summaryrefslogtreecommitdiff
path: root/src/redis-cli.c
blob: 75845f3463eae445bd1b97159d8c48fdaf1a4575 (plain)
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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_CMD_FLAG_FIX_WITH_UNREACHABLE_MASTERS 1 << 10

#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;
    int askpass;
    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 ||
            strcasecmp(buf,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")) ||
        /* Format PROXY INFO command for Redis Cluster Proxy:
         * https://github.com/artix75/redis-cluster-proxy */
        (argc >= 2 && !strcasecmp(command,"proxy") &&
                       !strcasecmp(argv[1],"info")))
    {
        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], "--askpass")) {
            config.askpass = 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;
        } else if (!strcmp(argv[i],"--cluster-fix-with-unreachable-masters")) {
            config.cluster_manager_command.flags |=
                CLUSTER_MANAGER_CMD_FLAG_FIX_WITH_UNREACHABLE_MASTERS;
#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"
"  --askpass          Force user to input password with mask from STDIN.\n"
"                     If this argument is used, '-a' and " REDIS_CLI_AUTH_ENV "\n"
"                     environment variable will be ignored.\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, int force) {
    /* if force is true and --cluster-yes option is on,
     * do not prompt for an answer */
    if (force &&
        (config.cluster_manager_command.flags & CLUSTER_MANAGER_CMD_FLAG_YES)) {
        return 1;
    }

    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;
                        sdsfreesplitres(argv,argc);
                        linenoiseFree(line);
                        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;
    int unreachable_masters;    /* Masters we are not able to reach. */
} 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,fix-with-unreachable-masters"},
    {"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;
    if (config.user) c += 1;
    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) {
        if (config.user) {
            argv[offset] = "AUTH2";
            argv_len[offset] = 5;
            offset++;
            argv[offset] = config.user;
            argv_len[offset] = strlen(config.user);
            offset++;
            argv[offset] = config.auth;
            argv_len[offset] = strlen(config.auth);
            offset++;
        } else {
            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:
            if (!(friend->flags & CLUSTER_MANAGER_FLAG_SLAVE))
                cluster_manager.unreachable_masters++;
            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) {
    clusterManagerNode n = {0};
    listIter li;
    listNode *ln;
    listRewind(slots, &li);
    while ((ln = listNext(&li)) != NULL) {
        int slot = atoi(ln->value);
        if (slot >= 0 && slot < CLUSTER_MANAGER_SLOTS)
            n.slots[slot] = 1;
    }
    sds nodeslist = clusterManagerNodeSlotsString(&n);
    printf("%s\n", nodeslist);
    sdsfree(nodeslist);
}

/* 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 force_fix = config.cluster_manager_command.flags &
                    CLUSTER_MANAGER_CMD_FLAG_FIX_WITH_UNREACHABLE_MASTERS;

    if (cluster_manager.unreachable_masters > 0 && !force_fix) {
        clusterManagerLogWarn("*** Fixing slots coverage with %d unreachable masters is dangerous: redis-cli will assume that slots about masters that are not reachable are not covered, and will try to reassign them to the reachable nodes. This can cause data loss and is rarely what you want to do. If you really want to proceed use the --cluster-fix-with-unreachable-masters option.\n", cluster_manager.unreachable_masters);
        exit(1);
    }

    int i, fixed = 0;
    list *none = NULL, *single = NULL, *multi = NULL;
    clusterManagerLogInfo(">>> Fixing slots coverage...\n");
    for (i = 0; i < CLUSTER_MANAGER_SLOTS; i++) {
        int covered = all_slots[i];
        if (!covered) {
            sds slot = sdsfromlonglong((long long) i);
            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);
            }
            sdsfree(slot_nodes_str);
            dictAdd(clusterManagerUncoveredSlots, slot, slot_nodes);
        }
    }

    /* 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);

    /* we want explicit manual confirmation from users for all the fix cases */
    int force = 0;

    /*  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?",
                           force)) {
            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?",
                           force)) {
            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?", force)) {
            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:
    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) {
    int force_fix = config.cluster_manager_command.flags &
                    CLUSTER_MANAGER_CMD_FLAG_FIX_WITH_UNREACHABLE_MASTERS;

    if (cluster_manager.unreachable_masters > 0 && !force_fix) {
        clusterManagerLogWarn("*** Fixing open slots with %d unreachable masters is dangerous: redis-cli will assume that slots about masters that are not reachable are not covered, and will try to reassign them to the reachable nodes. This can cause data loss and is rarely what you want to do. If you really want to proceed use the --cluster-fix-with-unreachable-masters option.\n", cluster_manager.unreachable_masters);
        exit(1);
    }

    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 of nodes claiming some ownership.
                                       it could be stating in the configuration
                                       to have the node ownership, or just
                                       holding keys for such slot. */
    list *migrating = listCreate();
    list *importing = listCreate();
    sds migrating_str = sdsempty();
    sds importing_str = sdsempty();
    clusterManagerNode *owner = NULL; /* The obvious slot owner if any. */

    /* Iterate all the nodes, looking for potential owners of this slot. */
    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 we have only a single potential owner for this slot,
     * set it as "owner". */
    if (listLength(owners) == 1) owner = listFirst(owners)->value;

    /* Scan the list of nodes again, in order to populate the
     * list of nodes in importing or migrating state for
     * this slot. */
    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(">>> No single clear owner for the slot, "
                              "selecting an owner by # of keys...\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();
    int force = 1;
    if (confirmWithYes("Can I set the above configuration?", force)) {
        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 < LRU_CYCLE_PERIOD) {
            /* 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);
        }
    }
}

static sds askPassword() {
    linenoiseMaskModeEnable();
    sds auth = linenoise("Please input password: ");
    linenoiseMaskModeDisable();
    return auth;
}

/*------------------------------------------------------------------------------
 * 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.askpass = 0;
    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();

    if (config.askpass) {
        config.auth = askPassword();
    }

#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));
    }
}