#include #include #if defined(_WIN32) || defined(_WIN64) #include #endif #include "lib_acl.h" #include "acl_cpp/acl_cpp_init.hpp" #include "acl_cpp/stdlib/log.hpp" #include "acl_cpp/stdlib/string.hpp" #include "acl_cpp/stdlib/util.hpp" #include "acl_cpp/stream/polarssl_conf.hpp" #include "acl_cpp/stream/polarssl_io.hpp" #include "acl_cpp/stream/mbedtls_conf.hpp" #include "acl_cpp/stream/mbedtls_io.hpp" #include "acl_cpp/stream/aio_handle.hpp" #include "acl_cpp/stream/aio_socket_stream.hpp" #ifdef WIN32 # ifndef snprintf # define snprintf _snprintf # endif #endif static acl::sslbase_conf* __ssl_conf; typedef struct { acl::aio_handle* handle; char addr[64]; int connect_timeout; int read_timeout; int nopen_limit; int nopen_total; int nwrite_limit; int nwrite_total; int nread_total; int id_begin; bool debug; } IO_CTX; static bool connect_server(IO_CTX* ctx, int id); /** * 客户端异步连接流回调函数类 */ class client_io_callback : public acl::aio_open_callback { public: /** * 构造函数 * @param ctx {IO_CTX*} * @param client {aio_socket_stream*} 异步连接流 * @param id {int} 本流的ID号 */ client_io_callback(IO_CTX* ctx, acl::aio_socket_stream* client, int id) : client_(client) , ctx_(ctx) , nwrite_(0) , id_(id) { } ~client_io_callback(void) { std::cout << ">>>ID: " << id_ << ", io_callback deleted now!" << std::endl; } /** * 基类虚函数, 当异步流读到所要求的数据时调用此回调函数 * @param data {char*} 读到的数据地址 * @param len {int} 读到的数据长度 * @return {bool} 返回给调用者 true 表示继续,否则表示需要关闭异步流 */ bool read_callback(char* data, int len) { (void) len; ctx_->nread_total++; if (ctx_->debug) { if (nwrite_ < 10) { std::cout << "gets(" << nwrite_ << "): " << data; } else if (nwrite_ % 2000 == 0) { std::cout << ">>ID: " << id_ << ", I: " << nwrite_ << "; "<< data; } } // 如果收到服务器的退出消息,则也应退出 if (acl::strncasecmp_(data, "quit", 4) == 0) { // 向服务器发送数据 client_->format("Bye!\r\n"); // 关闭异步流连接 client_->close(); return true; } if (nwrite_ >= ctx_->nwrite_limit) { if (ctx_->debug) { std::cout << "ID: " << id_ << ", nwrite: " << nwrite_ << ", nwrite_limit: " << ctx_->nwrite_limit << ", quiting ..." << std::endl; } // 向服务器发送退出消息 client_->format("quit\r\n"); client_->close(); } else { char buf[256]; snprintf(buf, sizeof(buf), "hello world: %d\n", nwrite_); client_->write(buf, (int) strlen(buf)); // 向服务器发送数据 //client_->format("hello world: %d\n", nwrite_); } return true; } /** * 基类虚函数, 当异步流写成功时调用此回调函数 * @return {bool} 返回给调用者 true 表示继续,否则表示需要关闭异步流 */ bool write_callback(void) { ctx_->nwrite_total++; nwrite_++; // 从服务器读一行数据 client_->gets(ctx_->read_timeout, false); return true; } /** * 基类虚函数, 当该异步流关闭时调用此回调函数 */ void close_callback(void) { if (!client_->is_opened()) { std::cout << "Id: " << id_ << " connect " << ctx_->addr << " error: " << acl::last_serror(); // 如果是第一次连接就失败,则退出 if (ctx_->nopen_total == 0) { std::cout << ", first connect error, quit"; /* 获得异步引擎句柄,并设置为退出状态 */ client_->get_handle().stop(); } std::cout << std::endl; delete this; return; } /* 获得异步引擎中受监控的异步流个数 */ int nleft = client_->get_handle().length(); if (ctx_->nopen_total == ctx_->nopen_limit && nleft == 1) { std::cout << "Id: " << id_ << " stop now! nstream: " << nleft << std::endl; /* 获得异步引擎句柄,并设置为退出状态 */ client_->get_handle().stop(); } // 必须在此处删除该动态分配的回调类对象以防止内存泄露 delete this; } /** * 基类虚函数,当异步流超时时调用此函数 * @return {bool} 返回给调用者 true 表示继续,否则表示需要关闭异步流 */ bool timeout_callback(void) { std::cout << "Connect " << ctx_->addr << " Timeout ..." << std::endl; client_->close(); return false; } bool read_wakeup(void) { acl::polarssl_io* hook = (acl::polarssl_io*) client_->get_hook(); if (hook == NULL) { std::cout << "get hook error"<< std::endl; return false; } // 尝试进行 SSL 握手 if (!hook->handshake()) { logger_error("ssl handshake failed"); return false; } // 如果 SSL 握手已经成功,则开始按行读数据 if (hook->handshake_ok()) { printf("ssl handshake ok\r\n"); // 由 reactor 模式转为 proactor 模式,从而取消 // read_wakeup 回调过程 client_->disable_read(); char buf[256]; snprintf(buf, sizeof(buf), "hello world: %d\n", nwrite_); client_->write(buf, (int) strlen(buf)); // 异步从服务器读取一行数据 client_->gets(ctx_->read_timeout, false); return true; } // SSL 握手还未完成,等待本函数再次被触发 return true; } /** * 基类虚函数, 当异步连接成功后调用此函数 * @return {bool} 返回给调用者 true 