/* Redis benchmark utility. * * 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 #include #include #include #include #include #include #include #include #include #include #include /* Use hiredis sds. */ #include "ae.h" #include "hiredis.h" #include "adlist.h" #include "dict.h" #include "zmalloc.h" #include "atomicvar.h" #include "crc16_slottable.h" #define UNUSED(V) ((void) V) #define RANDPTR_INITIAL_SIZE 8 #define MAX_LATENCY_PRECISION 3 #define MAX_THREADS 500 #define CLUSTER_SLOTS 16384 #define CLIENT_GET_EVENTLOOP(c) \ (c->thread_id >= 0 ? config.threads[c->thread_id]->el : config.el) struct benchmarkThread; struct clusterNode; struct redisConfig; static struct config { aeEventLoop *el; const char *hostip; int hostport; const char *hostsocket; int numclients; int liveclients; int requests; int requests_issued; int requests_finished; int keysize; int datasize; int randomkeys; int randomkeys_keyspacelen; int keepalive; int pipeline; int showerrors; long long start; long long totlatency; long long *latency; const char *title; list *clients; int quiet; int csv; int loop; int idlemode; int dbnum; sds dbnumstr; char *tests; char *auth; int precision; int num_threads; struct benchmarkThread **threads; int cluster_mode; int cluster_node_count; struct clusterNode **cluster_nodes; struct redisConfig *redis_config; int is_fetching_slots; int is_updating_slots; int slots_last_update; int enable_tracking; /* Thread mutexes to be used as fallbacks by atomicvar.h */ pthread_mutex_t requests_issued_mutex; pthread_mutex_t requests_finished_mutex; pthread_mutex_t liveclients_mutex; pthread_mutex_t is_fetching_slots_mutex; pthread_mutex_t is_updating_slots_mutex; pthread_mutex_t updating_slots_mutex; pthread_mutex_t slots_last_update_mutex; } config; typedef struct _client { redisContext *context; sds obuf; char **randptr; /* Pointers to :rand: strings inside the command buf */ size_t randlen; /* Number of pointers in client->randptr */ size_t randfree; /* Number of unused pointers in client->randptr */ char **stagptr; /* Pointers to slot hashtags (cluster mode only) */ size_t staglen; /* Number of pointers in client->stagptr */ size_t stagfree; /* Number of unused pointers in client->stagptr */ size_t written; /* Bytes of 'obuf' already written */ long long start; /* Start time of a request */ long long latency; /* Request latency */ int pending; /* Number of pending requests (replies to consume) */ int prefix_pending; /* If non-zero, number of pending prefix commands. Commands such as auth and select are prefixed to the pipeline of benchmark commands and discarded after the first send. */ int prefixlen; /* Size in bytes of the pending prefix commands */ int thread_id; struct clusterNode *cluster_node; int slots_last_update; } *client; /* Threads. */ typedef struct benchmarkThread { int index; pthread_t thread; aeEventLoop *el; } benchmarkThread; /* Cluster. */ typedef struct clusterNode { char *ip; int port; sds name; int flags; sds replicate; /* Master ID if node is a slave */ int *slots; int slots_count; int current_slot_index; int *updated_slots; /* Used by updateClusterSlotsConfiguration */ int updated_slots_count; /* Used by updateClusterSlotsConfiguration */ int replicas_count; 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) */ struct redisConfig *redis_config; } clusterNode; typedef struct redisConfig { sds save; sds appendonly; } redisConfig; /* Prototypes */ static void writeHandler(aeEventLoop *el, int fd, void *privdata, int mask); static void createMissingClients(client c); static benchmarkThread *createBenchmarkThread(int index); static void freeBenchmarkThread(benchmarkThread *thread); static void freeBenchmarkThreads(); static void *execBenchmarkThread(void *ptr); static clusterNode *createClusterNode(char *ip, int port); static redisConfig *getRedisConfig(const char *ip, int port, const char *hostsocket); static void freeRedisConfig(redisConfig *cfg); static int fetchClusterSlotsConfiguration(client c); static void updateClusterSlotsConfiguration(); int showThroughput(struct aeEventLoop *eventLoop, long long id, void *clientData); /* Dict callbacks */ static uint64_t dictSdsHash(const void *key); static int dictSdsKeyCompare(void *privdata, const void *key1, const void *key2); /* Implementation */ static long long ustime(void) { struct timeval tv; long long ust; gettimeofday(&tv, NULL); ust = ((long)tv.tv_sec)*1000000; ust += tv.tv_usec; return ust; } static long long mstime(void) { struct timeval tv; long long mst; gettimeofday(&tv, NULL); mst = ((long long)tv.tv_sec)*1000; mst += tv.tv_usec/1000; return mst; } 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; } /* _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'; } static redisConfig *getRedisConfig(const char *ip, int port, const char *hostsocket) { redisConfig *cfg = zcalloc(sizeof(*cfg)); if (!cfg) return NULL; redisContext *c = NULL; redisReply *reply = NULL, *sub_reply = NULL; if (hostsocket == NULL) c = redisConnect(ip, port); else c = redisConnectUnix(hostsocket); if (c == NULL || c->err) { fprintf(stderr,"Could not connect to Redis at "); char *err = (c != NULL ? c->errstr : ""); if (hostsocket == NULL) fprintf(stderr,"%s:%d: %s\n",ip,port,err); else fprintf(stderr,"%s: %s\n",hostsocket,err); goto fail; } if(config.auth) { void *authReply = NULL; redisAppendCommand(c, "AUTH %s", config.auth); if (REDIS_OK != redisGetReply(c, &authReply)) goto fail; if (reply) freeReplyObject(reply); reply = ((redisReply *) authReply); if (reply->type == REDIS_REPLY_ERROR) { fprintf(stderr, "ERROR: %s\n", reply->str); goto fail; } } redisAppendCommand(c, "CONFIG GET %s", "save"); redisAppendCommand(c, "CONFIG GET %s", "appendonly"); int i = 0; void *r = NULL; for (; i < 2; i++) { int res = redisGetReply(c, &r); if (reply) freeReplyObject(reply); reply = ((redisReply *) r); if (res != REDIS_OK || !r) goto fail; if (reply->type == REDIS_REPLY_ERROR) { fprintf(stderr, "ERROR: %s\n", reply->str); goto fail; } if (reply->type != REDIS_REPLY_ARRAY || reply->elements < 2) goto fail; sub_reply = reply->element[1]; char *value = sub_reply->str; if (!value) value = ""; switch (i) { case 0: cfg->save = sdsnew(value); break; case 1: cfg->appendonly = sdsnew(value); break; } } freeReplyObject(reply); redisFree(c); return cfg; fail: fprintf(stderr, "ERROR: failed to fetch CONFIG from "); if (hostsocket == NULL) fprintf(stderr, "%s:%d\n", ip, port); else fprintf(stderr, "%s\n", hostsocket); freeReplyObject(reply); redisFree(c); zfree(cfg); return NULL; } static void freeRedisConfig(redisConfig *cfg) { if (cfg->save) sdsfree(cfg->save); if (cfg->appendonly) sdsfree(cfg->appendonly); zfree(cfg); } static void freeClient(client c) { aeEventLoop *el = CLIENT_GET_EVENTLOOP(c); listNode *ln; aeDeleteFileEvent(el,c->context->fd,AE_WRITABLE); aeDeleteFileEvent(el,c->context->fd,AE_READABLE); if (c->thread_id >= 0) { int requests_finished = 0; atomicGet(config.requests_finished, requests_finished); if (requests_finished >= config.requests) { aeStop(el); } } redisFree(c->context); sdsfree(c->obuf); zfree(c->randptr); zfree(c->stagptr); zfree(c); if (config.num_threads) pthread_mutex_lock(&(config.liveclients_mutex)); config.liveclients--; ln = listSearchKey(config.clients,c); assert(ln != NULL); listDelNode(config.clients,ln); if (config.num_threads) pthread_mutex_unlock(&(config.liveclients_mutex)); } static void freeAllClients(void) { listNode *ln = config.clients->head, *next; while(ln) { next = ln->next; freeClient(ln->value); ln = next; } } static void resetClient(client c) { aeEventLoop *el = CLIENT_GET_EVENTLOOP(c); aeDeleteFileEvent(el,c->context->fd,AE_WRITABLE); aeDeleteFileEvent(el,c->context->fd,AE_READABLE); aeCreateFileEvent(el,c->context->fd,AE_WRITABLE,writeHandler,c); c->written = 0; c->pending = config.pipeline; } static void randomizeClientKey(client c) { size_t i; for (i = 0; i < c->randlen; i++) { char *p = c->randptr[i]+11; size_t r = 0; if (config.randomkeys_keyspacelen != 0) r = random() % config.randomkeys_keyspacelen; size_t j; for (j = 0; j < 12; j++) { *p = '0'+r%10; r/=10; p--; } } } static void setClusterKeyHashTag(client c) { assert(c->thread_id >= 0); clusterNode *node = c->cluster_node; assert(node); assert(node->current_slot_index < node->slots_count); int is_updating_slots = 0; atomicGet(config.is_updating_slots, is_updating_slots); /* If updateClusterSlotsConfiguration is updating the slots array, * call updateClusterSlotsConfiguration is order to block the thread * since the mutex is locked. When the slots will be updated by the * thread that's actually performing the update, the execution of * updateClusterSlotsConfiguration won't actually do anything, since * the updated_slots_count array will be already NULL. */ if (is_updating_slots) updateClusterSlotsConfiguration(); int slot = node->slots[node->current_slot_index]; const char *tag = crc16_slot_table[slot]; int taglen = strlen(tag); size_t i; for (i = 0; i < c->staglen; i++) { char *p = c->stagptr[i] + 1; p[0] = tag[0]; p[1] = (taglen >= 2 ? tag[1] : '}'); p[2] = (taglen == 3 ? tag[2] : '}'); } } static void clientDone(client c) { int requests_finished = 0; atomicGet(config.requests_finished, requests_finished); if (requests_finished >= config.requests) { freeClient(c); if (!config.num_threads && config.el) aeStop(config.el); return; } if (config.keepalive) { resetClient(c); } else { if (config.num_threads) pthread_mutex_lock(&(config.liveclients_mutex)); config.liveclients--; createMissingClients(c); config.liveclients++; if (config.num_threads) pthread_mutex_unlock(&(config.liveclients_mutex)); freeClient(c); } } static void readHandler(aeEventLoop *el, int fd, void *privdata, int mask) { client c = privdata; void *reply = NULL; UNUSED(el); UNUSED(fd); UNUSED(mask); /* Calculate latency only for the first read event. This means that the * server already sent the reply and we need to parse it. Parsing overhead * is not part of the latency, so calculate it only once, here. */ if (c->latency < 0) c->latency = ustime()-(c->start); if (redisBufferRead(c->context) != REDIS_OK) { fprintf(stderr,"Error: %s\n",c->context->errstr); exit(1); } else { while(c->pending) { if (redisGetReply(c->context,&reply) != REDIS_OK) { fprintf(stderr,"Error: %s\n",c->context->errstr); exit(1); } if (reply != NULL) { if (reply == (void*)REDIS_REPLY_ERROR) { fprintf(stderr,"Unexpected error reply, exiting...\n"); exit(1); } redisReply *r = reply; int is_err = (r->type == REDIS_REPLY_ERROR); if (is_err && config.showerrors) { /* TODO: static lasterr_time not thread-safe */ static time_t lasterr_time = 0; time_t now = time(NULL); if (lasterr_time != now) { lasterr_time = now; if (c->cluster_node) { printf("Error from server %s:%d: %s\n", c->cluster_node->ip, c->cluster_node->port, r->str); } else printf("Error from server: %s\n", r->str); } } /* Try to update slots configuration if reply error is * MOVED/ASK/CLUSTERDOWN and the key(s) used by the command * contain(s) the slot hash tag. */ if (is_err && c->cluster_node && c->staglen) { int fetch_slots = 0, do_wait = 0; if (!strncmp(r->str,"MOVED",5) || !strncmp(r->str,"ASK",3)) fetch_slots = 1; else if (!strncmp(r->str,"CLUSTERDOWN",11)) { /* Usually the cluster is able to recover itself after * a CLUSTERDOWN error, so try to sleep one second * before requesting the new configuration. */ fetch_slots = 1; do_wait = 1; printf("Error from server %s:%d: %s\n", c->cluster_node->ip, c->cluster_node->port, r->str); } if (do_wait) sleep(1); if (fetch_slots && !fetchClusterSlotsConfiguration(c)) exit(1); } freeReplyObject(reply); /* This is an OK for prefix commands such as auth and select.