config.getrdb_mode = 1;
config.rdb_filename = argv[++i];
} else if (!strcmp(argv[i],"--pipe")) {
config.pipe_mode = 1;
} else if (!strcmp(argv[i],"--pipe-timeout") && !lastarg) {
config.pipe_timeout = atoi(argv[++i]);
} else if (!strcmp(argv[i],"--bigkeys")) {
config.bigkeys = 1;
} else if (!strcmp(argv[i],"--memkeys")) {
config.memkeys = 1;
config.memkeys_samples = 0; /* use redis default */
} else if (!strcmp(argv[i],"--memkeys-samples")) {
config.memkeys = 1;
config.memkeys_samples = atoi(argv[++i]);
} else if (!strcmp(argv[i],"--hotkeys")) {
config.hotkeys = 1;
} else if (!strcmp(argv[i],"--eval") && !lastarg) {
config.eval = argv[++i];
} else if (!strcmp(argv[i],"--ldb")) {
config.eval_ldb = 1;
config.output = OUTPUT_RAW;
} else if (!strcmp(argv[i],"--ldb-sync-mode")) {
config.eval_ldb = 1;
config.eval_ldb_sync = 1;
config.output = OUTPUT_RAW;
} else if (!strcmp(argv[i],"-c")) {
config.cluster_mode = 1;
} else if (!strcmp(argv[i],"-d") && !lastarg) {
sdsfree(config.mb_delim);
config.mb_delim = sdsnew(argv[++i]);
} else if (!strcmp(argv[i],"--verbose")) {
config.verbose = 1;
} else if (!strcmp(argv[i],"--cluster") && !lastarg) {
if (CLUSTER_MANAGER_MODE()) usage();
char *cmd = argv[++i];
int j = i;
while (j < argc && argv[j][0] != '-') j++;
if (j > i) j--;
createClusterManagerCommand(cmd, j - i, argv + i + 1);
i = j;
} else if (!strcmp(argv[i],"--cluster") && lastarg) {
usage();
} else if (!strcmp(argv[i],"--cluster-replicas") && !lastarg) {
config.cluster_manager_command.replicas = atoi(argv[++i]);
} else if (!strcmp(argv[i],"--cluster-master-id") && !lastarg) {
config.cluster_manager_command.master_id = argv[++i];
} else if (!strcmp(argv[i],"--cluster-from") && !lastarg) {
config.cluster_manager_command.from = argv[++i];
} else if (!strcmp(argv[i],"--cluster-to") && !lastarg) {
config.cluster_manager_command.to = argv[++i];
} else if (!strcmp(argv[i],"--cluster-weight") && !lastarg) {
if (config.cluster_manager_command.weight != NULL) {
fprintf(stderr, "WARNING: you cannot use --cluster-weight "
"more than once.\n"
"You can set more weights by adding them "
"as a space-separated list, ie:\n"
"--cluster-weight n1=w n2=w\n");
exit(1);
}
int widx = i + 1;
char **weight = argv + widx;
int wargc = 0;
for (; widx < argc; widx++) {
if (strstr(argv[widx], "--") == argv[widx]) break;
if (strchr(argv[widx], '=') == NULL) break;
wargc++;
}
if (wargc > 0) {
config.cluster_manager_command.weight = weight;
config.cluster_manager_command.weight_argc = wargc;
i += wargc;
}
} else if (!strcmp(argv[i],"--cluster-slots") && !lastarg) {
config.cluster_manager_command.slots = atoi(argv[++i]);
} else if (!strcmp(argv[i],"--cluster-timeout") && !lastarg) {
config.cluster_manager_command.timeout = atoi(argv[++i]);
} else if (!strcmp(argv[i],"--cluster-pipeline") && !lastarg) {
config.cluster_manager_command.pipeline = atoi(argv[++i]);
} else if (!strcmp(argv[i],"--cluster-threshold") && !lastarg) {
config.cluster_manager_command.threshold = atof(argv[++i]);
} else if (!strcmp(argv[i],"--cluster-yes")) {
config.cluster_manager_command.flags |=
CLUSTER_MANAGER_CMD_FLAG_YES;
} else if (!strcmp(argv[i],"--cluster-simulate")) {
config.cluster_manager_command.flags |=
CLUSTER_MANAGER_CMD_FLAG_SIMULATE;
} else if (!strcmp(argv[i],"--cluster-replace")) {
config.cluster_manager_command.flags |=
CLUSTER_MANAGER_CMD_FLAG_REPLACE;
} else if (!strcmp(argv[i],"--cluster-copy")) {
config.cluster_manager_command.flags |=
CLUSTER_MANAGER_CMD_FLAG_COPY;
} else if (!strcmp(argv[i],"--cluster-slave")) {
config.cluster_manager_command.flags |=
CLUSTER_MANAGER_CMD_FLAG_SLAVE;
} else if (!strcmp(argv[i],"--cluster-use-empty-masters")) {
config.cluster_manager_command.flags |=
CLUSTER_MANAGER_CMD_FLAG_EMPTYMASTER;
} else if (!strcmp(argv[i],"--cluster-search-multiple-owners")) {
config.cluster_manager_command.flags |=
CLUSTER_MANAGER_CMD_FLAG_CHECK_OWNERS;
#ifdef USE_OPENSSL
} else if (!strcmp(argv[i],"--tls")) {
config.tls = 1;
} else if (!strcmp(argv[i],"--sni") && !lastarg) {
config.sni = argv[++i];
} else if (!strcmp(argv[i],"--cacertdir") && !lastarg) {
config.cacertdir = argv[++i];
} else if (!strcmp(argv[i],"--cacert") && !lastarg) {
config.cacert = argv[++i];
} else if (!strcmp(argv[i],"--cert") && !lastarg) {
config.cert = argv[++i];
} else if (!strcmp(argv[i],"--key") && !lastarg) {
config.key = argv[++i];
#endif
} else if (!strcmp(argv[i],"-v") || !strcmp(argv[i], "--version")) {
sds version = cliVersion();
printf("redis-cli %s\n", version);
sdsfree(version);
exit(0);
} else if (!strcmp(argv[i],"-3")) {
config.resp3 = 1;
} else if (CLUSTER_MANAGER_MODE() && argv[i][0] != '-') {
if (config.cluster_manager_command.argc == 0) {
int j = i + 1;
while (j < argc && argv[j][0] != '-') j++;
int cmd_argc = j - i;
config.cluster_manager_command.argc = cmd_argc;
config.cluster_manager_command.argv = argv + i;
if (cmd_argc > 1) i = j - 1;
}
} else {
if (argv[i][0] == '-') {
fprintf(stderr,
"Unrecognized option or bad number of args for: '%s'\n",
argv[i]);
exit(1);
} else {
/* Likely the command name, stop here. */
break;
}
}
}
/* --ldb requires --eval. */
if (config.eval_ldb && config.eval == NULL) {
fprintf(stderr,"Options --ldb and --ldb-sync-mode require --eval.\n");
fprintf(stderr,"Try %s --help for more information.\n", argv[0]);
exit(1);
}
if (!config.no_auth_warning && config.auth != NULL) {
fputs("Warning: Using a password with '-a' or '-u' option on the command"
" line interface may not be safe.\n", stderr);
}
return i;
}
static void parseEnv() {
/* Set auth from env, but do not overwrite CLI arguments if passed */
char *auth = getenv(REDIS_CLI_AUTH_ENV);
if (auth != NULL && config.auth == NULL) {
config.auth = auth;
}
}
static sds readArgFromStdin(void) {
char buf[1024];
sds arg = sdsempty();
while(1) {
int nread = read(fileno(stdin),buf,1024);
if (nread == 0) break;
else if (nread == -1) {
perror("Reading from standard input");
exit(1);
}
arg = sdscatlen(arg,buf,nread);
}
return arg;
}
static void usage(void) {
sds version = cliVersion();
fprintf(stderr,
"redis-cli %s\n"
"\n"
"Usage: redis-cli [OPTIONS] [cmd [arg [arg ...]]]\n"
" -h <hostname> Server hostname (default: 127.0.0.1).\n"
" -p <port> Server port (default: 6379).\n"
" -s <socket> Server socket (overrides hostname and port).\n"
" -a <password> Password to use when connecting to the server.\n"
" You can also use the " REDIS_CLI_AUTH_ENV " environment\n"
" variable to pass this password more safely\n"
" (if both are used, this argument takes predecence).\n"
" --user <username> Used to send ACL style 'AUTH username pass'. Needs -a.\n"
" --pass <password> Alias of -a for consistency with the new --user option.\n"
" -u <uri> Server URI.\n"
" -r <repeat> Execute specified command N times.\n"
" -i <interval> When -r is used, waits <interval> seconds per command.\n"
" It is possible to specify sub-second times like -i 0.1.\n"
" -n <db> Database number.\n"
" -3 Start session in RESP3 protocol mode.\n"
" -x Read last argument from STDIN.\n"
" -d <delimiter> Multi-bulk delimiter in for raw formatting (default: \\n).\n"
" -c Enable cluster mode (follow -ASK and -MOVED redirections).\n"
#ifdef USE_OPENSSL
" --tls Establish a secure TLS connection.\n"
" --sni <host> Server name indication for TLS.\n"
" --cacert <file> CA Certificate file to verify with.\n"
" --cacertdir <dir> Directory where trusted CA certificates are stored.\n"
" If neither cacert nor cacertdir are specified, the default\n"
" system-wide trusted root certs configuration will apply.\n"
" --cert <file> Client certificate to authenticate with.\n"
" --key <file> Private key file to authenticate with.\n"
#endif
" --raw Use raw formatting for replies (default when STDOUT is\n"
" not a tty).\n"
" --no-raw Force formatted output even when STDOUT is not a tty.\n"
" --csv Output in CSV format.\n"
" --stat Print rolling stats about server: mem, clients, ...\n"
" --latency Enter a special mode continuously sampling latency.\n"
" If you use this mode in an interactive session it runs\n"
" forever displaying real-time stats. Otherwise if --raw or\n"
" --csv is specified, or if you redirect the output to a non\n"
" TTY, it samples the latency for 1 second (you can use\n"
" -i to change the interval), then produces a single output\n"
" and exits.\n",version);
fprintf(stderr,
" --latency-history Like --latency but tracking latency changes over time.\n"
" Default time interval is 15 sec. Change it using -i.\n"
" --latency-dist Shows latency as a spectrum, requires xterm 256 colors.\n"
" Default time interval is 1 sec. Change it using -i.\n"
" --lru-test <keys> Simulate a cache workload with an 80-20 distribution.\n"
" --replica Simulate a replica showing commands received from the master.\n"
" --rdb <filename> Transfer an RDB dump from remote server to local file.\n"
" --pipe Transfer raw Redis protocol from stdin to server.\n"
" --pipe-timeout <n> In --pipe mode, abort with error if after sending all data.\n"
" no reply is received within <n> seconds.\n"
" Default timeout: %d. Use 0 to wait forever.\n",
REDIS_CLI_DEFAULT_PIPE_TIMEOUT);
fprintf(stderr,
" --bigkeys Sample Redis keys looking for keys with many elements (complexity).\n"
" --memkeys Sample Redis keys looking for keys consuming a lot of memory.\n"
" --memkeys-samples <n> Sample Redis keys looking for keys consuming a lot of memory.\n"
" And define number of key elements to sample\n"
" --hotkeys Sample Redis keys looking for hot keys.\n"
" only works when maxmemory-policy is *lfu.\n"
" --scan List all keys using the SCAN command.\n"
" --pattern <pat> Useful with --scan to specify a SCAN pattern.\n"
" --intrinsic-latency <sec> Run a test to measure intrinsic system latency.\n"
" The test will run for the specified amount of seconds.\n"
" --eval <file> Send an EVAL command using the Lua script at <file>.\n"
" --ldb Used with --eval enable the Redis Lua debugger.\n"
" --ldb-sync-mode Like --ldb but uses the synchronous Lua debugger, in\n"
" this mode the server is blocked and script changes are\n"
" not rolled back from the server memory.\n"
" --cluster <command> [args...] [opts...]\n"
" Cluster Manager command and arguments (see below).\n"
" --verbose Verbose mode.\n"
" --no-auth-warning Don't show warning message when using password on command\n"
" line interface.\n"
" --help Output this help and exit.\n"
" --version Output version and exit.\n"
"\n");
/* Using another fprintf call to avoid -Woverlength-strings compile warning */
fprintf(stderr,
"Cluster Manager Commands:\n"
" Use --cluster help to list all available cluster manager commands.\n"
"\n"
"Examples:\n"
" cat /etc/passwd | redis-cli -x set mypasswd\n"
" redis-cli get mypasswd\n"
" redis-cli -r 100 lpush mylist x\n"
" redis-cli -r 100 -i 1 info | grep used_memory_human:\n"
" redis-cli --eval myscript.lua key1 key2 , arg1 arg2 arg3\n"
" redis-cli --scan --pattern '*:12345*'\n"
"\n"
" (Note: when using --eval the comma separates KEYS[] from ARGV[] items)\n"
"\n"
"When no command is given, redis-cli starts in interactive mode.\n"
"Type \"help\" in interactive mode for information on available commands\n"
"and settings.\n"
"\n");
sdsfree(version);
exit(1);
}
static int confirmWithYes(char *msg) {
printf("%s (type 'yes' to accept): ", msg);
fflush(stdout);
char buf[4];
int nread = read(fileno(stdin),buf,4);
buf[3] = '\0';
return (nread != 0 && !strcmp("yes", buf));
}
/* Turn the plain C strings into Sds strings */
static char **convertToSds(int count, char** args) {
int j;
char **sds = zmalloc(sizeof(char*)*count);
for(j = 0; j < count; j++)
sds[j] = sdsnew(args[j]);
return sds;
}
static int issueCommandRepeat(int argc, char **argv, long repeat) {
while (1) {
config.cluster_reissue_command = 0;
if (cliSendCommand(argc,argv,repeat) != REDIS_OK) {
cliConnect(CC_FORCE);
/* If we still cannot send the command print error.
* We'll try to reconnect the next time. */
if (cliSendCommand(argc,argv,repeat) != REDIS_OK) {
cliPrintContextError();
return REDIS_ERR;
}
}
/* Issue the command again if we got redirected in cluster mode */
if (config.cluster_mode && config.cluster_reissue_command) {
cliConnect(CC_FORCE);
} else {
break;
}
}
return REDIS_OK;
}
static int issueCommand(int argc, char **argv) {
return issueCommandRepeat(argc, argv, config.repeat);
}
/* Split the user provided command into multiple SDS arguments.
* This function normally uses sdssplitargs() from sds.c which is able
* to understand "quoted strings", escapes and so forth. However when
* we are in Lua debugging mode and the "eval" command is used, we want
* the remaining Lua script (after "e " or "eval ") to be passed verbatim
* as a single big argument. */
static sds *cliSplitArgs(char *line, int *argc) {
if (config.eval_ldb && (strstr(line,"eval ") == line ||
strstr(line,"e ") == line))
{
sds *argv = sds_malloc(sizeof(sds)*2);
*argc = 2;
int len = strlen(line);
int elen = line[1] == ' ' ? 2 : 5; /* "e " or "eval "? */
argv[0] = sdsnewlen(line,elen-1);
argv[1] = sdsnewlen(line+elen,len-elen);
return argv;
} else {
return sdssplitargs(line,argc);
}
}
/* Set the CLI preferences. This function is invoked when an interactive
* ":command" is called, or when reading ~/.redisclirc file, in order to
* set user preferences. */
void cliSetPreferences(char **argv, int argc, int interactive) {
if (!strcasecmp(argv[0],":set") && argc >= 2) {
if (!strcasecmp(argv[1],"hints")) pref.hints = 1;
else if (!strcasecmp(argv[1],"nohints")) pref.hints = 0;
else {
printf("%sunknown redis-cli preference '%s'\n",
interactive ? "" : ".redisclirc: ",
argv[1]);
}
} else {
printf("%sunknown redis-cli internal command '%s'\n",
interactive ? "" : ".redisclirc: ",
argv[0]);
}
}
/* Load the ~/.redisclirc file if any. */
void cliLoadPreferences(void) {
sds rcfile = getDotfilePath(REDIS_CLI_RCFILE_ENV,REDIS_CLI_RCFILE_DEFAULT);
if (rcfile == NULL) return;
FILE *fp = fopen(rcfile,"r");
char buf[1024];
if (fp) {
while(fgets(buf,sizeof(buf),fp) != NULL) {
sds *argv;
int argc;
argv = sdssplitargs(buf,&argc);
if (argc > 0) cliSetPreferences(argv,argc,0);
sdsfreesplitres(argv,argc);
}
fclose(fp);
}
sdsfree(rcfile);
}
static void repl(void) {
sds historyfile = NULL;
int history = 0;
char *line;
int argc;
sds *argv;
/* Initialize the help and, if possible, use the COMMAND command in order
* to retrieve missing entries. */
cliInitHelp();
cliIntegrateHelp();
config.interactive = 1;
linenoiseSetMultiLine(1);
linenoiseSetCompletionCallback(completionCallback);
linenoiseSetHintsCallback(hintsCallback);
linenoiseSetFreeHintsCallback(freeHintsCallback);
/* Only use history and load the rc file when stdin is a tty. */
if (isatty(fileno(stdin))) {
historyfile = getDotfilePath(REDIS_CLI_HISTFILE_ENV,REDIS_CLI_HISTFILE_DEFAULT);
//keep in-memory history always regardless if history file can be determined
history = 1;
if (historyfile != NULL) {
linenoiseHistoryLoad(historyfile);
}
cliLoadPreferences();
}
cliRefreshPrompt();
while((line = linenoise(context ? config.prompt : "not connected> ")) != NULL) {
if (line[0] != '\0') {
long repeat = 1;
int skipargs = 0;
char *endptr = NULL;
argv = cliSplitArgs(line,&argc);
/* check if we have a repeat command option and
* need to skip the first arg */
if (argv && argc > 0) {
errno = 0;
repeat = strtol(argv[0], &endptr, 10);
if (argc > 1 && *endptr == '\0') {
if (errno == ERANGE || errno == EINVAL || repeat <= 0) {
fputs("Invalid redis-cli repeat command option value.\n", stdout);
sdsfreesplitres(argv, argc);
linenoiseFree(line);
continue;
}
skipargs = 1;
} else {
repeat = 1;
}
}
/* Won't save auth or acl setuser commands in history file */
int dangerous = 0;
if (argv && argc > 0) {
if (!strcasecmp(argv[skipargs], "auth")) {
dangerous = 1;
} else if (skipargs+1 < argc &&
!strcasecmp(argv[skipargs], "acl") &&
!strcasecmp(argv[skipargs+1], "setuser"))
{
dangerous = 1;
}
}
if (!dangerous) {
if (history) linenoiseHistoryAdd(line);
if (historyfile) linenoiseHistorySave(historyfile);
}
if (argv == NULL) {
printf("Invalid argument(s)\n");
linenoiseFree(line);
continue;
} else if (argc > 0) {
if (strcasecmp(argv[0],"quit") == 0 ||
strcasecmp(argv[0],"exit") == 0)
{
exit(0);
} else if (argv[0][0] == ':') {
cliSetPreferences(argv,argc,1);
sdsfreesplitres(argv,argc);
linenoiseFree(line);
continue;
} else if (strcasecmp(argv[0],"restart") == 0) {
if (config.eval) {
config.eval_ldb = 1;
config.output = OUTPUT_RAW;
return; /* Return to evalMode to restart the session. */
} else {
printf("Use 'restart' only in Lua debugging mode.");
}
} else if (argc == 3 && !strcasecmp(argv[0],"connect")) {
sdsfree(config.hostip);
config.hostip = sdsnew(argv[1]);
config.hostport = atoi(argv[2]);
cliRefreshPrompt();
cliConnect(CC_FORCE);
} else if (argc == 1 && !strcasecmp(argv[0],"clear")) {
linenoiseClearScreen();
} else {
long long start_time = mstime(), elapsed;
issueCommandRepeat(argc-skipargs, argv+skipargs, repeat);
/* If our debugging session ended, show the EVAL final
* reply. */
if (config.eval_ldb_end) {
config.eval_ldb_end = 0;
cliReadReply(0);
printf("\n(Lua debugging session ended%s)\n\n",
config.eval_ldb_sync ? "" :
" -- dataset changes rolled back");
}
elapsed = mstime()-start_time;
if (elapsed >= 500 &&
config.output == OUTPUT_STANDARD)
{
printf("(%.2fs)\n",(double)elapsed/1000);
}
}
}
/* Free the argument vector */
sdsfreesplitres(argv,argc);
}
/* linenoise() returns malloc-ed lines like readline() */
linenoiseFree(line);
}
exit(0);
}
static int noninteractive(int argc, char **argv) {
int retval = 0;
if (config.stdinarg) {
argv = zrealloc(argv, (argc+1)*sizeof(char*));
argv[argc] = readArgFromStdin();
retval = issueCommand(argc+1, argv);
} else {
retval = issueCommand(argc, argv);
}
return retval;
}
/*------------------------------------------------------------------------------
* Eval mode
*--------------------------------------------------------------------------- */
static int evalMode(int argc, char **argv) {
sds script = NULL;
FILE *fp;
char buf[1024];
size_t nread;
char **argv2;
int j, got_comma, keys;
int retval = REDIS_OK;
while(1) {
if (config.eval_ldb) {
printf(
"Lua debugging session started, please use:\n"
"quit -- End the session.\n"
"restart -- Restart the script in debug mode again.\n"
"help -- Show Lua script debugging commands.\n\n"
);
}
sdsfree(script);
script = sdsempty();
got_comma = 0;
keys = 0;
/* Load the script from the file, as an sds string. */
fp = fopen(config.eval,"r");
if (!fp) {
fprintf(stderr,
"Can't open file '%s': %s\n", config.eval, strerror(errno));
exit(1);
}
while((nread = fread(buf,1,sizeof(buf),fp)) != 0) {
script = sdscatlen(script,buf,nread);
}
fclose(fp);
/* If we are debugging a script, enable the Lua debugger. */
if (config.eval_ldb) {
redisReply *reply = redisCommand(context,
config.eval_ldb_sync ?
"SCRIPT DEBUG sync": "SCRIPT DEBUG yes");
if (reply) freeReplyObject(reply);
}
/* Create our argument vector */
argv2 = zmalloc(sizeof(sds)*(argc+3));
argv2[0] = sdsnew("EVAL");
argv2[1] = script;
for (j = 0; j < argc; j++) {
if (!got_comma && argv[j][0] == ',' && argv[j][1] == 0) {
got_comma = 1;
continue;
}
argv2[j+3-got_comma] = sdsnew(argv[j]);
if (!got_comma) keys++;
}
argv2[2] = sdscatprintf(sdsempty(),"%d",keys);
/* Call it */
int eval_ldb = config.eval_ldb; /* Save it, may be reverteed. */
retval = issueCommand(argc+3-got_comma, argv2);
if (eval_ldb) {
if (!config.eval_ldb) {
/* If the debugging session ended immediately, there was an
* error compiling the script. Show it and they don't enter
* the REPL at all. */
printf("Eval debugging session can't start:\n");
cliReadReply(0);
break; /* Return to the caller. */
} else {
strncpy(config.prompt,"lua debugger> ",sizeof(config.prompt));
repl();
/* Restart the session if repl() returned. */
cliConnect(CC_FORCE);
printf("\n");
}
} else {
break; /* Return to the caller. */
}
}
return retval;
}
/*------------------------------------------------------------------------------
* Cluster Manager
*--------------------------------------------------------------------------- */
/* The Cluster Manager global structure */
static struct clusterManager {
list *nodes; /* List of nodes in the configuration. */
list *errors;
} cluster_manager;
/* Used by clusterManagerFixSlotsCoverage */
dict *clusterManagerUncoveredSlots = NULL;
typedef struct clusterManagerNode {
redisContext *context;
sds name;
char *ip;
int port;
uint64_t current_epoch;
time_t ping_sent;
time_t ping_recv;
int flags;
list *flags_str; /* Flags string representations */
sds replicate; /* Master ID if node is a slave */
int dirty; /* Node has changes that can be flushed */
uint8_t slots[CLUSTER_MANAGER_SLOTS];
int slots_count;
int replicas_count;
list *friends;
sds *migrating; /* An array of sds where even strings are slots and odd
* strings are the destination node IDs. */
sds *importing; /* An array of sds where even strings are slots and odd
* strings are the source node IDs. */
int migrating_count; /* Length of the migrating array (migrating slots*2) */
int importing_count; /* Length of the importing array (importing slots*2) */
float weight; /* Weight used by rebalance */
int balance; /* Used by rebalance */
} clusterManagerNode;
/* Data structure used to represent a sequence of cluster nodes. */
typedef struct clusterManagerNodeArray {
clusterManagerNode **nodes; /* Actual nodes array */
clusterManagerNode **alloc; /* Pointer to the allocated memory */
int len; /* Actual length of the array */
int count; /* Non-NULL nodes count */
} clusterManagerNodeArray;
/* Used for the reshard table. */
typedef struct clusterManagerReshardTableItem {
clusterManagerNode *source;
int slot;
} clusterManagerReshardTableItem;
/* Info about a cluster internal link. */
typedef struct clusterManagerLink {
sds node_name;
sds node_addr;
int connected;
int handshaking;
} clusterManagerLink;
static dictType clusterManagerDictType = {
dictSdsHash, /* hash function */
NULL, /* key dup */
NULL, /* val dup */
dictSdsKeyCompare, /* key compare */
NULL, /* key destructor */
dictSdsDestructor /* val destructor */
};
static dictType clusterManagerLinkDictType = {
dictSdsHash, /* hash function */
NULL, /* key dup */
NULL, /* val dup */
dictSdsKeyCompare, /* key compare */
dictSdsDestructor, /* key destructor */
dictListDestructor /* val destructor */
};
typedef int clusterManagerCommandProc(int argc, char **argv);
typedef int (*clusterManagerOnReplyError)(redisReply *reply,
clusterManagerNode *n, int bulk_idx);
/* Cluster Manager helper functions */
static clusterManagerNode *clusterManagerNewNode(char *ip, int port);
static clusterManagerNode *clusterManagerNodeByName(const char *name);
static clusterManagerNode *clusterManagerNodeByAbbreviatedName(const char *n);
static void clusterManagerNodeResetSlots(clusterManagerNode *node);
static int clusterManagerNodeIsCluster(clusterManagerNode *node, char **err);
static void clusterManagerPrintNotClusterNodeError(clusterManagerNode *node,
char *err);
static int clusterManagerNodeLoadInfo(clusterManagerNode *node, int opts,
char **err);
static int clusterManagerLoadInfoFromNode(clusterManagerNode *node, int opts);
static int clusterManagerNodeIsEmpty(clusterManagerNode *node, char **err);
static int clusterManagerGetAntiAffinityScore(clusterManagerNodeArray *ipnodes,
int ip_count, clusterManagerNode ***offending, int *offending_len);
static void clusterManagerOptimizeAntiAffinity(clusterManagerNodeArray *ipnodes,
int ip_count);
static sds clusterManagerNodeInfo(clusterManagerNode *node, int indent);
static void clusterManagerShowNodes(void);
static void clusterManagerShowClusterInfo(void);
static int clusterManagerFlushNodeConfig(clusterManagerNode *node, char **err);
static void clusterManagerWaitForClusterJoin(void);
static int clusterManagerCheckCluster(int quiet);
static void clusterManagerLog(int level, const char* fmt, ...);
static int clusterManagerIsConfigConsistent(void);
static dict *clusterManagerGetLinkStatus(void);
static void clusterManagerOnError(sds err);
static void clusterManagerNodeArrayInit(clusterManagerNodeArray *array,
int len);
static void clusterManagerNodeArrayReset(clusterManagerNodeArray *array);
static void clusterManagerNodeArrayShift(clusterManagerNodeArray *array,
clusterManagerNode **nodeptr);
static void clusterManagerNodeArrayAdd(clusterManagerNodeArray *array,
clusterManagerNode *node);
/* Cluster Manager commands. */
static int clusterManagerCommandCreate(int argc, char **argv);
static int clusterManagerCommandAddNode(int argc, char **argv);
static int clusterManagerCommandDeleteNode(int argc, char **argv);
static int clusterManagerCommandInfo(int argc, char **argv);
static int clusterManagerCommandCheck(int argc, char **argv);
static int clusterManagerCommandFix(int argc, char **argv);
static int clusterManagerCommandReshard(int argc, char **argv);
static int clusterManagerCommandRebalance(int argc, char **argv);
static int clusterManagerCommandSetTimeout(int argc, char **argv);
static int clusterManagerCommandImport(int argc, char **argv);
static int clusterManagerCommandCall(int argc, char **argv);
static int clusterManagerCommandHelp(int argc, char **argv);
static int clusterManagerCommandBackup(int argc, char **argv);
typedef struct clusterManagerCommandDef {
char *name;
clusterManagerCommandProc *proc;
int arity;
char *args;
char *options;
} clusterManagerCommandDef;
clusterManagerCommandDef clusterManagerCommands[] = {
{"create", clusterManagerCommandCreate, -2, "host1:port1 ... hostN:portN",
"replicas <arg>"},
{"check", clusterManagerCommandCheck, -1, "host:port",
"search-multiple-owners"},
{"info", clusterManagerCommandInfo, -1, "host:port", NULL},
{"fix", clusterManagerCommandFix, -1, "host:port",
"search-multiple-owners"},
{"reshard", clusterManagerCommandReshard, -1, "host:port",
"from <arg>,to <arg>,slots <arg>,yes,timeout <arg>,pipeline <arg>,"
"replace"},
{"rebalance", clusterManagerCommandRebalance, -1, "host:port",
"weight <node1=w1...nodeN=wN>,use-empty-masters,"
"timeout <arg>,simulate,pipeline <arg>,threshold <arg>,replace"},
{"add-node", clusterManagerCommandAddNode, 2,
"new_host:new_port existing_host:existing_port", "slave,master-id <arg>"},
{"del-node", clusterManagerCommandDeleteNode, 2, "host:port node_id",NULL},
{"call", clusterManagerCommandCall, -2,
"host:port command arg arg .. arg", NULL},
{"set-timeout", clusterManagerCommandSetTimeout, 2,
"host:port milliseconds", NULL},
{"import", clusterManagerCommandImport, 1, "host:port",
"from <arg>,copy,replace"},
{"backup", clusterManagerCommandBackup, 2, "host:port backup_directory",
NULL},
{"help", clusterManagerCommandHelp, 0, NULL, NULL}
};
static void getRDB(clusterManagerNode *node);
static void createClusterManagerCommand(char *cmdname, int argc, char **argv) {
clusterManagerCommand *cmd = &config.cluster_manager_command;
cmd->name = cmdname;
cmd->argc = argc;
cmd->argv = argc ? argv : NULL;
if (isColorTerm()) cmd->flags |= CLUSTER_MANAGER_CMD_FLAG_COLOR;
}
static clusterManagerCommandProc *validateClusterManagerCommand(void) {
int i, commands_count = sizeof(clusterManagerCommands) /
sizeof(clusterManagerCommandDef);
clusterManagerCommandProc *proc = NULL;
char *cmdname = config.cluster_manager_command.name;
int argc = config.cluster_manager_command.argc;
for (i = 0; i < commands_count; i++) {
clusterManagerCommandDef cmddef = clusterManagerCommands[i];
if (!strcmp(cmddef.name, cmdname)) {
if ((cmddef.arity > 0 && argc != cmddef.arity) ||
(cmddef.arity < 0 && argc < (cmddef.arity * -1))) {
fprintf(stderr, "[ERR] Wrong number of arguments for "
"specified --cluster sub command\n");
return NULL;
}
proc = cmddef.proc;
}
}
if (!proc) fprintf(stderr, "Unknown --cluster subcommand\n");
return proc;
}
static int parseClusterNodeAddress(char *addr, char **ip_ptr, int *port_ptr,
int *bus_port_ptr)
{
char *c = strrchr(addr, '@');
if (c != NULL) {
*c = '\0';
if (bus_port_ptr != NULL)
*bus_port_ptr = atoi(c + 1);
}
c = strrchr(addr, ':');
if (c != NULL) {
*c = '\0';
*ip_ptr = addr;
*port_ptr = atoi(++c);
} else return 0;
return 1;
}
/* Get host ip and port from command arguments. If only one argument has
* been provided it must be in the form of 'ip:port', elsewhere
* the first argument must be the ip and the second one the port.
