forked from Mirrorlandia_minetest/minetest
master #6
@ -1304,8 +1304,8 @@ void Game::run()
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updatePauseState();
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if (m_is_paused)
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dtime = 0.0f;
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else
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step(dtime);
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step(dtime);
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processClientEvents(&cam_view_target);
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updateDebugState();
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@ -1682,10 +1682,7 @@ bool Game::connectToServer(const GameStartData &start_data,
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fps_control.limit(device, &dtime);
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// Update client and server
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client->step(dtime);
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if (server != NULL)
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server->step(dtime);
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step(dtime);
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// End condition
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if (client->getState() == LC_Init) {
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@ -1744,10 +1741,7 @@ bool Game::getServerContent(bool *aborted)
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fps_control.limit(device, &dtime);
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// Update client and server
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client->step(dtime);
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if (server != NULL)
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server->step(dtime);
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step(dtime);
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// End condition
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if (client->mediaReceived() && client->itemdefReceived() &&
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@ -2765,10 +2759,23 @@ void Game::updatePauseState()
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inline void Game::step(f32 dtime)
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{
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if (server)
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server->step(dtime);
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if (server) {
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float fps_max = (!device->isWindowFocused() || g_menumgr.pausesGame()) ?
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g_settings->getFloat("fps_max_unfocused") :
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g_settings->getFloat("fps_max");
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fps_max = std::max(fps_max, 1.0f);
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float steplen = 1.0f / fps_max;
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client->step(dtime);
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server->setStepSettings(Server::StepSettings{
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steplen,
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m_is_paused
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});
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server->step();
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}
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if (!m_is_paused)
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client->step(dtime);
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}
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static void pauseNodeAnimation(PausedNodesList &paused, scene::ISceneNode *node) {
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@ -1418,7 +1418,7 @@ void Connection::Disconnect()
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putCommand(ConnectionCommand::disconnect());
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}
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bool Connection::Receive(NetworkPacket *pkt, u32 timeout)
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bool Connection::ReceiveTimeoutMs(NetworkPacket *pkt, u32 timeout_ms)
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{
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/*
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Note that this function can potentially wait infinitely if non-data
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@ -1426,7 +1426,7 @@ bool Connection::Receive(NetworkPacket *pkt, u32 timeout)
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This is not considered to be a problem (is it?)
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*/
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for(;;) {
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ConnectionEventPtr e_ptr = waitEvent(timeout);
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ConnectionEventPtr e_ptr = waitEvent(timeout_ms);
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const ConnectionEvent &e = *e_ptr;
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if (e.type != CONNEVENT_NONE) {
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@ -1467,14 +1467,14 @@ bool Connection::Receive(NetworkPacket *pkt, u32 timeout)
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void Connection::Receive(NetworkPacket *pkt)
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{
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bool any = Receive(pkt, m_bc_receive_timeout);
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bool any = ReceiveTimeoutMs(pkt, m_bc_receive_timeout);
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if (!any)
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throw NoIncomingDataException("No incoming data");
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}
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bool Connection::TryReceive(NetworkPacket *pkt)
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{
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return Receive(pkt, 0);
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return ReceiveTimeoutMs(pkt, 0);
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}
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void Connection::Send(session_t peer_id, u8 channelnum,
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@ -714,7 +714,8 @@ public:
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void Connect(Address address);
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bool Connected();
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void Disconnect();
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void Receive(NetworkPacket* pkt);
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bool ReceiveTimeoutMs(NetworkPacket *pkt, u32 timeout_ms);
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void Receive(NetworkPacket *pkt);
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bool TryReceive(NetworkPacket *pkt);
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void Send(session_t peer_id, u8 channelnum, NetworkPacket *pkt, bool reliable);
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session_t GetPeerID() const { return m_peer_id; }
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@ -747,8 +748,6 @@ protected:
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// Command queue: user -> SendThread
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MutexedQueue<ConnectionCommandPtr> m_command_queue;
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bool Receive(NetworkPacket *pkt, u32 timeout);
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void putEvent(ConnectionEventPtr e);
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void TriggerSend();
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@ -106,26 +106,33 @@ void *ServerThread::run()
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/*
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* The real business of the server happens on the ServerThread.
