标签:libmemcached api memcached 连接池
#include <stdio.h> #include <libmemcached/memcached.h> #include <libmemcached/util.h> #include <assert.h> //g++ -m32 -g memcached_test.c -o memcached_test -I/usr/lib/libmemcached/include -L/usr/lib/libmemcached/lib -lmemcached -lmemcachedutil //g++ -m32 -g memcached_test.c -o memcached_test -I/usr/lib/libmemcached/include /usr/lib/libmemcached/lib/libmemcached.a /usr/lib/libmemcached/lib/libmemcachedutil.a //gcc -m32 -std=gnu99 -g memcached_test.c -o memcached_test -I/usr/lib/libmemcached/include -L/usr/lib/libmemcached/lib/ -lmemcached -lmemcached/lib/libmemcachedutil //不支持 gcc 静态链接方式,因为 pool 实现是 C++ 实现 //gcc -m32 -g memcached_test.c -o memcached_test -I/usr/lib/libmemcached/include /usr/lib/libmemcached/lib/libmemcached.a /usr/lib/libmemcached/lib/libmemcachedutil.a ///usr/local/memcached-1.4.20/bin/memcached -d -m 10 -u root -l 169.254.10.12 -p 12111 ///usr/local/memcached-1.4.20/bin/memcached -d -m 10 - root -l 169.254.10.12 -p 12112 ///usr/local/memcached-1.4.20/bin/memcached -d -m 10 - root -l 169.254.10.12 -p 12113 //http://libmemcached.org/libMemcached.html //从连接池内取出一个连接集群对象,支持错误码和超时功能 memcached_st * fetch_memcached_wait(memcached_pool_st * pool, struct timespec* wait, memcached_return_t *rc) { assert(pool || wait || rc); return memcached_pool_fetch(pool, wait, rc); } //从连接池内取出一个连接集群对象,无空闲对象直接返回 memcached_st * fetch_memcached(memcached_pool_st * pool) { assert(pool); static struct timespec wait = { 0, 0 }; static memcached_return_t rc; return fetch_memcached_wait(pool, &wait, &rc); } //释放一个从连接池内取出的一个连接集群对象 void release_memcached(memcached_pool_st * pool, memcached_st *memc) { assert(pool || memc); memcached_return_t rc = memcached_pool_push(pool, memc); if (MEMCACHED_SUCCESS != rc) { //printf("%s/n", memcached_strerror(0, rc)); } } //例子程序,通过配置构造一个连接池的种子,构造的对象是一个cache集群 memcached_st * create_memcached_seed_by_config() { const char *config_string = "--SERVER=169.254.10.12:12111/?1 --SERVER=169.254.10.12:12112/?2 --SERVER=169.254.10.12:12113 --CONNECT-TIMEOUT=10"; memcached_return_t rc; char errmsg[255] = { 0 }; rc = libmemcached_check_configuration(config_string, strlen(config_string), errmsg, sizeof(errmsg)); memcached_st *st = 0; if (MEMCACHED_SUCCESS != rc) { printf("check_configuration fail,%s.%s/n", errmsg, config_string); return st; } return st = memcached(config_string, strlen(config_string)); } //例子程序,通过服务列表构造一个连接池的种子,构造的对象是一个cache集群 memcached_st * create_memcached_seed_by_srv_list() { const char *hosts[] = { "169.254.10.12", "169.254.10.12", "169.254.10.12" }; size_t port[] = { 12111, 12112, 12113 }; size_t weight[] = { 1, 2, 1 }; memcached_server_list_st list = 0; bool result = true; size_t total = sizeof(weight) / sizeof(size_t); for (size_t i = 0; i < total; ++i) { memcached_return_t rc; list = memcached_server_list_append_with_weight(list, hosts[i], port[i], weight[i], &rc); if (MEMCACHED_SUCCESS != rc) { printf("server_list_append_with_weight fail,%s/n", memcached_strerror(0, rc)); result = false; break; } } memcached_st *st = 0; if (result) { st = memcached_create(0); memcached_server_push(st, list); printf("memcached_server_list_count:%u/n", memcached_server_list_count(list)); } if (list) { memcached_server_list_free(list); } return st; } //例子程序,通过服务直接构造一个连接池的种子,构造的对象是一个cache集群 memcached_st * create_memcached_seed_by_host() { const char *hosts[] = { "169.254.10.12", "169.254.10.12", "169.254.10.12" }; size_t port[] = { 12111, 12112, 12113 }; size_t weight[] = { 1, 2, 1 }; bool result = true; size_t total = sizeof(weight) / sizeof(size_t); memcached_st *st = memcached_create(0); assert(st); for (size_t i = 0; i < total; ++i) { memcached_return_t rc; rc = memcached_server_add_with_weight(st, hosts[i], port[i], weight[i]); if (MEMCACHED_SUCCESS != rc) { printf("server_add_with_weight fail,%s/n", memcached_strerror(0, rc)); result = false; break; } } if (!result) { memcached_free(st); st = 0; } else { printf("memcached_server_count,%u/n", memcached_server_count(st)); } return st; } //例子程序,得到一个cache集群的配置 void get_memcached_config(memcached_st *st) { assert(st); uint64_t result = memcached_behavior_get(st, MEMCACHED_BEHAVIOR_REMOVE_FAILED_SERVERS); printf("MEMCACHED_BEHAVIOR_REMOVE_FAILED_SERVERS,%llu/n", result); result = memcached_behavior_get(st, MEMCACHED_BEHAVIOR_SND_TIMEOUT); printf("MEMCACHED_BEHAVIOR_SND_TIMEOUT,%llu/n", result); result = memcached_behavior_get(st, MEMCACHED_BEHAVIOR_NO_BLOCK); printf("MEMCACHED_BEHAVIOR_NO_BLOCK ,%lld/n", result); result = memcached_behavior_get(st, MEMCACHED_BEHAVIOR_BUFFER_REQUESTS); printf("MEMCACHED_BEHAVIOR_BUFFER_REQUESTS,%llu/n", result); result = memcached_behavior_get(st, MEMCACHED_BEHAVIOR_CONNECT_TIMEOUT); printf("MEMCACHED_BEHAVIOR_CONNECT_TIMEOUT,%llu/n", result); result = memcached_behavior_get(st, MEMCACHED_BEHAVIOR_SERVER_FAILURE_LIMIT); printf("MEMCACHED_BEHAVIOR_SERVER_FAILURE_LIMIT,%llu/n", result); } //例子程序,设置一个cache集群的配置 void set_memcached_config(memcached_st *st) { assert(st); memcached_return_t rc; rc = memcached_behavior_set(st, MEMCACHED_BEHAVIOR_NO_BLOCK, 1); if (MEMCACHED_SUCCESS != rc) { printf("set MEMCACHED_BEHAVIOR_NO_BLOCK fail,%s/n", memcached_strerror(st, rc)); } rc = memcached_behavior_set(st, MEMCACHED_BEHAVIOR_RCV_TIMEOUT, 1000 * 1000 * 3); if (MEMCACHED_SUCCESS != rc) { printf("set MEMCACHED_BEHAVIOR_RCV_TIMEOUT fail,%s/n", memcached_strerror(st, rc)); } } //例子程序,获取一个集群池的配置 void get_memcached_pool_config(memcached_pool_st *pool) { assert(pool); uint64_t result = 0; memcached_return_t rc; rc = memcached_pool_behavior_get(pool, MEMCACHED_BEHAVIOR_NO_BLOCK, &result); printf("MEMCACHED_BEHAVIOR_NO_BLOCK ,%llu/n", result); rc = memcached_pool_behavior_get(pool, MEMCACHED_BEHAVIOR_BUFFER_REQUESTS, &result); printf("MEMCACHED_BEHAVIOR_BUFFER_REQUESTS,%llu/n", result); rc = memcached_pool_behavior_get(pool, MEMCACHED_BEHAVIOR_CONNECT_TIMEOUT, &result); printf("MEMCACHED_BEHAVIOR_CONNECT_TIMEOUT,%llu/n", result); rc = memcached_pool_behavior_get(pool, MEMCACHED_BEHAVIOR_SERVER_FAILURE_LIMIT, &result); printf("MEMCACHED_BEHAVIOR_SERVER_FAILURE_LIMIT,%llu/n", result); rc = memcached_pool_behavior_get(pool, MEMCACHED_BEHAVIOR_SND_TIMEOUT, &result); printf("MEMCACHED_BEHAVIOR_SND_TIMEOUT,%llu/n", result); rc = memcached_pool_behavior_get(pool, MEMCACHED_BEHAVIOR_RCV_TIMEOUT, &result); printf("MEMCACHED_BEHAVIOR_RCV_TIMEOUT,%llu/n", result); rc = memcached_pool_behavior_get(pool, MEMCACHED_BEHAVIOR_REMOVE_FAILED_SERVERS, &result); printf("MEMCACHED_BEHAVIOR_REMOVE_FAILED_SERVERS,%llu/n", result); } //例子程序,设置一个集群池的配置 bool set_memcached_pool_config(memcached_pool_st *pool) { assert(pool); memcached_return_t rc; rc = memcached_pool_behavior_set(pool, MEMCACHED_BEHAVIOR_SND_TIMEOUT, 1000 * 1000 * 3); if (MEMCACHED_SUCCESS != rc) { printf("MEMCACHED_BEHAVIOR_SND_TIMEOUT fail,%s/n", memcached_strerror(0, rc)); } rc = memcached_pool_behavior_set(pool, MEMCACHED_BEHAVIOR_RCV_TIMEOUT, 1000 * 1000 * 4); if (MEMCACHED_SUCCESS != rc) { printf("MEMCACHED_BEHAVIOR_RCV_TIMEOUT fail,%s/n", memcached_strerror(0, rc)); } rc = memcached_pool_behavior_set(pool, MEMCACHED_BEHAVIOR_REMOVE_FAILED_SERVERS, 