* If host and port can be detected, it returns 1 and it stores host and
* port into variables referenced by'ip_ptr' and 'port_ptr' pointers,
* elsewhere it returns 0. */
static int getClusterHostFromCmdArgs(int argc, char **argv,
char **ip_ptr, int *port_ptr) {
int port = 0;
char *ip = NULL;
if (argc == 1) {
char *addr = argv[0];
if (!parseClusterNodeAddress(addr, &ip, &port, NULL)) return 0;
} else {
ip = argv[0];
port = atoi(argv[1]);
}
if (!ip || !port) return 0;
else {
*ip_ptr = ip;
*port_ptr = port;
}
return 1;
}
static void freeClusterManagerNodeFlags(list *flags) {
listIter li;
listNode *ln;
listRewind(flags, &li);
while ((ln = listNext(&li)) != NULL) {
sds flag = ln->value;
sdsfree(flag);
}
listRelease(flags);
}
static void freeClusterManagerNode(clusterManagerNode *node) {
if (node->context != NULL) redisFree(node->context);
if (node->friends != NULL) {
listIter li;
listNode *ln;
listRewind(node->friends,&li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *fn = ln->value;
freeClusterManagerNode(fn);
}
listRelease(node->friends);
node->friends = NULL;
}
if (node->name != NULL) sdsfree(node->name);
if (node->replicate != NULL) sdsfree(node->replicate);
if ((node->flags & CLUSTER_MANAGER_FLAG_FRIEND) && node->ip)
sdsfree(node->ip);
int i;
if (node->migrating != NULL) {
for (i = 0; i < node->migrating_count; i++) sdsfree(node->migrating[i]);
zfree(node->migrating);
}
if (node->importing != NULL) {
for (i = 0; i < node->importing_count; i++) sdsfree(node->importing[i]);
zfree(node->importing);
}
if (node->flags_str != NULL) {
freeClusterManagerNodeFlags(node->flags_str);
node->flags_str = NULL;
}
zfree(node);
}
static void freeClusterManager(void) {
listIter li;
listNode *ln;
if (cluster_manager.nodes != NULL) {
listRewind(cluster_manager.nodes,&li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *n = ln->value;
freeClusterManagerNode(n);
}
listRelease(cluster_manager.nodes);
cluster_manager.nodes = NULL;
}
if (cluster_manager.errors != NULL) {
listRewind(cluster_manager.errors,&li);
while ((ln = listNext(&li)) != NULL) {
sds err = ln->value;
sdsfree(err);
}
listRelease(cluster_manager.errors);
cluster_manager.errors = NULL;
}
if (clusterManagerUncoveredSlots != NULL)
dictRelease(clusterManagerUncoveredSlots);
}
static clusterManagerNode *clusterManagerNewNode(char *ip, int port) {
clusterManagerNode *node = zmalloc(sizeof(*node));
node->context = NULL;
node->name = NULL;
node->ip = ip;
node->port = port;
node->current_epoch = 0;
node->ping_sent = 0;
node->ping_recv = 0;
node->flags = 0;
node->flags_str = NULL;
node->replicate = NULL;
node->dirty = 0;
node->friends = NULL;
node->migrating = NULL;
node->importing = NULL;
node->migrating_count = 0;
node->importing_count = 0;
node->replicas_count = 0;
node->weight = 1.0f;
node->balance = 0;
clusterManagerNodeResetSlots(node);
return node;
}
static sds clusterManagerGetNodeRDBFilename(clusterManagerNode *node) {
assert(config.cluster_manager_command.backup_dir);
sds filename = sdsnew(config.cluster_manager_command.backup_dir);
if (filename[sdslen(filename) - 1] != '/')
filename = sdscat(filename, "/");
filename = sdscatprintf(filename, "redis-node-%s-%d-%s.rdb", node->ip,
node->port, node->name);
return filename;
}
/* Check whether reply is NULL or its type is REDIS_REPLY_ERROR. In the
* latest case, if the 'err' arg is not NULL, it gets allocated with a copy
* of reply error (it's up to the caller function to free it), elsewhere
* the error is directly printed. */
static int clusterManagerCheckRedisReply(clusterManagerNode *n,
redisReply *r, char **err)
{
int is_err = 0;
if (!r || (is_err = (r->type == REDIS_REPLY_ERROR))) {
if (is_err) {
if (err != NULL) {
*err = zmalloc((r->len + 1) * sizeof(char));
strcpy(*err, r->str);
} else CLUSTER_MANAGER_PRINT_REPLY_ERROR(n, r->str);
}
return 0;
}
return 1;
}
/* Call MULTI command on a cluster node. */
static int clusterManagerStartTransaction(clusterManagerNode *node) {
redisReply *reply = CLUSTER_MANAGER_COMMAND(node, "MULTI");
int success = clusterManagerCheckRedisReply(node, reply, NULL);
if (reply) freeReplyObject(reply);
return success;
}
/* Call EXEC command on a cluster node. */
static int clusterManagerExecTransaction(clusterManagerNode *node,
clusterManagerOnReplyError onerror)
{
redisReply *reply = CLUSTER_MANAGER_COMMAND(node, "EXEC");
int success = clusterManagerCheckRedisReply(node, reply, NULL);
if (success) {
if (reply->type != REDIS_REPLY_ARRAY) {
success = 0;
goto cleanup;
}
size_t i;
for (i = 0; i < reply->elements; i++) {
redisReply *r = reply->element[i];
char *err = NULL;
success = clusterManagerCheckRedisReply(node, r, &err);
if (!success && onerror) success = onerror(r, node, i);
if (err) {
if (!success)
CLUSTER_MANAGER_PRINT_REPLY_ERROR(node, err);
zfree(err);
}
if (!success) break;
}
}
cleanup:
if (reply) freeReplyObject(reply);
return success;
}
static int clusterManagerNodeConnect(clusterManagerNode *node) {
if (node->context) redisFree(node->context);
node->context = redisConnect(node->ip, node->port);
if (!node->context->err && config.tls) {
const char *err = NULL;
if (cliSecureConnection(node->context, &err) == REDIS_ERR && err) {
fprintf(stderr,"TLS Error: %s\n", err);
redisFree(node->context);
node->context = NULL;
return 0;
}
}
if (node->context->err) {
fprintf(stderr,"Could not connect to Redis at ");
fprintf(stderr,"%s:%d: %s\n", node->ip, node->port,
node->context->errstr);
redisFree(node->context);
node->context = NULL;
return 0;
}
/* Set aggressive KEEP_ALIVE socket option in the Redis context socket
* in order to prevent timeouts caused by the execution of long
* commands. At the same time this improves the detection of real
* errors. */
anetKeepAlive(NULL, node->context->fd, REDIS_CLI_KEEPALIVE_INTERVAL);
if (config.auth) {
redisReply *reply;
if (config.user == NULL)
reply = redisCommand(node->context,"AUTH %s", config.auth);
else
reply = redisCommand(node->context,"AUTH %s %s",
config.user,config.auth);
int ok = clusterManagerCheckRedisReply(node, reply, NULL);
if (reply != NULL) freeReplyObject(reply);
if (!ok) return 0;
}
return 1;
}
static void clusterManagerRemoveNodeFromList(list *nodelist,
clusterManagerNode *node) {
listIter li;
listNode *ln;
listRewind(nodelist, &li);
while ((ln = listNext(&li)) != NULL) {
if (node == ln->value) {
listDelNode(nodelist, ln);
break;
}
}
}
/* Return the node with the specified name (ID) or NULL. */
static clusterManagerNode *clusterManagerNodeByName(const char *name) {
if (cluster_manager.nodes == NULL) return NULL;
clusterManagerNode *found = NULL;
sds lcname = sdsempty();
lcname = sdscpy(lcname, name);
sdstolower(lcname);
listIter li;
listNode *ln;
listRewind(cluster_manager.nodes, &li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *n = ln->value;
if (n->name && !sdscmp(n->name, lcname)) {
found = n;
break;
}
}
sdsfree(lcname);
return found;
}
/* Like clusterManagerNodeByName but the specified name can be just the first
* part of the node ID as long as the prefix in unique across the
* cluster.
*/
static clusterManagerNode *clusterManagerNodeByAbbreviatedName(const char*name)
{
if (cluster_manager.nodes == NULL) return NULL;
clusterManagerNode *found = NULL;
sds lcname = sdsempty();
lcname = sdscpy(lcname, name);
sdstolower(lcname);
listIter li;
listNode *ln;
listRewind(cluster_manager.nodes, &li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *n = ln->value;
if (n->name &&
strstr(n->name, lcname) == n->name) {
found = n;
break;
}
}
sdsfree(lcname);
return found;
}
static void clusterManagerNodeResetSlots(clusterManagerNode *node) {
memset(node->slots, 0, sizeof(node->slots));
node->slots_count = 0;
}
/* Call "INFO" redis command on the specified node and return the reply. */
static redisReply *clusterManagerGetNodeRedisInfo(clusterManagerNode *node,
char **err)
{
redisReply *info = CLUSTER_MANAGER_COMMAND(node, "INFO");
if (err != NULL) *err = NULL;
if (info == NULL) return NULL;
if (info->type == REDIS_REPLY_ERROR) {
if (err != NULL) {
*err = zmalloc((info->len + 1) * sizeof(char));
strcpy(*err, info->str);
}
freeReplyObject(info);
return NULL;
}
return info;
}
static int clusterManagerNodeIsCluster(clusterManagerNode *node, char **err) {
redisReply *info = clusterManagerGetNodeRedisInfo(node, err);
if (info == NULL) return 0;
int is_cluster = (int) getLongInfoField(info->str, "cluster_enabled");
freeReplyObject(info);
return is_cluster;
}
/* Checks whether the node is empty. Node is considered not-empty if it has
* some key or if it already knows other nodes */
static int clusterManagerNodeIsEmpty(clusterManagerNode *node, char **err) {
redisReply *info = clusterManagerGetNodeRedisInfo(node, err);
int is_empty = 1;
if (info == NULL) return 0;
if (strstr(info->str, "db0:") != NULL) {
is_empty = 0;
goto result;
}
freeReplyObject(info);
info = CLUSTER_MANAGER_COMMAND(node, "CLUSTER INFO");
if (err != NULL) *err = NULL;
if (!clusterManagerCheckRedisReply(node, info, err)) {
is_empty = 0;
goto result;
}
long known_nodes = getLongInfoField(info->str, "cluster_known_nodes");
is_empty = (known_nodes == 1);
result:
freeReplyObject(info);
return is_empty;
}
/* Return the anti-affinity score, which is a measure of the amount of
* violations of anti-affinity in the current cluster layout, that is, how
* badly the masters and slaves are distributed in the different IP
* addresses so that slaves of the same master are not in the master
* host and are also in different hosts.
*
* The score is calculated as follows:
*
* SAME_AS_MASTER = 10000 * each slave in the same IP of its master.
* SAME_AS_SLAVE = 1 * each slave having the same IP as another slave
of the same master.
* FINAL_SCORE = SAME_AS_MASTER + SAME_AS_SLAVE
*
* So a greater score means a worse anti-affinity level, while zero
* means perfect anti-affinity.
*
* The anti affinity optimizator will try to get a score as low as
* possible. Since we do not want to sacrifice the fact that slaves should
* not be in the same host as the master, we assign 10000 times the score
* to this violation, so that we'll optimize for the second factor only
* if it does not impact the first one.
*
* The ipnodes argument is an array of clusterManagerNodeArray, one for
* each IP, while ip_count is the total number of IPs in the configuration.
*
* The function returns the above score, and the list of
* offending slaves can be stored into the 'offending' argument,
* so that the optimizer can try changing the configuration of the
* slaves violating the anti-affinity goals. */
static int clusterManagerGetAntiAffinityScore(clusterManagerNodeArray *ipnodes,
int ip_count, clusterManagerNode ***offending, int *offending_len)
{
int score = 0, i, j;
int node_len = cluster_manager.nodes->len;
clusterManagerNode **offending_p = NULL;
if (offending != NULL) {
*offending = zcalloc(node_len * sizeof(clusterManagerNode*));
offending_p = *offending;
}
/* For each set of nodes in the same host, split by
* related nodes (masters and slaves which are involved in
* replication of each other) */
for (i = 0; i < ip_count; i++) {
clusterManagerNodeArray *node_array = &(ipnodes[i]);
dict *related = dictCreate(&clusterManagerDictType, NULL);
char *ip = NULL;
for (j = 0; j < node_array->len; j++) {
clusterManagerNode *node = node_array->nodes[j];
if (node == NULL) continue;
if (!ip) ip = node->ip;
sds types;
/* We always use the Master ID as key. */
sds key = (!node->replicate ? node->name : node->replicate);
assert(key != NULL);
dictEntry *entry = dictFind(related, key);
if (entry) types = sdsdup((sds) dictGetVal(entry));
else types = sdsempty();
/* Master type 'm' is always set as the first character of the
* types string. */
if (!node->replicate) types = sdscatprintf(types, "m%s", types);
else types = sdscat(types, "s");
dictReplace(related, key, types);
}
/* Now it's trivial to check, for each related group having the
* same host, what is their local score. */
dictIterator *iter = dictGetIterator(related);
dictEntry *entry;
while ((entry = dictNext(iter)) != NULL) {
sds types = (sds) dictGetVal(entry);
sds name = (sds) dictGetKey(entry);
int typeslen = sdslen(types);
if (typeslen < 2) continue;
if (types[0] == 'm') score += (10000 * (typeslen - 1));
else score += (1 * typeslen);
if (offending == NULL) continue;
/* Populate the list of offending nodes. */
listIter li;
listNode *ln;
listRewind(cluster_manager.nodes, &li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *n = ln->value;
if (n->replicate == NULL) continue;
if (!strcmp(n->replicate, name) && !strcmp(n->ip, ip)) {
*(offending_p++) = n;
if (offending_len != NULL) (*offending_len)++;
break;
}
}
}
//if (offending_len != NULL) *offending_len = offending_p - *offending;
dictReleaseIterator(iter);
dictRelease(related);
}
return score;
}
static void clusterManagerOptimizeAntiAffinity(clusterManagerNodeArray *ipnodes,
int ip_count)
{
clusterManagerNode **offenders = NULL;
int score = clusterManagerGetAntiAffinityScore(ipnodes, ip_count,
NULL, NULL);
if (score == 0) goto cleanup;
clusterManagerLogInfo(">>> Trying to optimize slaves allocation "
"for anti-affinity\n");
int node_len = cluster_manager.nodes->len;
int maxiter = 500 * node_len; // Effort is proportional to cluster size...
srand(time(NULL));
while (maxiter > 0) {
int offending_len = 0;
if (offenders != NULL) {
zfree(offenders);
offenders = NULL;
}
score = clusterManagerGetAntiAffinityScore(ipnodes,
ip_count,
&offenders,
&offending_len);
if (score == 0) break; // Optimal anti affinity reached
/* We'll try to randomly swap a slave's assigned master causing
* an affinity problem with another random slave, to see if we
* can improve the affinity. */
int rand_idx = rand() % offending_len;
clusterManagerNode *first = offenders[rand_idx],
*second = NULL;
clusterManagerNode **other_replicas = zcalloc((node_len - 1) *
sizeof(*other_replicas));
int other_replicas_count = 0;
listIter li;
listNode *ln;
listRewind(cluster_manager.nodes, &li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *n = ln->value;
if (n != first && n->replicate != NULL)
other_replicas[other_replicas_count++] = n;
}
if (other_replicas_count == 0) {
zfree(other_replicas);
break;
}
rand_idx = rand() % other_replicas_count;
second = other_replicas[rand_idx];
char *first_master = first->replicate,
*second_master = second->replicate;
first->replicate = second_master, first->dirty = 1;
second->replicate = first_master, second->dirty = 1;
int new_score = clusterManagerGetAntiAffinityScore(ipnodes,
ip_count,
NULL, NULL);
/* If the change actually makes thing worse, revert. Otherwise
* leave as it is because the best solution may need a few
* combined swaps. */
if (new_score > score) {
first->replicate = first_master;
second->replicate = second_master;
}
zfree(other_replicas);
maxiter--;
}
score = clusterManagerGetAntiAffinityScore(ipnodes, ip_count, NULL, NULL);
char *msg;
int perfect = (score == 0);
int log_level = (perfect ? CLUSTER_MANAGER_LOG_LVL_SUCCESS :
CLUSTER_MANAGER_LOG_LVL_WARN);
if (perfect) msg = "[OK] Perfect anti-affinity obtained!";
else if (score >= 10000)
msg = ("[WARNING] Some slaves are in the same host as their master");
else
msg=("[WARNING] Some slaves of the same master are in the same host");
clusterManagerLog(log_level, "%s\n", msg);
cleanup:
zfree(offenders);
}
/* Return a representable string of the node's flags */
static sds clusterManagerNodeFlagString(clusterManagerNode *node) {
sds flags = sdsempty();
if (!node->flags_str) return flags;
int empty = 1;
listIter li;
listNode *ln;
listRewind(node->flags_str, &li);
while ((ln = listNext(&li)) != NULL) {
sds flag = ln->value;
if (strcmp(flag, "myself") == 0) continue;
if (!empty) flags = sdscat(flags, ",");
flags = sdscatfmt(flags, "%S", flag);
empty = 0;
}
return flags;
}
/* Return a representable string of the node's slots */
static sds clusterManagerNodeSlotsString(clusterManagerNode *node) {
sds slots = sdsempty();
int first_range_idx = -1, last_slot_idx = -1, i;
for (i = 0; i < CLUSTER_MANAGER_SLOTS; i++) {
int has_slot = node->slots[i];
if (has_slot) {
if (first_range_idx == -1) {
if (sdslen(slots)) slots = sdscat(slots, ",");
first_range_idx = i;
slots = sdscatfmt(slots, "[%u", i);
}
last_slot_idx = i;
} else {
if (last_slot_idx >= 0) {
if (first_range_idx == last_slot_idx)
slots = sdscat(slots, "]");
else slots = sdscatfmt(slots, "-%u]", last_slot_idx);
}
last_slot_idx = -1;
first_range_idx = -1;
}
}
if (last_slot_idx >= 0) {
if (first_range_idx == last_slot_idx) slots = sdscat(slots, "]");
else slots = sdscatfmt(slots, "-%u]", last_slot_idx);
}
return slots;
}
static sds clusterManagerNodeGetJSON(clusterManagerNode *node,
unsigned long error_count)
{
sds json = sdsempty();
sds replicate = sdsempty();
if (node->replicate)
replicate = sdscatprintf(replicate, "\"%s\"", node->replicate);
else
replicate = sdscat(replicate, "null");
sds slots = clusterManagerNodeSlotsString(node);
sds flags = clusterManagerNodeFlagString(node);
char *p = slots;
while ((p = strchr(p, '-')) != NULL)
*(p++) = ',';
json = sdscatprintf(json,
" {\n"
" \"name\": \"%s\",\n"
" \"host\": \"%s\",\n"
" \"port\": %d,\n"
" \"replicate\": %s,\n"
" \"slots\": [%s],\n"
" \"slots_count\": %d,\n"
" \"flags\": \"%s\",\n"
" \"current_epoch\": %llu",
node->name,
node->ip,
node->port,
replicate,
slots,
node->slots_count,
flags,
(unsigned long long)node->current_epoch
);
if (error_count > 0) {
json = sdscatprintf(json, ",\n \"cluster_errors\": %lu",
error_count);
}
if (node->migrating_count > 0 && node->migrating != NULL) {
int i = 0;
sds migrating = sdsempty();
for (; i < node->migrating_count; i += 2) {
sds slot = node->migrating[i];
sds dest = node->migrating[i + 1];
if (slot && dest) {
if (sdslen(migrating) > 0) migrating = sdscat(migrating, ",");
migrating = sdscatfmt(migrating, "\"%S\": \"%S\"", slot, dest);
}
}
if (sdslen(migrating) > 0)
json = sdscatfmt(json, ",\n \"migrating\": {%S}", migrating);
sdsfree(migrating);
}
if (node->importing_count > 0 && node->importing != NULL) {
int i = 0;
sds importing = sdsempty();
for (; i < node->importing_count; i += 2) {
sds slot = node->importing[i];
sds from = node->importing[i + 1];
if (slot && from) {
if (sdslen(importing) > 0) importing = sdscat(importing, ",");
importing = sdscatfmt(importing, "\"%S\": \"%S\"", slot, from);
}
}
if (sdslen(importing) > 0)
json = sdscatfmt(json, ",\n \"importing\": {%S}", importing);
sdsfree(importing);
}
json = sdscat(json, "\n }");
sdsfree(replicate);
sdsfree(slots);
sdsfree(flags);
return json;
}
/* -----------------------------------------------------------------------------
* Key space handling
* -------------------------------------------------------------------------- */
/* We have 16384 hash slots. The hash slot of a given key is obtained
* as the least significant 14 bits of the crc16 of the key.