*/ if (c->prefix_pending > 0) { c->prefix_pending--; c->pending--; /* Discard prefix commands on first response.*/ if (c->prefixlen > 0) { size_t j; sdsrange(c->obuf, c->prefixlen, -1); /* We also need to fix the pointers to the strings * we need to randomize. */ for (j = 0; j < c->randlen; j++) c->randptr[j] -= c->prefixlen; c->prefixlen = 0; } continue; } int requests_finished = 0; atomicGetIncr(config.requests_finished, requests_finished, 1); if (requests_finished < config.requests) config.latency[requests_finished] = c->latency; c->pending--; if (c->pending == 0) { clientDone(c); break; } } else { break; } } } } static void writeHandler(aeEventLoop *el, int fd, void *privdata, int mask) { client c = privdata; UNUSED(el); UNUSED(fd); UNUSED(mask); /* Initialize request when nothing was written. */ if (c->written == 0) { /* Enforce upper bound to number of requests. */ int requests_issued = 0; atomicGetIncr(config.requests_issued, requests_issued, 1); if (requests_issued >= config.requests) { freeClient(c); return; } /* Really initialize: randomize keys and set start time. */ if (config.randomkeys) randomizeClientKey(c); if (config.cluster_mode && c->staglen > 0) setClusterKeyHashTag(c); atomicGet(config.slots_last_update, c->slots_last_update); c->start = ustime(); c->latency = -1; } if (sdslen(c->obuf) > c->written) { void *ptr = c->obuf+c->written; ssize_t nwritten = write(c->context->fd,ptr,sdslen(c->obuf)-c->written); if (nwritten == -1) { if (errno != EPIPE) fprintf(stderr, "Writing to socket: %s\n", strerror(errno)); freeClient(c); return; } c->written += nwritten; if (sdslen(c->obuf) == c->written) { aeDeleteFileEvent(el,c->context->fd,AE_WRITABLE); aeCreateFileEvent(el,c->context->fd,AE_READABLE,readHandler,c); } } } /* Create a benchmark client, configured to send the command passed as 'cmd' of * 'len' bytes. * * The command is copied N times in the client output buffer (that is reused * again and again to send the request to the server) accordingly to the configured * pipeline size. * * Also an initial SELECT command is prepended in order to make sure the right * database is selected, if needed. The initial SELECT will be discarded as soon * as the first reply is received. * * To create a client from scratch, the 'from' pointer is set to NULL. If instead * we want to create a client using another client as reference, the 'from' pointer * points to the client to use as reference. In such a case the following * information is take from the 'from' client: * * 1) The command line to use. * 2) The offsets of the __rand_int__ elements inside the command line, used * for arguments randomization. * * Even when cloning another client, prefix commands are applied if needed.*/ static client createClient(char *cmd, size_t len, client from, int thread_id) { int j; int is_cluster_client = (config.cluster_mode && thread_id >= 0); client c = zmalloc(sizeof(struct _client)); const char *ip = NULL; int port = 0; c->cluster_node = NULL; if (config.hostsocket == NULL || is_cluster_client) { if (!is_cluster_client) { ip = config.hostip; port = config.hostport; } else { int node_idx = 0; if (config.num_threads < config.cluster_node_count) node_idx = config.liveclients % config.cluster_node_count; else node_idx = thread_id % config.cluster_node_count; clusterNode *node = config.cluster_nodes[node_idx]; assert(node != NULL); ip = (const char *) node->ip; port = node->port; c->cluster_node = node; } c->context = redisConnectNonBlock(ip,port); } else { c->context = redisConnectUnixNonBlock(config.hostsocket); } if (c->context->err) { fprintf(stderr,"Could not connect to Redis at "); if (config.hostsocket == NULL || is_cluster_client) fprintf(stderr,"%s:%d: %s\n",ip,port,c->context->errstr); else fprintf(stderr,"%s: %s\n",config.hostsocket,c->context->errstr); exit(1); } c->thread_id = thread_id; /* Suppress hiredis cleanup of unused buffers for max speed. */ c->context->reader->maxbuf = 0; /* Build the request buffer: * Queue N requests accordingly to the pipeline size, or simply clone * the example client buffer. */ c->obuf = sdsempty(); /* Prefix the request buffer with AUTH and/or SELECT commands, if applicable. * These commands are discarded after the first response, so if the client is * reused the commands will not be used again. */ c->prefix_pending = 0; if (config.auth) { char *buf = NULL; int len = redisFormatCommand(&buf, "AUTH %s", config.auth); c->obuf = sdscatlen(c->obuf, buf, len); free(buf); c->prefix_pending++; } if (config.enable_tracking) { char *buf = NULL; int len = redisFormatCommand(&buf, "CLIENT TRACKING on"); c->obuf = sdscatlen(c->obuf, buf, len); free(buf); c->prefix_pending++; } /* If a DB number different than zero is selected, prefix our request * buffer with the SELECT command, that will be discarded the first * time the replies are received, so if the client is reused the * SELECT command will not be used again. */ if (config.dbnum != 0 && !is_cluster_client) { c->obuf = sdscatprintf(c->obuf,"*2\r\n$6\r\nSELECT\r\n$%d\r\n%s\r\n", (int)sdslen(config.dbnumstr),config.dbnumstr); c->prefix_pending++; } c->prefixlen = sdslen(c->obuf); /* Append the request itself. */ if (from) { c->obuf = sdscatlen(c->obuf, from->obuf+from->prefixlen, sdslen(from->obuf)-from->prefixlen); } else { for (j = 0; j < config.pipeline; j++) c->obuf = sdscatlen(c->obuf,cmd,len); } c->written = 0; c->pending = config.pipeline+c->prefix_pending; c->randptr = NULL; c->randlen = 0; c->stagptr = NULL; c->staglen = 0; /* Find substrings in the output buffer that need to be randomized. */ if (config.randomkeys) { if (from) { c->randlen = from->randlen; c->randfree = 0; c->randptr = zmalloc(sizeof(char*)*c->randlen); /* copy the offsets. */ for (j = 0; j < (int)c->randlen; j++) { c->randptr[j] = c->obuf + (from->randptr[j]-from->obuf); /* Adjust for the different select prefix length. */ c->randptr[j] += c->prefixlen - from->prefixlen; } } else { char *p = c->obuf; c->randlen = 0; c->randfree = RANDPTR_INITIAL_SIZE; c->randptr = zmalloc(sizeof(char*)*c->randfree); while ((p = strstr(p,"__rand_int__")) != NULL) { if (c->randfree == 0) { c->randptr = zrealloc(c->randptr,sizeof(char*)*c->randlen*2); c->randfree += c->randlen; } c->randptr[c->randlen++] = p; c->randfree--; p += 12; /* 12 is strlen("__rand_int__). */ } } } /* If cluster mode is enabled, set slot hashtags pointers. */ if (config.cluster_mode) { if (from) { c->staglen = from->staglen; c->stagfree = 0; c->stagptr = zmalloc(sizeof(char*)*c->staglen); /* copy the offsets. */ for (j = 0; j < (int)c->staglen; j++) { c->stagptr[j] = c->obuf + (from->stagptr[j]-from->obuf); /* Adjust for the different select prefix length. */ c->stagptr[j] += c->prefixlen - from->prefixlen; } } else { char *p = c->obuf; c->staglen = 0; c->stagfree = RANDPTR_INITIAL_SIZE; c->stagptr = zmalloc(sizeof(char*)*c->stagfree); while ((p = strstr(p,"{tag}")) != NULL) { if (c->stagfree == 0) { c->stagptr = zrealloc(c->stagptr, sizeof(char*) * c->staglen*2); c->stagfree += c->staglen; } c->stagptr[c->staglen++] = p; c->stagfree--; p += 5; /* 12 is strlen("{tag}"). */ } } } aeEventLoop *el = NULL; if (thread_id < 0) el = config.el; else { benchmarkThread *thread = config.threads[thread_id]; el = thread->el; } if (config.idlemode == 0) aeCreateFileEvent(el,c->context->fd,AE_WRITABLE,writeHandler,c); listAddNodeTail(config.clients,c); atomicIncr(config.liveclients, 1); atomicGet(config.slots_last_update, c->slots_last_update); return c; } static void createMissingClients(client c) { int n = 0; while(config.liveclients < config.numclients) { int thread_id = -1; if (config.num_threads) thread_id = config.liveclients % config.num_threads; createClient(NULL,0,c,thread_id); /* Listen backlog is quite limited on most systems */ if (++n > 64) { usleep(50000); n = 0; } } } static int compareLatency(const void *a, const void *b) { return (*(long long*)a)-(*(long long*)b); } static int ipow(int base, int exp) { int result = 1; while (exp) { if (exp & 1) result *= base; exp /= 2; base *= base; } return result; } static void showLatencyReport(void) { int i, curlat = 0; int usbetweenlat = ipow(10, MAX_LATENCY_PRECISION-config.precision); float perc, reqpersec; reqpersec = (float)config.requests_finished/((float)config.totlatency/1000); if (!config.quiet && !config.csv) { printf("====== %s ======\n", config.title); printf(" %d requests completed in %.2f seconds\n", config.requests_finished, (float)config.totlatency/1000); printf(" %d parallel clients\n", config.numclients); printf(" %d bytes payload\n", config.datasize); printf(" keep alive: %d\n", config.keepalive); if (config.cluster_mode) { printf(" cluster mode: yes (%d masters)\n", config.cluster_node_count); int m ; for (m = 0; m < config.cluster_node_count; m++) { clusterNode *node = config.cluster_nodes[m]; redisConfig *cfg = node->redis_config; if (cfg == NULL) continue; printf(" node [%d] configuration:\n",m ); printf(" save: %s\n", sdslen(cfg->save) ? cfg->save : "NONE"); printf(" appendonly: %s\n", cfg->appendonly); } } else { if (config.redis_config) { printf(" host configuration \"save\": %s\n", config.redis_config->save); printf(" host configuration \"appendonly\": %s\n", config.redis_config->appendonly); } } printf(" multi-thread: %s\n", (config.num_threads ? "yes" : "no")); if (config.num_threads) printf(" threads: %d\n", config.num_threads); printf("\n"); qsort(config.latency,config.requests,sizeof(long long),compareLatency); for (i = 0; i < config.requests; i++) { if (config.latency[i]/usbetweenlat != curlat || i == (config.requests-1)) { /* After the 2 milliseconds latency to have percentages split * by decimals will just add a lot of noise to the output. */ if (config.latency[i] >= 2000) { config.precision = 0; usbetweenlat = ipow(10, MAX_LATENCY_PRECISION-config.precision); } curlat = config.latency[i]/usbetweenlat; perc = ((float)(i+1)*100)/config.requests; printf("%.2f%% <= %.*f milliseconds\n", perc, config.precision, curlat/pow(10.0, config.precision)); } } printf("%.2f requests per second\n\n", reqpersec); } else if (config.csv) { printf("\"%s\",\"%.2f\"\n", config.title, reqpersec); } else { printf("%s: %.2f requests per second\n", config.title, reqpersec); } } static void initBenchmarkThreads() { int i; if (config.threads) freeBenchmarkThreads(); config.threads = zmalloc(config.num_threads * sizeof(benchmarkThread*)); for (i = 0; i < config.num_threads; i++) { benchmarkThread *thread = createBenchmarkThread(i); config.threads[i] = thread; } } static void startBenchmarkThreads() { int i; for (i = 0; i < config.num_threads; i++) { benchmarkThread *t = config.threads[i]; if (pthread_create(&(t->thread), NULL, execBenchmarkThread, t)){ fprintf(stderr, "FATAL: Failed to start thread %d.\n", i); exit(1); } } for (i = 0; i < config.num_threads; i++) pthread_join(config.threads[i]->thread, NULL); } static void benchmark(char *title, char *cmd, int len) { client c; config.title = title; config.requests_issued = 0; config.requests_finished = 0; if (config.num_threads) initBenchmarkThreads(); int thread_id = config.num_threads > 0 ? 