/* Redis CLI (command line interface) * * Copyright (c) 2009-2012, Salvatore Sanfilippo * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * * Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * Neither the name of Redis nor the names of its contributors may be used * to endorse or promote products derived from this software without * specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #include "fmacros.h" #include "version.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /* use sds.h from hiredis, so that only one set of sds functions will be present in the binary */ #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" /* --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; static redisContext *context; static struct config { char *hostip; int hostport; char *hostsocket; 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 stdinarg; /* get last arg from stdin. (-x option) */ char *auth; 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 last_cmd_type; } config; static volatile sig_atomic_t force_cancel_loop = 0; static void usage(void); static void slaveMode(void); char *redisGitSHA1(void); char *redisGitDirty(void); /*------------------------------------------------------------------------------ * Utility functions *--------------------------------------------------------------------------- */ 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) { int len; if (config.eval_ldb) return; if (config.hostsocket != NULL) len = snprintf(config.prompt,sizeof(config.prompt),"redis %s", config.hostsocket); else len = anetFormatAddr(config.prompt, sizeof(config.prompt), config.hostip, config.hostport); /* Add [dbnum] if needed */ if (config.dbnum != 0 && config.last_cmd_type != REDIS_REPLY_ERROR) len += snprintf(config.prompt+len,sizeof(config.prompt)-len,"[%d]", config.dbnum); snprintf(config.prompt+len,sizeof(config.prompt)-len,"> "); } static sds getHistoryPath() { char *path = NULL; sds historyPath = NULL; /* check the env for a histfile override */ path = getenv(REDIS_CLI_HISTFILE_ENV); if (path != NULL && *path != '\0') { if (!strcmp("/dev/null", path)) { return NULL; } /* if the env is set, return it */ historyPath = sdscatprintf(sdsempty(), "%s", path); } else { char *home = getenv("HOME"); if (home != NULL && *home != '\0') { /* otherwise, return the default */ historyPath = sdscatprintf(sdsempty(), "%s/%s", home, REDIS_CLI_HISTFILE_DEFAULT); } } return historyPath; } /*------------------------------------------------------------------------------ * 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 = malloc(sizeof(helpEntry)*len); for (i = 0; i < groupslen; i++) { tmp.argc = 1; tmp.argv = malloc(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; } } /* 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\r\n" "Type: \"help @\" to get a list of commands in \r\n" " \"help \" for help on \r\n" " \"help \" to get a list of possible help topics\r\n" " \"quit\" to exit\r\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"); } 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); } } } /*------------------------------------------------------------------------------ * Networking / parsing *--------------------------------------------------------------------------- */ /* Send AUTH command to the server */ static int cliAuth(void) { redisReply *reply; if (config.auth == NULL) return REDIS_OK; reply = redisCommand(context,"AUTH %s",config.auth); if (reply != NULL) { 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; } /* Connect to the server. If force is not zero the connection is performed * even if there is already a connected socket. */ static int cliConnect(int force) { if (context == NULL || force) { if (context != NULL) { redisFree(context); } if (config.hostsocket == NULL) { context = redisConnect(config.hostip,config.hostport); } else { context = redisConnectUnix(config.hostsocket); } if (context->err) { 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 and select the right DB. */ if (cliAuth() != REDIS_OK) return REDIS_ERR; if (cliSelect() != 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_STRING: /* If you are producing output for the standard output we want * a more interesting output with quoted characters and so forth */ out = sdscatrepr(out,r->str,r->len); out = sdscat(out,"\n"); break; case REDIS_REPLY_NIL: out = sdscat(out,"(nil)\n"); break; case REDIS_REPLY_ARRAY: if (r->elements == 0) { out = sdscat(out,"(empty list or set)\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; 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 */ snprintf(_prefixfmt,sizeof(_prefixfmt),"%%s%%%dd) ",idxlen); for (i = 0; i < r->elements; i++) { /* 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,i+1); /* Format the multi bulk entry */ 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; } /* Helpe 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,"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,"")) color = "bold"; if (strstr(s,"")) color = "green"; if (strstr(s,"")) color = "cyan"; if (strstr(s,"")) color = "red"; if (strstr(s,"") || strstr(s,"")) 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: 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,"") == r->str) { 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_INTEGER: out = sdscatprintf(out,"%lld",r->integer); 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; 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_STRING: out = sdscatrepr(out,r->str,r->len); break; case REDIS_REPLY_NIL: out = sdscat(out,"NIL"); break; case REDIS_REPLY_ARRAY: 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 = strchr(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, int 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") || (argc >= 2 && !strcasecmp(command,"debug") && (!strcasecmp(argv[1],"jemalloc") || !strcasecmp(argv[1],"htstats"))) || (argc == 2 && !strcasecmp(command,"cluster") && (!strcasecmp(argv[1],"nodes") || !strcasecmp(argv[1],"info"))) || (argc == 2 && !strcasecmp(command,"client") && !strcasecmp(argv[1],"list")) || (argc == 3 && !strcasecmp(command,"latency") && !strcasecmp(argv[1],"graph")) || (argc == 2 && !strcasecmp(command,"latency") && !strcasecmp(argv[1],"doctor"))) { output_raw = 1; } if (!strcasecmp(command,"shutdown")) config.shutdown = 1; if (!strcasecmp(command,"monitor")) config.monitor_mode = 1; if (!strcasecmp(command,"subscribe") || !strcasecmp(command,"psubscribe")) config.pubsub_mode = 1; if (!strcasecmp(command,"sync") || !strcasecmp(command,"psync")) config.slave_mode = 1; /* Setup argument length */ argvlen = malloc(argc*sizeof(size_t)); for (j = 0; j < argc; j++) argvlen[j] = sdslen(argv[j]); while(repeat--) { 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 slave output mode... (press Ctrl-C to quit)\n"); slaveMode(); config.slave_mode = 0; free(argvlen); return REDIS_ERR; /* Error = slaveMode lost connection to master */ } if (cliReadReply(output_raw) != REDIS_OK) { free(argvlen); return REDIS_ERR; } else { /* Store database number when SELECT was successfully executed. */ if (!strcasecmp(command,"select") && argc == 2) { config.dbnum = atoi(argv[1]); cliRefreshPrompt(); } else if (!strcasecmp(command,"auth") && argc == 2) { cliSelect(); } } if (config.interval) usleep(config.interval); fflush(stdout); /* Make it grep friendly */ } free(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); 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],"-a") && !lastarg) { config.auth = 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],"--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],"--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],"-v") || !strcmp(argv[i], "--version")) { sds version = cliVersion(); printf("redis-cli %s\n", version); sdsfree(version); exit(0); } 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); } return i; } 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 Server hostname (default: 127.0.0.1).\n" " -p Server port (default: 6379).\n" " -s Server socket (overrides hostname and port).\n" " -a Password to use when connecting to the server.\n" " -r Execute specified command N times.\n" " -i When -r is used, waits seconds per command.\n" " It is possible to specify sub-second times like -i 0.1.\n" " -n Database number.\n" " -x Read last argument from STDIN.\n" " -d Multi-bulk delimiter in for raw formatting (default: \\n).\n" " -c Enable cluster mode (follow -ASK and -MOVED redirections).\n" " --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" " --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 Simulate a cache workload with an 80-20 distribution.\n" " --slave Simulate a slave showing commands received from the master.\n" " --rdb Transfer an RDB dump from remote server to local file.\n" " --pipe Transfer raw Redis protocol from stdin to server.\n" " --pipe-timeout In --pipe mode, abort with error if after sending all data.\n" " no reply is received within seconds.\n" " Default timeout: %d. Use 0 to wait forever.\n" " --bigkeys Sample Redis keys looking for big keys.\n" " --scan List all keys using the SCAN command.\n" " --pattern Useful with --scan to specify a SCAN pattern.\n" " --intrinsic-latency Run a test to measure intrinsic system latency.\n" " The test will run for the specified amount of seconds.\n" " --eval Send an EVAL command using the Lua script at .\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" " are not rolled back from the server memory.\n" " --help Output this help and exit.\n" " --version Output version and exit.