*
* However if the key contains the {...} pattern, only the part between
* { and } is hashed. This may be useful in the future to force certain
* keys to be in the same node (assuming no resharding is in progress). */
static unsigned int clusterManagerKeyHashSlot(char *key, int keylen) {
int s, e; /* start-end indexes of { and } */
for (s = 0; s < keylen; s++)
if (key[s] == '{') break;
/* No '{' ? Hash the whole key. This is the base case. */
if (s == keylen) return crc16(key,keylen) & 0x3FFF;
/* '{' found? Check if we have the corresponding '}'. */
for (e = s+1; e < keylen; e++)
if (key[e] == '}') break;
/* No '}' or nothing between {} ? Hash the whole key. */
if (e == keylen || e == s+1) return crc16(key,keylen) & 0x3FFF;
/* If we are here there is both a { and a } on its right. Hash
* what is in the middle between { and }. */
return crc16(key+s+1,e-s-1) & 0x3FFF;
}
/* Return a string representation of the cluster node. */
static sds clusterManagerNodeInfo(clusterManagerNode *node, int indent) {
sds info = sdsempty();
sds spaces = sdsempty();
int i;
for (i = 0; i < indent; i++) spaces = sdscat(spaces, " ");
if (indent) info = sdscat(info, spaces);
int is_master = !(node->flags & CLUSTER_MANAGER_FLAG_SLAVE);
char *role = (is_master ? "M" : "S");
sds slots = NULL;
if (node->dirty && node->replicate != NULL)
info = sdscatfmt(info, "S: %S %s:%u", node->name, node->ip, node->port);
else {
slots = clusterManagerNodeSlotsString(node);
sds flags = clusterManagerNodeFlagString(node);
info = sdscatfmt(info, "%s: %S %s:%u\n"
"%s slots:%S (%u slots) "
"%S",
role, node->name, node->ip, node->port, spaces,
slots, node->slots_count, flags);
sdsfree(slots);
sdsfree(flags);
}
if (node->replicate != NULL)
info = sdscatfmt(info, "\n%s replicates %S", spaces, node->replicate);
else if (node->replicas_count)
info = sdscatfmt(info, "\n%s %U additional replica(s)",
spaces, node->replicas_count);
sdsfree(spaces);
return info;
}
static void clusterManagerShowNodes(void) {
listIter li;
listNode *ln;
listRewind(cluster_manager.nodes, &li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *node = ln->value;
sds info = clusterManagerNodeInfo(node, 0);
printf("%s\n", (char *) info);
sdsfree(info);
}
}
static void clusterManagerShowClusterInfo(void) {
int masters = 0;
int keys = 0;
listIter li;
listNode *ln;
listRewind(cluster_manager.nodes, &li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *node = ln->value;
if (!(node->flags & CLUSTER_MANAGER_FLAG_SLAVE)) {
if (!node->name) continue;
int replicas = 0;
int dbsize = -1;
char name[9];
memcpy(name, node->name, 8);
name[8] = '\0';
listIter ri;
listNode *rn;
listRewind(cluster_manager.nodes, &ri);
while ((rn = listNext(&ri)) != NULL) {
clusterManagerNode *n = rn->value;
if (n == node || !(n->flags & CLUSTER_MANAGER_FLAG_SLAVE))
continue;
if (n->replicate && !strcmp(n->replicate, node->name))
replicas++;
}
redisReply *reply = CLUSTER_MANAGER_COMMAND(node, "DBSIZE");
if (reply != NULL && reply->type == REDIS_REPLY_INTEGER)
dbsize = reply->integer;
if (dbsize < 0) {
char *err = "";
if (reply != NULL && reply->type == REDIS_REPLY_ERROR)
err = reply->str;
CLUSTER_MANAGER_PRINT_REPLY_ERROR(node, err);
if (reply != NULL) freeReplyObject(reply);
return;
};
if (reply != NULL) freeReplyObject(reply);
printf("%s:%d (%s...) -> %d keys | %d slots | %d slaves.\n",
node->ip, node->port, name, dbsize,
node->slots_count, replicas);
masters++;
keys += dbsize;
}
}
clusterManagerLogOk("[OK] %d keys in %d masters.\n", keys, masters);
float keys_per_slot = keys / (float) CLUSTER_MANAGER_SLOTS;
printf("%.2f keys per slot on average.\n", keys_per_slot);
}
/* Flush dirty slots configuration of the node by calling CLUSTER ADDSLOTS */
static int clusterManagerAddSlots(clusterManagerNode *node, char**err)
{
redisReply *reply = NULL;
void *_reply = NULL;
int success = 1;
/* First two args are used for the command itself. */
int argc = node->slots_count + 2;
sds *argv = zmalloc(argc * sizeof(*argv));
size_t *argvlen = zmalloc(argc * sizeof(*argvlen));
argv[0] = "CLUSTER";
argv[1] = "ADDSLOTS";
argvlen[0] = 7;
argvlen[1] = 8;
*err = NULL;
int i, argv_idx = 2;
for (i = 0; i < CLUSTER_MANAGER_SLOTS; i++) {
if (argv_idx >= argc) break;
if (node->slots[i]) {
argv[argv_idx] = sdsfromlonglong((long long) i);
argvlen[argv_idx] = sdslen(argv[argv_idx]);
argv_idx++;
}
}
if (!argv_idx) {
success = 0;
goto cleanup;
}
redisAppendCommandArgv(node->context,argc,(const char**)argv,argvlen);
if (redisGetReply(node->context, &_reply) != REDIS_OK) {
success = 0;
goto cleanup;
}
reply = (redisReply*) _reply;
success = clusterManagerCheckRedisReply(node, reply, err);
cleanup:
zfree(argvlen);
if (argv != NULL) {
for (i = 2; i < argc; i++) sdsfree(argv[i]);
zfree(argv);
}
if (reply != NULL) freeReplyObject(reply);
return success;
}
/* Get the node the slot is assigned to from the point of view of node *n.
* If the slot is unassigned or if the reply is an error, return NULL.
* Use the **err argument in order to check wether the slot is unassigned
* or the reply resulted in an error. */
static clusterManagerNode *clusterManagerGetSlotOwner(clusterManagerNode *n,
int slot, char **err)
{
assert(slot >= 0 && slot < CLUSTER_MANAGER_SLOTS);
clusterManagerNode *owner = NULL;
redisReply *reply = CLUSTER_MANAGER_COMMAND(n, "CLUSTER SLOTS");
if (clusterManagerCheckRedisReply(n, reply, err)) {
assert(reply->type == REDIS_REPLY_ARRAY);
size_t i;
for (i = 0; i < reply->elements; i++) {
redisReply *r = reply->element[i];
assert(r->type == REDIS_REPLY_ARRAY && r->elements >= 3);
int from, to;
from = r->element[0]->integer;
to = r->element[1]->integer;
if (slot < from || slot > to) continue;
redisReply *nr = r->element[2];
assert(nr->type == REDIS_REPLY_ARRAY && nr->elements >= 2);
char *name = NULL;
if (nr->elements >= 3)
name = nr->element[2]->str;
if (name != NULL)
owner = clusterManagerNodeByName(name);
else {
char *ip = nr->element[0]->str;
assert(ip != NULL);
int port = (int) nr->element[1]->integer;
listIter li;
listNode *ln;
listRewind(cluster_manager.nodes, &li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *nd = ln->value;
if (strcmp(nd->ip, ip) == 0 && port == nd->port) {
owner = nd;
break;
}
}
}
if (owner) break;
}
}
if (reply) freeReplyObject(reply);
return owner;
}
/* Set slot status to "importing" or "migrating" */
static int clusterManagerSetSlot(clusterManagerNode *node1,
clusterManagerNode *node2,
int slot, const char *status, char **err) {
redisReply *reply = CLUSTER_MANAGER_COMMAND(node1, "CLUSTER "
"SETSLOT %d %s %s",
slot, status,
(char *) node2->name);
if (err != NULL) *err = NULL;
if (!reply) return 0;
int success = 1;
if (reply->type == REDIS_REPLY_ERROR) {
success = 0;
if (err != NULL) {
*err = zmalloc((reply->len + 1) * sizeof(char));
strcpy(*err, reply->str);
} else CLUSTER_MANAGER_PRINT_REPLY_ERROR(node1, reply->str);
goto cleanup;
}
cleanup:
freeReplyObject(reply);
return success;
}
static int clusterManagerClearSlotStatus(clusterManagerNode *node, int slot) {
redisReply *reply = CLUSTER_MANAGER_COMMAND(node,
"CLUSTER SETSLOT %d %s", slot, "STABLE");
int success = clusterManagerCheckRedisReply(node, reply, NULL);
if (reply) freeReplyObject(reply);
return success;
}
static int clusterManagerDelSlot(clusterManagerNode *node, int slot,
int ignore_unassigned_err)
{
redisReply *reply = CLUSTER_MANAGER_COMMAND(node,
"CLUSTER DELSLOTS %d", slot);
char *err = NULL;
int success = clusterManagerCheckRedisReply(node, reply, &err);
if (!success && reply && reply->type == REDIS_REPLY_ERROR &&
ignore_unassigned_err)
{
char *get_owner_err = NULL;
clusterManagerNode *assigned_to =
clusterManagerGetSlotOwner(node, slot, &get_owner_err);
if (!assigned_to) {
if (get_owner_err == NULL) success = 1;
else {
CLUSTER_MANAGER_PRINT_REPLY_ERROR(node, get_owner_err);
zfree(get_owner_err);
}
}
}
if (!success && err != NULL) {
CLUSTER_MANAGER_PRINT_REPLY_ERROR(node, err);
zfree(err);
}
if (reply) freeReplyObject(reply);
return success;
}
static int clusterManagerAddSlot(clusterManagerNode *node, int slot) {
redisReply *reply = CLUSTER_MANAGER_COMMAND(node,
"CLUSTER ADDSLOTS %d", slot);
int success = clusterManagerCheckRedisReply(node, reply, NULL);
if (reply) freeReplyObject(reply);
return success;
}
static signed int clusterManagerCountKeysInSlot(clusterManagerNode *node,
int slot)
{
redisReply *reply = CLUSTER_MANAGER_COMMAND(node,
"CLUSTER COUNTKEYSINSLOT %d", slot);
int count = -1;
int success = clusterManagerCheckRedisReply(node, reply, NULL);
if (success && reply->type == REDIS_REPLY_INTEGER) count = reply->integer;
if (reply) freeReplyObject(reply);
return count;
}
static int clusterManagerBumpEpoch(clusterManagerNode *node) {
redisReply *reply = CLUSTER_MANAGER_COMMAND(node, "CLUSTER BUMPEPOCH");
int success = clusterManagerCheckRedisReply(node, reply, NULL);
if (reply) freeReplyObject(reply);
return success;
}
/* Callback used by clusterManagerSetSlotOwner transaction. It should ignore
* errors except for ADDSLOTS errors.
* Return 1 if the error should be ignored. */
static int clusterManagerOnSetOwnerErr(redisReply *reply,
clusterManagerNode *n, int bulk_idx)
{
UNUSED(reply);
UNUSED(n);
/* Only raise error when ADDSLOTS fail (bulk_idx == 1). */
return (bulk_idx != 1);
}
static int clusterManagerSetSlotOwner(clusterManagerNode *owner,
int slot,
int do_clear)
{
int success = clusterManagerStartTransaction(owner);
if (!success) return 0;
/* Ensure the slot is not already assigned. */
clusterManagerDelSlot(owner, slot, 1);
/* Add the slot and bump epoch. */
clusterManagerAddSlot(owner, slot);
if (do_clear) clusterManagerClearSlotStatus(owner, slot);
clusterManagerBumpEpoch(owner);
success = clusterManagerExecTransaction(owner, clusterManagerOnSetOwnerErr);
return success;
}
/* Get the hash for the values of the specified keys in *keys_reply for the
* specified nodes *n1 and *n2, by calling DEBUG DIGEST-VALUE redis command
* on both nodes. Every key with same name on both nodes but having different
* values will be added to the *diffs list. Return 0 in case of reply
* error. */
static int clusterManagerCompareKeysValues(clusterManagerNode *n1,
clusterManagerNode *n2,
redisReply *keys_reply,
list *diffs)
{
size_t i, argc = keys_reply->elements + 2;
static const char *hash_zero = "0000000000000000000000000000000000000000";
char **argv = zcalloc(argc * sizeof(char *));
size_t *argv_len = zcalloc(argc * sizeof(size_t));
argv[0] = "DEBUG";
argv_len[0] = 5;
argv[1] = "DIGEST-VALUE";
argv_len[1] = 12;
for (i = 0; i < keys_reply->elements; i++) {
redisReply *entry = keys_reply->element[i];
int idx = i + 2;
argv[idx] = entry->str;
argv_len[idx] = entry->len;
}
int success = 0;
void *_reply1 = NULL, *_reply2 = NULL;
redisReply *r1 = NULL, *r2 = NULL;
redisAppendCommandArgv(n1->context,argc, (const char**)argv,argv_len);
success = (redisGetReply(n1->context, &_reply1) == REDIS_OK);
if (!success) goto cleanup;
r1 = (redisReply *) _reply1;
redisAppendCommandArgv(n2->context,argc, (const char**)argv,argv_len);
success = (redisGetReply(n2->context, &_reply2) == REDIS_OK);
if (!success) goto cleanup;
r2 = (redisReply *) _reply2;
success = (r1->type != REDIS_REPLY_ERROR && r2->type != REDIS_REPLY_ERROR);
if (r1->type == REDIS_REPLY_ERROR) {
CLUSTER_MANAGER_PRINT_REPLY_ERROR(n1, r1->str);
success = 0;
}
if (r2->type == REDIS_REPLY_ERROR) {
CLUSTER_MANAGER_PRINT_REPLY_ERROR(n2, r2->str);
success = 0;
}
if (!success) goto cleanup;
assert(keys_reply->elements == r1->elements &&
keys_reply->elements == r2->elements);
for (i = 0; i < keys_reply->elements; i++) {
char *key = keys_reply->element[i]->str;
char *hash1 = r1->element[i]->str;
char *hash2 = r2->element[i]->str;
/* Ignore keys that don't exist in both nodes. */
if (strcmp(hash1, hash_zero) == 0 || strcmp(hash2, hash_zero) == 0)
continue;
if (strcmp(hash1, hash2) != 0) listAddNodeTail(diffs, key);
}
cleanup:
if (r1) freeReplyObject(r1);
if (r2) freeReplyObject(r2);
zfree(argv);
zfree(argv_len);
return success;
}
/* Migrate keys taken from reply->elements. It returns the reply from the
* MIGRATE command, or NULL if something goes wrong. If the argument 'dots'
* is not NULL, a dot will be printed for every migrated key. */
static redisReply *clusterManagerMigrateKeysInReply(clusterManagerNode *source,
clusterManagerNode *target,
redisReply *reply,
int replace, int timeout,
char *dots)
{
redisReply *migrate_reply = NULL;
char **argv = NULL;
size_t *argv_len = NULL;
int c = (replace ? 8 : 7);
if (config.auth) c += 2;
size_t argc = c + reply->elements;
size_t i, offset = 6; // Keys Offset
argv = zcalloc(argc * sizeof(char *));
argv_len = zcalloc(argc * sizeof(size_t));
char portstr[255];
char timeoutstr[255];
snprintf(portstr, 10, "%d", target->port);
snprintf(timeoutstr, 10, "%d", timeout);
argv[0] = "MIGRATE";
argv_len[0] = 7;
argv[1] = target->ip;
argv_len[1] = strlen(target->ip);
argv[2] = portstr;
argv_len[2] = strlen(portstr);
argv[3] = "";
argv_len[3] = 0;
argv[4] = "0";
argv_len[4] = 1;
argv[5] = timeoutstr;
argv_len[5] = strlen(timeoutstr);
if (replace) {
argv[offset] = "REPLACE";
argv_len[offset] = 7;
offset++;
}
if (config.auth) {
argv[offset] = "AUTH";
argv_len[offset] = 4;
offset++;
argv[offset] = config.auth;
argv_len[offset] = strlen(config.auth);
offset++;
}
argv[offset] = "KEYS";
argv_len[offset] = 4;
offset++;
for (i = 0; i < reply->elements; i++) {
redisReply *entry = reply->element[i];
size_t idx = i + offset;
assert(entry->type == REDIS_REPLY_STRING);
argv[idx] = (char *) sdsnewlen(entry->str, entry->len);
argv_len[idx] = entry->len;
if (dots) dots[i] = '.';
}
if (dots) dots[reply->elements] = '\0';
void *_reply = NULL;
redisAppendCommandArgv(source->context,argc,
(const char**)argv,argv_len);
int success = (redisGetReply(source->context, &_reply) == REDIS_OK);
for (i = 0; i < reply->elements; i++) sdsfree(argv[i + offset]);
if (!success) goto cleanup;
migrate_reply = (redisReply *) _reply;
cleanup:
zfree(argv);
zfree(argv_len);
return migrate_reply;
}
/* Migrate all keys in the given slot from source to target.*/
static int clusterManagerMigrateKeysInSlot(clusterManagerNode *source,
clusterManagerNode *target,
int slot, int timeout,
int pipeline, int verbose,
char **err)
{
int success = 1;
int do_fix = config.cluster_manager_command.flags &
CLUSTER_MANAGER_CMD_FLAG_FIX;
int do_replace = config.cluster_manager_command.flags &
CLUSTER_MANAGER_CMD_FLAG_REPLACE;
while (1) {
char *dots = NULL;
redisReply *reply = NULL, *migrate_reply = NULL;
reply = CLUSTER_MANAGER_COMMAND(source, "CLUSTER "
"GETKEYSINSLOT %d %d", slot,
pipeline);
success = (reply != NULL);
if (!success) return 0;
if (reply->type == REDIS_REPLY_ERROR) {
success = 0;
if (err != NULL) {
*err = zmalloc((reply->len + 1) * sizeof(char));
strcpy(*err, reply->str);
CLUSTER_MANAGER_PRINT_REPLY_ERROR(source, *err);
}
goto next;
}
assert(reply->type == REDIS_REPLY_ARRAY);
size_t count = reply->elements;
if (count == 0) {
freeReplyObject(reply);
break;
}
if (verbose) dots = zmalloc((count+1) * sizeof(char));
/* Calling MIGRATE command. */
migrate_reply = clusterManagerMigrateKeysInReply(source, target,
reply, 0, timeout,
dots);
if (migrate_reply == NULL) goto next;
if (migrate_reply->type == REDIS_REPLY_ERROR) {
int is_busy = strstr(migrate_reply->str, "BUSYKEY") != NULL;
int not_served = 0;
if (!is_busy) {
/* Check if the slot is unassigned (not served) in the
* source node's configuration. */
char *get_owner_err = NULL;
clusterManagerNode *served_by =
clusterManagerGetSlotOwner(source, slot, &get_owner_err);
if (!served_by) {
if (get_owner_err == NULL) not_served = 1;
else {
CLUSTER_MANAGER_PRINT_REPLY_ERROR(source,
get_owner_err);
zfree(get_owner_err);
}
}
}
/* Try to handle errors. */
if (is_busy || not_served) {
/* If the key's slot is not served, try to assign slot
* to the target node. */
if (do_fix && not_served) {
clusterManagerLogWarn("*** Slot was not served, setting "
"owner to node %s:%d.\n",
target->ip, target->port);
clusterManagerSetSlot(source, target, slot, "node", NULL);
}
/* If the key already exists in the target node (BUSYKEY),
* check whether its value is the same in both nodes.
* In case of equal values, retry migration with the
* REPLACE option.
* In case of different values:
* - If the migration is requested by the fix command, stop
* and warn the user.
* - In other cases (ie. reshard), proceed only if the user
* launched the command with the --cluster-replace option.*/
if (is_busy) {
clusterManagerLogWarn("\n*** Target key exists\n");
if (!do_replace) {
clusterManagerLogWarn("*** Checking key values on "
"both nodes...\n");
list *diffs = listCreate();
success = clusterManagerCompareKeysValues(source,
target, reply, diffs);
if (!success) {
clusterManagerLogErr("*** Value check failed!\n");
listRelease(diffs);
goto next;
}
if (listLength(diffs) > 0) {
success = 0;
clusterManagerLogErr(
"*** Found %d key(s) in both source node and "
"target node having different values.\n"
" Source node: %s:%d\n"
" Target node: %s:%d\n"
" Keys(s):\n",
listLength(diffs),
source->ip, source->port,
target->ip, target->port);
listIter dli;
listNode *dln;
listRewind(diffs, &dli);
while((dln = listNext(&dli)) != NULL) {
char *k = dln->value;
clusterManagerLogErr(" - %s\n", k);
}
clusterManagerLogErr("Please fix the above key(s) "
"manually and try again "
"or relaunch the command \n"
"with --cluster-replace "
"option to force key "
"overriding.\n");
listRelease(diffs);
goto next;
}
listRelease(diffs);
}
clusterManagerLogWarn("*** Replacing target keys...\n");
}
freeReplyObject(migrate_reply);
migrate_reply = clusterManagerMigrateKeysInReply(source,
target,
reply,
is_busy,
timeout,
NULL);
success = (migrate_reply != NULL &&
migrate_reply->type != REDIS_REPLY_ERROR);
} else success = 0;
if (!success) {
if (migrate_reply != NULL) {
if (err) {
*err = zmalloc((migrate_reply->len + 1) * sizeof(char));
strcpy(*err, migrate_reply->str);
}
printf("\n");
CLUSTER_MANAGER_PRINT_REPLY_ERROR(source,
migrate_reply->str);
}
goto next;
}
}
if (verbose) {
printf("%s", dots);
fflush(stdout);
}
next:
if (reply != NULL) freeReplyObject(reply);
if (migrate_reply != NULL) freeReplyObject(migrate_reply);
if (dots) zfree(dots);
if (!success) break;
}
return success;
}
/* Move slots between source and target nodes using MIGRATE.
*
* Options:
* CLUSTER_MANAGER_OPT_VERBOSE -- Print a dot for every moved key.
* CLUSTER_MANAGER_OPT_COLD -- Move keys without opening slots /
* reconfiguring the nodes.
* CLUSTER_MANAGER_OPT_UPDATE -- Update node->slots for source/target nodes.
* CLUSTER_MANAGER_OPT_QUIET -- Don't print info messages.
*/
static int clusterManagerMoveSlot(clusterManagerNode *source,
clusterManagerNode *target,
int slot, int opts, char**err)
{
if (!(opts & CLUSTER_MANAGER_OPT_QUIET)) {
printf("Moving slot %d from %s:%d to %s:%d: ", slot, source->ip,
source->port, target->ip, target->port);
fflush(stdout);
}
if (err != NULL) *err = NULL;
int pipeline = config.cluster_manager_command.pipeline,
timeout = config.cluster_manager_command.timeout,
print_dots = (opts & CLUSTER_MANAGER_OPT_VERBOSE),
option_cold = (opts & CLUSTER_MANAGER_OPT_COLD),
success = 1;
if (!option_cold) {
success = clusterManagerSetSlot(target, source, slot,
"importing", err);
if (!success) return 0;
success = clusterManagerSetSlot(source, target, slot,
"migrating", err);
if (!success) return 0;
}
success = clusterManagerMigrateKeysInSlot(source, target, slot, timeout,
pipeline, print_dots, err);
if (!(opts & CLUSTER_MANAGER_OPT_QUIET)) printf("\n");
if (!success) return 0;
/* Set the new node as the owner of the slot in all the known nodes. */
if (!option_cold) {
listIter li;
listNode *ln;
listRewind(cluster_manager.nodes, &li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *n = ln->value;
if (n->flags & CLUSTER_MANAGER_FLAG_SLAVE) continue;
redisReply *r = CLUSTER_MANAGER_COMMAND(n, "CLUSTER "
"SETSLOT %d %s %s",
slot, "node",
target->name);
success = (r != NULL);
if (!success) return 0;
if (r->type == REDIS_REPLY_ERROR) {
success = 0;
if (err != NULL) {
*err = zmalloc((r->len + 1) * sizeof(char));
strcpy(*err, r->str);
CLUSTER_MANAGER_PRINT_REPLY_ERROR(n, *err);
}
}
freeReplyObject(r);
if (!success) return 0;
}
}
/* Update the node logical config */
if (opts & CLUSTER_MANAGER_OPT_UPDATE) {
source->slots[slot] = 0;
target->slots[slot] = 1;
}
return 1;
}
/* Flush the dirty node configuration by calling replicate for slaves or
* adding the slots defined in the masters. */
static int clusterManagerFlushNodeConfig(clusterManagerNode *node, char **err) {
if (!node->dirty) return 0;
redisReply *reply = NULL;
int is_err = 0, success = 1;
if (err != NULL) *err = NULL;
if (node->replicate != NULL) {
reply = CLUSTER_MANAGER_COMMAND(node, "CLUSTER REPLICATE %s",
node->replicate);
if (reply == NULL || (is_err = (reply->type == REDIS_REPLY_ERROR))) {
if (is_err && err != NULL) {
*err = zmalloc((reply->len + 1) * sizeof(char));
strcpy(*err, reply->str);
}
success = 0;
/* If the cluster did not already joined it is possible that
* the slave does not know the master node yet. So on errors
* we return ASAP leaving the dirty flag set, to flush the
* config later. */
goto cleanup;
}
} else {
int added = clusterManagerAddSlots(node, err);
if (!added || *err != NULL) success = 0;
}
node->dirty = 0;
cleanup:
if (reply != NULL) freeReplyObject(reply);
return success;
}
/* Wait until the cluster configuration is consistent. */
static void clusterManagerWaitForClusterJoin(void) {
printf("Waiting for the cluster to join\n");
int counter = 0,
check_after = CLUSTER_JOIN_CHECK_AFTER +
(int)(listLength(cluster_manager.nodes) * 0.15f);
while(!clusterManagerIsConfigConsistent()) {
printf(".");
fflush(stdout);
sleep(1);
if (++counter > check_after) {
dict *status = clusterManagerGetLinkStatus();
dictIterator *iter = NULL;
if (status != NULL && dictSize(status) > 0) {
printf("\n");
clusterManagerLogErr("Warning: %d node(s) may "
"be unreachable\n", dictSize(status));
iter = dictGetIterator(status);
dictEntry *entry;
while ((entry = dictNext(iter)) != NULL) {
sds nodeaddr = (sds) dictGetKey(entry);
char *node_ip = NULL;
int node_port = 0, node_bus_port = 0;
list *from = (list *) dictGetVal(entry);
if (parseClusterNodeAddress(nodeaddr, &node_ip,
&node_port, &node_bus_port) && node_bus_port) {
clusterManagerLogErr(" - The port %d of node %s may "
"be unreachable from:\n",
node_bus_port, node_ip);
} else {
clusterManagerLogErr(" - Node %s may be unreachable "
"from:\n", nodeaddr);
}
listIter li;
listNode *ln;
listRewind(from, &li);
while ((ln = listNext(&li)) != NULL) {
sds from_addr = ln->value;
clusterManagerLogErr(" %s\n", from_addr);
sdsfree(from_addr);
}
clusterManagerLogErr("Cluster bus ports must be reachable "
"by every node.\nRemember that "
"cluster bus ports are different "
"from standard instance ports.\n");
listEmpty(from);
}
}
if (iter != NULL) dictReleaseIterator(iter);
if (status != NULL) dictRelease(status);
counter = 0;
}
}
printf("\n");
}
/* Load node's cluster configuration by calling "CLUSTER NODES" command.
* Node's configuration (name, replicate, slots, ...) is then updated.