3); if (MEMCACHED_SUCCESS != rc) { printf("MEMCACHED_BEHAVIOR_REMOVE_FAILED_SERVERS fail,%s/n", memcached_strerror(0, rc)); } } //例子程序,一次获取多个key的值 void mget_memcached(memcached_st *st, const char *keys[], size_t key_length[], size_t key_count) { assert(st || keys || key_length > 0 || key_count > 0); uint32_t count = 0, flags = 0; char return_key[MEMCACHED_MAX_KEY] = { 0 }; size_t return_key_length; char *return_value = 0; size_t return_value_length; memcached_return_t rc = memcached_mget(st, keys, key_length, key_count); while ((return_value = memcached_fetch(st, return_key, &return_key_length, &return_value_length, &flags, &rc))) { count++; printf("key=%s,keylength=%u,value=%s,total=%u/n", return_key, return_key_length, return_value, count); free(return_value); //memset(return_key, 0, sizeof(return_key)); } } //例子程序,一次获取指定一个key的值 void get_memcached_by_key(memcached_st *st, const char *key, size_t key_length) { assert(st || key || key_length > 0 ); uint32_t flags = 0, value_length = 0; memcached_return_t rc; char *value = memcached_get(st, key, key_length, &value_length, &flags, &rc); if (MEMCACHED_SUCCESS != rc) { printf("%s/n", memcached_strerror(st, rc)); } else { printf("key=%s,key_length=%u,value=%s,value_length=%u/n", key, key_length, value, value_length); free(value); } } //完整测试程序 int main(int argc, char *argv { printf("memcached_lib_version:%s/n", memcached_lib_version()); //得到一个集群种子,三个方法目的和功能一样,任选一种既可 memcached_st * memc = create_memcached_seed_by_host(); //memcached_st * memc = create_memcached_seed_by_srv_list(); //memcached_st * memc = create_memcached_seed_by_config(); assert(memc); //设置集群种子的属性 set_memcached_config(memc); get_memcached_config(memc); printf("----------/n"); //创建集群池,集群池释放,自动释放全部资源(包括种子) const uint32_t INITIAL = 1, MAX = 4; memcached_pool_st *pool = memcached_pool_create(memc, INITIAL, MAX); assert(pool); //设置集群种子的属性 set_memcached_pool_config(pool); get_memcached_pool_config(pool); printf("----------/n"); //从集群池取出一个集群访问对象 struct timespec spec = { 3, 0 }; memcached_return_t rc; memc = fetch_memcached_wait(pool, &spec, &rc); if (MEMCACHED_SUCCESS != rc) { printf("fetch_memcached fail,%s/n", memcached_strerror(0, rc)); memcached_pool_destroy(pool); return 0; } const char *keys[] = { "P", "1", "2", "3", "a", "#", "^", "*", "&", ",", "?" }; size_t key_length[] = { 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1 }; const char *values[] = { "11111", "222b2", "33333", "aaaa", "PPO1", "OO#", "^ww", "***", "&&&", ",,,", "?????" }; size_t i = 0, total = sizeof(keys) / sizeof(char *); while (memc && total > i) { //设置多个值,分散存储在多个服务 rc = memcached_set(memc, keys[i], strlen(keys[i]), values[i], strlen(values[i]), 0, 0); if (MEMCACHED_SUCCESS != rc) { printf("%s,%d/n", memcached_strerror(memc, rc), i); } i++; } if (memc) { //释放取出的集群访问对象 release_memcached(pool, memc); } //无阻塞,取出一个访问对象 memc = fetch_memcached(pool); //使用不同方式访问对象 mget_memcached(memc, keys, key_length, sizeof(keys) / sizeof(char *)); printf("----------/n"); //mget_memcached(memc,keys, key_length, sizeof(keys) / sizeof(char *)); get_memcached_by_key(memc, keys[10], strlen(keys[10])); get_memcached_by_key(memc, keys[4], strlen(keys[4])); get_memcached_by_key(memc, keys[3], strlen(keys[3])); if (memc) { //释放取出的集群访问对象 release_memcached(pool, memc); } //集群池释放, 自动释放全部资源(包括种子) memcached_pool_destroy(pool); //memcached_return_t rc = MEMCACHED_NOTFOUND; //printf("aa=%s/n", memcached_strerror(0, rc)); printf("over ./n"); return 0; }
标签:libmemcached api memcached 连接池
原文地址:http://blog.csdn.net/nyist327/article/details/44496361