#include "stdafx.h" #include "http_service.h" #include "http_servlet.h" #include "master_service.h" ////////////////////////////////////////////////////////////////////////////// // ÅäÖÃÄÚÈÝÏî char *var_cfg_redis_addrs; acl::master_str_tbl var_conf_str_tab[] = { { "redis_addrs", "127.0.0.1:6379", &var_cfg_redis_addrs }, { 0, 0, 0 } }; int var_cfg_use_redis_session; acl::master_bool_tbl var_conf_bool_tab[] = { { "use_redis_session", 1, &var_cfg_use_redis_session }, { 0, 0, 0 } }; int var_cfg_conn_timeout; int var_cfg_rw_timeout; int var_cfg_max_threads; acl::master_int_tbl var_conf_int_tab[] = { { "rw_timeout", 120, &var_cfg_rw_timeout, 0, 0 }, { "ioctl_max_threads", 128, &var_cfg_max_threads, 0, 0 }, { 0, 0 , 0 , 0, 0 } }; long long int var_cfg_int64; acl::master_int64_tbl var_conf_int64_tab[] = { { "int64", 120, &var_cfg_int64, 0, 0 }, { 0, 0 , 0 , 0, 0 } }; ////////////////////////////////////////////////////////////////////////////// master_service::master_service(void) { redis_ = NULL; service_ = new http_service; } master_service::~master_service(void) { delete service_; } http_service& master_service::get_service(void) const { return *service_; } bool master_service::thread_on_read(acl::socket_stream* conn) { http_servlet* servlet = (http_servlet*) conn->get_ctx(); if (servlet == NULL) { logger_fatal("servlet null!"); } return servlet->doRun(); } bool master_service::thread_on_accept(acl::socket_stream* conn) { logger("connect from %s, fd: %d", conn->get_peer(true), conn->sock_handle()); conn->set_rw_timeout(var_cfg_rw_timeout); if (var_cfg_rw_timeout > 0) { conn->set_tcp_non_blocking(true); } acl::session* session; if (var_cfg_use_redis_session) { session = new acl::redis_session(*redis_); } else { session = new acl::memcache_session("127.0.0.1:11211"); } http_servlet* servlet = new http_servlet(*service_, conn, session); conn->set_ctx(servlet); return true; } bool master_service::thread_on_timeout(acl::socket_stream* conn) { logger("read timeout from %s, fd: %d", conn->get_peer(), conn->sock_handle()); return false; } void master_service::thread_on_close(acl::socket_stream* conn) { logger("disconnect from %s, fd: %d", conn->get_peer(), conn->sock_handle()); http_servlet* servlet = (http_servlet*) conn->get_ctx(); acl::session* session = &servlet->getSession(); delete session; delete servlet; } void master_service::thread_on_init(void) { } void master_service::thread_on_exit(void) { } void master_service::proc_on_listen(acl::server_socket& ss) { logger(">>>listen %s ok<<<", ss.get_addr()); } void master_service::proc_on_init(void) { // create redis cluster for session cluster redis_ = new acl::redis_client_cluster; redis_->init(NULL, var_cfg_redis_addrs, var_cfg_max_threads, var_cfg_conn_timeout, var_cfg_rw_timeout); } void master_service::proc_on_exit(void) { delete redis_; } bool master_service::proc_exit_timer(size_t nclients, size_t nthreads) { if (nclients == 0) { logger("clients count: %d, threads count: %d", (int) nclients, (int) nthreads); return true; } return false; } bool master_service::proc_on_sighup(acl::string&) { logger(">>>proc_on_sighup<<<"); return true; }