* If CLUSTER_MANAGER_OPT_GETFRIENDS flag is set into 'opts' argument,
* and node already knows other nodes, the node's friends list is populated
* with the other nodes info. */
static int clusterManagerNodeLoadInfo(clusterManagerNode *node, int opts,
char **err)
{
redisReply *reply = CLUSTER_MANAGER_COMMAND(node, "CLUSTER NODES");
int success = 1;
*err = NULL;
if (!clusterManagerCheckRedisReply(node, reply, err)) {
success = 0;
goto cleanup;
}
int getfriends = (opts & CLUSTER_MANAGER_OPT_GETFRIENDS);
char *lines = reply->str, *p, *line;
while ((p = strstr(lines, "\n")) != NULL) {
*p = '\0';
line = lines;
lines = p + 1;
char *name = NULL, *addr = NULL, *flags = NULL, *master_id = NULL,
*ping_sent = NULL, *ping_recv = NULL, *config_epoch = NULL,
*link_status = NULL;
UNUSED(link_status);
int i = 0;
while ((p = strchr(line, ' ')) != NULL) {
*p = '\0';
char *token = line;
line = p + 1;
switch(i++){
case 0: name = token; break;
case 1: addr = token; break;
case 2: flags = token; break;
case 3: master_id = token; break;
case 4: ping_sent = token; break;
case 5: ping_recv = token; break;
case 6: config_epoch = token; break;
case 7: link_status = token; break;
}
if (i == 8) break; // Slots
}
if (!flags) {
success = 0;
goto cleanup;
}
int myself = (strstr(flags, "myself") != NULL);
clusterManagerNode *currentNode = NULL;
if (myself) {
node->flags |= CLUSTER_MANAGER_FLAG_MYSELF;
currentNode = node;
clusterManagerNodeResetSlots(node);
if (i == 8) {
int remaining = strlen(line);
while (remaining > 0) {
p = strchr(line, ' ');
if (p == NULL) p = line + remaining;
remaining -= (p - line);
char *slotsdef = line;
*p = '\0';
if (remaining) {
line = p + 1;
remaining--;
} else line = p;
char *dash = NULL;
if (slotsdef[0] == '[') {
slotsdef++;
if ((p = strstr(slotsdef, "->-"))) { // Migrating
*p = '\0';
p += 3;
char *closing_bracket = strchr(p, ']');
if (closing_bracket) *closing_bracket = '\0';
sds slot = sdsnew(slotsdef);
sds dst = sdsnew(p);
node->migrating_count += 2;
node->migrating = zrealloc(node->migrating,
(node->migrating_count * sizeof(sds)));
node->migrating[node->migrating_count - 2] =
slot;
node->migrating[node->migrating_count - 1] =
dst;
} else if ((p = strstr(slotsdef, "-<-"))) {//Importing
*p = '\0';
p += 3;
char *closing_bracket = strchr(p, ']');
if (closing_bracket) *closing_bracket = '\0';
sds slot = sdsnew(slotsdef);
sds src = sdsnew(p);
node->importing_count += 2;
node->importing = zrealloc(node->importing,
(node->importing_count * sizeof(sds)));
node->importing[node->importing_count - 2] =
slot;
node->importing[node->importing_count - 1] =
src;
}
} else if ((dash = strchr(slotsdef, '-')) != NULL) {
p = dash;
int start, stop;
*p = '\0';
start = atoi(slotsdef);
stop = atoi(p + 1);
node->slots_count += (stop - (start - 1));
while (start <= stop) node->slots[start++] = 1;
} else if (p > slotsdef) {
node->slots[atoi(slotsdef)] = 1;
node->slots_count++;
}
}
}
node->dirty = 0;
} else if (!getfriends) {
if (!(node->flags & CLUSTER_MANAGER_FLAG_MYSELF)) continue;
else break;
} else {
if (addr == NULL) {
fprintf(stderr, "Error: invalid CLUSTER NODES reply\n");
success = 0;
goto cleanup;
}
char *c = strrchr(addr, '@');
if (c != NULL) *c = '\0';
c = strrchr(addr, ':');
if (c == NULL) {
fprintf(stderr, "Error: invalid CLUSTER NODES reply\n");
success = 0;
goto cleanup;
}
*c = '\0';
int port = atoi(++c);
currentNode = clusterManagerNewNode(sdsnew(addr), port);
currentNode->flags |= CLUSTER_MANAGER_FLAG_FRIEND;
if (node->friends == NULL) node->friends = listCreate();
listAddNodeTail(node->friends, currentNode);
}
if (name != NULL) {
if (currentNode->name) sdsfree(currentNode->name);
currentNode->name = sdsnew(name);
}
if (currentNode->flags_str != NULL)
freeClusterManagerNodeFlags(currentNode->flags_str);
currentNode->flags_str = listCreate();
int flag_len;
while ((flag_len = strlen(flags)) > 0) {
sds flag = NULL;
char *fp = strchr(flags, ',');
if (fp) {
*fp = '\0';
flag = sdsnew(flags);
flags = fp + 1;
} else {
flag = sdsnew(flags);
flags += flag_len;
}
if (strcmp(flag, "noaddr") == 0)
currentNode->flags |= CLUSTER_MANAGER_FLAG_NOADDR;
else if (strcmp(flag, "disconnected") == 0)
currentNode->flags |= CLUSTER_MANAGER_FLAG_DISCONNECT;
else if (strcmp(flag, "fail") == 0)
currentNode->flags |= CLUSTER_MANAGER_FLAG_FAIL;
else if (strcmp(flag, "slave") == 0) {
currentNode->flags |= CLUSTER_MANAGER_FLAG_SLAVE;
if (master_id != NULL) {
if (currentNode->replicate) sdsfree(currentNode->replicate);
currentNode->replicate = sdsnew(master_id);
}
}
listAddNodeTail(currentNode->flags_str, flag);
}
if (config_epoch != NULL)
currentNode->current_epoch = atoll(config_epoch);
if (ping_sent != NULL) currentNode->ping_sent = atoll(ping_sent);
if (ping_recv != NULL) currentNode->ping_recv = atoll(ping_recv);
if (!getfriends && myself) break;
}
cleanup:
if (reply) freeReplyObject(reply);
return success;
}
/* Retrieves info about the cluster using argument 'node' as the starting
* point. All nodes will be loaded inside the cluster_manager.nodes list.
* Warning: if something goes wrong, it will free the starting node before
* returning 0. */
static int clusterManagerLoadInfoFromNode(clusterManagerNode *node, int opts) {
if (node->context == NULL && !clusterManagerNodeConnect(node)) {
freeClusterManagerNode(node);
return 0;
}
opts |= CLUSTER_MANAGER_OPT_GETFRIENDS;
char *e = NULL;
if (!clusterManagerNodeIsCluster(node, &e)) {
clusterManagerPrintNotClusterNodeError(node, e);
if (e) zfree(e);
freeClusterManagerNode(node);
return 0;
}
e = NULL;
if (!clusterManagerNodeLoadInfo(node, opts, &e)) {
if (e) {
CLUSTER_MANAGER_PRINT_REPLY_ERROR(node, e);
zfree(e);
}
freeClusterManagerNode(node);
return 0;
}
listIter li;
listNode *ln;
if (cluster_manager.nodes != NULL) {
listRewind(cluster_manager.nodes, &li);
while ((ln = listNext(&li)) != NULL)
freeClusterManagerNode((clusterManagerNode *) ln->value);
listRelease(cluster_manager.nodes);
}
cluster_manager.nodes = listCreate();
listAddNodeTail(cluster_manager.nodes, node);
if (node->friends != NULL) {
listRewind(node->friends, &li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *friend = ln->value;
if (!friend->ip || !friend->port) goto invalid_friend;
if (!friend->context && !clusterManagerNodeConnect(friend))
goto invalid_friend;
e = NULL;
if (clusterManagerNodeLoadInfo(friend, 0, &e)) {
if (friend->flags & (CLUSTER_MANAGER_FLAG_NOADDR |
CLUSTER_MANAGER_FLAG_DISCONNECT |
CLUSTER_MANAGER_FLAG_FAIL))
goto invalid_friend;
listAddNodeTail(cluster_manager.nodes, friend);
} else {
clusterManagerLogErr("[ERR] Unable to load info for "
"node %s:%d\n",
friend->ip, friend->port);
goto invalid_friend;
}
continue;
invalid_friend:
freeClusterManagerNode(friend);
}
listRelease(node->friends);
node->friends = NULL;
}
// Count replicas for each node
listRewind(cluster_manager.nodes, &li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *n = ln->value;
if (n->replicate != NULL) {
clusterManagerNode *master = clusterManagerNodeByName(n->replicate);
if (master == NULL) {
clusterManagerLogWarn("*** WARNING: %s:%d claims to be "
"slave of unknown node ID %s.\n",
n->ip, n->port, n->replicate);
} else master->replicas_count++;
}
}
return 1;
}
/* Compare functions used by various sorting operations. */
int clusterManagerSlotCompare(const void *slot1, const void *slot2) {
const char **i1 = (const char **)slot1;
const char **i2 = (const char **)slot2;
return strcmp(*i1, *i2);
}
int clusterManagerSlotCountCompareDesc(const void *n1, const void *n2) {
clusterManagerNode *node1 = *((clusterManagerNode **) n1);
clusterManagerNode *node2 = *((clusterManagerNode **) n2);
return node2->slots_count - node1->slots_count;
}
int clusterManagerCompareNodeBalance(const void *n1, const void *n2) {
clusterManagerNode *node1 = *((clusterManagerNode **) n1);
clusterManagerNode *node2 = *((clusterManagerNode **) n2);
return node1->balance - node2->balance;
}
static sds clusterManagerGetConfigSignature(clusterManagerNode *node) {
sds signature = NULL;
int node_count = 0, i = 0, name_len = 0;
char **node_configs = NULL;
redisReply *reply = CLUSTER_MANAGER_COMMAND(node, "CLUSTER NODES");
if (reply == NULL || reply->type == REDIS_REPLY_ERROR)
goto cleanup;
char *lines = reply->str, *p, *line;
while ((p = strstr(lines, "\n")) != NULL) {
i = 0;
*p = '\0';
line = lines;
lines = p + 1;
char *nodename = NULL;
int tot_size = 0;
while ((p = strchr(line, ' ')) != NULL) {
*p = '\0';
char *token = line;
line = p + 1;
if (i == 0) {
nodename = token;
tot_size = (p - token);
name_len = tot_size++; // Make room for ':' in tot_size
}
if (++i == 8) break;
}
if (i != 8) continue;
if (nodename == NULL) continue;
int remaining = strlen(line);
if (remaining == 0) continue;
char **slots = NULL;
int c = 0;
while (remaining > 0) {
p = strchr(line, ' ');
if (p == NULL) p = line + remaining;
int size = (p - line);
remaining -= size;
tot_size += size;
char *slotsdef = line;
*p = '\0';
if (remaining) {
line = p + 1;
remaining--;
} else line = p;
if (slotsdef[0] != '[') {
c++;
slots = zrealloc(slots, (c * sizeof(char *)));
slots[c - 1] = slotsdef;
}
}
if (c > 0) {
if (c > 1)
qsort(slots, c, sizeof(char *), clusterManagerSlotCompare);
node_count++;
node_configs =
zrealloc(node_configs, (node_count * sizeof(char *)));
/* Make room for '|' separators. */
tot_size += (sizeof(char) * (c - 1));
char *cfg = zmalloc((sizeof(char) * tot_size) + 1);
memcpy(cfg, nodename, name_len);
char *sp = cfg + name_len;
*(sp++) = ':';
for (i = 0; i < c; i++) {
if (i > 0) *(sp++) = ',';
int slen = strlen(slots[i]);
memcpy(sp, slots[i], slen);
sp += slen;
}
*(sp++) = '\0';
node_configs[node_count - 1] = cfg;
}
zfree(slots);
}
if (node_count > 0) {
if (node_count > 1) {
qsort(node_configs, node_count, sizeof(char *),
clusterManagerSlotCompare);
}
signature = sdsempty();
for (i = 0; i < node_count; i++) {
if (i > 0) signature = sdscatprintf(signature, "%c", '|');
signature = sdscatfmt(signature, "%s", node_configs[i]);
}
}
cleanup:
if (reply != NULL) freeReplyObject(reply);
if (node_configs != NULL) {
for (i = 0; i < node_count; i++) zfree(node_configs[i]);
zfree(node_configs);
}
return signature;
}
static int clusterManagerIsConfigConsistent(void) {
if (cluster_manager.nodes == NULL) return 0;
int consistent = (listLength(cluster_manager.nodes) <= 1);
// If the Cluster has only one node, it's always consistent
if (consistent) return 1;
sds first_cfg = NULL;
listIter li;
listNode *ln;
listRewind(cluster_manager.nodes, &li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *node = ln->value;
sds cfg = clusterManagerGetConfigSignature(node);
if (cfg == NULL) {
consistent = 0;
break;
}
if (first_cfg == NULL) first_cfg = cfg;
else {
consistent = !sdscmp(first_cfg, cfg);
sdsfree(cfg);
if (!consistent) break;
}
}
if (first_cfg != NULL) sdsfree(first_cfg);
return consistent;
}
static list *clusterManagerGetDisconnectedLinks(clusterManagerNode *node) {
list *links = NULL;
redisReply *reply = CLUSTER_MANAGER_COMMAND(node, "CLUSTER NODES");
if (!clusterManagerCheckRedisReply(node, reply, NULL)) goto cleanup;
links = listCreate();
char *lines = reply->str, *p, *line;
while ((p = strstr(lines, "\n")) != NULL) {
int i = 0;
*p = '\0';
line = lines;
lines = p + 1;
char *nodename = NULL, *addr = NULL, *flags = NULL, *link_status = NULL;
while ((p = strchr(line, ' ')) != NULL) {
*p = '\0';
char *token = line;
line = p + 1;
if (i == 0) nodename = token;
else if (i == 1) addr = token;
else if (i == 2) flags = token;
else if (i == 7) link_status = token;
else if (i == 8) break;
i++;
}
if (i == 7) link_status = line;
if (nodename == NULL || addr == NULL || flags == NULL ||
link_status == NULL) continue;
if (strstr(flags, "myself") != NULL) continue;
int disconnected = ((strstr(flags, "disconnected") != NULL) ||
(strstr(link_status, "disconnected")));
int handshaking = (strstr(flags, "handshake") != NULL);
if (disconnected || handshaking) {
clusterManagerLink *link = zmalloc(sizeof(*link));
link->node_name = sdsnew(nodename);
link->node_addr = sdsnew(addr);
link->connected = 0;
link->handshaking = handshaking;
listAddNodeTail(links, link);
}
}
cleanup:
if (reply != NULL) freeReplyObject(reply);
return links;
}
/* Check for disconnected cluster links. It returns a dict whose keys
* are the unreachable node addresses and the values are lists of
* node addresses that cannot reach the unreachable node. */
static dict *clusterManagerGetLinkStatus(void) {
if (cluster_manager.nodes == NULL) return NULL;
dict *status = dictCreate(&clusterManagerLinkDictType, NULL);
listIter li;
listNode *ln;
listRewind(cluster_manager.nodes, &li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *node = ln->value;
list *links = clusterManagerGetDisconnectedLinks(node);
if (links) {
listIter lli;
listNode *lln;
listRewind(links, &lli);
while ((lln = listNext(&lli)) != NULL) {
clusterManagerLink *link = lln->value;
list *from = NULL;
dictEntry *entry = dictFind(status, link->node_addr);
if (entry) from = dictGetVal(entry);
else {
from = listCreate();
dictAdd(status, sdsdup(link->node_addr), from);
}
sds myaddr = sdsempty();
myaddr = sdscatfmt(myaddr, "%s:%u", node->ip, node->port);
listAddNodeTail(from, myaddr);
sdsfree(link->node_name);
sdsfree(link->node_addr);
zfree(link);
}
listRelease(links);
}
}
return status;
}
/* Add the error string to cluster_manager.errors and print it. */
static void clusterManagerOnError(sds err) {
if (cluster_manager.errors == NULL)
cluster_manager.errors = listCreate();
listAddNodeTail(cluster_manager.errors, err);
clusterManagerLogErr("%s\n", (char *) err);
}
/* Check the slots coverage of the cluster. The 'all_slots' argument must be
* and array of 16384 bytes. Every covered slot will be set to 1 in the
* 'all_slots' array. The function returns the total number if covered slots.*/
static int clusterManagerGetCoveredSlots(char *all_slots) {
if (cluster_manager.nodes == NULL) return 0;
listIter li;
listNode *ln;
listRewind(cluster_manager.nodes, &li);
int totslots = 0, i;
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *node = ln->value;
for (i = 0; i < CLUSTER_MANAGER_SLOTS; i++) {
if (node->slots[i] && !all_slots[i]) {
all_slots[i] = 1;
totslots++;
}
}
}
return totslots;
}
static void clusterManagerPrintSlotsList(list *slots) {
listIter li;
listNode *ln;
listRewind(slots, &li);
sds first = NULL;
while ((ln = listNext(&li)) != NULL) {
sds slot = ln->value;
if (!first) first = slot;
else printf(", ");
printf("%s", slot);
}
printf("\n");
}
/* Return the node, among 'nodes' with the greatest number of keys
* in the specified slot. */
static clusterManagerNode * clusterManagerGetNodeWithMostKeysInSlot(list *nodes,
int slot,
char **err)
{
clusterManagerNode *node = NULL;
int numkeys = 0;
listIter li;
listNode *ln;
listRewind(nodes, &li);
if (err) *err = NULL;
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *n = ln->value;
if (n->flags & CLUSTER_MANAGER_FLAG_SLAVE || n->replicate)
continue;
redisReply *r =
CLUSTER_MANAGER_COMMAND(n, "CLUSTER COUNTKEYSINSLOT %d", slot);
int success = clusterManagerCheckRedisReply(n, r, err);
if (success) {
if (r->integer > numkeys || node == NULL) {
numkeys = r->integer;
node = n;
}
}
if (r != NULL) freeReplyObject(r);
/* If the reply contains errors */
if (!success) {
if (err != NULL && *err != NULL)
CLUSTER_MANAGER_PRINT_REPLY_ERROR(n, err);
node = NULL;
break;
}
}
return node;
}
/* This function returns the master that has the least number of replicas
* in the cluster. If there are multiple masters with the same smaller
* number of replicas, one at random is returned. */
static clusterManagerNode *clusterManagerNodeWithLeastReplicas() {
clusterManagerNode *node = NULL;
int lowest_count = 0;
listIter li;
listNode *ln;
listRewind(cluster_manager.nodes, &li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *n = ln->value;
if (n->flags & CLUSTER_MANAGER_FLAG_SLAVE) continue;
if (node == NULL || n->replicas_count < lowest_count) {
node = n;
lowest_count = n->replicas_count;
}
}
return node;
}
/* This function returns a random master node, return NULL if none */
static clusterManagerNode *clusterManagerNodeMasterRandom() {
int master_count = 0;
int idx;
listIter li;
listNode *ln;
listRewind(cluster_manager.nodes, &li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *n = ln->value;
if (n->flags & CLUSTER_MANAGER_FLAG_SLAVE) continue;
master_count++;
}
srand(time(NULL));
idx = rand() % master_count;
listRewind(cluster_manager.nodes, &li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *n = ln->value;
if (n->flags & CLUSTER_MANAGER_FLAG_SLAVE) continue;
if (!idx--) {
return n;
}
}
/* Can not be reached */
return NULL;
}
static int clusterManagerFixSlotsCoverage(char *all_slots) {
int i, fixed = 0;
list *none = NULL, *single = NULL, *multi = NULL;
clusterManagerLogInfo(">>> Fixing slots coverage...\n");
printf("List of not covered slots: \n");
int uncovered_count = 0;
sds log = sdsempty();
for (i = 0; i < CLUSTER_MANAGER_SLOTS; i++) {
int covered = all_slots[i];
if (!covered) {
sds key = sdsfromlonglong((long long) i);
if (uncovered_count++ > 0) printf(",");
printf("%s", (char *) key);
list *slot_nodes = listCreate();
sds slot_nodes_str = sdsempty();
listIter li;
listNode *ln;
listRewind(cluster_manager.nodes, &li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *n = ln->value;
if (n->flags & CLUSTER_MANAGER_FLAG_SLAVE || n->replicate)
continue;
redisReply *reply = CLUSTER_MANAGER_COMMAND(n,
"CLUSTER GETKEYSINSLOT %d %d", i, 1);
if (!clusterManagerCheckRedisReply(n, reply, NULL)) {
fixed = -1;
if (reply) freeReplyObject(reply);
goto cleanup;
}
assert(reply->type == REDIS_REPLY_ARRAY);
if (reply->elements > 0) {
listAddNodeTail(slot_nodes, n);
if (listLength(slot_nodes) > 1)
slot_nodes_str = sdscat(slot_nodes_str, ", ");
slot_nodes_str = sdscatfmt(slot_nodes_str,
"%s:%u", n->ip, n->port);
}
freeReplyObject(reply);
}
log = sdscatfmt(log, "\nSlot %S has keys in %u nodes: %S",
key, listLength(slot_nodes), slot_nodes_str);
sdsfree(slot_nodes_str);
dictAdd(clusterManagerUncoveredSlots, key, slot_nodes);
}
}
printf("\n%s\n", log);
/* For every slot, take action depending on the actual condition:
* 1) No node has keys for this slot.
* 2) A single node has keys for this slot.
* 3) Multiple nodes have keys for this slot. */
none = listCreate();
single = listCreate();
multi = listCreate();
dictIterator *iter = dictGetIterator(clusterManagerUncoveredSlots);
dictEntry *entry;
while ((entry = dictNext(iter)) != NULL) {
sds slot = (sds) dictGetKey(entry);
list *nodes = (list *) dictGetVal(entry);
switch (listLength(nodes)){
case 0: listAddNodeTail(none, slot); break;
case 1: listAddNodeTail(single, slot); break;
default: listAddNodeTail(multi, slot); break;
}
}
dictReleaseIterator(iter);
/* Handle case "1": keys in no node. */
if (listLength(none) > 0) {
printf("The following uncovered slots have no keys "
"across the cluster:\n");
clusterManagerPrintSlotsList(none);
if (confirmWithYes("Fix these slots by covering with a random node?")){
listIter li;
listNode *ln;
listRewind(none, &li);
while ((ln = listNext(&li)) != NULL) {
sds slot = ln->value;
int s = atoi(slot);
clusterManagerNode *n = clusterManagerNodeMasterRandom();
clusterManagerLogInfo(">>> Covering slot %s with %s:%d\n",
slot, n->ip, n->port);
if (!clusterManagerSetSlotOwner(n, s, 0)) {
fixed = -1;
goto cleanup;
}
/* Since CLUSTER ADDSLOTS succeeded, we also update the slot
* info into the node struct, in order to keep it synced */
n->slots[s] = 1;
fixed++;
}
}
}
/* Handle case "2": keys only in one node. */
if (listLength(single) > 0) {
printf("The following uncovered slots have keys in just one node:\n");
clusterManagerPrintSlotsList(single);
if (confirmWithYes("Fix these slots by covering with those nodes?")){
listIter li;
listNode *ln;
listRewind(single, &li);
while ((ln = listNext(&li)) != NULL) {
sds slot = ln->value;
int s = atoi(slot);
dictEntry *entry = dictFind(clusterManagerUncoveredSlots, slot);
assert(entry != NULL);
list *nodes = (list *) dictGetVal(entry);
listNode *fn = listFirst(nodes);
assert(fn != NULL);
clusterManagerNode *n = fn->value;
clusterManagerLogInfo(">>> Covering slot %s with %s:%d\n",
slot, n->ip, n->port);
if (!clusterManagerSetSlotOwner(n, s, 0)) {
fixed = -1;
goto cleanup;
}
/* Since CLUSTER ADDSLOTS succeeded, we also update the slot
* info into the node struct, in order to keep it synced */
n->slots[atoi(slot)] = 1;
fixed++;
}
}
}
/* Handle case "3": keys in multiple nodes. */
if (listLength(multi) > 0) {
printf("The following uncovered slots have keys in multiple nodes:\n");
clusterManagerPrintSlotsList(multi);
if (confirmWithYes("Fix these slots by moving keys "
"into a single node?")) {
listIter li;
listNode *ln;
listRewind(multi, &li);
while ((ln = listNext(&li)) != NULL) {
sds slot = ln->value;
dictEntry *entry = dictFind(clusterManagerUncoveredSlots, slot);
assert(entry != NULL);
list *nodes = (list *) dictGetVal(entry);
int s = atoi(slot);
clusterManagerNode *target =
clusterManagerGetNodeWithMostKeysInSlot(nodes, s, NULL);
if (target == NULL) {
fixed = -1;
goto cleanup;
}
clusterManagerLogInfo(">>> Covering slot %s moving keys "
"to %s:%d\n", slot,
target->ip, target->port);
if (!clusterManagerSetSlotOwner(target, s, 1)) {
fixed = -1;
goto cleanup;
}
/* Since CLUSTER ADDSLOTS succeeded, we also update the slot
* info into the node struct, in order to keep it synced */
target->slots[atoi(slot)] = 1;
listIter nli;
listNode *nln;
listRewind(nodes, &nli);
while ((nln = listNext(&nli)) != NULL) {
clusterManagerNode *src = nln->value;
if (src == target) continue;
/* Assign the slot to target node in the source node. */
if (!clusterManagerSetSlot(src, target, s, "NODE", NULL))
fixed = -1;
if (fixed < 0) goto cleanup;
/* Set the source node in 'importing' state
* (even if we will actually migrate keys away)
* in order to avoid receiving redirections
* for MIGRATE. */
if (!clusterManagerSetSlot(src, target, s,
"IMPORTING", NULL)) fixed = -1;
if (fixed < 0) goto cleanup;
int opts = CLUSTER_MANAGER_OPT_VERBOSE |
CLUSTER_MANAGER_OPT_COLD;
if (!clusterManagerMoveSlot(src, target, s, opts, NULL)) {
fixed = -1;
goto cleanup;
}
if (!clusterManagerClearSlotStatus(src, s))
fixed = -1;
if (fixed < 0) goto cleanup;
}
fixed++;
}
}
}
cleanup:
sdsfree(log);
if (none) listRelease(none);
if (single) listRelease(single);
if (multi) listRelease(multi);
return fixed;
}
/* Slot 'slot' was found to be in importing or migrating state in one or
* more nodes. This function fixes this condition by migrating keys where
* it seems more sensible. */
static int clusterManagerFixOpenSlot(int slot) {
clusterManagerLogInfo(">>> Fixing open slot %d\n", slot);
/* Try to obtain the current slot owner, according to the current
* nodes configuration. */
int success = 1;
list *owners = listCreate();
list *migrating = listCreate();
list *importing = listCreate();
sds migrating_str = sdsempty();
sds importing_str = sdsempty();
clusterManagerNode *owner = NULL;
listIter li;
listNode *ln;
listRewind(cluster_manager.nodes, &li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *n = ln->value;
if (n->flags & CLUSTER_MANAGER_FLAG_SLAVE) continue;
if (n->slots[slot]) listAddNodeTail(owners, n);
else {
redisReply *r = CLUSTER_MANAGER_COMMAND(n,
"CLUSTER COUNTKEYSINSLOT %d", slot);
success = clusterManagerCheckRedisReply(n, r, NULL);
if (success && r->integer > 0) {
clusterManagerLogWarn("*** Found keys about slot %d "
"in non-owner node %s:%d!\n", slot,
n->ip, n->port);
listAddNodeTail(owners, n);
}
if (r) freeReplyObject(r);
if (!success) goto cleanup;
}
}
if (listLength(owners) == 1) owner = listFirst(owners)->value;
listRewind(cluster_manager.nodes, &li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *n = ln->value;
if (n->flags & CLUSTER_MANAGER_FLAG_SLAVE) continue;
int is_migrating = 0, is_importing = 0;
if (n->migrating) {
for (int i = 0; i < n->migrating_count; i += 2) {
sds migrating_slot = n->migrating[i];
if (atoi(migrating_slot) == slot) {
char *sep = (listLength(migrating) == 0 ? "" : ",");
migrating_str = sdscatfmt(migrating_str, "%s%s:%u",
sep, n->ip, n->port);
listAddNodeTail(migrating, n);
is_migrating = 1;
break;
}
}
}
if (!is_migrating && n->importing) {
for (int i = 0; i < n->importing_count; i += 2) {
sds importing_slot = n->importing[i];
if (atoi(importing_slot) == slot) {
char *sep = (listLength(importing) == 0 ? "" : ",");
importing_str = sdscatfmt(importing_str, "%s%s:%u",
sep, n->ip, n->port);
listAddNodeTail(importing, n);
is_importing = 1;
break;
}
}
}
/* If the node is neither migrating nor importing and it's not
* the owner, then is added to the importing list in case
* it has keys in the slot. */
if (!is_migrating && !is_importing && n != owner) {
redisReply *r = CLUSTER_MANAGER_COMMAND(n,
"CLUSTER COUNTKEYSINSLOT %d", slot);
success = clusterManagerCheckRedisReply(n, r, NULL);
if (success && r->integer > 0) {
clusterManagerLogWarn("*** Found keys about slot %d "
"in node %s:%d!\n", slot, n->ip,
n->port);
char *sep = (listLength(importing) == 0 ? "" : ",");
importing_str = sdscatfmt(importing_str, "%s%S:%u",
sep, n->ip, n->port);
listAddNodeTail(importing, n);
}
if (r) freeReplyObject(r);
if (!success) goto cleanup;
}
}
if (sdslen(migrating_str) > 0)
printf("Set as migrating in: %s\n", migrating_str);
if (sdslen(importing_str) > 0)
printf("Set as importing in: %s\n", importing_str);
/* If there is no slot owner, set as owner the node with the biggest
* number of keys, among the set of migrating / importing nodes. */
if (owner == NULL) {
clusterManagerLogInfo(">>> Nobody claims ownership, "
"selecting an owner...\n");
owner = clusterManagerGetNodeWithMostKeysInSlot(cluster_manager.nodes,
slot, NULL);
// If we still don't have an owner, we can't fix it.
if (owner == NULL) {
clusterManagerLogErr("[ERR] Can't select a slot owner. "
"Impossible to fix.\n");
success = 0;
goto cleanup;
}
// Use ADDSLOTS to assign the slot.
clusterManagerLogWarn("*** Configuring %s:%d as the slot owner\n",
owner->ip, owner->port);
success = clusterManagerClearSlotStatus(owner, slot);
if (!success) goto cleanup;
success = clusterManagerSetSlotOwner(owner, slot, 0);
if (!success) goto cleanup;
/* Since CLUSTER ADDSLOTS succeeded, we also update the slot
* info into the node struct, in order to keep it synced */
owner->slots[slot] = 1;
/* Make sure this information will propagate. Not strictly needed
* since there is no past owner, so all the other nodes will accept
* whatever epoch this node will claim the slot with. */
success = clusterManagerBumpEpoch(owner);
if (!success) goto cleanup;
/* Remove the owner from the list of migrating/importing
* nodes. */
clusterManagerRemoveNodeFromList(migrating, owner);
clusterManagerRemoveNodeFromList(importing, owner);
}
/* If there are multiple owners of the slot, we need to fix it
* so that a single node is the owner and all the other nodes
* are in importing state. Later the fix can be handled by one
* of the base cases above.
