#include "ServerSession.hpp" #include "Client/Abstract.hpp" #include "Common/Abstract.hpp" #include "Common/Net.hpp" #include "TOSLib.hpp" #include "glm/ext/quaternion_geometric.hpp" #include #include #include #include #include #include #include #include #include #include namespace LV::Client { ParsedPacket::~ParsedPacket() = default; struct PP_Content_ChunkVoxels : public ParsedPacket { WorldId_t Id; Pos::GlobalChunk Pos; std::vector Cubes; PP_Content_ChunkVoxels(WorldId_t id, Pos::GlobalChunk pos, std::vector &&cubes) : ParsedPacket(ToClient::L1::Content, (uint8_t) ToClient::L2Content::ChunkVoxels), Id(id), Pos(pos), Cubes(std::move(cubes)) {} }; struct PP_Content_ChunkNodes : public ParsedPacket { WorldId_t Id; Pos::GlobalChunk Pos; std::array Nodes; PP_Content_ChunkNodes(WorldId_t id, Pos::GlobalChunk pos) : ParsedPacket(ToClient::L1::Content, (uint8_t) ToClient::L2Content::ChunkNodes), Id(id), Pos(pos) { } }; struct PP_Content_RegionRemove : public ParsedPacket { WorldId_t Id; Pos::GlobalRegion Pos; PP_Content_RegionRemove(WorldId_t id, Pos::GlobalRegion pos) : ParsedPacket(ToClient::L1::Content, (uint8_t) ToClient::L2Content::RemoveRegion), Id(id), Pos(pos) {} }; struct PP_Definition_FreeNode : public ParsedPacket { DefNodeId_t Id; PP_Definition_FreeNode(DefNodeId_t id) : ParsedPacket(ToClient::L1::Definition, (uint8_t) ToClient::L2Definition::Node), Id(id) {} }; struct PP_Definition_Node : public ParsedPacket { DefNodeId_t Id; DefNode_t Def; PP_Definition_Node(DefNodeId_t id, DefNode_t def) : ParsedPacket(ToClient::L1::Definition, (uint8_t) ToClient::L2Definition::Node), Id(id), Def(def) {} }; struct PP_Resource_InitResSend : public ParsedPacket { Hash_t Hash; BinaryResource Resource; PP_Resource_InitResSend(Hash_t hash, BinaryResource res) : ParsedPacket(ToClient::L1::Resource, (uint8_t) ToClient::L2Resource::InitResSend), Hash(hash), Resource(res) {} }; using namespace TOS; ServerSession::~ServerSession() { WorkDeadline.cancel(); UseLock.wait_no_use(); } coro<> ServerSession::asyncAuthorizeWithServer(tcp::socket &socket, const std::string username, const std::string token, int a_ar_r, std::function onProgress) { assert(a_ar_r >= 0 && a_ar_r <= 2); std::string progress; auto addLog = [&](const std::string &msg) { progress += '\n'; progress += msg; if(onProgress) onProgress('\n'+msg); }; if(username.size() > 255) { addLog("Имя пользователя слишком велико (>255)"); MAKE_ERROR(progress); } if(token.size() > 255) { addLog("Пароль слишком велик (>255)"); MAKE_ERROR(progress); } Net::Packet packet; packet.write((const std::byte*) "AlterLuanti", 11); packet << uint8_t(0) << uint8_t(a_ar_r) << username << token; addLog("Отправляем первый пакет, авторизация или регистрация"); co_await packet.sendAndFastClear(socket); addLog("Ожидаем код ответа"); uint8_t code = co_await Net::AsyncSocket::read(socket); if(code == 0) { addLog("Код = Авторизированы"); } else if(code == 1) { addLog("Код = Зарегистрированы и авторизированы"); } else if(code == 2 || code == 3) { if(code == 2) addLog("Код = Не удалось зарегистрироваться"); else addLog("Код = Не удалось авторизоваться"); std::string reason = co_await Net::AsyncSocket::read(socket); addLog(reason); if(code == 2) MAKE_ERROR("Не удалось зарегистрироваться, причина: " << reason); else MAKE_ERROR("Не удалось авторизоваться, причина: " << reason); } else { addLog("Получен неизвестный код ответа (может это не игровой сервер?), прерываем"); MAKE_ERROR(progress); } } coro> ServerSession::asyncInitGameProtocol(asio::io_context &ioc, tcp::socket &&socket, std::function onProgress) { std::string progress; auto addLog = [&](const std::string &msg) { progress += '\n'; progress += msg; if(onProgress) onProgress('\n'+msg); }; addLog("Инициализируем игровой протокол"); uint8_t code = 0; co_await Net::AsyncSocket::write<>(socket, code); asio::deadline_timer timer(socket.get_executor()); while(true) { code = co_await Net::AsyncSocket::read(socket); if(code == 0) { addLog("Код = Успешно"); break; } else if(code == 1) { addLog("Код = Ошибка с причиной"); addLog(co_await Net::AsyncSocket::read(socket)); MAKE_ERROR(progress); } else if(code == 2) { addLog("Код = Подождать 4 секунды"); timer.expires_from_now(boost::posix_time::seconds(4)); co_await timer.async_wait(); addLog("Ожидаем новый код"); } else { addLog("Получен неизвестный код ответа (может это не игровой сервер?), прерываем"); MAKE_ERROR(progress); } } co_return std::make_unique(ioc, std::move(socket)); } void ServerSession::shutdown(EnumDisconnect type) { IsGoingShutdown = true; Socket->closeRead(); Net::Packet packet; packet << (uint8_t) ToServer::L1::System << (uint8_t) ToServer::L2System::Disconnect << (uint8_t) type; Socket->pushPacket(std::move(packet)); std::string reason; if(type == EnumDisconnect::ByInterface) reason = "по запросу интерфейса"; else if(type == EnumDisconnect::CriticalError) reason = "на сервере произошла критическая ошибка"; else if(type == EnumDisconnect::ProtocolError) reason = "ошибка протокола (клиент)"; LOG.info() << "Отключение от сервера: " << reason; } void ServerSession::onResize(uint32_t width, uint32_t height) { } void ServerSession::onChangeFocusState(bool isFocused) { if(!isFocused) CursorMode = EnumCursorMoveMode::Default; } void ServerSession::onCursorPosChange(int32_t width, int32_t height) { } void ServerSession::onCursorMove(float xMove, float yMove) { xMove /= 10.f; yMove /= 10.f; glm::vec3 deltaPYR; static constexpr float PI = glm::pi(), PI2 = PI*2, PI_HALF = PI/2, PI_DEG = PI/180; deltaPYR.x = std::clamp(PYR.x - yMove*PI_DEG, -PI_HALF+PI_DEG, PI_HALF-PI_DEG)-PYR.x; deltaPYR.y = std::fmod(PYR.y - xMove*PI_DEG, PI2)-PYR.y; deltaPYR.z = 0; double gTime = GTime; float deltaTime = 1-std::min(gTime-PYR_At, 1/PYR_TIME_DELTA)*PYR_TIME_DELTA; PYR_At = GTime; PYR += deltaPYR; PYR_Offset = deltaPYR+deltaTime*PYR_Offset; } void ServerSession::onCursorBtn(ISurfaceEventListener::EnumCursorBtn btn, bool state) { if(!state) return; if(btn == EnumCursorBtn::Left) { Net::Packet packet; packet << (uint8_t) ToServer::L1::System << (uint8_t) ToServer::L2System::BlockChange << uint8_t(0); Socket->pushPacket(std::move(packet)); } else if(btn == EnumCursorBtn::Right) { Net::Packet packet; packet << (uint8_t) ToServer::L1::System << (uint8_t) ToServer::L2System::BlockChange << uint8_t(1); Socket->pushPacket(std::move(packet)); } } void ServerSession::onKeyboardBtn(int btn, int state) { if(btn == GLFW_KEY_TAB && !state) { CursorMode = CursorMode == EnumCursorMoveMode::Default ? EnumCursorMoveMode::MoveAndHidden : EnumCursorMoveMode::Default; Keys.clear(); } if(CursorMode == EnumCursorMoveMode::MoveAndHidden) { if(btn == GLFW_KEY_W) Keys.W = state; else if(btn == GLFW_KEY_A) Keys.A = state; else if(btn == GLFW_KEY_S) Keys.S = state; else if(btn == GLFW_KEY_D) Keys.D = state; else if(btn == GLFW_KEY_LEFT_SHIFT) Keys.SHIFT = state; else if(btn == GLFW_KEY_SPACE) Keys.SPACE = state; else if(btn == GLFW_KEY_LEFT_CONTROL) Keys.CTRL = state; } } void ServerSession::onJoystick() { } void ServerSession::atFreeDrawTime(GlobalTime gTime, float dTime) { GTime = gTime; Pos += glm::vec3(Speed) * dTime; Speed -= glm::dvec3(Speed) * double(dTime); glm::mat4 rot(1); float deltaTime = 1-std::min(gTime-PYR_At, 1/PYR_TIME_DELTA)*PYR_TIME_DELTA; rot = glm::rotate(rot, PYR.y-deltaTime*PYR_Offset.y, {0, 1, 0}); float mltpl = 16*dTime*Pos::Object_t::BS; if(Keys.CTRL) mltpl *= 16; Speed += glm::vec3(rot*glm::vec4(0, 0, -1, 1)*float(Keys.W))*mltpl; Speed += glm::vec3(rot*glm::vec4(-1, 0, 0, 1)*float(Keys.A))*mltpl; Speed += glm::vec3(rot*glm::vec4(0, 0, 1, 1)*float(Keys.S))*mltpl; Speed += glm::vec3(rot*glm::vec4(1, 0, 0, 1)*float(Keys.D))*mltpl; Speed += glm::vec3(0, -1, 0)*float(Keys.SHIFT)*mltpl; Speed += glm::vec3(0, 1, 0)*float(Keys.SPACE)*mltpl; { std::unordered_map, std::unordered_set>> changeOrAddList_removeList; std::unordered_map> onContentDefinesAdd; std::unordered_map> onContentDefinesLost; // Пакеты ParsedPacket *pack; while(NetInputPackets.pop(pack)) { if(pack->Level1 == ToClient::L1::Definition) { ToClient::L2Resource l2 = ToClient::L2Resource(pack->Level2); if(l2 == ToClient::L2Resource::InitResSend) { PP_Resource_InitResSend &p = *dynamic_cast(pack); } } else if(pack->Level1 == ToClient::L1::Definition) { ToClient::L2Definition l2 = ToClient::L2Definition(pack->Level2); if(l2 == ToClient::L2Definition::Node) { PP_Definition_Node &p = *dynamic_cast(pack); Registry.DefNode[p.Id] = p.Def; onContentDefinesAdd[EnumDefContent::Node].push_back(p.Id); } else if(l2 == ToClient::L2Definition::FreeNode) { PP_Definition_FreeNode &p = *dynamic_cast(pack); onContentDefinesLost[EnumDefContent::Node].push_back(p.Id); } } else if(pack->Level1 == ToClient::L1::Content) { ToClient::L2Content l2 = ToClient::L2Content(pack->Level2); if(l2 == ToClient::L2Content::ChunkVoxels) { PP_Content_ChunkVoxels &p = *dynamic_cast(pack); Pos::GlobalRegion rPos = p.Pos >> 2; Pos::bvec4u cPos = p.Pos & 0x3; Data.Worlds[p.Id].Regions[rPos].Chunks[cPos.pack()].Voxels = std::move(p.Cubes); auto &pair = changeOrAddList_removeList[p.Id]; std::get<0>(pair).insert(p.Pos); } else if(l2 == ToClient::L2Content::ChunkNodes) { PP_Content_ChunkNodes &p = *dynamic_cast(pack); Pos::GlobalRegion rPos = p.Pos >> 2; Pos::bvec4u cPos = p.Pos & 0x3; Node *nodes = (Node*) Data.Worlds[p.Id].Regions[rPos].Chunks[cPos.pack()].Nodes.data(); std::copy(p.Nodes.begin(), p.Nodes.end(), nodes); auto &pair = changeOrAddList_removeList[p.Id]; std::get<0>(pair).insert(p.Pos); } else if(l2 == ToClient::L2Content::RemoveRegion) { PP_Content_RegionRemove &p = *dynamic_cast(pack); auto ®ions = Data.Worlds[p.Id].Regions; auto obj = regions.find(p.Pos); if(obj != regions.end()) { regions.erase(obj); auto &pair = changeOrAddList_removeList[p.Id]; std::get<1>(pair).insert(p.Pos); } } } delete pack; } if(RS && !changeOrAddList_removeList.empty()) { for(auto &pair : changeOrAddList_removeList) { // Если случится что чанк был изменён и удалён, то исключаем его обновления for(Pos::GlobalRegion removed : std::get<1>(pair.second)) { Pos::GlobalChunk pos = removed << 2; for(int z = 0; z < 4; z++) for(int y = 0; y < 4; y++) for(int x = 0; x < 4; x++) { std::get<0>(pair.second).erase(pos+Pos::GlobalChunk(x, y, z)); } } RS->onChunksChange(pair.first, std::get<0>(pair.second), std::get<1>(pair.second)); } if(!onContentDefinesAdd.empty()) { RS->onContentDefinesAdd(std::move(onContentDefinesAdd)); } if(!onContentDefinesLost.empty()) { RS->onContentDefinesLost(std::move(onContentDefinesLost)); } } } // Расчёт