#include "Globals.h" // NOTE: MSVC stupidness requires this to be the same across all modules #include "Root.h" #include "main.h" // STD lib hreaders: #include // OS-specific headers: #if defined(_WIN32) #include #elif defined(__unix__) || (defined(__APPLE__) && defined(__MACH__)) #include #if defined(__linux__) #include #if !defined(__GLIBC__) #include #endif #elif defined(__APPLE__) #include #elif defined(__FreeBSD__) #include #include #include #include #endif #endif #include "Server.h" #include "World.h" #include "WebAdmin.h" #include "BrewingRecipes.h" #include "FurnaceRecipe.h" #include "CraftingRecipes.h" #include "Protocol/RecipeMapper.h" #include "Bindings/PluginManager.h" #include "MonsterConfig.h" #include "Entities/Player.h" #include "Blocks/BlockHandler.h" #include "Items/ItemHandler.h" #include "Chunk.h" #include "Protocol/ProtocolRecognizer.h" // for protocol version constants #include "CommandOutput.h" #include "DeadlockDetect.h" #include "LoggerListeners.h" #include "BuildInfo.h" #include "IniFile.h" #include "OverridesSettingsRepository.h" #include "Logger.h" #include "ClientHandle.h" #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wglobal-constructors" #endif decltype(cRoot::s_Root) cRoot::s_Root; decltype(cRoot::s_NextState) cRoot::s_NextState; decltype(cRoot::s_StopEvent) cRoot::s_StopEvent; #ifdef __clang__ #pragma clang diagnostic pop #endif cRoot::cRoot(void) : m_pDefaultWorld(nullptr), m_Server(nullptr), m_MonsterConfig(nullptr), m_CraftingRecipes(nullptr), m_FurnaceRecipe(nullptr), m_BrewingRecipes(nullptr), m_WebAdmin(nullptr), m_PluginManager(nullptr), m_MojangAPI(nullptr) { s_Root = this; TransitionNextState(NextState::Run); } cRoot::~cRoot() { s_Root = nullptr; } bool cRoot::Run(cSettingsRepositoryInterface & a_OverridesRepo) { auto consoleLogListener = MakeConsoleListener(g_RunAsService); auto consoleAttachment = cLogger::GetInstance().AttachListener(std::move(consoleLogListener)); cLogger::cAttachment fileAttachment; if (!a_OverridesRepo.HasValue("Server", "DisableLogFile")) { auto fileLogListenerRet = MakeFileListener(); if (!fileLogListenerRet.first) { throw std::runtime_error("failed to open log file"); } fileAttachment = cLogger::GetInstance().AttachListener(std::move(fileLogListenerRet.second)); } LOG("--- Started Log ---"); #ifdef BUILD_ID LOG("Cuberite " BUILD_SERIES_NAME " (id: " BUILD_ID ")"); LOG("from commit " BUILD_COMMIT_ID " built at: " BUILD_DATETIME); #endif cDeadlockDetect dd; auto BeginTime = std::chrono::steady_clock::now(); LoadGlobalSettings(); LOG("Creating new server instance..."); m_Server = new cServer(); LOG("Reading server config..."); m_SettingsFilename = "settings.ini"; if (a_OverridesRepo.HasValue("Server", "ConfigFile")) { m_SettingsFilename = a_OverridesRepo.GetValue("Server", "ConfigFile"); } auto IniFile = std::make_unique(); bool IsNewIniFile = !IniFile->ReadFile(m_SettingsFilename); if (IsNewIniFile) { LOGWARN("Regenerating settings.ini, all settings will be reset"); IniFile->AddHeaderComment(" This is the main server configuration"); IniFile->AddHeaderComment( " Most of the settings here can be configured using the webadmin interface, if enabled in webadmin.ini" ); } auto settingsRepo = std::make_unique(std::move(IniFile), a_OverridesRepo); LOG("Starting server..."); // cClientHandle::FASTBREAK_PERCENTAGE = settingsRepo->GetValueSetI("AntiCheat", "FastBreakPercentage", 97) / // 100.0f; cClientHandle::FASTBREAK_PERCENTAGE = 0; // AntiCheat disabled due to bugs. We will enabled it once they are fixed. See #3506. m_MojangAPI = new cMojangAPI; bool ShouldAuthenticate = settingsRepo->GetValueSetB("Authentication", "Authenticate", true); m_MojangAPI->Start( *settingsRepo, ShouldAuthenticate ); // Mojang API needs to be started before plugins, so that plugins may use it for DB upgrades on server init if (!m_Server->InitServer(*settingsRepo, ShouldAuthenticate)) { settingsRepo->Flush(); throw std::runtime_error("failure starting server"); } m_WebAdmin = new cWebAdmin(); m_WebAdmin->Init(); LOGD("Loading settings..."); m_RankManager.reset(new cRankManager()); m_RankManager->Initialize(*m_MojangAPI); m_CraftingRecipes = new cCraftingRecipes(); m_RecipeMapper.reset(new cRecipeMapper()); m_FurnaceRecipe = new cFurnaceRecipe(); m_BrewingRecipes.reset(new cBrewingRecipes()); LOGD("Loading worlds..."); LoadWorlds(dd, *settingsRepo, IsNewIniFile); LOGD("Loading plugin manager..."); m_PluginManager = new