*
* Note that this case also covers multiple nodes having the slot
* in migrating state, since migrating is a valid state only for
* slot owners. */
if (listLength(owners) > 1) {
/* Owner cannot be NULL at this point, since if there are more owners,
* the owner has been set in the previous condition (owner == NULL). */
assert(owner != NULL);
listRewind(owners, &li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *n = ln->value;
if (n == owner) continue;
success = clusterManagerDelSlot(n, slot, 1);
if (!success) goto cleanup;
n->slots[slot] = 0;
/* Assign the slot to the owner in the node 'n' configuration.' */
success = clusterManagerSetSlot(n, owner, slot, "node", NULL);
if (!success) goto cleanup;
success = clusterManagerSetSlot(n, owner, slot, "importing", NULL);
if (!success) goto cleanup;
/* Avoid duplicates. */
clusterManagerRemoveNodeFromList(importing, n);
listAddNodeTail(importing, n);
/* Ensure that the node is not in the migrating list. */
clusterManagerRemoveNodeFromList(migrating, n);
}
}
int move_opts = CLUSTER_MANAGER_OPT_VERBOSE;
/* Case 1: The slot is in migrating state in one node, and in
* importing state in 1 node. That's trivial to address. */
if (listLength(migrating) == 1 && listLength(importing) == 1) {
clusterManagerNode *src = listFirst(migrating)->value;
clusterManagerNode *dst = listFirst(importing)->value;
clusterManagerLogInfo(">>> Case 1: Moving slot %d from "
"%s:%d to %s:%d\n", slot,
src->ip, src->port, dst->ip, dst->port);
move_opts |= CLUSTER_MANAGER_OPT_UPDATE;
success = clusterManagerMoveSlot(src, dst, slot, move_opts, NULL);
}
/* Case 2: There are multiple nodes that claim the slot as importing,
* they probably got keys about the slot after a restart so opened
* the slot. In this case we just move all the keys to the owner
* according to the configuration. */
else if (listLength(migrating) == 0 && listLength(importing) > 0) {
clusterManagerLogInfo(">>> Case 2: Moving all the %d slot keys to its "
"owner %s:%d\n", slot, owner->ip, owner->port);
move_opts |= CLUSTER_MANAGER_OPT_COLD;
listRewind(importing, &li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *n = ln->value;
if (n == owner) continue;
success = clusterManagerMoveSlot(n, owner, slot, move_opts, NULL);
if (!success) goto cleanup;
clusterManagerLogInfo(">>> Setting %d as STABLE in "
"%s:%d\n", slot, n->ip, n->port);
success = clusterManagerClearSlotStatus(n, slot);
if (!success) goto cleanup;
}
/* Since the slot has been moved in "cold" mode, ensure that all the
* other nodes update their own configuration about the slot itself. */
listRewind(cluster_manager.nodes, &li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *n = ln->value;
if (n == owner) continue;
if (n->flags & CLUSTER_MANAGER_FLAG_SLAVE) continue;
success = clusterManagerSetSlot(n, owner, slot, "NODE", NULL);
if (!success) goto cleanup;
}
}
/* Case 3: The slot is in migrating state in one node but multiple
* other nodes claim to be in importing state and don't have any key in
* the slot. We search for the importing node having the same ID as
* the destination node of the migrating node.
* In that case we move the slot from the migrating node to this node and
* we close the importing states on all the other importing nodes.
* If no importing node has the same ID as the destination node of the
* migrating node, the slot's state is closed on both the migrating node
* and the importing nodes. */
else if (listLength(migrating) == 1 && listLength(importing) > 1) {
int try_to_fix = 1;
clusterManagerNode *src = listFirst(migrating)->value;
clusterManagerNode *dst = NULL;
sds target_id = NULL;
for (int i = 0; i < src->migrating_count; i += 2) {
sds migrating_slot = src->migrating[i];
if (atoi(migrating_slot) == slot) {
target_id = src->migrating[i + 1];
break;
}
}
assert(target_id != NULL);
listIter li;
listNode *ln;
listRewind(importing, &li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *n = ln->value;
int count = clusterManagerCountKeysInSlot(n, slot);
if (count > 0) {
try_to_fix = 0;
break;
}
if (strcmp(n->name, target_id) == 0) dst = n;
}
if (!try_to_fix) goto unhandled_case;
if (dst != NULL) {
clusterManagerLogInfo(">>> Case 3: Moving slot %d from %s:%d to "
"%s:%d and closing it on all the other "
"importing nodes.\n",
slot, src->ip, src->port,
dst->ip, dst->port);
/* Move the slot to the destination node. */
success = clusterManagerMoveSlot(src, dst, slot, move_opts, NULL);
if (!success) goto cleanup;
/* Close slot on all the other importing nodes. */
listRewind(importing, &li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *n = ln->value;
if (dst == n) continue;
success = clusterManagerClearSlotStatus(n, slot);
if (!success) goto cleanup;
}
} else {
clusterManagerLogInfo(">>> Case 3: Closing slot %d on both "
"migrating and importing nodes.\n", slot);
/* Close the slot on both the migrating node and the importing
* nodes. */
success = clusterManagerClearSlotStatus(src, slot);
if (!success) goto cleanup;
listRewind(importing, &li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *n = ln->value;
success = clusterManagerClearSlotStatus(n, slot);
if (!success) goto cleanup;
}
}
} else {
int try_to_close_slot = (listLength(importing) == 0 &&
listLength(migrating) == 1);
if (try_to_close_slot) {
clusterManagerNode *n = listFirst(migrating)->value;
if (!owner || owner != n) {
redisReply *r = CLUSTER_MANAGER_COMMAND(n,
"CLUSTER GETKEYSINSLOT %d %d", slot, 10);
success = clusterManagerCheckRedisReply(n, r, NULL);
if (r) {
if (success) try_to_close_slot = (r->elements == 0);
freeReplyObject(r);
}
if (!success) goto cleanup;
}
}
/* Case 4: There are no slots claiming to be in importing state, but
* there is a migrating node that actually don't have any key or is the
* slot owner. We can just close the slot, probably a reshard
* interrupted in the middle. */
if (try_to_close_slot) {
clusterManagerNode *n = listFirst(migrating)->value;
clusterManagerLogInfo(">>> Case 4: Closing slot %d on %s:%d\n",
slot, n->ip, n->port);
redisReply *r = CLUSTER_MANAGER_COMMAND(n, "CLUSTER SETSLOT %d %s",
slot, "STABLE");
success = clusterManagerCheckRedisReply(n, r, NULL);
if (r) freeReplyObject(r);
if (!success) goto cleanup;
} else {
unhandled_case:
success = 0;
clusterManagerLogErr("[ERR] Sorry, redis-cli can't fix this slot "
"yet (work in progress). Slot is set as "
"migrating in %s, as importing in %s, "
"owner is %s:%d\n", migrating_str,
importing_str, owner->ip, owner->port);
}
}
cleanup:
listRelease(owners);
listRelease(migrating);
listRelease(importing);
sdsfree(migrating_str);
sdsfree(importing_str);
return success;
}
static int clusterManagerFixMultipleSlotOwners(int slot, list *owners) {
clusterManagerLogInfo(">>> Fixing multiple owners for slot %d...\n", slot);
int success = 0;
assert(listLength(owners) > 1);
clusterManagerNode *owner = clusterManagerGetNodeWithMostKeysInSlot(owners,
slot,
NULL);
if (!owner) owner = listFirst(owners)->value;
clusterManagerLogInfo(">>> Setting slot %d owner: %s:%d\n",
slot, owner->ip, owner->port);
/* Set the slot owner. */
if (!clusterManagerSetSlotOwner(owner, slot, 0)) return 0;
listIter li;
listNode *ln;
listRewind(cluster_manager.nodes, &li);
/* Update configuration in all the other master nodes by assigning the slot
* itself to the new owner, and by eventually migrating keys if the node
* has keys for the slot. */
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *n = ln->value;
if (n == owner) continue;
if (n->flags & CLUSTER_MANAGER_FLAG_SLAVE) continue;
int count = clusterManagerCountKeysInSlot(n, slot);
success = (count >= 0);
if (!success) break;
clusterManagerDelSlot(n, slot, 1);
if (!clusterManagerSetSlot(n, owner, slot, "node", NULL)) return 0;
if (count > 0) {
int opts = CLUSTER_MANAGER_OPT_VERBOSE |
CLUSTER_MANAGER_OPT_COLD;
success = clusterManagerMoveSlot(n, owner, slot, opts, NULL);
if (!success) break;
}
}
return success;
}
static int clusterManagerCheckCluster(int quiet) {
listNode *ln = listFirst(cluster_manager.nodes);
if (!ln) return 0;
clusterManagerNode *node = ln->value;
clusterManagerLogInfo(">>> Performing Cluster Check (using node %s:%d)\n",
node->ip, node->port);
int result = 1, consistent = 0;
int do_fix = config.cluster_manager_command.flags &
CLUSTER_MANAGER_CMD_FLAG_FIX;
if (!quiet) clusterManagerShowNodes();
consistent = clusterManagerIsConfigConsistent();
if (!consistent) {
sds err = sdsnew("[ERR] Nodes don't agree about configuration!");
clusterManagerOnError(err);
result = 0;
} else {
clusterManagerLogOk("[OK] All nodes agree about slots "
"configuration.\n");
}
/* Check open slots */
clusterManagerLogInfo(">>> Check for open slots...\n");
listIter li;
listRewind(cluster_manager.nodes, &li);
int i;
dict *open_slots = NULL;
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *n = ln->value;
if (n->migrating != NULL) {
if (open_slots == NULL)
open_slots = dictCreate(&clusterManagerDictType, NULL);
sds errstr = sdsempty();
errstr = sdscatprintf(errstr,
"[WARNING] Node %s:%d has slots in "
"migrating state ",
n->ip,
n->port);
for (i = 0; i < n->migrating_count; i += 2) {
sds slot = n->migrating[i];
dictReplace(open_slots, slot, sdsdup(n->migrating[i + 1]));
char *fmt = (i > 0 ? ",%S" : "%S");
errstr = sdscatfmt(errstr, fmt, slot);
}
errstr = sdscat(errstr, ".");
clusterManagerOnError(errstr);
}
if (n->importing != NULL) {
if (open_slots == NULL)
open_slots = dictCreate(&clusterManagerDictType, NULL);
sds errstr = sdsempty();
errstr = sdscatprintf(errstr,
"[WARNING] Node %s:%d has slots in "
"importing state ",
n->ip,
n->port);
for (i = 0; i < n->importing_count; i += 2) {
sds slot = n->importing[i];
dictReplace(open_slots, slot, sdsdup(n->importing[i + 1]));
char *fmt = (i > 0 ? ",%S" : "%S");
errstr = sdscatfmt(errstr, fmt, slot);
}
errstr = sdscat(errstr, ".");
clusterManagerOnError(errstr);
}
}
if (open_slots != NULL) {
result = 0;
dictIterator *iter = dictGetIterator(open_slots);
dictEntry *entry;
sds errstr = sdsnew("[WARNING] The following slots are open: ");
i = 0;
while ((entry = dictNext(iter)) != NULL) {
sds slot = (sds) dictGetKey(entry);
char *fmt = (i++ > 0 ? ",%S" : "%S");
errstr = sdscatfmt(errstr, fmt, slot);
}
clusterManagerLogErr("%s.\n", (char *) errstr);
sdsfree(errstr);
if (do_fix) {
/* Fix open slots. */
dictReleaseIterator(iter);
iter = dictGetIterator(open_slots);
while ((entry = dictNext(iter)) != NULL) {
sds slot = (sds) dictGetKey(entry);
result = clusterManagerFixOpenSlot(atoi(slot));
if (!result) break;
}
}
dictReleaseIterator(iter);
dictRelease(open_slots);
}
clusterManagerLogInfo(">>> Check slots coverage...\n");
char slots[CLUSTER_MANAGER_SLOTS];
memset(slots, 0, CLUSTER_MANAGER_SLOTS);
int coverage = clusterManagerGetCoveredSlots(slots);
if (coverage == CLUSTER_MANAGER_SLOTS) {
clusterManagerLogOk("[OK] All %d slots covered.\n",
CLUSTER_MANAGER_SLOTS);
} else {
sds err = sdsempty();
err = sdscatprintf(err, "[ERR] Not all %d slots are "
"covered by nodes.\n",
CLUSTER_MANAGER_SLOTS);
clusterManagerOnError(err);
result = 0;
if (do_fix/* && result*/) {
dictType dtype = clusterManagerDictType;
dtype.keyDestructor = dictSdsDestructor;
dtype.valDestructor = dictListDestructor;
clusterManagerUncoveredSlots = dictCreate(&dtype, NULL);
int fixed = clusterManagerFixSlotsCoverage(slots);
if (fixed > 0) result = 1;
}
}
int search_multiple_owners = config.cluster_manager_command.flags &
CLUSTER_MANAGER_CMD_FLAG_CHECK_OWNERS;
if (search_multiple_owners) {
/* Check whether there are multiple owners, even when slots are
* fully covered and there are no open slots. */
clusterManagerLogInfo(">>> Check for multiple slot owners...\n");
int slot = 0, slots_with_multiple_owners = 0;
for (; slot < CLUSTER_MANAGER_SLOTS; slot++) {
listIter li;
listNode *ln;
listRewind(cluster_manager.nodes, &li);
list *owners = listCreate();
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *n = ln->value;
if (n->flags & CLUSTER_MANAGER_FLAG_SLAVE) continue;
if (n->slots[slot]) listAddNodeTail(owners, n);
else {
/* Nodes having keys for the slot will be considered
* owners too. */
int count = clusterManagerCountKeysInSlot(n, slot);
if (count > 0) listAddNodeTail(owners, n);
}
}
if (listLength(owners) > 1) {
result = 0;
clusterManagerLogErr("[WARNING] Slot %d has %d owners:\n",
slot, listLength(owners));
listRewind(owners, &li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *n = ln->value;
clusterManagerLogErr(" %s:%d\n", n->ip, n->port);
}
slots_with_multiple_owners++;
if (do_fix) {
result = clusterManagerFixMultipleSlotOwners(slot, owners);
if (!result) {
clusterManagerLogErr("Failed to fix multiple owners "
"for slot %d\n", slot);
listRelease(owners);
break;
} else slots_with_multiple_owners--;
}
}
listRelease(owners);
}
if (slots_with_multiple_owners == 0)
clusterManagerLogOk("[OK] No multiple owners found.\n");
}
return result;
}
static clusterManagerNode *clusterNodeForResharding(char *id,
clusterManagerNode *target,
int *raise_err)
{
clusterManagerNode *node = NULL;
const char *invalid_node_msg = "*** The specified node (%s) is not known "
"or not a master, please retry.\n";
node = clusterManagerNodeByName(id);
*raise_err = 0;
if (!node || node->flags & CLUSTER_MANAGER_FLAG_SLAVE) {
clusterManagerLogErr(invalid_node_msg, id);
*raise_err = 1;
return NULL;
} else if (node != NULL && target != NULL) {
if (!strcmp(node->name, target->name)) {
clusterManagerLogErr( "*** It is not possible to use "
"the target node as "
"source node.\n");
return NULL;
}
}
return node;
}
static list *clusterManagerComputeReshardTable(list *sources, int numslots) {
list *moved = listCreate();
int src_count = listLength(sources), i = 0, tot_slots = 0, j;
clusterManagerNode **sorted = zmalloc(src_count * sizeof(*sorted));
listIter li;
listNode *ln;
listRewind(sources, &li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *node = ln->value;
tot_slots += node->slots_count;
sorted[i++] = node;
}
qsort(sorted, src_count, sizeof(clusterManagerNode *),
clusterManagerSlotCountCompareDesc);
for (i = 0; i < src_count; i++) {
clusterManagerNode *node = sorted[i];
float n = ((float) numslots / tot_slots * node->slots_count);
if (i == 0) n = ceil(n);
else n = floor(n);
int max = (int) n, count = 0;
for (j = 0; j < CLUSTER_MANAGER_SLOTS; j++) {
int slot = node->slots[j];
if (!slot) continue;
if (count >= max || (int)listLength(moved) >= numslots) break;
clusterManagerReshardTableItem *item = zmalloc(sizeof(*item));
item->source = node;
item->slot = j;
listAddNodeTail(moved, item);
count++;
}
}
zfree(sorted);
return moved;
}
static void clusterManagerShowReshardTable(list *table) {
listIter li;
listNode *ln;
listRewind(table, &li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerReshardTableItem *item = ln->value;
clusterManagerNode *n = item->source;
printf(" Moving slot %d from %s\n", item->slot, (char *) n->name);
}
}
static void clusterManagerReleaseReshardTable(list *table) {
if (table != NULL) {
listIter li;
listNode *ln;
listRewind(table, &li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerReshardTableItem *item = ln->value;
zfree(item);
}
listRelease(table);
}
}
static void clusterManagerLog(int level, const char* fmt, ...) {
int use_colors =
(config.cluster_manager_command.flags & CLUSTER_MANAGER_CMD_FLAG_COLOR);
if (use_colors) {
printf("\033[");
switch (level) {
case CLUSTER_MANAGER_LOG_LVL_INFO: printf(LOG_COLOR_BOLD); break;
case CLUSTER_MANAGER_LOG_LVL_WARN: printf(LOG_COLOR_YELLOW); break;
case CLUSTER_MANAGER_LOG_LVL_ERR: printf(LOG_COLOR_RED); break;
case CLUSTER_MANAGER_LOG_LVL_SUCCESS: printf(LOG_COLOR_GREEN); break;
default: printf(LOG_COLOR_RESET); break;
}
}
va_list ap;
va_start(ap, fmt);
vprintf(fmt, ap);
va_end(ap);
if (use_colors) printf("\033[" LOG_COLOR_RESET);
}
static void clusterManagerNodeArrayInit(clusterManagerNodeArray *array,
int alloc_len)
{
array->nodes = zcalloc(alloc_len * sizeof(clusterManagerNode*));
array->alloc = array->nodes;
array->len = alloc_len;
array->count = 0;
}
/* Reset array->nodes to the original array allocation and re-count non-NULL
* nodes. */
static void clusterManagerNodeArrayReset(clusterManagerNodeArray *array) {
if (array->nodes > array->alloc) {
array->len = array->nodes - array->alloc;
array->nodes = array->alloc;
array->count = 0;
int i = 0;
for(; i < array->len; i++) {
if (array->nodes[i] != NULL) array->count++;
}
}
}
/* Shift array->nodes and store the shifted node into 'nodeptr'. */
static void clusterManagerNodeArrayShift(clusterManagerNodeArray *array,
clusterManagerNode **nodeptr)
{
assert(array->nodes < (array->nodes + array->len));
/* If the first node to be shifted is not NULL, decrement count. */
if (*array->nodes != NULL) array->count--;
/* Store the first node to be shifted into 'nodeptr'. */
*nodeptr = *array->nodes;
/* Shift the nodes array and decrement length. */
array->nodes++;
array->len--;
}
static void clusterManagerNodeArrayAdd(clusterManagerNodeArray *array,
clusterManagerNode *node)
{
assert(array->nodes < (array->nodes + array->len));
assert(node != NULL);
assert(array->count < array->len);
array->nodes[array->count++] = node;
}
static void clusterManagerPrintNotEmptyNodeError(clusterManagerNode *node,
char *err)
{
char *msg;
if (err) msg = err;
else {
msg = "is not empty. Either the node already knows other "
"nodes (check with CLUSTER NODES) or contains some "
"key in database 0.";
}
clusterManagerLogErr("[ERR] Node %s:%d %s\n", node->ip, node->port, msg);
}
static void clusterManagerPrintNotClusterNodeError(clusterManagerNode *node,
char *err)
{
char *msg = (err ? err : "is not configured as a cluster node.");
clusterManagerLogErr("[ERR] Node %s:%d %s\n", node->ip, node->port, msg);
}
/* Execute redis-cli in Cluster Manager mode */
static void clusterManagerMode(clusterManagerCommandProc *proc) {
int argc = config.cluster_manager_command.argc;
char **argv = config.cluster_manager_command.argv;
cluster_manager.nodes = NULL;
if (!proc(argc, argv)) goto cluster_manager_err;
freeClusterManager();
exit(0);
cluster_manager_err:
freeClusterManager();
sdsfree(config.hostip);
sdsfree(config.mb_delim);
exit(1);
}
/* Cluster Manager Commands */
static int clusterManagerCommandCreate(int argc, char **argv) {
int i, j, success = 1;
cluster_manager.nodes = listCreate();
for (i = 0; i < argc; i++) {
char *addr = argv[i];
char *c = strrchr(addr, '@');
if (c != NULL) *c = '\0';
c = strrchr(addr, ':');
if (c == NULL) {
fprintf(stderr, "Invalid address format: %s\n", addr);
return 0;
}
*c = '\0';
char *ip = addr;
int port = atoi(++c);
clusterManagerNode *node = clusterManagerNewNode(ip, port);
if (!clusterManagerNodeConnect(node)) {
freeClusterManagerNode(node);
return 0;
}
char *err = NULL;
if (!clusterManagerNodeIsCluster(node, &err)) {
clusterManagerPrintNotClusterNodeError(node, err);
if (err) zfree(err);
freeClusterManagerNode(node);
return 0;
}
err = NULL;
if (!clusterManagerNodeLoadInfo(node, 0, &err)) {
if (err) {
CLUSTER_MANAGER_PRINT_REPLY_ERROR(node, err);
zfree(err);
}
freeClusterManagerNode(node);
return 0;
}
err = NULL;
if (!clusterManagerNodeIsEmpty(node, &err)) {
clusterManagerPrintNotEmptyNodeError(node, err);
if (err) zfree(err);
freeClusterManagerNode(node);
return 0;
}
listAddNodeTail(cluster_manager.nodes, node);
}
int node_len = cluster_manager.nodes->len;
int replicas = config.cluster_manager_command.replicas;
int masters_count = CLUSTER_MANAGER_MASTERS_COUNT(node_len, replicas);
if (masters_count < 3) {
clusterManagerLogErr(
"*** ERROR: Invalid configuration for cluster creation.\n"
"*** Redis Cluster requires at least 3 master nodes.\n"
"*** This is not possible with %d nodes and %d replicas per node.",
node_len, replicas);
clusterManagerLogErr("\n*** At least %d nodes are required.\n",
3 * (replicas + 1));
return 0;
}
clusterManagerLogInfo(">>> Performing hash slots allocation "
"on %d nodes...\n", node_len);
int interleaved_len = 0, ip_count = 0;
clusterManagerNode **interleaved = zcalloc(node_len*sizeof(**interleaved));
char **ips = zcalloc(node_len * sizeof(char*));
clusterManagerNodeArray *ip_nodes = zcalloc(node_len * sizeof(*ip_nodes));
listIter li;
listNode *ln;
listRewind(cluster_manager.nodes, &li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *n = ln->value;
int found = 0;
for (i = 0; i < ip_count; i++) {
char *ip = ips[i];
if (!strcmp(ip, n->ip)) {
found = 1;
break;
}
}
if (!found) {
ips[ip_count++] = n->ip;
}
clusterManagerNodeArray *node_array = &(ip_nodes[i]);
if (node_array->nodes == NULL)
clusterManagerNodeArrayInit(node_array, node_len);
clusterManagerNodeArrayAdd(node_array, n);
}
while (interleaved_len < node_len) {
for (i = 0; i < ip_count; i++) {
clusterManagerNodeArray *node_array = &(ip_nodes[i]);
if (node_array->count > 0) {
clusterManagerNode *n = NULL;
clusterManagerNodeArrayShift(node_array, &n);
interleaved[interleaved_len++] = n;
}
}
}
clusterManagerNode **masters = interleaved;
interleaved += masters_count;
interleaved_len -= masters_count;
float slots_per_node = CLUSTER_MANAGER_SLOTS / (float) masters_count;
long first = 0;
float cursor = 0.0f;
for (i = 0; i < masters_count; i++) {
clusterManagerNode *master = masters[i];
long last = lround(cursor + slots_per_node - 1);
if (last > CLUSTER_MANAGER_SLOTS || i == (masters_count - 1))
last = CLUSTER_MANAGER_SLOTS - 1;
if (last < first) last = first;
printf("Master[%d] -> Slots %lu - %lu\n", i, first, last);
master->slots_count = 0;
for (j = first; j <= last; j++) {
master->slots[j] = 1;
master->slots_count++;
}
master->dirty = 1;
first = last + 1;
cursor += slots_per_node;
}
/* Rotating the list sometimes helps to get better initial
* anti-affinity before the optimizer runs. */
clusterManagerNode *first_node = interleaved[0];
for (i = 0; i < (interleaved_len - 1); i++)
interleaved[i] = interleaved[i + 1];
interleaved[interleaved_len - 1] = first_node;
int assign_unused = 0, available_count = interleaved_len;
assign_replicas:
for (i = 0; i < masters_count; i++) {
clusterManagerNode *master = masters[i];
int assigned_replicas = 0;
while (assigned_replicas < replicas) {
if (available_count == 0) break;
clusterManagerNode *found = NULL, *slave = NULL;
int firstNodeIdx = -1;
for (j = 0; j < interleaved_len; j++) {
clusterManagerNode *n = interleaved[j];
if (n == NULL) continue;
if (strcmp(n->ip, master->ip)) {
found = n;
interleaved[j] = NULL;
break;
}
if (firstNodeIdx < 0) firstNodeIdx = j;
}
if (found) slave = found;
else if (firstNodeIdx >= 0) {
slave = interleaved[firstNodeIdx];
interleaved_len -= (interleaved - (interleaved + firstNodeIdx));
interleaved += (firstNodeIdx + 1);
}
if (slave != NULL) {
assigned_replicas++;
available_count--;
if (slave->replicate) sdsfree(slave->replicate);
slave->replicate = sdsnew(master->name);
slave->dirty = 1;
} else break;
printf("Adding replica %s:%d to %s:%d\n", slave->ip, slave->port,
master->ip, master->port);
