#ifndef HV_TCP_CLIENT_HPP_ #define HV_TCP_CLIENT_HPP_ #include #include #include #include #include namespace hv { template class TcpClientEventLoopTmpl { public: typedef std::shared_ptr TSocketChannelPtr; TcpClientEventLoopTmpl(EventLoopPtr loop = NULL) { loop_ = loop ? loop : std::make_shared(); remote_port = 0; connect_timeout = HIO_DEFAULT_CONNECT_TIMEOUT; tls = false; tls_setting = NULL; reconn_setting = NULL; unpack_setting = NULL; } virtual ~TcpClientEventLoopTmpl() { HV_FREE(tls_setting); HV_FREE(reconn_setting); HV_FREE(unpack_setting); } const EventLoopPtr& loop() { return loop_; } // delete thread-safe void deleteInLoop() { loop_->runInLoop([this]() { delete this; }); } // NOTE: By default, not bind local port. If necessary, you can call bind() after createsocket(). // @retval >=0 connfd, <0 error int createsocket(int remote_port, const char* remote_host = "127.0.0.1") { memset(&remote_addr, 0, sizeof(remote_addr)); int ret = sockaddr_set_ipport(&remote_addr, remote_host, remote_port); if (ret != 0) { return NABS(ret); } this->remote_host = remote_host; this->remote_port = remote_port; return createsocket(&remote_addr.sa); } int createsocket(struct sockaddr* remote_addr) { int connfd = ::socket(remote_addr->sa_family, SOCK_STREAM, 0); // SOCKADDR_PRINT(remote_addr); if (connfd < 0) { perror("socket"); return -2; } hio_t* io = hio_get(loop_->loop(), connfd); assert(io != NULL); hio_set_peeraddr(io, remote_addr, SOCKADDR_LEN(remote_addr)); channel = std::make_shared(io); return connfd; } int bind(int local_port, const char* local_host = "0.0.0.0") { sockaddr_u local_addr; memset(&local_addr, 0, sizeof(local_addr)); int ret = sockaddr_set_ipport(&local_addr, local_host, local_port); if (ret != 0) { return NABS(ret); } return bind(&local_addr.sa); } int bind(struct sockaddr* local_addr) { if (channel == NULL || channel->isClosed()) { return -1; } int ret = ::bind(channel->fd(), local_addr, SOCKADDR_LEN(local_addr)); if (ret != 0) { perror("bind"); } return ret; } // closesocket thread-safe void closesocket() { if (channel && channel->status != SocketChannel::CLOSED) { loop_->runInLoop([this]() { if (channel) { setReconnect(NULL); channel->close(); } }); } } int startConnect() { if (channel == NULL || channel->isClosed()) { int connfd = createsocket(&remote_addr.sa); if (connfd < 0) { hloge("createsocket %s:%d return %d!\n", remote_host.c_str(), remote_port, connfd); return connfd; } } if (channel == NULL || channel->status >= SocketChannel::CONNECTING) { return -1; } if (connect_timeout) { channel->setConnectTimeout(connect_timeout); } if (tls) { channel->enableSSL(); if (tls_setting) { int ret = channel->newSslCtx(tls_setting); if (ret != 0) { hloge("new SSL_CTX failed: %d", ret); closesocket(); return ret; } } if (!is_ipaddr(remote_host.c_str())) { channel->setHostname(remote_host); } } channel->onconnect = [this]() { if (unpack_setting) { channel->setUnpack(unpack_setting); } channel->startRead(); if (onConnection) { onConnection(channel); } if (reconn_setting) { reconn_setting_reset(reconn_setting); } }; channel->onread = [this](Buffer* buf) { if (onMessage) { onMessage(channel, buf); } }; channel->onwrite = [this](Buffer* buf) { if (onWriteComplete) { onWriteComplete(channel, buf); } }; channel->onclose = [this]() { bool reconnect = reconn_setting != NULL; if (onConnection) { onConnection(channel); } if (reconnect) { startReconnect(); } }; return channel->startConnect(); } int startReconnect() { if (!reconn_setting) return -1; if (!reconn_setting_can_retry(reconn_setting)) return -2; uint32_t delay = reconn_setting_calc_delay(reconn_setting); hlogi("reconnect... cnt=%d, delay=%d", reconn_setting->cur_retry_cnt, reconn_setting->cur_delay); loop_->setTimeout(delay, [this](TimerID timerID) { startConnect(); }); return 0; } // start thread-safe void start() { loop_->runInLoop(std::bind(&TcpClientEventLoopTmpl::startConnect, this)); } bool isConnected() { if (channel == NULL) return false; return channel->isConnected(); } // send thread-safe int send(const void* data, int size) { if (!isConnected()) return -1; return channel->write(data, size); } int send(Buffer* buf) { return send(buf->data(), buf->size()); } int send(const std::string& str) { return send(str.data(), str.size()); } int withTLS(hssl_ctx_opt_t* opt = NULL) { tls = true; if (opt) { if (tls_setting == NULL) { HV_ALLOC_SIZEOF(tls_setting); } opt->endpoint = HSSL_CLIENT; *tls_setting = *opt; } return 0; } void setConnectTimeout(int ms) { connect_timeout = ms; } void setReconnect(reconn_setting_t* setting) { if (setting == NULL) { HV_FREE(reconn_setting); return; } if (reconn_setting == NULL) { HV_ALLOC_SIZEOF(reconn_setting); } *reconn_setting = *setting; } bool isReconnect() { return reconn_setting && reconn_setting->cur_retry_cnt > 0; } void setUnpack(unpack_setting_t* setting) { if (setting == NULL) { HV_FREE(unpack_setting); return; } if (unpack_setting == NULL) { HV_ALLOC_SIZEOF(unpack_setting); } *unpack_setting = *setting; } public: TSocketChannelPtr channel; std::string remote_host; int remote_port; sockaddr_u remote_addr; int connect_timeout; bool tls; hssl_ctx_opt_t* tls_setting; reconn_setting_t* reconn_setting; unpack_setting_t* unpack_setting; // Callback std::function onConnection; std::function onMessage; // NOTE: Use Channel::isWriteComplete in onWriteComplete callback to determine whether all data has been written. std::function onWriteComplete; private: EventLoopPtr loop_; }; template class TcpClientTmpl : private EventLoopThread, public TcpClientEventLoopTmpl { public: TcpClientTmpl(EventLoopPtr loop = NULL) : EventLoopThread(loop) , TcpClientEventLoopTmpl(EventLoopThread::loop()) , is_loop_owner(loop == NULL) {} virtual ~TcpClientTmpl() { stop(true); } const EventLoopPtr& loop() { return EventLoopThread::loop(); } // start thread-safe void start(bool wait_threads_started = true) { if (isRunning()) { TcpClientEventLoopTmpl::start(); } else { EventLoopThread::start(wait_threads_started, [this]() { TcpClientTmpl::startConnect(); return 0; }); } } // stop thread-safe void stop(bool wait_threads_stopped = true) { TcpClientEventLoopTmpl::closesocket(); if (is_loop_owner) { EventLoopThread::stop(wait_threads_stopped); } } private: bool is_loop_owner; }; typedef TcpClientTmpl TcpClient; } #endif // HV_TCP_CLIENT_HPP_