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* How this works:
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* AsyncRunStep() runs an actual server step as soon as enough time has
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* passed (dedicated_server_loop keeps track of that).
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* Receive() blocks at least(!) 30ms waiting for a packet (so this loop
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* doesn't busy wait) and will process any remaining packets.
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* AsyncRunStep() (which runs the actual server step) is called at the
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* server-step frequency. Receive() is used for waiting between the steps.
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*/
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try {
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m_server->AsyncRunStep(true);
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m_server->AsyncRunStep(0.0f, true);
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} catch (con::ConnectionBindFailed &e) {
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m_server->setAsyncFatalError(e.what());
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} catch (LuaError &e) {
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m_server->setAsyncFatalError(e);
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}
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float dtime = 0.0f;
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while (!stopRequested()) {
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ScopeProfiler spm(g_profiler, "Server::RunStep() (max)", SPT_MAX);
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try {
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m_server->AsyncRunStep();
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m_server->Receive();
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u64 t0 = porting::getTimeUs();
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const Server::StepSettings step_settings = m_server->getStepSettings();
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try {
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m_server->AsyncRunStep(step_settings.pause ? 0.0f : dtime);
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const float remaining_time = step_settings.steplen
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- 1e-6f * (porting::getTimeUs() - t0);
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m_server->Receive(remaining_time);
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} catch (con::PeerNotFoundException &e) {
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infostream<<"Server: PeerNotFoundException"<<std::endl;
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@ -135,6 +142,8 @@ void *ServerThread::run()
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} catch (LuaError &e) {
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m_server->setAsyncFatalError(e);
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}
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dtime = 1e-6f * (porting::getTimeUs() - t0);
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}
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END_DEBUG_EXCEPTION_HANDLER
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@ -574,15 +583,8 @@ void Server::stop()
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infostream<<"Server: Threads stopped"<<std::endl;
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}
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void Server::step(float dtime)
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void Server::step()
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{
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// Limit a bit
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if (dtime > DTIME_LIMIT)
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dtime = DTIME_LIMIT;
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{
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MutexAutoLock lock(m_step_dtime_mutex);
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m_step_dtime += dtime;
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}
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// Throw if fatal error occurred in thread
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std::string async_err = m_async_fatal_error.get();
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if (!async_err.empty()) {
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@ -595,30 +597,18 @@ void Server::step(float dtime)
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}
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}
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void Server::AsyncRunStep(bool initial_step)
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void Server::AsyncRunStep(float dtime, bool initial_step)
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{
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float dtime;
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{
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MutexAutoLock lock1(m_step_dtime_mutex);
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dtime = m_step_dtime;
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}
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{
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// Send blocks to clients
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SendBlocks(dtime);
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}
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if((dtime < 0.001) && !initial_step)
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if ((dtime < 0.001f) && !initial_step)
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return;
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ScopeProfiler sp(g_profiler, "Server::AsyncRunStep()", SPT_AVG);
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{
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MutexAutoLock lock1(m_step_dtime_mutex);
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m_step_dtime -= dtime;
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}
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/*
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Update uptime
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*/
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@ -1048,25 +1038,27 @@ void Server::AsyncRunStep(bool initial_step)
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m_shutdown_state.tick(dtime, this);
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}
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void Server::Receive()
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void Server::Receive(float timeout)
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{
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const u64 t0 = porting::getTimeUs();
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const float timeout_us = timeout * 1e6f;
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auto remaining_time_us = [&]() -> float {
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return std::max(0.0f, timeout_us - (porting::getTimeUs() - t0));
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};
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NetworkPacket pkt;
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session_t peer_id;
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bool first = true;
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for (;;) {
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pkt.clear();
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peer_id = 0;
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try {
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/*
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In the first iteration *wait* for a packet, afterwards process
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all packets that are immediately available (no waiting).