if (assign_unused) break;
}
}
if (!assign_unused && available_count > 0) {
assign_unused = 1;
printf("Adding extra replicas...\n");
goto assign_replicas;
}
for (i = 0; i < ip_count; i++) {
clusterManagerNodeArray *node_array = ip_nodes + i;
clusterManagerNodeArrayReset(node_array);
}
clusterManagerOptimizeAntiAffinity(ip_nodes, ip_count);
clusterManagerShowNodes();
if (confirmWithYes("Can I set the above configuration?")) {
listRewind(cluster_manager.nodes, &li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *node = ln->value;
char *err = NULL;
int flushed = clusterManagerFlushNodeConfig(node, &err);
if (!flushed && node->dirty && !node->replicate) {
if (err != NULL) {
CLUSTER_MANAGER_PRINT_REPLY_ERROR(node, err);
zfree(err);
}
success = 0;
goto cleanup;
} else if (err != NULL) zfree(err);
}
clusterManagerLogInfo(">>> Nodes configuration updated\n");
clusterManagerLogInfo(">>> Assign a different config epoch to "
"each node\n");
int config_epoch = 1;
listRewind(cluster_manager.nodes, &li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *node = ln->value;
redisReply *reply = NULL;
reply = CLUSTER_MANAGER_COMMAND(node,
"cluster set-config-epoch %d",
config_epoch++);
if (reply != NULL) freeReplyObject(reply);
}
clusterManagerLogInfo(">>> Sending CLUSTER MEET messages to join "
"the cluster\n");
clusterManagerNode *first = NULL;
listRewind(cluster_manager.nodes, &li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *node = ln->value;
if (first == NULL) {
first = node;
continue;
}
redisReply *reply = NULL;
reply = CLUSTER_MANAGER_COMMAND(node, "cluster meet %s %d",
first->ip, first->port);
int is_err = 0;
if (reply != NULL) {
if ((is_err = reply->type == REDIS_REPLY_ERROR))
CLUSTER_MANAGER_PRINT_REPLY_ERROR(node, reply->str);
freeReplyObject(reply);
} else {
is_err = 1;
fprintf(stderr, "Failed to send CLUSTER MEET command.\n");
}
if (is_err) {
success = 0;
goto cleanup;
}
}
/* Give one second for the join to start, in order to avoid that
* waiting for cluster join will find all the nodes agree about
* the config as they are still empty with unassigned slots. */
sleep(1);
clusterManagerWaitForClusterJoin();
/* Useful for the replicas */
listRewind(cluster_manager.nodes, &li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *node = ln->value;
if (!node->dirty) continue;
char *err = NULL;
int flushed = clusterManagerFlushNodeConfig(node, &err);
if (!flushed && !node->replicate) {
if (err != NULL) {
CLUSTER_MANAGER_PRINT_REPLY_ERROR(node, err);
zfree(err);
}
success = 0;
goto cleanup;
}
}
// Reset Nodes
listRewind(cluster_manager.nodes, &li);
clusterManagerNode *first_node = NULL;
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *node = ln->value;
if (!first_node) first_node = node;
else freeClusterManagerNode(node);
}
listEmpty(cluster_manager.nodes);
if (!clusterManagerLoadInfoFromNode(first_node, 0)) {
success = 0;
goto cleanup;
}
clusterManagerCheckCluster(0);
}
cleanup:
/* Free everything */
zfree(masters);
zfree(ips);
for (i = 0; i < node_len; i++) {
clusterManagerNodeArray *node_array = ip_nodes + i;
CLUSTER_MANAGER_NODE_ARRAY_FREE(node_array);
}
zfree(ip_nodes);
return success;
}
static int clusterManagerCommandAddNode(int argc, char **argv) {
int success = 1;
redisReply *reply = NULL;
char *ref_ip = NULL, *ip = NULL;
int ref_port = 0, port = 0;
if (!getClusterHostFromCmdArgs(argc - 1, argv + 1, &ref_ip, &ref_port))
goto invalid_args;
if (!getClusterHostFromCmdArgs(1, argv, &ip, &port))
goto invalid_args;
clusterManagerLogInfo(">>> Adding node %s:%d to cluster %s:%d\n", ip, port,
ref_ip, ref_port);
// Check the existing cluster
clusterManagerNode *refnode = clusterManagerNewNode(ref_ip, ref_port);
if (!clusterManagerLoadInfoFromNode(refnode, 0)) return 0;
if (!clusterManagerCheckCluster(0)) return 0;
/* If --cluster-master-id was specified, try to resolve it now so that we
* abort before starting with the node configuration. */
clusterManagerNode *master_node = NULL;
if (config.cluster_manager_command.flags & CLUSTER_MANAGER_CMD_FLAG_SLAVE) {
char *master_id = config.cluster_manager_command.master_id;
if (master_id != NULL) {
master_node = clusterManagerNodeByName(master_id);
if (master_node == NULL) {
clusterManagerLogErr("[ERR] No such master ID %s\n", master_id);
return 0;
}
} else {
master_node = clusterManagerNodeWithLeastReplicas();
assert(master_node != NULL);
printf("Automatically selected master %s:%d\n", master_node->ip,
master_node->port);
}
}
// Add the new node
clusterManagerNode *new_node = clusterManagerNewNode(ip, port);
int added = 0;
if (!clusterManagerNodeConnect(new_node)) {
clusterManagerLogErr("[ERR] Sorry, can't connect to node %s:%d\n",
ip, port);
success = 0;
goto cleanup;
}
char *err = NULL;
if (!(success = clusterManagerNodeIsCluster(new_node, &err))) {
clusterManagerPrintNotClusterNodeError(new_node, err);
if (err) zfree(err);
goto cleanup;
}
if (!clusterManagerNodeLoadInfo(new_node, 0, &err)) {
if (err) {
CLUSTER_MANAGER_PRINT_REPLY_ERROR(new_node, err);
zfree(err);
}
success = 0;
goto cleanup;
}
if (!(success = clusterManagerNodeIsEmpty(new_node, &err))) {
clusterManagerPrintNotEmptyNodeError(new_node, err);
if (err) zfree(err);
goto cleanup;
}
clusterManagerNode *first = listFirst(cluster_manager.nodes)->value;
listAddNodeTail(cluster_manager.nodes, new_node);
added = 1;
// Send CLUSTER MEET command to the new node
clusterManagerLogInfo(">>> Send CLUSTER MEET to node %s:%d to make it "
"join the cluster.\n", ip, port);
reply = CLUSTER_MANAGER_COMMAND(new_node, "CLUSTER MEET %s %d",
first->ip, first->port);
if (!(success = clusterManagerCheckRedisReply(new_node, reply, NULL)))
goto cleanup;
/* Additional configuration is needed if the node is added as a slave. */
if (master_node) {
sleep(1);
clusterManagerWaitForClusterJoin();
clusterManagerLogInfo(">>> Configure node as replica of %s:%d.\n",
master_node->ip, master_node->port);
freeReplyObject(reply);
reply = CLUSTER_MANAGER_COMMAND(new_node, "CLUSTER REPLICATE %s",
master_node->name);
if (!(success = clusterManagerCheckRedisReply(new_node, reply, NULL)))
goto cleanup;
}
clusterManagerLogOk("[OK] New node added correctly.\n");
cleanup:
if (!added && new_node) freeClusterManagerNode(new_node);
if (reply) freeReplyObject(reply);
return success;
invalid_args:
fprintf(stderr, CLUSTER_MANAGER_INVALID_HOST_ARG);
return 0;
}
static int clusterManagerCommandDeleteNode(int argc, char **argv) {
UNUSED(argc);
int success = 1;
int port = 0;
char *ip = NULL;
if (!getClusterHostFromCmdArgs(1, argv, &ip, &port)) goto invalid_args;
char *node_id = argv[1];
clusterManagerLogInfo(">>> Removing node %s from cluster %s:%d\n",
node_id, ip, port);
clusterManagerNode *ref_node = clusterManagerNewNode(ip, port);
clusterManagerNode *node = NULL;
// Load cluster information
if (!clusterManagerLoadInfoFromNode(ref_node, 0)) return 0;
// Check if the node exists and is not empty
node = clusterManagerNodeByName(node_id);
if (node == NULL) {
clusterManagerLogErr("[ERR] No such node ID %s\n", node_id);
return 0;
}
if (node->slots_count != 0) {
clusterManagerLogErr("[ERR] Node %s:%d is not empty! Reshard data "
"away and try again.\n", node->ip, node->port);
return 0;
}
// Send CLUSTER FORGET to all the nodes but the node to remove
clusterManagerLogInfo(">>> Sending CLUSTER FORGET messages to the "
"cluster...\n");
listIter li;
listNode *ln;
listRewind(cluster_manager.nodes, &li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *n = ln->value;
if (n == node) continue;
if (n->replicate && !strcasecmp(n->replicate, node_id)) {
// Reconfigure the slave to replicate with some other node
clusterManagerNode *master = clusterManagerNodeWithLeastReplicas();
assert(master != NULL);
clusterManagerLogInfo(">>> %s:%d as replica of %s:%d\n",
n->ip, n->port, master->ip, master->port);
redisReply *r = CLUSTER_MANAGER_COMMAND(n, "CLUSTER REPLICATE %s",
master->name);
success = clusterManagerCheckRedisReply(n, r, NULL);
if (r) freeReplyObject(r);
if (!success) return 0;
}
redisReply *r = CLUSTER_MANAGER_COMMAND(n, "CLUSTER FORGET %s",
node_id);
success = clusterManagerCheckRedisReply(n, r, NULL);
if (r) freeReplyObject(r);
if (!success) return 0;
}
/* Finally send CLUSTER RESET to the node. */
clusterManagerLogInfo(">>> Sending CLUSTER RESET SOFT to the "
"deleted node.\n");
redisReply *r = redisCommand(node->context, "CLUSTER RESET %s", "SOFT");
success = clusterManagerCheckRedisReply(node, r, NULL);
if (r) freeReplyObject(r);
return success;
invalid_args:
fprintf(stderr, CLUSTER_MANAGER_INVALID_HOST_ARG);
return 0;
}
static int clusterManagerCommandInfo(int argc, char **argv) {
int port = 0;
char *ip = NULL;
if (!getClusterHostFromCmdArgs(argc, argv, &ip, &port)) goto invalid_args;
clusterManagerNode *node = clusterManagerNewNode(ip, port);
if (!clusterManagerLoadInfoFromNode(node, 0)) return 0;
clusterManagerShowClusterInfo();
return 1;
invalid_args:
fprintf(stderr, CLUSTER_MANAGER_INVALID_HOST_ARG);
return 0;
}
static int clusterManagerCommandCheck(int argc, char **argv) {
int port = 0;
char *ip = NULL;
if (!getClusterHostFromCmdArgs(argc, argv, &ip, &port)) goto invalid_args;
clusterManagerNode *node = clusterManagerNewNode(ip, port);
if (!clusterManagerLoadInfoFromNode(node, 0)) return 0;
clusterManagerShowClusterInfo();
return clusterManagerCheckCluster(0);
invalid_args:
fprintf(stderr, CLUSTER_MANAGER_INVALID_HOST_ARG);
return 0;
}
static int clusterManagerCommandFix(int argc, char **argv) {
config.cluster_manager_command.flags |= CLUSTER_MANAGER_CMD_FLAG_FIX;
return clusterManagerCommandCheck(argc, argv);
}
static int clusterManagerCommandReshard(int argc, char **argv) {
int port = 0;
char *ip = NULL;
if (!getClusterHostFromCmdArgs(argc, argv, &ip, &port)) goto invalid_args;
clusterManagerNode *node = clusterManagerNewNode(ip, port);
if (!clusterManagerLoadInfoFromNode(node, 0)) return 0;
clusterManagerCheckCluster(0);
if (cluster_manager.errors && listLength(cluster_manager.errors) > 0) {
fflush(stdout);
fprintf(stderr,
"*** Please fix your cluster problems before resharding\n");
return 0;
}
int slots = config.cluster_manager_command.slots;
if (!slots) {
while (slots <= 0 || slots > CLUSTER_MANAGER_SLOTS) {
printf("How many slots do you want to move (from 1 to %d)? ",
CLUSTER_MANAGER_SLOTS);
fflush(stdout);
char buf[6];
int nread = read(fileno(stdin),buf,6);
if (nread <= 0) continue;
int last_idx = nread - 1;
if (buf[last_idx] != '\n') {
int ch;
while ((ch = getchar()) != '\n' && ch != EOF) {}
}
buf[last_idx] = '\0';
slots = atoi(buf);
}
}
char buf[255];
char *to = config.cluster_manager_command.to,
*from = config.cluster_manager_command.from;
while (to == NULL) {
printf("What is the receiving node ID? ");
fflush(stdout);
int nread = read(fileno(stdin),buf,255);
if (nread <= 0) continue;
int last_idx = nread - 1;
if (buf[last_idx] != '\n') {
int ch;
while ((ch = getchar()) != '\n' && ch != EOF) {}
}
buf[last_idx] = '\0';
if (strlen(buf) > 0) to = buf;
}
int raise_err = 0;
clusterManagerNode *target = clusterNodeForResharding(to, NULL, &raise_err);
if (target == NULL) return 0;
list *sources = listCreate();
list *table = NULL;
int all = 0, result = 1;
if (from == NULL) {
printf("Please enter all the source node IDs.\n");
printf(" Type 'all' to use all the nodes as source nodes for "
"the hash slots.\n");
printf(" Type 'done' once you entered all the source nodes IDs.\n");
while (1) {
printf("Source node #%lu: ", listLength(sources) + 1);
fflush(stdout);
int nread = read(fileno(stdin),buf,255);
if (nread <= 0) continue;
int last_idx = nread - 1;
if (buf[last_idx] != '\n') {
int ch;
while ((ch = getchar()) != '\n' && ch != EOF) {}
}
buf[last_idx] = '\0';
if (!strcmp(buf, "done")) break;
else if (!strcmp(buf, "all")) {
all = 1;
break;
} else {
clusterManagerNode *src =
clusterNodeForResharding(buf, target, &raise_err);
if (src != NULL) listAddNodeTail(sources, src);
else if (raise_err) {
result = 0;
goto cleanup;
}
}
}
} else {
char *p;
while((p = strchr(from, ',')) != NULL) {
*p = '\0';
if (!strcmp(from, "all")) {
all = 1;
break;
} else {
clusterManagerNode *src =
clusterNodeForResharding(from, target, &raise_err);
if (src != NULL) listAddNodeTail(sources, src);
else if (raise_err) {
result = 0;
goto cleanup;
}
}
from = p + 1;
}
/* Check if there's still another source to process. */
if (!all && strlen(from) > 0) {
if (!strcmp(from, "all")) all = 1;
if (!all) {
clusterManagerNode *src =
clusterNodeForResharding(from, target, &raise_err);
if (src != NULL) listAddNodeTail(sources, src);
else if (raise_err) {
result = 0;
goto cleanup;
}
}
}
}
listIter li;
listNode *ln;
if (all) {
listEmpty(sources);
listRewind(cluster_manager.nodes, &li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *n = ln->value;
if (n->flags & CLUSTER_MANAGER_FLAG_SLAVE || n->replicate)
continue;
if (!sdscmp(n->name, target->name)) continue;
listAddNodeTail(sources, n);
}
}
if (listLength(sources) == 0) {
fprintf(stderr, "*** No source nodes given, operation aborted.\n");
result = 0;
goto cleanup;
}
printf("\nReady to move %d slots.\n", slots);
printf(" Source nodes:\n");
listRewind(sources, &li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *src = ln->value;
sds info = clusterManagerNodeInfo(src, 4);
printf("%s\n", info);
sdsfree(info);
}
printf(" Destination node:\n");
sds info = clusterManagerNodeInfo(target, 4);
printf("%s\n", info);
sdsfree(info);
table = clusterManagerComputeReshardTable(sources, slots);
printf(" Resharding plan:\n");
clusterManagerShowReshardTable(table);
if (!(config.cluster_manager_command.flags &
CLUSTER_MANAGER_CMD_FLAG_YES))
{
printf("Do you want to proceed with the proposed "
"reshard plan (yes/no)? ");
fflush(stdout);
char buf[4];
int nread = read(fileno(stdin),buf,4);
buf[3] = '\0';
if (nread <= 0 || strcmp("yes", buf) != 0) {
result = 0;
goto cleanup;
}
}
int opts = CLUSTER_MANAGER_OPT_VERBOSE;
listRewind(table, &li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerReshardTableItem *item = ln->value;
char *err = NULL;
result = clusterManagerMoveSlot(item->source, target, item->slot,
opts, &err);
if (!result) {
if (err != NULL) {
//clusterManagerLogErr("\n%s\n", err);
zfree(err);
}
goto cleanup;
}
}
cleanup:
listRelease(sources);
clusterManagerReleaseReshardTable(table);
return result;
invalid_args:
fprintf(stderr, CLUSTER_MANAGER_INVALID_HOST_ARG);
return 0;
}
static int clusterManagerCommandRebalance(int argc, char **argv) {
int port = 0;
char *ip = NULL;
clusterManagerNode **weightedNodes = NULL;
list *involved = NULL;
if (!getClusterHostFromCmdArgs(argc, argv, &ip, &port)) goto invalid_args;
clusterManagerNode *node = clusterManagerNewNode(ip, port);
if (!clusterManagerLoadInfoFromNode(node, 0)) return 0;
int result = 1, i;
if (config.cluster_manager_command.weight != NULL) {
for (i = 0; i < config.cluster_manager_command.weight_argc; i++) {
char *name = config.cluster_manager_command.weight[i];
char *p = strchr(name, '=');
if (p == NULL) {
result = 0;
goto cleanup;
}
*p = '\0';
float w = atof(++p);
clusterManagerNode *n = clusterManagerNodeByAbbreviatedName(name);
if (n == NULL) {
clusterManagerLogErr("*** No such master node %s\n", name);
result = 0;
goto cleanup;
}
n->weight = w;
}
}
float total_weight = 0;
int nodes_involved = 0;
int use_empty = config.cluster_manager_command.flags &
CLUSTER_MANAGER_CMD_FLAG_EMPTYMASTER;
involved = listCreate();
listIter li;
listNode *ln;
listRewind(cluster_manager.nodes, &li);
/* Compute the total cluster weight. */
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *n = ln->value;
if (n->flags & CLUSTER_MANAGER_FLAG_SLAVE || n->replicate)
continue;
if (!use_empty && n->slots_count == 0) {
n->weight = 0;
continue;
}
total_weight += n->weight;
nodes_involved++;
listAddNodeTail(involved, n);
}
weightedNodes = zmalloc(nodes_involved * sizeof(clusterManagerNode *));
if (weightedNodes == NULL) goto cleanup;
/* Check cluster, only proceed if it looks sane. */
clusterManagerCheckCluster(1);
if (cluster_manager.errors && listLength(cluster_manager.errors) > 0) {
clusterManagerLogErr("*** Please fix your cluster problems "
"before rebalancing\n");
result = 0;
goto cleanup;
}
/* Calculate the slots balance for each node. It's the number of
* slots the node should lose (if positive) or gain (if negative)
* in order to be balanced. */
int threshold_reached = 0, total_balance = 0;
float threshold = config.cluster_manager_command.threshold;
i = 0;
listRewind(involved, &li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *n = ln->value;
weightedNodes[i++] = n;
int expected = (int) (((float)CLUSTER_MANAGER_SLOTS / total_weight) *
n->weight);
n->balance = n->slots_count - expected;
total_balance += n->balance;
/* Compute the percentage of difference between the
* expected number of slots and the real one, to see
* if it's over the threshold specified by the user. */
int over_threshold = 0;
if (threshold > 0) {
if (n->slots_count > 0) {
float err_perc = fabs((100-(100.0*expected/n->slots_count)));
if (err_perc > threshold) over_threshold = 1;
} else if (expected > 1) {
over_threshold = 1;
}
}
if (over_threshold) threshold_reached = 1;
}
if (!threshold_reached) {
clusterManagerLogWarn("*** No rebalancing needed! "
"All nodes are within the %.2f%% threshold.\n",
config.cluster_manager_command.threshold);
goto cleanup;
}
/* Because of rounding, it is possible that the balance of all nodes
* summed does not give 0. Make sure that nodes that have to provide
* slots are always matched by nodes receiving slots. */
while (total_balance > 0) {
listRewind(involved, &li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *n = ln->value;
if (n->balance <= 0 && total_balance > 0) {
n->balance--;
total_balance--;
}
}
}
/* Sort nodes by their slots balance. */
qsort(weightedNodes, nodes_involved, sizeof(clusterManagerNode *),
clusterManagerCompareNodeBalance);
clusterManagerLogInfo(">>> Rebalancing across %d nodes. "
"Total weight = %.2f\n",
nodes_involved, total_weight);
if (config.verbose) {
for (i = 0; i < nodes_involved; i++) {
clusterManagerNode *n = weightedNodes[i];
printf("%s:%d balance is %d slots\n", n->ip, n->port, n->balance);
}
}
/* Now we have at the start of the 'sn' array nodes that should get
* slots, at the end nodes that must give slots.
* We take two indexes, one at the start, and one at the end,
* incrementing or decrementing the indexes accordingly til we
* find nodes that need to get/provide slots. */
int dst_idx = 0;
int src_idx = nodes_involved - 1;
int simulate = config.cluster_manager_command.flags &
CLUSTER_MANAGER_CMD_FLAG_SIMULATE;
while (dst_idx < src_idx) {
clusterManagerNode *dst = weightedNodes[dst_idx];
clusterManagerNode *src = weightedNodes[src_idx];
int db = abs(dst->balance);
int sb = abs(src->balance);
int numslots = (db < sb ? db : sb);
if (numslots > 0) {
printf("Moving %d slots from %s:%d to %s:%d\n", numslots,
src->ip,
src->port,
dst->ip,
dst->port);
/* Actually move the slots. */
list *lsrc = listCreate(), *table = NULL;
listAddNodeTail(lsrc, src);
table = clusterManagerComputeReshardTable(lsrc, numslots);
listRelease(lsrc);
int table_len = (int) listLength(table);
if (!table || table_len != numslots) {
clusterManagerLogErr("*** Assertion failed: Reshard table "
"!= number of slots");
result = 0;
goto end_move;
}
if (simulate) {
for (i = 0; i < table_len; i++) printf("#");
} else {
int opts = CLUSTER_MANAGER_OPT_QUIET |
CLUSTER_MANAGER_OPT_UPDATE;
listRewind(table, &li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerReshardTableItem *item = ln->value;
result = clusterManagerMoveSlot(item->source,
dst,
item->slot,
opts, NULL);
if (!result) goto end_move;
printf("#");
fflush(stdout);
}
}
printf("\n");
end_move:
clusterManagerReleaseReshardTable(table);
if (!result) goto cleanup;
}
/* Update nodes balance. */
dst->balance += numslots;
src->balance -= numslots;
if (dst->balance == 0) dst_idx++;
if (src->balance == 0) src_idx --;
}
cleanup:
if (involved != NULL) listRelease(involved);
if (weightedNodes != NULL) zfree(weightedNodes);
return result;
invalid_args:
fprintf(stderr, CLUSTER_MANAGER_INVALID_HOST_ARG);
return 0;
}
static int clusterManagerCommandSetTimeout(int argc, char **argv) {
UNUSED(argc);
int port = 0;
char *ip = NULL;
if (!getClusterHostFromCmdArgs(1, argv, &ip, &port)) goto invalid_args;
int timeout = atoi(argv[1]);
if (timeout < 100) {
fprintf(stderr, "Setting a node timeout of less than 100 "
"milliseconds is a bad idea.\n");
return 0;
}
// Load cluster information
clusterManagerNode *node = clusterManagerNewNode(ip, port);
if (!clusterManagerLoadInfoFromNode(node, 0)) return 0;
int ok_count = 0, err_count = 0;
clusterManagerLogInfo(">>> Reconfiguring node timeout in every "
"cluster node...\n");
listIter li;
listNode *ln;
listRewind(cluster_manager.nodes, &li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *n = ln->value;
char *err = NULL;
redisReply *reply = CLUSTER_MANAGER_COMMAND(n, "CONFIG %s %s %d",
"SET",
"cluster-node-timeout",
timeout);
if (reply == NULL) goto reply_err;
int ok = clusterManagerCheckRedisReply(n, reply, &err);
freeReplyObject(reply);
if (!ok) goto reply_err;
reply = CLUSTER_MANAGER_COMMAND(n, "CONFIG %s", "REWRITE");
if (reply == NULL) goto reply_err;
ok = clusterManagerCheckRedisReply(n, reply, &err);
freeReplyObject(reply);
if (!ok) goto reply_err;
clusterManagerLogWarn("*** New timeout set for %s:%d\n", n->ip,
n->port);
ok_count++;
continue;
reply_err:;
int need_free = 0;
if (err == NULL) err = "";
else need_free = 1;
clusterManagerLogErr("ERR setting node-timeot for %s:%d: %s\n", n->ip,
n->port, err);
if (need_free) zfree(err);
err_count++;
}
clusterManagerLogInfo(">>> New node timeout set. %d OK, %d ERR.\n",
ok_count, err_count);
return 1;
invalid_args:
fprintf(stderr, CLUSTER_MANAGER_INVALID_HOST_ARG);
return 0;
}
static int clusterManagerCommandImport(int argc, char **argv) {
int success = 1;
int port = 0, src_port = 0;
char *ip = NULL, *src_ip = NULL;
char *invalid_args_msg = NULL;
if (!getClusterHostFromCmdArgs(argc, argv, &ip, &port)) {
invalid_args_msg = CLUSTER_MANAGER_INVALID_HOST_ARG;
goto invalid_args;
}
if (config.cluster_manager_command.from == NULL) {
invalid_args_msg = "[ERR] Option '--cluster-from' is required for "
"subcommand 'import'.\n";
goto invalid_args;
}
char *src_host[] = {config.cluster_manager_command.from};
if (!getClusterHostFromCmdArgs(1, src_host, &src_ip, &src_port)) {
invalid_args_msg = "[ERR] Invalid --cluster-from host. You need to "
"pass a valid address (ie. 120.0.0.1:7000).\n";
goto invalid_args;
}
clusterManagerLogInfo(">>> Importing data from %s:%d to cluster %s:%d\n",
src_ip, src_port, ip, port);
clusterManagerNode *refnode = clusterManagerNewNode(ip, port);
if (!clusterManagerLoadInfoFromNode(refnode, 0)) return 0;
if (!clusterManagerCheckCluster(0)) return 0;
char *reply_err = NULL;
redisReply *src_reply = NULL;
// Connect to the source node.