表示继续,否则表示需要关闭异步流 */ bool open_callback(void) { // 连接成功,设置IO读写回调函数 client_->add_read_callback(this); client_->add_write_callback(this); ctx_->nopen_total++; acl::assert_(id_ > 0); if (ctx_->nopen_total < ctx_->nopen_limit) { // 开始进行下一个连接过程 if (connect_server(ctx_, id_ + 1) == false) { std::cout << "connect error!" << std::endl; } } // 设置 SSL 方式 if (__ssl_conf) { acl::sslbase_io* ssl = __ssl_conf->create(true); if (client_->setup_hook(ssl) == ssl) { std::cout << "open ssl error!" << std::endl; ssl->destroy(); return false; } if (!ssl->handshake()) { client_->remove_hook(); ssl->destroy(); return false; } // 进入 SSL 握手阶段 client_->read_wait(ctx_->read_timeout); return true; } // 异步向服务器发送数据 //client_->format("hello world: %d\n", nwrite_); char buf[256]; snprintf(buf, sizeof(buf), "hello world: %d\n", nwrite_); client_->write(buf, (int) strlen(buf)); // 异步从服务器读取一行数据 client_->gets(ctx_->read_timeout, false); // 表示继续异步过程 return true; } private: acl::aio_socket_stream* client_; IO_CTX* ctx_; int nwrite_; int id_; }; static bool connect_server(IO_CTX* ctx, int id) { // 开始异步连接远程服务器 acl::aio_socket_stream* stream = acl::aio_socket_stream::open (ctx->handle, ctx->addr, ctx->connect_timeout); if (stream == NULL) { std::cout << "connect " << ctx->addr << " error!" << std::endl; std::cout << "stoping ..." << std::endl; if (id == 0) { ctx->handle->stop(); } return false; } // 创建连接后的回调函数类 client_io_callback* callback = new client_io_callback(ctx, stream, id); // 添加连接成功的回调函数类 stream->add_open_callback(callback); // 添加连接失败后回调函数类 stream->add_close_callback(callback); // 添加连接超时的回调函数类 stream->add_timeout_callback(callback); return true; } static void usage(const char* procname) { printf("usage: %s -h[help]\r\n" " -l server_addr\r\n" " -c nconnect\r\n" " -n io_max\r\n" " -k[use kernel event: epoll/kqueue/devpoll\r\n" " -t connect_timeout\r\n" " -d[debug]\r\n" " -S libssl_path [if set the ssl will be used]\n", procname); } int main(int argc, char* argv[]) { bool use_kernel = false; int ch; IO_CTX ctx; acl::string libssl_path; memset(&ctx, 0, sizeof(ctx)); ctx.connect_timeout = 5; ctx.nopen_limit = 10; ctx.id_begin = 1; ctx.nwrite_limit = 10; ctx.debug = false; snprintf(ctx.addr, sizeof(ctx.addr), "127.0.0.1:9001"); while ((ch = getopt(argc, argv, "hc:n:kl:dt:S:")) > 0) { switch (ch) { case 'c': ctx.nopen_limit = atoi(optarg); if (ctx.nopen_limit <= 0) { ctx.nopen_limit = 10; } break; case 'n': ctx.nwrite_limit = atoi(optarg); if (ctx.nwrite_limit <= 0) { ctx.nwrite_limit = 10; } break; case 'h': usage(argv[0]); return 0; case 'k': use_kernel = true; break; case 'l': snprintf(ctx.addr, sizeof(ctx.addr), "%s", optarg); break; case 'd': ctx.debug = true; break; case 't': ctx.connect_timeout = atoi(optarg); break; case 'S': libssl_path = optarg; break; default: break; } } acl::meter_time(__FUNCTION__, __LINE__, "-----BEGIN-----"); acl::acl_cpp_init(); acl::log::stdout_open(true); __ssl_conf = NULL; if (libssl_path.empty()) { /* do nothing */ } else if (libssl_path.find("mbedtls") != NULL) { const std::vector& libs = libssl_path.split2("; \t\r\n"); if (libs.size() == 3) { acl::mbedtls_conf::set_libpath(libs[0], libs[1], libs[2]); if (acl::mbedtls_conf::load()) { __ssl_conf = new acl::mbedtls_conf(false); } else { printf("load %s error\r\n", libssl_path.c_str()); } } else { printf("invalid libssl_path=%s\r\n", libssl_path.c_str()); } } else { // 设置 libpolarssl.so 库全路径 acl::polarssl_conf::set_libpath(libssl_path); // 动态加载 libpolarssl.so 库 acl::polarssl_conf::load(); // 创建全局 SSL 配置项 __ssl_conf = new acl::polarssl_conf(); } acl::aio_handle handle(use_kernel ? acl::ENGINE_KERNEL : acl::ENGINE_SELECT); ctx.handle = &handle; if (!connect_server(&ctx, ctx.id_begin)) { std::cout << "enter any key to exit." << std::endl; getchar(); return 1; } std::cout << "Connect " << ctx.addr << " ..." << std::endl; while (true) { // 如果返回 false 则表示不再继续,需要退出 if (!handle.check()) { break; } } acl::string buf; buf << "total open: " << ctx.nopen_total << ", total write: " << ctx.nwrite_total << ", total read: " << ctx.nread_total; acl::meter_time(__FUNCTION__, __LINE__, buf.c_str()); delete __ssl_conf; return 0; }