0 : -1; c = createClient(cmd,len,NULL,thread_id); createMissingClients(c); config.start = mstime(); if (!config.num_threads) aeMain(config.el); else startBenchmarkThreads(); config.totlatency = mstime()-config.start; showLatencyReport(); freeAllClients(); if (config.threads) freeBenchmarkThreads(); } /* Thread functions. */ static benchmarkThread *createBenchmarkThread(int index) { benchmarkThread *thread = zmalloc(sizeof(*thread)); if (thread == NULL) return NULL; thread->index = index; thread->el = aeCreateEventLoop(1024*10); aeCreateTimeEvent(thread->el,1,showThroughput,NULL,NULL); return thread; } static void freeBenchmarkThread(benchmarkThread *thread) { if (thread->el) aeDeleteEventLoop(thread->el); zfree(thread); } static void freeBenchmarkThreads() { int i = 0; for (; i < config.num_threads; i++) { benchmarkThread *thread = config.threads[i]; if (thread) freeBenchmarkThread(thread); } zfree(config.threads); config.threads = NULL; } static void *execBenchmarkThread(void *ptr) { benchmarkThread *thread = (benchmarkThread *) ptr; aeMain(thread->el); return NULL; } /* Cluster helper functions. */ static clusterNode *createClusterNode(char *ip, int port) { clusterNode *node = zmalloc(sizeof(*node)); if (!node) return NULL; node->ip = ip; node->port = port; node->name = NULL; node->flags = 0; node->replicate = NULL; node->replicas_count = 0; node->slots = zmalloc(CLUSTER_SLOTS * sizeof(int)); node->slots_count = 0; node->current_slot_index = 0; node->updated_slots = NULL; node->updated_slots_count = 0; node->migrating = NULL; node->importing = NULL; node->migrating_count = 0; node->importing_count = 0; node->redis_config = NULL; return node; } static void freeClusterNode(clusterNode *node) { int i; if (node->name) sdsfree(node->name); if (node->replicate) sdsfree(node->replicate); 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 the node is not the reference node, that uses the address from * config.hostip and config.hostport, then the node ip has been * allocated by fetchClusterConfiguration, so it must be freed. */ if (node->ip && strcmp(node->ip, config.hostip) != 0) sdsfree(node->ip); if (node->redis_config != NULL) freeRedisConfig(node->redis_config); zfree(node->slots); zfree(node); } static void freeClusterNodes() { int i = 0; for (; i < config.cluster_node_count; i++) { clusterNode *n = config.cluster_nodes[i]; if (n) freeClusterNode(n); } zfree(config.cluster_nodes); config.cluster_nodes = NULL; } static clusterNode **addClusterNode(clusterNode *node) { int count = config.cluster_node_count + 1; config.cluster_nodes = zrealloc(config.cluster_nodes, count * sizeof(*node)); if (!config.cluster_nodes) return NULL; config.cluster_nodes[config.cluster_node_count++] = node; return config.cluster_nodes; } static int fetchClusterConfiguration() { int success = 1; redisContext *ctx = NULL; redisReply *reply = NULL; if (config.hostsocket == NULL) ctx = redisConnect(config.hostip,config.hostport); else ctx = redisConnectUnix(config.hostsocket); if (ctx->err) { fprintf(stderr,"Could not connect to Redis at "); if (config.hostsocket == NULL) { fprintf(stderr,"%s:%d: %s\n",config.hostip,config.hostport, ctx->errstr); } else fprintf(stderr,"%s: %s\n",config.hostsocket,ctx->errstr); exit(1); } clusterNode *firstNode = createClusterNode((char *) config.hostip, config.hostport); if (!firstNode) {success = 0; goto cleanup;} reply = redisCommand(ctx, "CLUSTER NODES"); success = (reply != NULL); if (!success) goto cleanup; success = (reply->type != REDIS_REPLY_ERROR); if (!success) { if (config.hostsocket == NULL) { fprintf(stderr, "Cluster node %s:%d replied with error:\n%s\n", config.hostip, config.hostport, reply->str); } else { fprintf(stderr, "Cluster node %s replied with error:\n%s\n", config.hostsocket, reply->str); } goto cleanup; } 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; 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; } if (i == 8) break; // Slots } if (!flags) { fprintf(stderr, "Invalid CLUSTER NODES reply: missing flags.\n"); success = 0; goto cleanup; } int myself = (strstr(flags, "myself") != NULL); int is_replica = (strstr(flags, "slave") != NULL || (master_id != NULL && master_id[0] != '-')); if (is_replica) continue; if (addr == NULL) { fprintf(stderr, "Invalid CLUSTER NODES reply: missing addr.\n"); success = 0; goto cleanup; } clusterNode *node = NULL; char *ip = NULL; int port = 0; char *paddr = strchr(addr, ':'); if (paddr != NULL) { *paddr = '\0'; ip = addr; addr = paddr + 1; /* If internal bus is specified, then just drop it. */ if ((paddr = strchr(addr, '@')) != NULL) *paddr = '\0'; port = atoi(addr); } if (myself) { node = firstNode; if (node->ip == NULL && ip != NULL) { node->ip = ip; node->port = port; } } else { node = createClusterNode(sdsnew(ip), port); } if (node == NULL) { success = 0; goto cleanup; } if (name != NULL) node->name = sdsnew(name); 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); while (start <= stop) { int slot = start++; node->slots[node->slots_count++] = slot; } } else if (p > slotsdef) { int slot = atoi(slotsdef); node->slots[node->slots_count++] = slot; } } } if (node->slots_count == 0) { printf("WARNING: master node %s:%d has no slots, skipping...\n", node->ip, node->port); continue; } if (!addClusterNode(node)) { success = 0; goto cleanup; } } cleanup: if (ctx) redisFree(ctx); if (!success) { if (config.cluster_nodes) freeClusterNodes(); } if (reply) freeReplyObject(reply); return success; } /* Request the current cluster slots configuration by calling CLUSTER SLOTS * and atomically update the slots after a successful reply. */ static int fetchClusterSlotsConfiguration(client c) { UNUSED(c); int success = 1, is_fetching_slots = 0, last_update = 0; size_t i; atomicGet(config.slots_last_update, last_update); if (c->slots_last_update < last_update) { c->slots_last_update = last_update; return -1; } redisReply *reply = NULL; atomicGetIncr(config.is_fetching_slots, is_fetching_slots, 1); if (is_fetching_slots) return -1; //TODO: use other codes || errno ? atomicSet(config.is_fetching_slots, 1); if (config.showerrors) printf("Cluster slots configuration changed, fetching new one...