redisContext *src_ctx = redisConnect(src_ip, src_port);
if (src_ctx->err) {
success = 0;
fprintf(stderr,"Could not connect to Redis at %s:%d: %s.\n", src_ip,
src_port, src_ctx->errstr);
goto cleanup;
}
src_reply = reconnectingRedisCommand(src_ctx, "INFO");
if (!src_reply || src_reply->type == REDIS_REPLY_ERROR) {
if (src_reply && src_reply->str) reply_err = src_reply->str;
success = 0;
goto cleanup;
}
if (getLongInfoField(src_reply->str, "cluster_enabled")) {
clusterManagerLogErr("[ERR] The source node should not be a "
"cluster node.\n");
success = 0;
goto cleanup;
}
freeReplyObject(src_reply);
src_reply = reconnectingRedisCommand(src_ctx, "DBSIZE");
if (!src_reply || src_reply->type == REDIS_REPLY_ERROR) {
if (src_reply && src_reply->str) reply_err = src_reply->str;
success = 0;
goto cleanup;
}
int size = src_reply->integer, i;
clusterManagerLogWarn("*** Importing %d keys from DB 0\n", size);
// Build a slot -> node map
clusterManagerNode *slots_map[CLUSTER_MANAGER_SLOTS];
memset(slots_map, 0, sizeof(slots_map));
listIter li;
listNode *ln;
for (i = 0; i < CLUSTER_MANAGER_SLOTS; i++) {
listRewind(cluster_manager.nodes, &li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *n = ln->value;
if (n->flags & CLUSTER_MANAGER_FLAG_SLAVE) continue;
if (n->slots_count == 0) continue;
if (n->slots[i]) {
slots_map[i] = n;
break;
}
}
}
char cmdfmt[50] = "MIGRATE %s %d %s %d %d";
if (config.cluster_manager_command.flags & CLUSTER_MANAGER_CMD_FLAG_COPY)
strcat(cmdfmt, " %s");
if (config.cluster_manager_command.flags & CLUSTER_MANAGER_CMD_FLAG_REPLACE)
strcat(cmdfmt, " %s");
/* Use SCAN to iterate over the keys, migrating to the
* right node as needed. */
int cursor = -999, timeout = config.cluster_manager_command.timeout;
while (cursor != 0) {
if (cursor < 0) cursor = 0;
freeReplyObject(src_reply);
src_reply = reconnectingRedisCommand(src_ctx, "SCAN %d COUNT %d",
cursor, 1000);
if (!src_reply || src_reply->type == REDIS_REPLY_ERROR) {
if (src_reply && src_reply->str) reply_err = src_reply->str;
success = 0;
goto cleanup;
}
assert(src_reply->type == REDIS_REPLY_ARRAY);
assert(src_reply->elements >= 2);
assert(src_reply->element[1]->type == REDIS_REPLY_ARRAY);
if (src_reply->element[0]->type == REDIS_REPLY_STRING)
cursor = atoi(src_reply->element[0]->str);
else if (src_reply->element[0]->type == REDIS_REPLY_INTEGER)
cursor = src_reply->element[0]->integer;
int keycount = src_reply->element[1]->elements;
for (i = 0; i < keycount; i++) {
redisReply *kr = src_reply->element[1]->element[i];
assert(kr->type == REDIS_REPLY_STRING);
char *key = kr->str;
uint16_t slot = clusterManagerKeyHashSlot(key, kr->len);
clusterManagerNode *target = slots_map[slot];
printf("Migrating %s to %s:%d: ", key, target->ip, target->port);
redisReply *r = reconnectingRedisCommand(src_ctx, cmdfmt,
target->ip, target->port,
key, 0, timeout,
"COPY", "REPLACE");
if (!r || r->type == REDIS_REPLY_ERROR) {
if (r && r->str) {
clusterManagerLogErr("Source %s:%d replied with "
"error:\n%s\n", src_ip, src_port,
r->str);
}
success = 0;
}
freeReplyObject(r);
if (!success) goto cleanup;
clusterManagerLogOk("OK\n");
}
}
cleanup:
if (reply_err)
clusterManagerLogErr("Source %s:%d replied with error:\n%s\n",
src_ip, src_port, reply_err);
if (src_ctx) redisFree(src_ctx);
if (src_reply) freeReplyObject(src_reply);
return success;
invalid_args:
fprintf(stderr, "%s", invalid_args_msg);
return 0;
}
static int clusterManagerCommandCall(int argc, char **argv) {
int port = 0, i;
char *ip = NULL;
if (!getClusterHostFromCmdArgs(1, argv, &ip, &port)) goto invalid_args;
clusterManagerNode *refnode = clusterManagerNewNode(ip, port);
if (!clusterManagerLoadInfoFromNode(refnode, 0)) return 0;
argc--;
argv++;
size_t *argvlen = zmalloc(argc*sizeof(size_t));
clusterManagerLogInfo(">>> Calling");
for (i = 0; i < argc; i++) {
argvlen[i] = strlen(argv[i]);
printf(" %s", argv[i]);
}
printf("\n");
listIter li;
listNode *ln;
listRewind(cluster_manager.nodes, &li);
while ((ln = listNext(&li)) != NULL) {
clusterManagerNode *n = ln->value;
if (!n->context && !clusterManagerNodeConnect(n)) continue;
redisReply *reply = NULL;
redisAppendCommandArgv(n->context, argc, (const char **) argv, argvlen);
int status = redisGetReply(n->context, (void **)(&reply));
if (status != REDIS_OK || reply == NULL )
printf("%s:%d: Failed!\n", n->ip, n->port);
else {
sds formatted_reply = cliFormatReplyRaw(reply);
printf("%s:%d: %s\n", n->ip, n->port, (char *) formatted_reply);
sdsfree(formatted_reply);
}
if (reply != NULL) freeReplyObject(reply);
}
zfree(argvlen);
return 1;
invalid_args:
fprintf(stderr, CLUSTER_MANAGER_INVALID_HOST_ARG);
return 0;
}
static int clusterManagerCommandBackup(int argc, char **argv) {
UNUSED(argc);
int success = 1, port = 0;
char *ip = NULL;
if (!getClusterHostFromCmdArgs(1, argv, &ip, &port)) goto invalid_args;
clusterManagerNode *refnode = clusterManagerNewNode(ip, port);
if (!clusterManagerLoadInfoFromNode(refnode, 0)) return 0;
int no_issues = clusterManagerCheckCluster(0);
int cluster_errors_count = (no_issues ? 0 :
listLength(cluster_manager.errors));
config.cluster_manager_command.backup_dir = argv[1];
/* TODO: check if backup_dir is a valid directory. */
sds json = sdsnew("[\n");
int first_node = 0;
listIter li;
listNode *ln;
listRewind(cluster_manager.nodes, &li);
while ((ln = listNext(&li)) != NULL) {
if (!first_node) first_node = 1;
else json = sdscat(json, ",\n");
clusterManagerNode *node = ln->value;
sds node_json = clusterManagerNodeGetJSON(node, cluster_errors_count);
json = sdscat(json, node_json);
sdsfree(node_json);
if (node->replicate)
continue;
clusterManagerLogInfo(">>> Node %s:%d -> Saving RDB...\n",
node->ip, node->port);
fflush(stdout);
getRDB(node);
}
json = sdscat(json, "\n]");
sds jsonpath = sdsnew(config.cluster_manager_command.backup_dir);
if (jsonpath[sdslen(jsonpath) - 1] != '/')
jsonpath = sdscat(jsonpath, "/");
jsonpath = sdscat(jsonpath, "nodes.json");
fflush(stdout);
clusterManagerLogInfo("Saving cluster configuration to: %s\n", jsonpath);
FILE *out = fopen(jsonpath, "w+");
if (!out) {
clusterManagerLogErr("Could not save nodes to: %s\n", jsonpath);
success = 0;
goto cleanup;
}
fputs(json, out);
fclose(out);
cleanup:
sdsfree(json);
sdsfree(jsonpath);
if (success) {
if (!no_issues) {
clusterManagerLogWarn("*** Cluster seems to have some problems, "
"please be aware of it if you're going "
"to restore this backup.\n");
}
clusterManagerLogOk("[OK] Backup created into: %s\n",
config.cluster_manager_command.backup_dir);
} else clusterManagerLogOk("[ERR] Failed to back cluster!\n");
return success;
invalid_args:
fprintf(stderr, CLUSTER_MANAGER_INVALID_HOST_ARG);
return 0;
}
static int clusterManagerCommandHelp(int argc, char **argv) {
UNUSED(argc);
UNUSED(argv);
int commands_count = sizeof(clusterManagerCommands) /
sizeof(clusterManagerCommandDef);
int i = 0, j;
fprintf(stderr, "Cluster Manager Commands:\n");
int padding = 15;
for (; i < commands_count; i++) {
clusterManagerCommandDef *def = &(clusterManagerCommands[i]);
int namelen = strlen(def->name), padlen = padding - namelen;
fprintf(stderr, " %s", def->name);
for (j = 0; j < padlen; j++) fprintf(stderr, " ");
fprintf(stderr, "%s\n", (def->args ? def->args : ""));
if (def->options != NULL) {
int optslen = strlen(def->options);
char *p = def->options, *eos = p + optslen;
char *comma = NULL;
while ((comma = strchr(p, ',')) != NULL) {
int deflen = (int)(comma - p);
char buf[255];
memcpy(buf, p, deflen);
buf[deflen] = '\0';
for (j = 0; j < padding; j++) fprintf(stderr, " ");
fprintf(stderr, " --cluster-%s\n", buf);
p = comma + 1;
if (p >= eos) break;
}
if (p < eos) {
for (j = 0; j < padding; j++) fprintf(stderr, " ");
fprintf(stderr, " --cluster-%s\n", p);
}
}
}
fprintf(stderr, "\nFor check, fix, reshard, del-node, set-timeout you "
"can specify the host and port of any working node in "
"the cluster.\n\n");
return 0;
}
/*------------------------------------------------------------------------------
* Latency and latency history modes
*--------------------------------------------------------------------------- */
static void latencyModePrint(long long min, long long max, double avg, long long count) {
if (config.output == OUTPUT_STANDARD) {
printf("min: %lld, max: %lld, avg: %.2f (%lld samples)",
min, max, avg, count);
fflush(stdout);
} else if (config.output == OUTPUT_CSV) {
printf("%lld,%lld,%.2f,%lld\n", min, max, avg, count);
} else if (config.output == OUTPUT_RAW) {
printf("%lld %lld %.2f %lld\n", min, max, avg, count);
}
}
#define LATENCY_SAMPLE_RATE 10 /* milliseconds. */
#define LATENCY_HISTORY_DEFAULT_INTERVAL 15000 /* milliseconds. */
static void latencyMode(void) {
redisReply *reply;
long long start, latency, min = 0, max = 0, tot = 0, count = 0;
long long history_interval =
config.interval ? config.interval/1000 :
LATENCY_HISTORY_DEFAULT_INTERVAL;
double avg;
long long history_start = mstime();
/* Set a default for the interval in case of --latency option
* with --raw, --csv or when it is redirected to non tty. */
if (config.interval == 0) {
config.interval = 1000;
} else {
config.interval /= 1000; /* We need to convert to milliseconds. */
}
if (!context) exit(1);
while(1) {
start = mstime();
reply = reconnectingRedisCommand(context,"PING");
if (reply == NULL) {
fprintf(stderr,"\nI/O error\n");
exit(1);
}
latency = mstime()-start;
freeReplyObject(reply);
count++;
if (count == 1) {
min = max = tot = latency;
avg = (double) latency;
} else {
if (latency < min) min = latency;
if (latency > max) max = latency;
tot += latency;
avg = (double) tot/count;
}
if (config.output == OUTPUT_STANDARD) {
printf("\x1b[0G\x1b[2K"); /* Clear the line. */
latencyModePrint(min,max,avg,count);
} else {
if (config.latency_history) {
latencyModePrint(min,max,avg,count);
} else if (mstime()-history_start > config.interval) {
latencyModePrint(min,max,avg,count);
exit(0);
}
}
if (config.latency_history && mstime()-history_start > history_interval)
{
printf(" -- %.2f seconds range\n", (float)(mstime()-history_start)/1000);
history_start = mstime();
min = max = tot = count = 0;
}
usleep(LATENCY_SAMPLE_RATE * 1000);
}
}
/*------------------------------------------------------------------------------
* Latency distribution mode -- requires 256 colors xterm
*--------------------------------------------------------------------------- */
#define LATENCY_DIST_DEFAULT_INTERVAL 1000 /* milliseconds. */
/* Structure to store samples distribution. */
struct distsamples {
long long max; /* Max latency to fit into this interval (usec). */
long long count; /* Number of samples in this interval. */
int character; /* Associated character in visualization. */
};
/* Helper function for latencyDistMode(). Performs the spectrum visualization
* of the collected samples targeting an xterm 256 terminal.
*
* Takes an array of distsamples structures, ordered from smaller to bigger
* 'max' value. Last sample max must be 0, to mean that it olds all the
* samples greater than the previous one, and is also the stop sentinel.
*
* "tot' is the total number of samples in the different buckets, so it
* is the SUM(samples[i].conut) for i to 0 up to the max sample.
*
* As a side effect the function sets all the buckets count to 0. */
void showLatencyDistSamples(struct distsamples *samples, long long tot) {
int j;
/* We convert samples into a index inside the palette
* proportional to the percentage a given bucket represents.
* This way intensity of the different parts of the spectrum
* don't change relative to the number of requests, which avoids to
* pollute the visualization with non-latency related info. */
printf("\033[38;5;0m"); /* Set foreground color to black. */
for (j = 0; ; j++) {
int coloridx =
ceil((float) samples[j].count / tot * (spectrum_palette_size-1));
int color = spectrum_palette[coloridx];
printf("\033[48;5;%dm%c", (int)color, samples[j].character);
samples[j].count = 0;
if (samples[j].max == 0) break; /* Last sample. */
}
printf("\033[0m\n");
fflush(stdout);
}
/* Show the legend: different buckets values and colors meaning, so
* that the spectrum is more easily readable. */
void showLatencyDistLegend(void) {
int j;
printf("---------------------------------------------\n");
printf(". - * # .01 .125 .25 .5 milliseconds\n");
printf("1,2,3,...,9 from 1 to 9 milliseconds\n");
printf("A,B,C,D,E 10,20,30,40,50 milliseconds\n");
printf("F,G,H,I,J .1,.2,.3,.4,.5 seconds\n");
printf("K,L,M,N,O,P,Q,? 1,2,4,8,16,30,60,>60 seconds\n");
printf("From 0 to 100%%: ");
for (j = 0; j < spectrum_palette_size; j++) {
printf("\033[48;5;%dm ", spectrum_palette[j]);
}
printf("\033[0m\n");
printf("---------------------------------------------\n");
}
static void latencyDistMode(void) {
redisReply *reply;
long long start, latency, count = 0;
long long history_interval =
config.interval ? config.interval/1000 :
LATENCY_DIST_DEFAULT_INTERVAL;
long long history_start = ustime();
int j, outputs = 0;
struct distsamples samples[] = {
/* We use a mostly logarithmic scale, with certain linear intervals
* which are more interesting than others, like 1-10 milliseconds
* range. */
{10,0,'.'}, /* 0.01 ms */
{125,0,'-'}, /* 0.125 ms */
{250,0,'*'}, /* 0.25 ms */
{500,0,'#'}, /* 0.5 ms */
{1000,0,'1'}, /* 1 ms */
{2000,0,'2'}, /* 2 ms */
{3000,0,'3'}, /* 3 ms */
{4000,0,'4'}, /* 4 ms */
{5000,0,'5'}, /* 5 ms */
{6000,0,'6'}, /* 6 ms */
{7000,0,'7'}, /* 7 ms */
{8000,0,'8'}, /* 8 ms */
{9000,0,'9'}, /* 9 ms */
{10000,0,'A'}, /* 10 ms */
{20000,0,'B'}, /* 20 ms */
{30000,0,'C'}, /* 30 ms */
{40000,0,'D'}, /* 40 ms */
{50000,0,'E'}, /* 50 ms */
{100000,0,'F'}, /* 0.1 s */
{200000,0,'G'}, /* 0.2 s */
{300000,0,'H'}, /* 0.3 s */
{400000,0,'I'}, /* 0.4 s */
{500000,0,'J'}, /* 0.5 s */
{1000000,0,'K'}, /* 1 s */
{2000000,0,'L'}, /* 2 s */
{4000000,0,'M'}, /* 4 s */
{8000000,0,'N'}, /* 8 s */
{16000000,0,'O'}, /* 16 s */
{30000000,0,'P'}, /* 30 s */
{60000000,0,'Q'}, /* 1 minute */
{0,0,'?'}, /* > 1 minute */
};
if (!context) exit(1);
while(1) {
start = ustime();
reply = reconnectingRedisCommand(context,"PING");
if (reply == NULL) {
fprintf(stderr,"\nI/O error\n");
exit(1);
}
latency = ustime()-start;
freeReplyObject(reply);
count++;
/* Populate the relevant bucket. */
for (j = 0; ; j++) {
if (samples[j].max == 0 || latency <= samples[j].max) {
samples[j].count++;
break;
}
}
/* From time to time show the spectrum. */
if (count && (ustime()-history_start)/1000 > history_interval) {
if ((outputs++ % 20) == 0)
showLatencyDistLegend();
showLatencyDistSamples(samples,count);
history_start = ustime();
count = 0;
}
usleep(LATENCY_SAMPLE_RATE * 1000);
}
}
/*------------------------------------------------------------------------------
* Slave mode
*--------------------------------------------------------------------------- */
#define RDB_EOF_MARK_SIZE 40
void sendReplconf(const char* arg1, const char* arg2) {
printf("sending REPLCONF %s %s\n", arg1, arg2);
redisReply *reply = redisCommand(context, "REPLCONF %s %s", arg1, arg2);
/* Handle any error conditions */
if(reply == NULL) {
fprintf(stderr, "\nI/O error\n");
exit(1);
} else if(reply->type == REDIS_REPLY_ERROR) {
fprintf(stderr, "REPLCONF %s error: %s\n", arg1, reply->str);
/* non fatal, old versions may not support it */
}
freeReplyObject(reply);
}
void sendCapa() {
sendReplconf("capa", "eof");
}
/* Sends SYNC and reads the number of bytes in the payload. Used both by
* slaveMode() and getRDB().
* returns 0 in case an EOF marker is used. */
unsigned long long sendSync(int fd, char *out_eof) {
/* To start we need to send the SYNC command and return the payload.
* The hiredis client lib does not understand this part of the protocol
* and we don't want to mess with its buffers, so everything is performed
* using direct low-level I/O. */
char buf[4096], *p;
ssize_t nread;
/* Send the SYNC command. */
if (write(fd,"SYNC\r\n",6) != 6) {
fprintf(stderr,"Error writing to master\n");
exit(1);
}
/* Read $<payload>\r\n, making sure to read just up to "\n" */
p = buf;
while(1) {
nread = read(fd,p,1);
if (nread <= 0) {
fprintf(stderr,"Error reading bulk length while SYNCing\n");
exit(1);
}
if (*p == '\n' && p != buf) break;
if (*p != '\n') p++;
}
*p = '\0';
if (buf[0] == '-') {
printf("SYNC with master failed: %s\n", buf);
exit(1);
}
if (strncmp(buf+1,"EOF:",4) == 0 && strlen(buf+5) >= RDB_EOF_MARK_SIZE) {
memcpy(out_eof, buf+5, RDB_EOF_MARK_SIZE);
return 0;
}
return strtoull(buf+1,NULL,10);
}
static void slaveMode(void) {
int fd = context->fd;
static char eofmark[RDB_EOF_MARK_SIZE];
static char lastbytes[RDB_EOF_MARK_SIZE];
static int usemark = 0;
unsigned long long payload = sendSync(fd, eofmark);
char buf[1024];
int original_output = config.output;
if (payload == 0) {
payload = ULLONG_MAX;
memset(lastbytes,0,RDB_EOF_MARK_SIZE);
usemark = 1;
fprintf(stderr,"SYNC with master, discarding "
"bytes of bulk transfer until EOF marker...\n");
} else {
fprintf(stderr,"SYNC with master, discarding %llu "
"bytes of bulk transfer...\n", payload);
}
/* Discard the payload. */
while(payload) {
ssize_t nread;
nread = read(fd,buf,(payload > sizeof(buf)) ? sizeof(buf) : payload);
if (nread <= 0) {
fprintf(stderr,"Error reading RDB payload while SYNCing\n");
exit(1);
}
payload -= nread;
if (usemark) {
/* Update the last bytes array, and check if it matches our delimiter.*/
if (nread >= RDB_EOF_MARK_SIZE) {
memcpy(lastbytes,buf+nread-RDB_EOF_MARK_SIZE,RDB_EOF_MARK_SIZE);
} else {
int rem = RDB_EOF_MARK_SIZE-nread;
memmove(lastbytes,lastbytes+nread,rem);
memcpy(lastbytes+rem,buf,nread);
}
if (memcmp(lastbytes,eofmark,RDB_EOF_MARK_SIZE) == 0)
break;
}
}
if (usemark) {
unsigned long long offset = ULLONG_MAX - payload;
fprintf(stderr,"SYNC done after %llu bytes. Logging commands from master.\n", offset);
/* put the slave online */
sleep(1);
sendReplconf("ACK", "0");
} else
fprintf(stderr,"SYNC done. Logging commands from master.\n");
/* Now we can use hiredis to read the incoming protocol. */
config.output = OUTPUT_CSV;
while (cliReadReply(0) == REDIS_OK);
config.output = original_output;
}
/*------------------------------------------------------------------------------
* RDB transfer mode
*--------------------------------------------------------------------------- */
/* This function implements --rdb, so it uses the replication protocol in order
* to fetch the RDB file from a remote server. */
static void getRDB(clusterManagerNode *node) {
int s, fd;
char *filename;
if (node != NULL) {
assert(node->context);
s = node->context->fd;
filename = clusterManagerGetNodeRDBFilename(node);
} else {
s = context->fd;
filename = config.rdb_filename;
}
static char eofmark[RDB_EOF_MARK_SIZE];
static char lastbytes[RDB_EOF_MARK_SIZE];
static int usemark = 0;
unsigned long long payload = sendSync(s, eofmark);
char buf[4096];
if (payload == 0) {
payload = ULLONG_MAX;
memset(lastbytes,0,RDB_EOF_MARK_SIZE);
usemark = 1;
fprintf(stderr,"SYNC sent to master, writing bytes of bulk transfer "
"until EOF marker to '%s'\n", filename);
} else {
fprintf(stderr,"SYNC sent to master, writing %llu bytes to '%s'\n",
payload, filename);
}
/* Write to file. */
if (!strcmp(filename,"-")) {
fd = STDOUT_FILENO;
} else {
fd = open(filename, O_CREAT|O_WRONLY, 0644);
if (fd == -1) {
fprintf(stderr, "Error opening '%s': %s\n", filename,
strerror(errno));
exit(1);
}
}
while(payload) {
ssize_t nread, nwritten;
nread = read(s,buf,(payload > sizeof(buf)) ? sizeof(buf) : payload);
if (nread <= 0) {
fprintf(stderr,"I/O Error reading RDB payload from socket\n");
exit(1);
}
nwritten = write(fd, buf, nread);
if (nwritten != nread) {
fprintf(stderr,"Error writing data to file: %s\n",
(nwritten == -1) ? strerror(errno) : "short write");
exit(1);
}
payload -= nread;
if (usemark) {
/* Update the last bytes array, and check if it matches our delimiter.*/
if (nread >= RDB_EOF_MARK_SIZE) {
memcpy(lastbytes,buf+nread-RDB_EOF_MARK_SIZE,RDB_EOF_MARK_SIZE);
} else {
int rem = RDB_EOF_MARK_SIZE-nread;
memmove(lastbytes,lastbytes+nread,rem);
memcpy(lastbytes+rem,buf,nread);
}
if (memcmp(lastbytes,eofmark,RDB_EOF_MARK_SIZE) == 0)
break;
}
}
if (usemark) {
payload = ULLONG_MAX - payload - RDB_EOF_MARK_SIZE;
if (ftruncate(fd, payload) == -1)
fprintf(stderr,"ftruncate failed: %s.\n", strerror(errno));
fprintf(stderr,"Transfer finished with success after %llu bytes\n", payload);
} else {
fprintf(stderr,"Transfer finished with success.\n");
}
close(s); /* Close the file descriptor ASAP as fsync() may take time. */
fsync(fd);
close(fd);
fprintf(stderr,"Transfer finished with success.\n");
if (node) {
sdsfree(filename);
return;
}
exit(0);
}
/*------------------------------------------------------------------------------
* Bulk import (pipe) mode
*--------------------------------------------------------------------------- */
#define PIPEMODE_WRITE_LOOP_MAX_BYTES (128*1024)
static void pipeMode(void) {
int fd = context->fd;
long long errors = 0, replies = 0, obuf_len = 0, obuf_pos = 0;
char ibuf[1024*16], obuf[1024*16]; /* Input and output buffers */
char aneterr[ANET_ERR_LEN];
redisReader *reader = redisReaderCreate();
redisReply *reply;
int eof = 0; /* True once we consumed all the standard input. */
int done = 0;
char magic[20]; /* Special reply we recognize. */
time_t last_read_time = time(NULL);
srand(time(NULL));
/* Use non blocking I/O. */
if (anetNonBlock(aneterr,fd) == ANET_ERR) {
fprintf(stderr, "Can't set the socket in non blocking mode: %s\n",
aneterr);
exit(1);
}
/* Transfer raw protocol and read replies from the server at the same
* time. */
while(!done) {
int mask = AE_READABLE;
if (!eof || obuf_len != 0) mask |= AE_WRITABLE;
mask = aeWait(fd,mask,1000);
/* Handle the readable state: we can read replies from the server. */
if (mask & AE_READABLE) {
ssize_t nread;
int read_error = 0;
/* Read from socket and feed the hiredis reader. */
do {
nread = read(fd,ibuf,sizeof(ibuf));
if (nread == -1 && errno != EAGAIN && errno != EINTR) {
fprintf(stderr, "Error reading from the server: %s\n",
strerror(errno));
read_error = 1;
break;
}
if (nread > 0) {
redisReaderFeed(reader,ibuf,nread);
last_read_time = time(NULL);
}
} while(nread > 0);
/* Consume replies. */
do {
if (redisReaderGetReply(reader,(void**)&reply) == REDIS_ERR) {
fprintf(stderr, "Error reading replies from server\n");
exit(1);
}
if (reply) {
if (reply->type == REDIS_REPLY_ERROR) {
fprintf(stderr,"%s\n", reply->str);
errors++;
} else if (eof && reply->type == REDIS_REPLY_STRING &&
reply->len == 20) {
/* Check if this is the reply to our final ECHO
* command. If so everything was received
* from the server. */
if (memcmp(reply->str,magic,20) == 0) {
printf("Last reply received from server.\n");
done = 1;
replies--;
}
}
replies++;
freeReplyObject(reply);
}
} while(reply);
/* Abort on read errors. We abort here because it is important
* to consume replies even after a read error: this way we can
* show a potential problem to the user. */
if (read_error) exit(1);
}
/* Handle the writable state: we can send protocol to the server. */
if (mask & AE_WRITABLE) {
ssize_t loop_nwritten = 0;
while(1) {
/* Transfer current buffer to server. */
if (obuf_len != 0) {
ssize_t nwritten = write(fd,obuf+obuf_pos,obuf_len);
if (nwritten == -1) {
if (errno != EAGAIN && errno != EINTR) {
fprintf(stderr, "Error writing to the server: %s\n",
strerror(errno));
exit(1);
} else {
nwritten = 0;
}
}
obuf_len -= nwritten;
obuf_pos += nwritten;
loop_nwritten += nwritten;
if (obuf_len != 0) break; /* Can't accept more data. */
}
/* If buffer is empty, load from stdin. */
if (obuf_len == 0 && !eof) {
ssize_t nread = read(STDIN_FILENO,obuf,sizeof(obuf));
if (nread == 0) {
/* The ECHO sequence starts with a "\r\n" so that if there
* is garbage in the protocol we read from stdin, the ECHO
* will likely still be properly formatted.