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*/
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if (first) {
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m_con->Receive(&pkt);
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first = false;
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} else {
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if (!m_con->TryReceive(&pkt))
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return;
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if (!m_con->ReceiveTimeoutMs(&pkt,
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(u32)remaining_time_us() / 1000)) {
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// No incoming data.
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// Already break if there's 1ms left, as ReceiveTimeoutMs is too coarse
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// and a faster server-step is better than busy waiting.
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if (remaining_time_us() < 1000.0f)
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break;
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}
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peer_id = pkt.getPeerId();
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@ -1085,8 +1077,6 @@ void Server::Receive()
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DenyAccess(peer_id, SERVER_ACCESSDENIED_UNEXPECTED_DATA);
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} catch (const con::PeerNotFoundException &e) {
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// Do nothing
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} catch (const con::NoIncomingDataException &e) {
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return;
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}
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}
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}
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@ -3953,21 +3943,24 @@ void dedicated_server_loop(Server &server, bool &kill)
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IntervalLimiter m_profiler_interval;
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static thread_local const float steplen =
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g_settings->getFloat("dedicated_server_step");
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static thread_local const float profiler_print_interval =
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g_settings->getFloat("profiler_print_interval");
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constexpr float steplen = 0.05f; // always 50 ms
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const float profiler_print_interval = g_settings->getFloat("profiler_print_interval");
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server.setStepSettings(Server::StepSettings{
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g_settings->getFloat("dedicated_server_step"),
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false
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});
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/*
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* The dedicated server loop only does time-keeping (in Server::step) and
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* provides a way to main.cpp to kill the server externally (bool &kill).
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* The dedicated server loop only provides a way to main.cpp to kill the
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* server externally (bool &kill).
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*/
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for(;;) {
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// This is kind of a hack but can be done like this
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// because server.step() is very light
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sleep_ms((int)(steplen*1000.0));
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server.step(steplen);
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sleep_ms((int)(steplen*1000.0f));
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server.step();
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if (server.isShutdownRequested() || kill)
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break;
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23
src/server.h
23
src/server.h
@ -38,6 +38,7 @@ with this program; if not, write to the Free Software Foundation, Inc.,
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#include "chatmessage.h"
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#include "sound.h"
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#include "translation.h"
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#include <atomic>
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#include <string>
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#include <list>
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#include <map>
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@ -157,12 +158,12 @@ public:
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void start();
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void stop();
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// This is mainly a way to pass the time to the server.
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// Actual processing is done in another thread.
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void step(float dtime);
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// This just checks if there was an error in that thread.
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void step();
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// This is run by ServerThread and does the actual processing
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void AsyncRunStep(bool initial_step=false);
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void Receive();
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void AsyncRunStep(float dtime, bool initial_step = false);
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void Receive(float timeout);
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PlayerSAO* StageTwoClientInit(session_t peer_id);
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/*
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@ -293,6 +294,14 @@ public:
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inline bool isSingleplayer() const
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{ return m_simple_singleplayer_mode; }
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struct StepSettings {
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float steplen;
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bool pause;
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};
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void setStepSettings(StepSettings spdata) { m_step_settings.store(spdata); }
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StepSettings getStepSettings() { return m_step_settings.load(); }
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inline void setAsyncFatalError(const std::string &error)
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{ m_async_fatal_error.set(error); }
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inline void setAsyncFatalError(const LuaError &e)
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@ -624,10 +633,8 @@ private:
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/*
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Threads
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*/
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// A buffer for time steps
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// step() increments and AsyncRunStep() run by m_thread reads it.
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float m_step_dtime = 0.0f;
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std::mutex m_step_dtime_mutex;
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// Set by Game
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std::atomic<StepSettings> m_step_settings{{0.1f, false}};
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// The server mainly operates in this thread
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ServerThread *m_thread = nullptr;
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Loading…
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Block a user