\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" "\n", version, REDIS_CLI_DEFAULT_PIPE_TIMEOUT); sdsfree(version); exit(1); } /* 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(1); /* 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(1); } 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); } } static void repl(void) { sds historyfile = NULL; int history = 0; char *line; int argc; sds *argv; config.interactive = 1; linenoiseSetMultiLine(1); linenoiseSetCompletionCallback(completionCallback); /* Only use history when stdin is a tty. */ if (isatty(fileno(stdin))) { historyfile = getHistoryPath(); if (historyfile != NULL) { history = 1; linenoiseHistoryLoad(historyfile); } } cliRefreshPrompt(); while((line = linenoise(context ? config.prompt : "not connected> ")) != NULL) { if (line[0] != '\0') { argv = cliSplitArgs(line,&argc); if (history) linenoiseHistoryAdd(line); if (historyfile) linenoiseHistorySave(historyfile); if (argv == NULL) { printf("Invalid argument(s)\n"); free(line); continue; } else if (argc > 0) { if (strcasecmp(argv[0],"quit") == 0 || strcasecmp(argv[0],"exit") == 0) { exit(0); } else if (argc == 3 && !strcasecmp(argv[0],"connect")) { sdsfree(config.hostip); config.hostip = sdsnew(argv[1]); config.hostport = atoi(argv[2]); cliRefreshPrompt(); cliConnect(1); } else if (argc == 1 && !strcasecmp(argv[0],"clear")) { linenoiseClearScreen(); } else { long long start_time = mstime(), elapsed; int repeat, skipargs = 0; repeat = atoi(argv[0]); if (argc > 1 && repeat) { skipargs = 1; } else { repeat = 1; } 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) { printf("(%.2fs)\n",(double)elapsed/1000); } } } /* Free the argument vector */ sdsfreesplitres(argv,argc); } /* linenoise() returns malloc-ed lines like readline() */ free(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 = sdsempty(); FILE *fp; char buf[1024]; size_t nread; char **argv2; int j, 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. */ int 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 don't enter * the REPL at all. */ printf("Eval debugging session can't start:\n"); cliReadReply(0); } else { strncpy(config.prompt,"lua debugger> ",sizeof(config.prompt)); repl(); } } return retval; } /*------------------------------------------------------------------------------ * Latency and latency history modes *--------------------------------------------------------------------------- */ #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(); 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; } printf("\x1b[0G\x1b[2Kmin: %lld, max: %lld, avg: %.2f (%lld samples)", min, max, avg, count); fflush(stdout); 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 *--------------------------------------------------------------------------- */ /* Sends SYNC and reads the number of bytes in the payload. Used both by * slaveMode() and getRDB(). */ unsigned long long sendSync(int fd) { /* 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 $\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); } return strtoull(buf+1,NULL,10); } static void slaveMode(void) { int fd = context->fd; unsigned long long payload = sendSync(fd); char buf[1024]; int original_output = config.output; 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; } 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(void) { int s = context->fd; int fd; unsigned long long payload = sendSync(s); char buf[4096]; fprintf(stderr,"SYNC sent to master, writing %llu bytes to '%s'\n", payload, config.rdb_filename); /* Write to file. */ if (!strcmp(config.rdb_filename,"-")) { fd = STDOUT_FILENO; } else { fd = open(config.rdb_filename, O_CREAT|O_WRONLY, 0644); if (fd == -1) { fprintf(stderr, "Error opening '%s': %s\n", config.rdb_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", strerror(errno)); exit(1); } payload -= nread; } close(s); /* Close the file descriptor ASAP as fsync() may take time. */ fsync(fd); fprintf(stderr,"Transfer finished with success.\n"); 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; /* 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)); exit(1); } 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); } /* 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 *--------------------------------------------------------------------------- */ #define TYPE_STRING 0 #define TYPE_LIST 1 #define TYPE_SET 2 #define TYPE_HASH 3 #define TYPE_ZSET 4 #define TYPE_NONE 5 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; } static int toIntType(char *key, char *type) { if(!strcmp(type, "string")) { return TYPE_STRING; } else if(!strcmp(type, "list")) { return TYPE_LIST; } else if(!strcmp(type, "set")) { return TYPE_SET; } else if(!strcmp(type, "hash")) { return TYPE_HASH; } else if(!strcmp(type, "zset")) { return TYPE_ZSET; } else if(!strcmp(type, "none")) { return TYPE_NONE; } else { fprintf(stderr, "Unknown type '%s' for key '%s'\n", type, key); exit(1); } } static void getKeyTypes(redisReply *keys, int *types) { redisReply *reply; unsigned int i; /* Pipeline TYPE commands */ for(i=0;ielements;i++) { redisAppendCommand(context, "TYPE %s", keys->element[i]->str); } /* Retrieve types */ for(i=0;ielements;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) { fprintf(stderr, "Invalid reply type (%d) for TYPE on key '%s'!