* CRLF is ignored by Redis, so it has no effects. */
char echo[] =
"\r\n*2\r\n$4\r\nECHO\r\n$20\r\n01234567890123456789\r\n";
int j;
eof = 1;
/* Everything transferred, so we queue a special
* ECHO command that we can match in the replies
* to make sure everything was read from the server. */
for (j = 0; j < 20; j++)
magic[j] = rand() & 0xff;
memcpy(echo+21,magic,20);
memcpy(obuf,echo,sizeof(echo)-1);
obuf_len = sizeof(echo)-1;
obuf_pos = 0;
printf("All data transferred. Waiting for the last reply...\n");
} else if (nread == -1) {
fprintf(stderr, "Error reading from stdin: %s\n",
strerror(errno));
exit(1);
} else {
obuf_len = nread;
obuf_pos = 0;
}
}
if ((obuf_len == 0 && eof) ||
loop_nwritten > PIPEMODE_WRITE_LOOP_MAX_BYTES) break;
}
}
/* Handle timeout, that is, we reached EOF, and we are not getting
* replies from the server for a few seconds, nor the final ECHO is
* received. */
if (eof && config.pipe_timeout > 0 &&
time(NULL)-last_read_time > config.pipe_timeout)
{
fprintf(stderr,"No replies for %d seconds: exiting.\n",
config.pipe_timeout);
errors++;
break;
}
}
redisReaderFree(reader);
printf("errors: %lld, replies: %lld\n", errors, replies);
if (errors)
exit(1);
else
exit(0);
}
/*------------------------------------------------------------------------------
* Find big keys
*--------------------------------------------------------------------------- */
static redisReply *sendScan(unsigned long long *it) {
redisReply *reply = redisCommand(context, "SCAN %llu", *it);
/* Handle any error conditions */
if(reply == NULL) {
fprintf(stderr, "\nI/O error\n");
exit(1);
} else if(reply->type == REDIS_REPLY_ERROR) {
fprintf(stderr, "SCAN error: %s\n", reply->str);
exit(1);
} else if(reply->type != REDIS_REPLY_ARRAY) {
fprintf(stderr, "Non ARRAY response from SCAN!\n");
exit(1);
} else if(reply->elements != 2) {
fprintf(stderr, "Invalid element count from SCAN!\n");
exit(1);
}
/* Validate our types are correct */
assert(reply->element[0]->type == REDIS_REPLY_STRING);
assert(reply->element[1]->type == REDIS_REPLY_ARRAY);
/* Update iterator */
*it = strtoull(reply->element[0]->str, NULL, 10);
return reply;
}
static int getDbSize(void) {
redisReply *reply;
int size;
reply = redisCommand(context, "DBSIZE");
if(reply == NULL || reply->type != REDIS_REPLY_INTEGER) {
fprintf(stderr, "Couldn't determine DBSIZE!\n");
exit(1);
}
/* Grab the number of keys and free our reply */
size = reply->integer;
freeReplyObject(reply);
return size;
}
typedef struct {
char *name;
char *sizecmd;
char *sizeunit;
unsigned long long biggest;
unsigned long long count;
unsigned long long totalsize;
sds biggest_key;
} typeinfo;
typeinfo type_string = { "string", "STRLEN", "bytes" };
typeinfo type_list = { "list", "LLEN", "items" };
typeinfo type_set = { "set", "SCARD", "members" };
typeinfo type_hash = { "hash", "HLEN", "fields" };
typeinfo type_zset = { "zset", "ZCARD", "members" };
typeinfo type_stream = { "stream", "XLEN", "entries" };
typeinfo type_other = { "other", NULL, "?" };
static typeinfo* typeinfo_add(dict *types, char* name, typeinfo* type_template) {
typeinfo *info = zmalloc(sizeof(typeinfo));
*info = *type_template;
info->name = sdsnew(name);
dictAdd(types, info->name, info);
return info;
}
void type_free(void* priv_data, void* val) {
typeinfo *info = val;
UNUSED(priv_data);
if (info->biggest_key)
sdsfree(info->biggest_key);
sdsfree(info->name);
zfree(info);
}
static dictType typeinfoDictType = {
dictSdsHash, /* hash function */
NULL, /* key dup */
NULL, /* val dup */
dictSdsKeyCompare, /* key compare */
NULL, /* key destructor (owned by the value)*/
type_free /* val destructor */
};
static void getKeyTypes(dict *types_dict, redisReply *keys, typeinfo **types) {
redisReply *reply;
unsigned int i;
/* Pipeline TYPE commands */
for(i=0;i<keys->elements;i++) {
redisAppendCommand(context, "TYPE %s", keys->element[i]->str);
}
/* Retrieve types */
for(i=0;i<keys->elements;i++) {
if(redisGetReply(context, (void**)&reply)!=REDIS_OK) {
fprintf(stderr, "Error getting type for key '%s' (%d: %s)\n",
keys->element[i]->str, context->err, context->errstr);
exit(1);
} else if(reply->type != REDIS_REPLY_STATUS) {
if(reply->type == REDIS_REPLY_ERROR) {
fprintf(stderr, "TYPE returned an error: %s\n", reply->str);
} else {
fprintf(stderr,
"Invalid reply type (%d) for TYPE on key '%s'!\n",
reply->type, keys->element[i]->str);
}
exit(1);
}
sds typereply = sdsnew(reply->str);
dictEntry *de = dictFind(types_dict, typereply);
sdsfree(typereply);
typeinfo *type = NULL;
if (de)
type = dictGetVal(de);
else if (strcmp(reply->str, "none")) /* create new types for modules, (but not for deleted keys) */
type = typeinfo_add(types_dict, reply->str, &type_other);
types[i] = type;
freeReplyObject(reply);
}
}
static void getKeySizes(redisReply *keys, typeinfo **types,
unsigned long long *sizes, int memkeys,
unsigned memkeys_samples)
{
redisReply *reply;
unsigned int i;
/* Pipeline size commands */
for(i=0;i<keys->elements;i++) {
/* Skip keys that disappeared between SCAN and TYPE (or unknown types when not in memkeys mode) */
if(!types[i] || (!types[i]->sizecmd && !memkeys))
continue;
if (!memkeys)
redisAppendCommand(context, "%s %s",
types[i]->sizecmd, keys->element[i]->str);
else if (memkeys_samples==0)
redisAppendCommand(context, "%s %s %s",
"MEMORY", "USAGE", keys->element[i]->str);
else
redisAppendCommand(context, "%s %s %s SAMPLES %u",
"MEMORY", "USAGE", keys->element[i]->str, memkeys_samples);
}
/* Retrieve sizes */
for(i=0;i<keys->elements;i++) {
/* Skip keys that disappeared between SCAN and TYPE (or unknown types when not in memkeys mode) */
if(!types[i] || (!types[i]->sizecmd && !memkeys)) {
sizes[i] = 0;
continue;
}
/* Retrieve size */
if(redisGetReply(context, (void**)&reply)!=REDIS_OK) {
fprintf(stderr, "Error getting size for key '%s' (%d: %s)\n",
keys->element[i]->str, context->err, context->errstr);
exit(1);
} else if(reply->type != REDIS_REPLY_INTEGER) {
/* Theoretically the key could have been removed and
* added as a different type between TYPE and SIZE */
fprintf(stderr,
"Warning: %s on '%s' failed (may have changed type)\n",
!memkeys? types[i]->sizecmd: "MEMORY USAGE",
keys->element[i]->str);
sizes[i] = 0;
} else {
sizes[i] = reply->integer;
}
freeReplyObject(reply);
}
}
static void findBigKeys(int memkeys, unsigned memkeys_samples) {
unsigned long long sampled = 0, total_keys, totlen=0, *sizes=NULL, it=0;
redisReply *reply, *keys;
unsigned int arrsize=0, i;
dictIterator *di;
dictEntry *de;
typeinfo **types = NULL;
double pct;
dict *types_dict = dictCreate(&typeinfoDictType, NULL);
typeinfo_add(types_dict, "string", &type_string);
typeinfo_add(types_dict, "list", &type_list);
typeinfo_add(types_dict, "set", &type_set);
typeinfo_add(types_dict, "hash", &type_hash);
typeinfo_add(types_dict, "zset", &type_zset);
typeinfo_add(types_dict, "stream", &type_stream);
/* Total keys pre scanning */
total_keys = getDbSize();
/* Status message */
printf("\n# Scanning the entire keyspace to find biggest keys as well as\n");
printf("# average sizes per key type. You can use -i 0.1 to sleep 0.1 sec\n");
printf("# per 100 SCAN commands (not usually needed).\n\n");
/* SCAN loop */
do {
/* Calculate approximate percentage completion */
pct = 100 * (double)sampled/total_keys;
/* Grab some keys and point to the keys array */
reply = sendScan(&it);
keys = reply->element[1];
/* Reallocate our type and size array if we need to */
if(keys->elements > arrsize) {
types = zrealloc(types, sizeof(typeinfo*)*keys->elements);
sizes = zrealloc(sizes, sizeof(unsigned long long)*keys->elements);
if(!types || !sizes) {
fprintf(stderr, "Failed to allocate storage for keys!\n");
exit(1);
}
arrsize = keys->elements;
}
/* Retrieve types and then sizes */
getKeyTypes(types_dict, keys, types);
getKeySizes(keys, types, sizes, memkeys, memkeys_samples);
/* Now update our stats */
for(i=0;i<keys->elements;i++) {
typeinfo *type = types[i];
/* Skip keys that disappeared between SCAN and TYPE */
if(!type)
continue;
type->totalsize += sizes[i];
type->count++;
totlen += keys->element[i]->len;
sampled++;
if(type->biggest<sizes[i]) {
printf(
"[%05.2f%%] Biggest %-6s found so far '%s' with %llu %s\n",
pct, type->name, keys->element[i]->str, sizes[i],
!memkeys? type->sizeunit: "bytes");
/* Keep track of biggest key name for this type */
if (type->biggest_key)
sdsfree(type->biggest_key);
type->biggest_key = sdsnew(keys->element[i]->str);
if(!type->biggest_key) {
fprintf(stderr, "Failed to allocate memory for key!\n");
exit(1);
}
/* Keep track of the biggest size for this type */
type->biggest = sizes[i];
}
/* Update overall progress */
if(sampled % 1000000 == 0) {
printf("[%05.2f%%] Sampled %llu keys so far\n", pct, sampled);
}
}
/* Sleep if we've been directed to do so */
if(sampled && (sampled %100) == 0 && config.interval) {
usleep(config.interval);
}
freeReplyObject(reply);
} while(it != 0);
if(types) zfree(types);
if(sizes) zfree(sizes);
/* We're done */
printf("\n-------- summary -------\n\n");
printf("Sampled %llu keys in the keyspace!\n", sampled);
printf("Total key length in bytes is %llu (avg len %.2f)\n\n",
totlen, totlen ? (double)totlen/sampled : 0);
/* Output the biggest keys we found, for types we did find */
di = dictGetIterator(types_dict);
while ((de = dictNext(di))) {
typeinfo *type = dictGetVal(de);
if(type->biggest_key) {
printf("Biggest %6s found '%s' has %llu %s\n", type->name, type->biggest_key,
type->biggest, !memkeys? type->sizeunit: "bytes");
}
}
dictReleaseIterator(di);
printf("\n");
di = dictGetIterator(types_dict);
while ((de = dictNext(di))) {
typeinfo *type = dictGetVal(de);
printf("%llu %ss with %llu %s (%05.2f%% of keys, avg size %.2f)\n",
type->count, type->name, type->totalsize, !memkeys? type->sizeunit: "bytes",
sampled ? 100 * (double)type->count/sampled : 0,
type->count ? (double)type->totalsize/type->count : 0);
}
dictReleaseIterator(di);
dictRelease(types_dict);
/* Success! */
exit(0);
}
static void getKeyFreqs(redisReply *keys, unsigned long long *freqs) {
redisReply *reply;
unsigned int i;
/* Pipeline OBJECT freq commands */
for(i=0;i<keys->elements;i++) {
redisAppendCommand(context, "OBJECT freq %s", keys->element[i]->str);
}
/* Retrieve freqs */
for(i=0;i<keys->elements;i++) {
if(redisGetReply(context, (void**)&reply)!=REDIS_OK) {
fprintf(stderr, "Error getting freq for key '%s' (%d: %s)\n",
keys->element[i]->str, context->err, context->errstr);
exit(1);
} else if(reply->type != REDIS_REPLY_INTEGER) {
if(reply->type == REDIS_REPLY_ERROR) {
fprintf(stderr, "Error: %s\n", reply->str);
exit(1);
} else {
fprintf(stderr, "Warning: OBJECT freq on '%s' failed (may have been deleted)\n", keys->element[i]->str);
freqs[i] = 0;
}
} else {
freqs[i] = reply->integer;
}
freeReplyObject(reply);
}
}
#define HOTKEYS_SAMPLE 16
static void findHotKeys(void) {
redisReply *keys, *reply;
unsigned long long counters[HOTKEYS_SAMPLE] = {0};
sds hotkeys[HOTKEYS_SAMPLE] = {NULL};
unsigned long long sampled = 0, total_keys, *freqs = NULL, it = 0;
unsigned int arrsize = 0, i, k;
double pct;
/* Total keys pre scanning */
total_keys = getDbSize();
/* Status message */
printf("\n# Scanning the entire keyspace to find hot keys as well as\n");
printf("# average sizes per key type. You can use -i 0.1 to sleep 0.1 sec\n");
printf("# per 100 SCAN commands (not usually needed).\n\n");
/* SCAN loop */
do {
/* Calculate approximate percentage completion */
pct = 100 * (double)sampled/total_keys;
/* Grab some keys and point to the keys array */
reply = sendScan(&it);
keys = reply->element[1];
/* Reallocate our freqs array if we need to */
if(keys->elements > arrsize) {
freqs = zrealloc(freqs, sizeof(unsigned long long)*keys->elements);
if(!freqs) {
fprintf(stderr, "Failed to allocate storage for keys!\n");
exit(1);
}
arrsize = keys->elements;
}
getKeyFreqs(keys, freqs);
/* Now update our stats */
for(i=0;i<keys->elements;i++) {
sampled++;
/* Update overall progress */
if(sampled % 1000000 == 0) {
printf("[%05.2f%%] Sampled %llu keys so far\n", pct, sampled);
}
/* Use eviction pool here */
k = 0;
while (k < HOTKEYS_SAMPLE && freqs[i] > counters[k]) k++;
if (k == 0) continue;
k--;
if (k == 0 || counters[k] == 0) {
sdsfree(hotkeys[k]);
} else {
sdsfree(hotkeys[0]);
memmove(counters,counters+1,sizeof(counters[0])*k);
memmove(hotkeys,hotkeys+1,sizeof(hotkeys[0])*k);
}
counters[k] = freqs[i];
hotkeys[k] = sdsnew(keys->element[i]->str);
printf(
"[%05.2f%%] Hot key '%s' found so far with counter %llu\n",
pct, keys->element[i]->str, freqs[i]);
}
/* Sleep if we've been directed to do so */
if(sampled && (sampled %100) == 0 && config.interval) {
usleep(config.interval);
}
freeReplyObject(reply);
} while(it != 0);
if (freqs) zfree(freqs);
/* We're done */
printf("\n-------- summary -------\n\n");
printf("Sampled %llu keys in the keyspace!\n", sampled);
for (i=1; i<= HOTKEYS_SAMPLE; i++) {
k = HOTKEYS_SAMPLE - i;
if(counters[k]>0) {
printf("hot key found with counter: %llu\tkeyname: %s\n", counters[k], hotkeys[k]);
sdsfree(hotkeys[k]);
}
}
exit(0);
}
/*------------------------------------------------------------------------------
* Stats mode
*--------------------------------------------------------------------------- */
/* Return the specified INFO field from the INFO command output "info".
* A new buffer is allocated for the result, that needs to be free'd.
* If the field is not found NULL is returned. */
static char *getInfoField(char *info, char *field) {
char *p = strstr(info,field);
char *n1, *n2;
char *result;
if (!p) return NULL;
p += strlen(field)+1;
n1 = strchr(p,'\r');
n2 = strchr(p,',');
if (n2 && n2 < n1) n1 = n2;
result = zmalloc(sizeof(char)*(n1-p)+1);
memcpy(result,p,(n1-p));
result[n1-p] = '\0';
return result;
}
/* Like the above function but automatically convert the result into
* a long. On error (missing field) LONG_MIN is returned. */
static long getLongInfoField(char *info, char *field) {
char *value = getInfoField(info,field);
long l;
if (!value) return LONG_MIN;
l = strtol(value,NULL,10);
zfree(value);
return l;
}
/* Convert number of bytes into a human readable string of the form:
* 100B, 2G, 100M, 4K, and so forth. */
void bytesToHuman(char *s, long long n) {
double d;
if (n < 0) {
*s = '-';
s++;
n = -n;
}
if (n < 1024) {
/* Bytes */
sprintf(s,"%lldB",n);
return;
} else if (n < (1024*1024)) {
d = (double)n/(1024);
sprintf(s,"%.2fK",d);
} else if (n < (1024LL*1024*1024)) {
d = (double)n/(1024*1024);
sprintf(s,"%.2fM",d);
} else if (n < (1024LL*1024*1024*1024)) {
d = (double)n/(1024LL*1024*1024);
sprintf(s,"%.2fG",d);
}
}
static void statMode(void) {
redisReply *reply;
long aux, requests = 0;
int i = 0;
while(1) {
char buf[64];
int j;
reply = reconnectingRedisCommand(context,"INFO");
if (reply->type == REDIS_REPLY_ERROR) {
printf("ERROR: %s\n", reply->str);
exit(1);
}
if ((i++ % 20) == 0) {
printf(
"------- data ------ --------------------- load -------------------- - child -\n"
"keys mem clients blocked requests connections \n");
}
/* Keys */
aux = 0;
for (j = 0; j < 20; j++) {
long k;
sprintf(buf,"db%d:keys",j);
k = getLongInfoField(reply->str,buf);
if (k == LONG_MIN) continue;
aux += k;
}
sprintf(buf,"%ld",aux);
printf("%-11s",buf);
/* Used memory */
aux = getLongInfoField(reply->str,"used_memory");
bytesToHuman(buf,aux);
printf("%-8s",buf);
/* Clients */
aux = getLongInfoField(reply->str,"connected_clients");
sprintf(buf,"%ld",aux);
printf(" %-8s",buf);
/* Blocked (BLPOPPING) Clients */
aux = getLongInfoField(reply->str,"blocked_clients");
sprintf(buf,"%ld",aux);
printf("%-8s",buf);
/* Requests */
aux = getLongInfoField(reply->str,"total_commands_processed");
sprintf(buf,"%ld (+%ld)",aux,requests == 0 ? 0 : aux-requests);
printf("%-19s",buf);
requests = aux;
/* Connections */
aux = getLongInfoField(reply->str,"total_connections_received");
sprintf(buf,"%ld",aux);
printf(" %-12s",buf);
/* Children */
aux = getLongInfoField(reply->str,"bgsave_in_progress");
aux |= getLongInfoField(reply->str,"aof_rewrite_in_progress") << 1;
aux |= getLongInfoField(reply->str,"loading") << 2;
switch(aux) {
case 0: break;
case 1:
printf("SAVE");
break;
case 2:
printf("AOF");
break;
case 3:
printf("SAVE+AOF");
break;
case 4:
printf("LOAD");
break;
}
printf("\n");
freeReplyObject(reply);
usleep(config.interval);
}
}
/*------------------------------------------------------------------------------
* Scan mode
*--------------------------------------------------------------------------- */
static void scanMode(void) {
redisReply *reply;
unsigned long long cur = 0;
do {
if (config.pattern)
reply = redisCommand(context,"SCAN %llu MATCH %s",
cur,config.pattern);
else
reply = redisCommand(context,"SCAN %llu",cur);
if (reply == NULL) {
printf("I/O error\n");
exit(1);
} else if (reply->type == REDIS_REPLY_ERROR) {
printf("ERROR: %s\n", reply->str);
exit(1);
} else {
unsigned int j;
cur = strtoull(reply->element[0]->str,NULL,10);
for (j = 0; j < reply->element[1]->elements; j++)
printf("%s\n", reply->element[1]->element[j]->str);
}
freeReplyObject(reply);
} while(cur != 0);
exit(0);
}
/*------------------------------------------------------------------------------
* LRU test mode
*--------------------------------------------------------------------------- */
/* Return an integer from min to max (both inclusive) using a power-law
* distribution, depending on the value of alpha: the greater the alpha
* the more bias towards lower values.
*
* With alpha = 6.2 the output follows the 80-20 rule where 20% of
* the returned numbers will account for 80% of the frequency. */
long long powerLawRand(long long min, long long max, double alpha) {
double pl, r;
max += 1;
r = ((double)rand()) / RAND_MAX;
pl = pow(
((pow(max,alpha+1) - pow(min,alpha+1))*r + pow(min,alpha+1)),
(1.0/(alpha+1)));
return (max-1-(long long)pl)+min;
}
/* Generates a key name among a set of lru_test_sample_size keys, using
* an 80-20 distribution. */
void LRUTestGenKey(char *buf, size_t buflen) {
snprintf(buf, buflen, "lru:%lld",
powerLawRand(1, config.lru_test_sample_size, 6.2));
}
#define LRU_CYCLE_PERIOD 1000 /* 1000 milliseconds. */
#define LRU_CYCLE_PIPELINE_SIZE 250
static void LRUTestMode(void) {
redisReply *reply;
char key[128];
long long start_cycle;
int j;
srand(time(NULL)^getpid());
while(1) {
/* Perform cycles of 1 second with 50% writes and 50% reads.
* We use pipelining batching writes / reads N times per cycle in order
* to fill the target instance easily. */
start_cycle = mstime();
long long hits = 0, misses = 0;
while(mstime() - start_cycle < 1000) {
/* Write cycle. */
for (j = 0; j < LRU_CYCLE_PIPELINE_SIZE; j++) {
char val[6];
val[5] = '\0';
for (int i = 0; i < 5; i++) val[i] = 'A'+rand()%('z'-'A');
LRUTestGenKey(key,sizeof(key));
redisAppendCommand(context, "SET %s %s",key,val);
}
for (j = 0; j < LRU_CYCLE_PIPELINE_SIZE; j++)
redisGetReply(context, (void**)&reply);
/* Read cycle. */
for (j = 0; j < LRU_CYCLE_PIPELINE_SIZE; j++) {
LRUTestGenKey(key,sizeof(key));
redisAppendCommand(context, "GET %s",key);
}
for (j = 0; j < LRU_CYCLE_PIPELINE_SIZE; j++) {
if (redisGetReply(context, (void**)&reply) == REDIS_OK) {
switch(reply->type) {
case REDIS_REPLY_ERROR:
printf("%s\n", reply->str);
break;
case REDIS_REPLY_NIL:
misses++;
break;
default:
hits++;
break;
}
}
}
if (context->err) {
fprintf(stderr,"I/O error during LRU test\n");
exit(1);
}
}
/* Print stats. */
printf(
"%lld Gets/sec | Hits: %lld (%.2f%%) | Misses: %lld (%.2f%%)\n",
hits+misses,
hits, (double)hits/(hits+misses)*100,
misses, (double)misses/(hits+misses)*100);
}
exit(0);
}
/*------------------------------------------------------------------------------
* Intrisic latency mode.
*
* Measure max latency of a running process that does not result from
* syscalls. Basically this software should provide an hint about how much
* time the kernel leaves the process without a chance to run.
*--------------------------------------------------------------------------- */
/* This is just some computation the compiler can't optimize out.
* Should run in less than 100-200 microseconds even using very
* slow hardware. Runs in less than 10 microseconds in modern HW. */
unsigned long compute_something_fast(void) {
unsigned char s[256], i, j, t;
int count = 1000, k;
unsigned long output = 0;
for (k = 0; k < 256; k++) s[k] = k;
i = 0;
j = 0;
while(count--) {
i++;
j = j + s[i];
t = s[i];
s[i] = s[j];
s[j] = t;
output += s[(s[i]+s[j])&255];
}
return output;
}
static void intrinsicLatencyModeStop(int s) {
UNUSED(s);
force_cancel_loop = 1;
}
static void intrinsicLatencyMode(void) {
long long test_end, run_time, max_latency = 0, runs = 0;
run_time = config.intrinsic_latency_duration*1000000;
test_end = ustime() + run_time;
signal(SIGINT, intrinsicLatencyModeStop);
while(1) {
long long start, end, latency;
start = ustime();
compute_something_fast();
end = ustime();
latency = end-start;
runs++;
if (latency <= 0) continue;
/* Reporting */
if (latency > max_latency) {
max_latency = latency;
printf("Max latency so far: %lld microseconds.\n", max_latency);
}
double avg_us = (double)run_time/runs;
double avg_ns = avg_us * 1e3;
if (force_cancel_loop || end > test_end) {
printf("\n%lld total runs "
"(avg latency: "
"%.4f microseconds / %.2f nanoseconds per run).\n",
runs, avg_us, avg_ns);
printf("Worst run took %.0fx longer than the average latency.\n",
max_latency / avg_us);
exit(0);
}
}
}
/*------------------------------------------------------------------------------
* Program main()
*--------------------------------------------------------------------------- */
int main(int argc, char **argv) {
int firstarg;
config.hostip = sdsnew("127.0.0.1");
config.hostport = 6379;
config.hostsocket = NULL;
config.repeat = 1;
config.interval = 0;
config.dbnum = 0;
config.interactive = 0;
config.shutdown = 0;
config.monitor_mode = 0;
config.pubsub_mode = 0;
config.latency_mode = 0;
config.latency_dist_mode = 0;
config.latency_history = 0;
config.lru_test_mode = 0;
config.lru_test_sample_size = 0;
config.cluster_mode = 0;
config.slave_mode = 0;
config.getrdb_mode = 0;
config.stat_mode = 0;
config.scan_mode = 0;
config.intrinsic_latency_mode = 0;
config.pattern = NULL;
config.rdb_filename = NULL;
config.pipe_mode = 0;
config.pipe_timeout = REDIS_CLI_DEFAULT_PIPE_TIMEOUT;
config.bigkeys = 0;
config.hotkeys = 0;
config.stdinarg = 0;
config.auth = NULL;
config.user = NULL;
config.eval = NULL;
config.eval_ldb = 0;
config.eval_ldb_end = 0;
config.eval_ldb_sync = 0;
config.enable_ldb_on_eval = 0;
config.last_cmd_type = -1;
config.verbose = 0;
config.no_auth_warning = 0;
config.cluster_manager_command.name = NULL;
config.cluster_manager_command.argc = 0;
config.cluster_manager_command.argv = NULL;
config.cluster_manager_command.flags = 0;
config.cluster_manager_command.replicas = 0;
config.cluster_manager_command.from = NULL;
config.cluster_manager_command.to = NULL;
config.cluster_manager_command.weight = NULL;
config.cluster_manager_command.weight_argc = 0;
config.cluster_manager_command.slots = 0;
config.cluster_manager_command.timeout = CLUSTER_MANAGER_MIGRATE_TIMEOUT;
config.cluster_manager_command.pipeline = CLUSTER_MANAGER_MIGRATE_PIPELINE;
config.cluster_manager_command.threshold =
CLUSTER_MANAGER_REBALANCE_THRESHOLD;
config.cluster_manager_command.backup_dir = NULL;
pref.hints = 1;
spectrum_palette = spectrum_palette_color;
spectrum_palette_size = spectrum_palette_color_size;
if (!isatty(fileno(stdout)) && (getenv("FAKETTY") == NULL))
config.output = OUTPUT_RAW;
else
config.output = OUTPUT_STANDARD;
config.mb_delim = sdsnew("\n");
firstarg = parseOptions(argc,argv);
argc -= firstarg;
argv += firstarg;
parseEnv();
#ifdef USE_OPENSSL
if (config.tls) {
ERR_load_crypto_strings();
SSL_load_error_strings();
SSL_library_init();
}
#endif
/* Cluster Manager mode */
if (CLUSTER_MANAGER_MODE()) {
clusterManagerCommandProc *proc = validateClusterManagerCommand();
if (!proc) {
sdsfree(config.hostip);
sdsfree(config.mb_delim);
exit(1);
}
clusterManagerMode(proc);
}
/* Latency mode */
if (config.latency_mode) {
if (cliConnect(0) == REDIS_ERR) exit(1);
latencyMode();
}
/* Latency distribution mode */
if (config.latency_dist_mode) {
if (cliConnect(0) == REDIS_ERR) exit(1);
latencyDistMode();
}
/* Slave mode */
if (config.slave_mode) {
if (cliConnect(0) == REDIS_ERR) exit(1);
sendCapa();
slaveMode();
}
/* Get RDB mode. */
if (config.getrdb_mode) {
if (cliConnect(0) == REDIS_ERR) exit(1);
sendCapa();
getRDB(NULL);
}
/* Pipe mode */
if (config.pipe_mode) {
if (cliConnect(0) == REDIS_ERR) exit(1);
pipeMode();
}
/* Find big keys */
if (config.bigkeys) {
if (cliConnect(0) == REDIS_ERR) exit(1);
findBigKeys(0, 0);
}
/* Find large keys */
if (config.memkeys) {
if (cliConnect(0) == REDIS_ERR) exit(1);
findBigKeys(1, config.memkeys_samples);
}
/* Find hot keys */
if (config.hotkeys) {
if (cliConnect(0) == REDIS_ERR) exit(1);
findHotKeys();
}
/* Stat mode */
if (config.stat_mode) {
if (cliConnect(0) == REDIS_ERR) exit(1);
if (config.interval == 0) config.interval = 1000000;
statMode();
}
/* Scan mode */
if (config.scan_mode) {
if (cliConnect(0) == REDIS_ERR) exit(1);
scanMode();
}
/* LRU test mode */
if (config.lru_test_mode) {
if (cliConnect(0) == REDIS_ERR) exit(1);
LRUTestMode();
}
/* Intrinsic latency mode */
if (config.intrinsic_latency_mode) intrinsicLatencyMode();
/* Start interactive mode when no command is provided */
if (argc == 0 && !config.eval) {
/* Ignore SIGPIPE in interactive mode to force a reconnect */
signal(SIGPIPE, SIG_IGN);
/* Note that in repl mode we don't abort on connection error.
* A new attempt will be performed for every command send. */
cliConnect(0);
repl();
}
/* Otherwise, we have some arguments to execute */
if (cliConnect(0) != REDIS_OK) exit(1);
if (config.eval) {
return evalMode(argc,argv);
} else {
return noninteractive(argc,convertToSds(argc,argv));
}
}
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