\n"); const char *errmsg = "Failed to update cluster slots configuration"; static dictType dtype = { dictSdsHash, /* hash function */ NULL, /* key dup */ NULL, /* val dup */ dictSdsKeyCompare, /* key compare */ NULL, /* key destructor */ NULL /* val destructor */ }; /* printf("[%d] fetchClusterSlotsConfiguration\n", c->thread_id); */ dict *masters = dictCreate(&dtype, NULL); redisContext *ctx = NULL; for (i = 0; i < (size_t) config.cluster_node_count; i++) { clusterNode *node = config.cluster_nodes[i]; assert(node->ip != NULL); assert(node->name != NULL); assert(node->port); /* Use first node as entry point to connect to. */ if (ctx == NULL) { ctx = redisConnect(node->ip, node->port); if (!ctx || ctx->err) { success = 0; if (ctx && ctx->err) fprintf(stderr, "REDIS CONNECTION ERROR: %s\n", ctx->errstr); goto cleanup; } } if (node->updated_slots != NULL) zfree(node->updated_slots); node->updated_slots = NULL; node->updated_slots_count = 0; dictReplace(masters, node->name, node) ; } reply = redisCommand(ctx, "CLUSTER SLOTS"); if (reply == NULL || reply->type == REDIS_REPLY_ERROR) { success = 0; if (reply) fprintf(stderr,"%s\nCLUSTER SLOTS ERROR: %s\n",errmsg,reply->str); goto cleanup; } assert(reply->type == REDIS_REPLY_ARRAY); for (i = 0; i < reply->elements; i++) { redisReply *r = reply->element[i]; assert(r->type == REDIS_REPLY_ARRAY); assert(r->elements >= 3); int from, to, slot; from = r->element[0]->integer; to = r->element[1]->integer; redisReply *nr = r->element[2]; assert(nr->type == REDIS_REPLY_ARRAY && nr->elements >= 3); assert(nr->element[2]->str != NULL); sds name = sdsnew(nr->element[2]->str); dictEntry *entry = dictFind(masters, name); if (entry == NULL) { success = 0; fprintf(stderr, "%s: could not find node with ID %s in current " "configuration.\n", errmsg, name); if (name) sdsfree(name); goto cleanup; } sdsfree(name); clusterNode *node = dictGetVal(entry); if (node->updated_slots == NULL) node->updated_slots = zcalloc(CLUSTER_SLOTS * sizeof(int)); for (slot = from; slot <= to; slot++) node->updated_slots[node->updated_slots_count++] = slot; } updateClusterSlotsConfiguration(); cleanup: freeReplyObject(reply); redisFree(ctx); dictRelease(masters); atomicSet(config.is_fetching_slots, 0); return success; } /* Atomically update the new slots configuration. */ static void updateClusterSlotsConfiguration() { pthread_mutex_lock(&config.is_updating_slots_mutex); atomicSet(config.is_updating_slots, 1); int i; for (i = 0; i < config.cluster_node_count; i++) { clusterNode *node = config.cluster_nodes[i]; if (node->updated_slots != NULL) { int *oldslots = node->slots; node->slots = node->updated_slots; node->slots_count = node->updated_slots_count; node->current_slot_index = 0; node->updated_slots = NULL; node->updated_slots_count = 0; zfree(oldslots); } } atomicSet(config.is_updating_slots, 0); atomicIncr(config.slots_last_update, 1); pthread_mutex_unlock(&config.is_updating_slots_mutex); } /* Returns number of consumed options. */ int parseOptions(int argc, const char **argv) { int i; int lastarg; int exit_status = 1; for (i = 1; i < argc; i++) { lastarg = (i == (argc-1)); if (!strcmp(argv[i],"-c")) { if (lastarg) goto invalid; config.numclients = atoi(argv[++i]); } else if (!strcmp(argv[i],"-n")) { if (lastarg) goto invalid; config.requests = atoi(argv[++i]); } else if (!strcmp(argv[i],"-k")) { if (lastarg) goto invalid; config.keepalive = atoi(argv[++i]); } else if (!strcmp(argv[i],"-h")) { if (lastarg) goto invalid; config.hostip = strdup(argv[++i]); } else if (!strcmp(argv[i],"-p")) { if (lastarg) goto invalid; config.hostport = atoi(argv[++i]); } else if (!strcmp(argv[i],"-s")) { if (lastarg) goto invalid; config.hostsocket = strdup(argv[++i]); } else if (!strcmp(argv[i],"-a") ) { if (lastarg) goto invalid; config.auth = strdup(argv[++i]); } else if (!strcmp(argv[i],"-d")) { if (lastarg) goto invalid; config.datasize = atoi(argv[++i]); if (config.datasize < 1) config.datasize=1; if (config.datasize > 1024*1024*1024) config.datasize = 1024*1024*1024; } else if (!strcmp(argv[i],"-P")) { if (lastarg) goto invalid; config.pipeline = atoi(argv[++i]); if (config.pipeline <= 0) config.pipeline=1; } else if (!strcmp(argv[i],"-r")) { if (lastarg) goto invalid; const char *next = argv[++i], *p = next; if (*p == '-') { p++; if (*p < '0' || *p > '9') goto invalid; } config.randomkeys = 1; config.randomkeys_keyspacelen = atoi(next); if (config.randomkeys_keyspacelen < 0) config.randomkeys_keyspacelen = 0; } else if (!strcmp(argv[i],"-q")) { config.quiet = 1; } else if (!strcmp(argv[i],"--csv")) { config.csv = 1; } else if (!strcmp(argv[i],"-l")) { config.loop = 1; } else if (!strcmp(argv[i],"-I")) { config.idlemode = 1; } else if (!strcmp(argv[i],"-e")) { config.showerrors = 1; } else if (!strcmp(argv[i],"-t")) { if (lastarg) goto invalid; /* We get the list of tests to run as a string in the form * get,set,lrange,...,test_N. Then we add a comma before and * after the string in order to make sure that searching * for ",testname," will always get a match if the test is * enabled. */ config.tests = sdsnew(","); config.tests = sdscat(config.tests,(char*)argv[++i]); config.tests = sdscat(config.tests,","); sdstolower(config.tests); } else if (!strcmp(argv[i],"--dbnum")) { if (lastarg) goto invalid; config.dbnum = atoi(argv[++i]); config.dbnumstr = sdsfromlonglong(config.dbnum); } else if (!strcmp(argv[i],"--precision")) { if (lastarg) goto invalid; config.precision = atoi(argv[++i]); if (config.precision < 0) config.precision = 0; if (config.precision > MAX_LATENCY_PRECISION) config.precision = MAX_LATENCY_PRECISION; } else if (!strcmp(argv[i],"--threads")) { if (lastarg) goto invalid; config.num_threads = atoi(argv[++i]); if (config.num_threads > MAX_THREADS) { printf("WARNING: too many threads, limiting threads to %d.