\n", reply->type, keys->element[i]->str); exit(1); } types[i] = toIntType(keys->element[i]->str, reply->str); freeReplyObject(reply); } } static void getKeySizes(redisReply *keys, int *types, unsigned long long *sizes) { redisReply *reply; char *sizecmds[] = {"STRLEN","LLEN","SCARD","HLEN","ZCARD"}; unsigned int i; /* Pipeline size commands */ for(i=0;ielements;i++) { /* Skip keys that were deleted */ if(types[i]==TYPE_NONE) continue; redisAppendCommand(context, "%s %s", sizecmds[types[i]], keys->element[i]->str); } /* Retreive sizes */ for(i=0;ielements;i++) { /* Skip keys that dissapeared between SCAN and TYPE */ if(types[i] == TYPE_NONE) { sizes[i] = 0; continue; } /* Retreive 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", sizecmds[types[i]], keys->element[i]->str); sizes[i] = 0; } else { sizes[i] = reply->integer; } freeReplyObject(reply); } } static void findBigKeys(void) { unsigned long long biggest[5] = {0}, counts[5] = {0}, totalsize[5] = {0}; unsigned long long sampled = 0, total_keys, totlen=0, *sizes=NULL, it=0; sds maxkeys[5] = {0}; char *typename[] = {"string","list","set","hash","zset"}; char *typeunit[] = {"bytes","items","members","fields","members"}; redisReply *reply, *keys; unsigned int arrsize=0, i; int type, *types=NULL; double pct; /* 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"); /* New up sds strings to keep track of overall biggest per type */ for(i=0;ielement[1]; /* Reallocate our type and size array if we need to */ if(keys->elements > arrsize) { types = zrealloc(types, sizeof(int)*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; } /* Retreive types and then sizes */ getKeyTypes(keys, types); getKeySizes(keys, types, sizes); /* Now update our stats */ for(i=0;ielements;i++) { if((type = types[i]) == TYPE_NONE) continue; totalsize[type] += sizes[i]; counts[type]++; totlen += keys->element[i]->len; sampled++; if(biggest[type]element[i]->str, sizes[i], typeunit[type]); /* Keep track of biggest key name for this type */ maxkeys[type] = sdscpy(maxkeys[type], keys->element[i]->str); if(!maxkeys[type]) { fprintf(stderr, "Failed to allocate memory for key!\n"); exit(1); } /* Keep track of the biggest size for this type */ biggest[type] = 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 */ for(i=0;i0) { printf("Biggest %6s found '%s' has %llu %s\n", typename[i], maxkeys[i], biggest[i], typeunit[i]); } } printf("\n"); for(i=0;itype == 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); /* Requets */ 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\n", powerLawRand(1, config.lru_test_sample_size, 6.2)); } #define LRU_CYCLE_PERIOD 1000 /* 1000 milliseconds. */ #define LRU_CYCLE_PIPELINE_SIZE 250 static void LRUTestMode(void) { redisReply *reply; char key[128]; long long start_cycle; int j; srand(time(NULL)^getpid()); while(1) { /* Perform cycles of 1 second with 50% writes and 50% reads. * We use pipelining batching writes / reads N times per cycle in order * to fill the target instance easily. */ start_cycle = mstime(); long long hits = 0, misses = 0; while(mstime() - start_cycle < 1000) { /* Write cycle. */ for (j = 0; j < LRU_CYCLE_PIPELINE_SIZE; j++) { LRUTestGenKey(key,sizeof(key)); redisAppendCommand(context, "SET %s val",key); } 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 * 10e3; if (force_cancel_loop || end > test_end) { printf("\n%lld total runs " "(avg latency: " "%.4f microseconds / %.2f nanoseconds per run).\n", runs, avg_us, avg_ns); printf("Worst run took %.0fx longer than the average latency.\n", max_latency / avg_us); exit(0); } } } /*------------------------------------------------------------------------------ * Program main() *--------------------------------------------------------------------------- */ int main(int argc, char **argv) { int firstarg; config.hostip = sdsnew("127.0.0.1"); config.hostport = 6379; config.hostsocket = NULL; config.repeat = 1; config.interval = 0; config.dbnum = 0; config.interactive = 0; config.shutdown = 0; config.monitor_mode = 0; config.pubsub_mode = 0; config.latency_mode = 0; config.latency_dist_mode = 0; config.latency_history = 0; config.lru_test_mode = 0; config.lru_test_sample_size = 0; config.cluster_mode = 0; config.slave_mode = 0; config.getrdb_mode = 0; config.stat_mode = 0; config.scan_mode = 0; config.intrinsic_latency_mode = 0; config.pattern = NULL; config.rdb_filename = NULL; config.pipe_mode = 0; config.pipe_timeout = REDIS_CLI_DEFAULT_PIPE_TIMEOUT; config.bigkeys = 0; config.stdinarg = 0; config.auth = NULL; config.eval = NULL; config.eval_ldb = 0; config.eval_ldb_end = 0; config.eval_ldb_sync = 0; config.last_cmd_type = -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"); cliInitHelp(); firstarg = parseOptions(argc,argv); argc -= firstarg; argv += firstarg; /* 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); slaveMode(); } /* Get RDB mode. */ if (config.getrdb_mode) { if (cliConnect(0) == REDIS_ERR) exit(1); getRDB(); } /* 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(); } /* 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)); } }