175 lines
4.7 KiB
C++
175 lines
4.7 KiB
C++
#ifndef HV_UDP_SERVER_HPP_
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#define HV_UDP_SERVER_HPP_
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#include "hsocket.h"
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#include "EventLoopThreadPool.h"
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#include "Channel.h"
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namespace hv {
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template<class TSocketChannel = SocketChannel>
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class UdpServerEventLoopTmpl {
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public:
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typedef std::shared_ptr<TSocketChannel> TSocketChannelPtr;
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UdpServerEventLoopTmpl(EventLoopPtr loop = NULL) {
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loop_ = loop ? loop : std::make_shared<EventLoop>();
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port = 0;
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#if WITH_KCP
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kcp_setting = NULL;
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#endif
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}
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virtual ~UdpServerEventLoopTmpl() {
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#if WITH_KCP
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HV_FREE(kcp_setting);
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#endif
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}
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const EventLoopPtr& loop() {
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return loop_;
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}
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//@retval >=0 bindfd, <0 error
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int createsocket(int port, const char* host = "0.0.0.0") {
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hio_t* io = hloop_create_udp_server(loop_->loop(), host, port);
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if (io == NULL) return -1;
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this->host = host;
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this->port = port;
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channel = std::make_shared<TSocketChannel>(io);
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return channel->fd();
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}
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// closesocket thread-safe
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void closesocket() {
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if (channel) {
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channel->close(true);
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}
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}
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int startRecv() {
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if (channel == NULL || channel->isClosed()) {
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int bindfd = createsocket(port, host.c_str());
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if (bindfd < 0) {
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hloge("createsocket %s:%d return %d!\n", host.c_str(), port, bindfd);
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return bindfd;
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}
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}
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if (channel == NULL || channel->isClosed()) {
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return -1;
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}
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channel->onread = [this](Buffer* buf) {
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if (onMessage) {
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onMessage(channel, buf);
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}
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};
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channel->onwrite = [this](Buffer* buf) {
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if (onWriteComplete) {
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onWriteComplete(channel, buf);
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}
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};
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#if WITH_KCP
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if (kcp_setting) {
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hio_set_kcp(channel->io(), kcp_setting);
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}
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#endif
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return channel->startRead();
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}
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int stopRecv() {
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if (channel == NULL) return -1;
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return channel->stopRead();
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}
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// start thread-safe
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void start() {
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loop_->runInLoop(std::bind(&UdpServerEventLoopTmpl::startRecv, this));
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}
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// sendto thread-safe
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int sendto(const void* data, int size, struct sockaddr* peeraddr = NULL) {
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if (channel == NULL) return -1;
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std::lock_guard<std::mutex> locker(sendto_mutex);
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if (peeraddr) hio_set_peeraddr(channel->io(), peeraddr, SOCKADDR_LEN(peeraddr));
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return channel->write(data, size);
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}
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int sendto(Buffer* buf, struct sockaddr* peeraddr = NULL) {
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return sendto(buf->data(), buf->size(), peeraddr);
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}
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int sendto(const std::string& str, struct sockaddr* peeraddr = NULL) {
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return sendto(str.data(), str.size(), peeraddr);
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}
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#if WITH_KCP
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void setKcp(kcp_setting_t* setting) {
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if (setting == NULL) {
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HV_FREE(kcp_setting);
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return;
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}
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if (kcp_setting == NULL) {
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HV_ALLOC_SIZEOF(kcp_setting);
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}
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*kcp_setting = *setting;
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}
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#endif
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public:
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std::string host;
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int port;
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TSocketChannelPtr channel;
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#if WITH_KCP
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kcp_setting_t* kcp_setting;
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#endif
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// Callback
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std::function<void(const TSocketChannelPtr&, Buffer*)> onMessage;
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// NOTE: Use Channel::isWriteComplete in onWriteComplete callback to determine whether all data has been written.
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std::function<void(const TSocketChannelPtr&, Buffer*)> onWriteComplete;
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private:
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std::mutex sendto_mutex;
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EventLoopPtr loop_;
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};
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template<class TSocketChannel = SocketChannel>
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class UdpServerTmpl : private EventLoopThread, public UdpServerEventLoopTmpl<TSocketChannel> {
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public:
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UdpServerTmpl(EventLoopPtr loop = NULL)
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: EventLoopThread(loop)
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, UdpServerEventLoopTmpl<TSocketChannel>(EventLoopThread::loop())
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, is_loop_owner(loop == NULL)
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{}
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virtual ~UdpServerTmpl() {
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stop(true);
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}
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const EventLoopPtr& loop() {
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return EventLoopThread::loop();
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}
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// start thread-safe
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void start(bool wait_threads_started = true) {
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if (isRunning()) {
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UdpServerEventLoopTmpl<TSocketChannel>::start();
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} else {
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EventLoopThread::start(wait_threads_started, std::bind(&UdpServerTmpl::startRecv, this));
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}
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}
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// stop thread-safe
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void stop(bool wait_threads_stopped = true) {
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UdpServerEventLoopTmpl<TSocketChannel>::closesocket();
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if (is_loop_owner) {
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EventLoopThread::stop(wait_threads_stopped);
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}
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}
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private:
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bool is_loop_owner;
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};
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typedef UdpServerTmpl<SocketChannel> UdpServer;
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}
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#endif // HV_UDP_SERVER_HPP_
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