камеры { float deltaTime = 1-std::min(gTime-PYR_At, 1/PYR_TIME_DELTA)*PYR_TIME_DELTA; glm::quat quat = glm::angleAxis(PYR.x-deltaTime*PYR_Offset.x, glm::vec3(1.f, 0.f, 0.f)) * glm::angleAxis(PYR.y-deltaTime*PYR_Offset.y, glm::vec3(0.f, -1.f, 0.f)); quat = glm::normalize(quat); if(RS) RS->setCameraPos(0, Pos, quat); // Отправка текущей позиции камеры if(gTime-LastSendPYR_POS > 1/20.f) { LastSendPYR_POS = gTime; Net::Packet packet; ToServer::PacketQuat q; q.fromQuat(glm::inverse(quat)); packet << (uint8_t) ToServer::L1::System << (uint8_t) ToServer::L2System::Test_CAM_PYR_POS << Pos.x << Pos.y << Pos.z; for(int iter = 0; iter < 5; iter++) packet << q.Data[iter]; Socket->pushPacket(std::move(packet)); } } } coro<> ServerSession::run() { auto useLock = UseLock.lock(); try { while(!IsGoingShutdown && IsConnected) { co_await readPacket(*Socket); } } catch(const std::exception &exc) { // if(const auto *errc = dynamic_cast(&exc); // errc && errc->code() == boost::asio::error::operation_aborted) // { // co_return; // } TOS::Logger("ServerSession").warn() << exc.what(); } IsConnected = false; co_return; } void ServerSession::protocolError() { shutdown(EnumDisconnect::ProtocolError); } coro<> ServerSession::readPacket(Net::AsyncSocket &sock) { uint8_t first = co_await sock.read(); switch((ToClient::L1) first) { case ToClient::L1::System: co_await rP_System(sock); co_return; case ToClient::L1::Resource: co_await rP_Resource(sock); co_return; case ToClient::L1::Definition: co_await rP_Definition(sock); co_return; case ToClient::L1::Content: co_await rP_Content(sock); co_return; default: protocolError(); } } coro<> ServerSession::rP_System(Net::AsyncSocket &sock) { uint8_t second = co_await sock.read(); switch((ToClient::L2System) second) { case ToClient::L2System::Init: co_return; case ToClient::L2System::Disconnect: { EnumDisconnect type = (EnumDisconnect) co_await sock.read(); std::string reason = co_await sock.read(); if(type == EnumDisconnect::ByInterface) reason = "по запросу интерфейса " + reason; else if(type == EnumDisconnect::CriticalError) reason = "на сервере произошла критическая ошибка " + reason; else if(type == EnumDisconnect::ProtocolError) reason = "ошибка протокола (сервер) " + reason; LOG.info() << "Отключение от сервера: " << reason; co_return; } case ToClient::L2System::LinkCameraToEntity: co_return; case ToClient::L2System::UnlinkCamera: co_return; default: protocolError(); } } coro<> ServerSession::rP_Resource(Net::AsyncSocket &sock) { uint8_t second = co_await sock.read(); switch((ToClient::L2Resource) second) { case ToClient::L2Resource::Bind: { uint32_t count = co_await sock.read(); for(size_t iter = 0; iter < count; iter++) { uint8_t type = co_await sock.read(); uint32_t id = co_await sock.read(); Hash_t hash; co_await sock.read((std::byte*) hash.data(), hash.size()); } } case ToClient::L2Resource::Lost: { uint32_t count = co_await sock.read(); for(size_t iter = 0; iter < count; iter++) { uint8_t type = co_await sock.read(); uint32_t id = co_await sock.read(); } } case ToClient::L2Resource::InitResSend: { uint32_t size = co_await sock.read(); Hash_t hash; co_await sock.read((std::byte*) hash.data(), hash.size()); uint32_t chunkSize = co_await sock.read(); assert(chunkSize < std::pow(2, 26)); std::u8string data(size, '\0'); co_await sock.read((std::byte*) data.data(), data.size()); PP_Resource_InitResSend *packet = new PP_Resource_InitResSend( hash, std::make_shared(std::move(data)) ); while(!NetInputPackets.push(packet)); co_return; } case ToClient::L2Resource::ChunkSend: co_return; default: protocolError(); } } coro<> ServerSession::rP_Definition(Net::AsyncSocket &sock) { uint8_t second = co_await sock.read(); switch((ToClient::L2Definition) second) { case ToClient::L2Definition::World: { DefWorldId_t cdId = co_await sock.read(); co_return; } case ToClient::L2Definition::FreeWorld: { DefWorldId_t cdId = co_await sock.read(); co_return; } case ToClient::L2Definition::Voxel: { DefVoxelId_t cdId = co_await sock.read(); co_return; } case ToClient::L2Definition::FreeVoxel: { DefVoxelId_t cdId = co_await sock.read(); co_return; } case ToClient::L2Definition::Node: { DefNodeId_t id; DefNode_t def; id = co_await sock.read(); def.DrawType = (DefNode_t::EnumDrawType) co_await sock.read(); for(int iter = 0; iter < 6; iter++) { auto &pl = def.Texs[iter].Pipeline; pl.resize(co_await sock.read()); co_await sock.read((std::byte*) pl.data(), pl.size()); } PP_Definition_Node *packet = new PP_Definition_Node( id, def ); while(!NetInputPackets.push(packet)); co_return; } case ToClient::L2Definition::FreeNode: { DefNodeId_t id = co_await sock.read(); PP_Definition_FreeNode *packet = new PP_Definition_FreeNode( id ); while(!NetInputPackets.push(packet)); co_return; } case ToClient::L2Definition::Portal: co_return; case ToClient::L2Definition::FreePortal: co_return; case ToClient::L2Definition::Entity: co_return; case ToClient::L2Definition::FreeEntity: co_return; default: protocolError(); } } coro<> ServerSession::rP_Content(Net::AsyncSocket &sock) { uint8_t second = co_await sock.read(); switch((ToClient::L2Content) second) { case ToClient::L2Content::World: co_return; case ToClient::L2Content::RemoveWorld: co_return; case ToClient::L2Content::Portal: co_return; case ToClient::L2Content::RemovePortal: co_return; case ToClient::L2Content::Entity: co_return; case ToClient::L2Content::RemoveEntity: co_return; case ToClient::L2Content::ChunkVoxels: { WorldId_t wcId = co_await sock.read(); Pos::GlobalChunk pos; pos.unpack(co_await sock.read()); uint32_t compressedSize = co_await sock.read(); assert(compressedSize <= std::pow(2, 24)); std::u8string compressed(compressedSize, '\0'); co_await sock.read((std::byte*) compressed.data(), compressedSize); PP_Content_ChunkVoxels *packet = new PP_Content_ChunkVoxels( wcId, pos, unCompressVoxels(compressed) // TODO: вынести в отдельный поток ); while(!NetInputPackets.push(packet)); co_return; } case ToClient::L2Content::ChunkNodes: { WorldId_t wcId = co_await sock.read(); Pos::GlobalChunk pos; pos.unpack(co_await sock.read()); uint32_t compressedSize = co_await sock.read(); assert(compressedSize <= std::pow(2, 24)); std::u8string compressed(compressedSize, '\0'); co_await sock.read((std::byte*) compressed.data(), compressedSize); PP_Content_ChunkNodes *packet = new PP_Content_ChunkNodes( wcId, pos ); unCompressNodes(compressed, (Node*) packet->Nodes.data()); // TODO: вынести в отдельный поток while(!NetInputPackets.push(packet)); co_return; } case ToClient::L2Content::ChunkLightPrism: co_return; case ToClient::L2Content::RemoveRegion: { WorldId_t wcId = co_await sock.read(); Pos::GlobalRegion pos; pos.unpack(co_await sock.read()); PP_Content_RegionRemove *packet = new PP_Content_RegionRemove( wcId, pos ); while(!NetInputPackets.push(packet)); co_return; } default: protocolError(); } } }