\n", MAX_THREADS); config.num_threads = MAX_THREADS; } else if (config.num_threads < 0) config.num_threads = 0; } else if (!strcmp(argv[i],"--cluster")) { config.cluster_mode = 1; } else if (!strcmp(argv[i],"--enable-tracking")) { config.enable_tracking = 1; } else if (!strcmp(argv[i],"--help")) { exit_status = 0; goto usage; } else { /* Assume the user meant to provide an option when the arg starts * with a dash. We're done otherwise and should use the remainder * as the command and arguments for running the benchmark. */ if (argv[i][0] == '-') goto invalid; return i; } } return i; invalid: printf("Invalid option \"%s\" or option argument missing\n\n",argv[i]); usage: printf( "Usage: redis-benchmark [-h ] [-p ] [-c ] [-n ] [-k ]\n\n" " -h Server hostname (default 127.0.0.1)\n" " -p Server port (default 6379)\n" " -s Server socket (overrides host and port)\n" " -a Password for Redis Auth\n" " -c Number of parallel connections (default 50)\n" " -n Total number of requests (default 100000)\n" " -d Data size of SET/GET value in bytes (default 3)\n" " --dbnum SELECT the specified db number (default 0)\n" " --threads Enable multi-thread mode.\n" " --cluster Enable cluster mode.\n" " --enable-tracking Send CLIENT TRACKING on before starting benchmark.\n" " -k 1=keep alive 0=reconnect (default 1)\n" " -r Use random keys for SET/GET/INCR, random values for SADD\n" " Using this option the benchmark will expand the string __rand_int__\n" " inside an argument with a 12 digits number in the specified range\n" " from 0 to keyspacelen-1. The substitution changes every time a command\n" " is executed. Default tests use this to hit random keys in the\n" " specified range.\n" " -P Pipeline requests. Default 1 (no pipeline).\n" " -e If server replies with errors, show them on stdout.\n" " (no more than 1 error per second is displayed)\n" " -q Quiet. Just show query/sec values\n" " --precision Number of decimal places to display in latency output (default 0)\n" " --csv Output in CSV format\n" " -l Loop. Run the tests forever\n" " -t Only run the comma separated list of tests. The test\n" " names are the same as the ones produced as output.\n" " -I Idle mode. Just open N idle connections and wait.\n\n" "Examples:\n\n" " Run the benchmark with the default configuration against 127.0.0.1:6379:\n" " $ redis-benchmark\n\n" " Use 20 parallel clients, for a total of 100k requests, against 192.168.1.1:\n" " $ redis-benchmark -h 192.168.1.1 -p 6379 -n 100000 -c 20\n\n" " Fill 127.0.0.1:6379 with about 1 million keys only using the SET test:\n" " $ redis-benchmark -t set -n 1000000 -r 100000000\n\n" " Benchmark 127.0.0.1:6379 for a few commands producing CSV output:\n" " $ redis-benchmark -t ping,set,get -n 100000 --csv\n\n" " Benchmark a specific command line:\n" " $ redis-benchmark -r 10000 -n 10000 eval 'return redis.call(\"ping\")' 0\n\n" " Fill a list with 10000 random elements:\n" " $ redis-benchmark -r 10000 -n 10000 lpush mylist __rand_int__\n\n" " On user specified command lines __rand_int__ is replaced with a random integer\n" " with a range of values selected by the -r option.\n" ); exit(exit_status); } int showThroughput(struct aeEventLoop *eventLoop, long long id, void *clientData) { UNUSED(eventLoop); UNUSED(id); UNUSED(clientData); int liveclients = 0; int requests_finished = 0; atomicGet(config.liveclients, liveclients); atomicGet(config.requests_finished, requests_finished); if (liveclients == 0 && requests_finished != config.requests) { fprintf(stderr,"All clients disconnected... aborting.\n"); exit(1); } if (config.num_threads && requests_finished >= config.requests) { aeStop(eventLoop); return AE_NOMORE; } if (config.csv) return 250; if (config.idlemode == 1) { printf("clients: %d\r", config.liveclients); fflush(stdout); return 250; } float dt = (float)(mstime()-config.start)/1000.0; float rps = (float)requests_finished/dt; printf("%s: %.2f\r", config.title, rps); fflush(stdout); return 250; /* every 250ms */ } /* Return true if the named test was selected using the -t command line * switch, or if all the tests are selected (no -t passed by user). */ int test_is_selected(char *name) { char buf[256]; int l = strlen(name); if (config.tests == NULL) return 1; buf[0] = ','; memcpy(buf+1,name,l); buf[l+1] = ','; buf[l+2] = '\0'; return strstr(config.tests,buf) != NULL; } int main(int argc, const char **argv) { int i; char *data, *cmd; int len; client c; srandom(time(NULL)); signal(SIGHUP, SIG_IGN); signal(SIGPIPE, SIG_IGN); config.numclients = 50; config.requests = 100000; config.liveclients = 0; config.el = aeCreateEventLoop(1024*10); aeCreateTimeEvent(config.el,1,showThroughput,NULL,NULL); config.keepalive = 1; config.datasize = 3; config.pipeline = 1; config.showerrors = 0; config.randomkeys = 0; config.randomkeys_keyspacelen = 0; config.quiet = 0; config.csv = 0; config.loop = 0; config.idlemode = 0; config.latency = NULL; config.clients = listCreate(); config.hostip = "127.0.0.1"; config.hostport = 6379; config.hostsocket = NULL; config.tests = NULL; config.dbnum = 0; config.auth = NULL; config.precision = 1; config.num_threads = 0; config.threads = NULL; config.cluster_mode = 0; config.cluster_node_count = 0; config.cluster_nodes = NULL; config.redis_config = NULL; config.is_fetching_slots = 0; config.is_updating_slots = 0; config.slots_last_update = 0; config.enable_tracking = 0; i = parseOptions(argc,argv); argc -= i; argv += i; config.latency = zmalloc(sizeof(long long)*config.requests); if (config.cluster_mode) { /* Fetch cluster configuration. */ if (!fetchClusterConfiguration() || !config.cluster_nodes) { if (!config.hostsocket) { fprintf(stderr, "Failed to fetch cluster configuration from " "%s:%d\n", config.hostip, config.hostport); } else { fprintf(stderr, "Failed to fetch cluster configuration from " "%s\n", config.hostsocket); } exit(1); } if (config.cluster_node_count <= 1) { fprintf(stderr, "Invalid cluster: %d node(s).\n", config.cluster_node_count); exit(1); } printf("Cluster has %d master nodes:\n\n", config.cluster_node_count); int i = 0; for (; i < config.cluster_node_count; i++) { clusterNode *node = config.cluster_nodes[i]; if (!node) { fprintf(stderr, "Invalid cluster node #%d\n", i); exit(1); } printf("Master %d: ", i); if (node->name) printf("%s ", node->name); printf("%s:%d\n", node->ip, node->port); node->redis_config = getRedisConfig(node->ip, node->port, NULL); if (node->redis_config == NULL) { fprintf(stderr, "WARN: could not fetch node CONFIG %s:%d\n", node->ip, node->port); } } printf("\n"); /* Automatically set thread number to node count if not specified * by the user. */ if (config.num_threads == 0) config.num_threads = config.cluster_node_count; } else { config.redis_config = getRedisConfig(config.hostip, config.hostport, config.hostsocket); if (config.redis_config == NULL) fprintf(stderr, "WARN: could not fetch server CONFIG\n"); } if (config.num_threads > 0) { pthread_mutex_init(&(config.requests_issued_mutex), NULL); pthread_mutex_init(&(config.requests_finished_mutex), NULL); pthread_mutex_init(&(config.liveclients_mutex), NULL); pthread_mutex_init(&(config.is_fetching_slots_mutex), NULL); pthread_mutex_init(&(config.is_updating_slots_mutex), NULL); pthread_mutex_init(&(config.updating_slots_mutex), NULL); pthread_mutex_init(&(config.slots_last_update_mutex), NULL); } if (config.keepalive == 0) { printf("WARNING: keepalive disabled, you probably need 'echo 1 > /proc/sys/net/ipv4/tcp_tw_reuse' for Linux and 'sudo sysctl -w net.inet.tcp.msl=1000' for Mac OS X in order to use a lot of clients/requests\n"); } if (config.idlemode) { printf("Creating %d idle connections and waiting forever (Ctrl+C when done)\n", config.numclients); int thread_id = -1, use_threads = (config.num_threads > 0); if (use_threads) { thread_id = 0; initBenchmarkThreads(); } c = createClient("",0,NULL,thread_id); /* will never receive a reply */ createMissingClients(c); if (use_threads) startBenchmarkThreads(); else aeMain(config.el); /* and will wait for every */ } /* Run benchmark with command in the remainder of the arguments. */ if (argc) { sds title = sdsnew(argv[0]); for (i = 1; i < argc; i++) { title = sdscatlen(title, " ", 1); title = sdscatlen(title, (char*)argv[i], strlen(argv[i])); } do { len = redisFormatCommandArgv(&cmd,argc,argv,NULL); benchmark(title,cmd,len); free(cmd); } while(config.loop); if (config.redis_config != NULL) freeRedisConfig(config.redis_config); return 0; } /* Run default benchmark suite. */ data = zmalloc(config.datasize+1); do { memset(data,'x',config.datasize); data[config.datasize] = '\0'; if (test_is_selected("ping_inline") || test_is_selected("ping")) benchmark("PING_INLINE","PING\r\n",6); if (test_is_selected("ping_mbulk") || test_is_selected("ping")) { len = redisFormatCommand(&cmd,"PING"); benchmark("PING_BULK",cmd,len); free(cmd); } if (test_is_selected("set")) { len = redisFormatCommand(&cmd,"SET key:{tag}:__rand_int__ %s",data); benchmark("SET",cmd,len); free(cmd); } if (test_is_selected("get")) { len = redisFormatCommand(&cmd,"GET key:{tag}:__rand_int__"); benchmark("GET",cmd,len); free(cmd); } if (test_is_selected("incr")) { len = redisFormatCommand(&cmd,"INCR counter:{tag}:__rand_int__"); benchmark("INCR",cmd,len); free(cmd); } if (test_is_selected("lpush")) { len = redisFormatCommand(&cmd,"LPUSH mylist:{tag} %s",data); benchmark("LPUSH",cmd,len); free(cmd); } if (test_is_selected("rpush")) { len = redisFormatCommand(&cmd,"RPUSH mylist:{tag} %s",data); benchmark("RPUSH",cmd,len); free(cmd); } if (test_is_selected("lpop")) { len = redisFormatCommand(&cmd,"LPOP mylist:{tag}"); benchmark("LPOP",cmd,len); free(cmd); } if (test_is_selected("rpop")) { len = redisFormatCommand(&cmd,"RPOP mylist:{tag}"); benchmark("RPOP",cmd,len); free(cmd); } if (test_is_selected("sadd")) { len = redisFormatCommand(&cmd, "SADD myset:{tag} element:__rand_int__"); benchmark("SADD",cmd,len); free(cmd); } if (test_is_selected("hset")) { len = redisFormatCommand(&cmd, "HSET myhash:{tag}:__rand_int__ element:__rand_int__ %s",data); benchmark("HSET",cmd,len); free(cmd); } if (test_is_selected("spop")) { len = redisFormatCommand(&cmd,"SPOP myset:{tag}"); benchmark("SPOP",cmd,len); free(cmd); } if (test_is_selected("lrange") || test_is_selected("lrange_100") || test_is_selected("lrange_300") || test_is_selected("lrange_500") || test_is_selected("lrange_600")) { len = redisFormatCommand(&cmd,"LPUSH mylist:{tag} %s",data); benchmark("LPUSH (needed to benchmark LRANGE)",cmd,len); free(cmd); } if (test_is_selected("lrange") || test_is_selected("lrange_100")) { len = redisFormatCommand(&cmd,"LRANGE mylist:{tag} 0 99"); benchmark("LRANGE_100 (first 100 elements)",cmd,len); free(cmd); } if (test_is_selected("lrange") || test_is_selected("lrange_300")) { len = redisFormatCommand(&cmd,"LRANGE mylist:{tag} 0 299"); benchmark("LRANGE_300 (first 300 elements)",cmd,len); free(cmd); } if (test_is_selected("lrange") || test_is_selected("lrange_500")) { len = redisFormatCommand(&cmd,"LRANGE mylist:{tag} 0 449"); benchmark("LRANGE_500 (first 450 elements)",cmd,len); free(cmd); } if (test_is_selected("lrange") || test_is_selected("lrange_600")) { len = redisFormatCommand(&cmd,"LRANGE mylist:{tag} 0 599"); benchmark("LRANGE_600 (first 600 elements)",cmd,len); free(cmd); } if (test_is_selected("mset")) { const char *argv[21]; argv[0] = "MSET"; for (i = 1; i < 21; i += 2) { argv[i] = "key:{tag}:__rand_int__"; argv[i+1] = data; } len = redisFormatCommandArgv(&cmd,21,argv,NULL); benchmark("MSET (10 keys)",cmd,len); free(cmd); } if (!config.csv) printf("\n"); } while(config.loop); if (config.redis_config != NULL) freeRedisConfig(config.redis_config); return 0; }