cPluginManager(dd); m_PluginManager->ReloadPluginsNow(*settingsRepo); LOGD("Loading MonsterConfig..."); m_MonsterConfig = new cMonsterConfig; // This sets stuff in motion LOGD("Starting Authenticator..."); m_Authenticator.Start(*settingsRepo); LOGD("Starting worlds..."); StartWorlds(dd); if (settingsRepo->GetValueSetB("DeadlockDetect", "Enabled", true)) { LOGD("Starting deadlock detector..."); dd.Start(settingsRepo->GetValueSetI("DeadlockDetect", "IntervalSec", 20)); } settingsRepo->Flush(); LOGD("Finalising startup..."); if (m_Server->Start()) { m_WebAdmin->Start(); LOG("Startup complete, took %ldms!", static_cast( std::chrono::duration_cast(std::chrono::steady_clock::now() - BeginTime) .count() )); // Save the current time m_StartTime = std::chrono::steady_clock::now(); HandleInput(); s_StopEvent.Wait(); // Stop the server: m_WebAdmin->Stop(); LOG("Shutting down server..."); m_Server->Shutdown(); } // if (m_Server->Start() delete m_MojangAPI; m_MojangAPI = nullptr; LOGD("Shutting down deadlock detector..."); dd.Stop(); LOGD("Stopping world threads..."); StopWorlds(dd); LOGD("Stopping authenticator..."); m_Authenticator.Stop(); LOGD("Freeing MonsterConfig..."); delete m_MonsterConfig; m_MonsterConfig = nullptr; delete m_WebAdmin; m_WebAdmin = nullptr; LOGD("Unloading recipes..."); delete m_FurnaceRecipe; m_FurnaceRecipe = nullptr; delete m_CraftingRecipes; m_CraftingRecipes = nullptr; LOGD("Stopping plugin manager..."); delete m_PluginManager; m_PluginManager = nullptr; LOG("Cleaning up..."); delete m_Server; m_Server = nullptr; LOG("Shutdown successful!"); LOG("--- Stopped Log ---"); return s_NextState == NextState::Restart; } void cRoot::Stop() { TransitionNextState(NextState::Stop); } void cRoot::Restart() { TransitionNextState(NextState::Restart); } void cRoot::LoadGlobalSettings() { // Nothing needed yet } void cRoot::LoadWorlds(cDeadlockDetect & a_dd, cSettingsRepositoryInterface & a_Settings, bool a_IsNewIniFile) { if (a_IsNewIniFile) { a_Settings.AddValue("Worlds", "DefaultWorld", "world"); a_Settings.AddValue("Worlds", "World", "world_nether"); a_Settings.AddValue("Worlds", "World", "world_the_end"); a_Settings.AddValue("WorldPaths", "world", "world"); a_Settings.AddValue("WorldPaths", "world_nether", "world_nether"); a_Settings.AddValue("WorldPaths", "world_the_end", "world_the_end"); const AStringVector WorldNames {"world", "world_nether", "world_the_end"}; m_pDefaultWorld = &m_WorldsByName.try_emplace("world", "world", "world", a_dd, WorldNames).first->second; m_WorldsByName .try_emplace("world_nether", "world_nether", "world_nether", a_dd, WorldNames, dimNether, "world"); m_WorldsByName .try_emplace("world_the_end", "world_the_end", "world_the_end", a_dd, WorldNames, dimEnd, "world"); return; } // Build a list of all world names auto Worlds = a_Settings.GetValues("Worlds"); AStringVector WorldNames(Worlds.size()); for (const auto & World : Worlds) { WorldNames.push_back(World.second); } // Get the default world AString DefaultWorldName = a_Settings.GetValueSet("Worlds", "DefaultWorld", "world"); AString DefaultWorldPath = a_Settings.GetValueSet("WorldPaths", DefaultWorldName, DefaultWorldName); m_pDefaultWorld = &m_WorldsByName.try_emplace(DefaultWorldName, DefaultWorldName, DefaultWorldPath, a_dd, WorldNames) .first->second; // Then load the other worlds if (Worlds.size() <= 0) { return; } /* Here are the world creation rules. Note that these only apply for a world which is in settings.ini but has no world.ini file. If an ini file is present, it overrides the world linkages and the dimension type in cWorld::start() The creation rules are as follows: - If a world exists in settings.ini but has no world.ini, then: - If the world name is x_nether, create a world.ini with the dimension type "nether". - If a world called x exists, set it as x_nether's overworld. - Otherwise set the default world as x_nether's overworld. - If the world name is x_the_end or x_end, create a world.ini with the dimension type "end". - If a world called x exists, set it as x_the_end's overworld. - Otherwise set the default world as x_the_end's overworld. - If the world name is x (and doesn't end with _the_end, _end or _nether) - Create a world.ini with a dimension type of "overworld". - If a world called x_nether exists, set it as x's nether world. - Otherwise set x's nether world to blank.h - If a world called x_the_end or x_end exists, set it as x's end world. - Otherwise set x's nether world to blank. */ bool FoundAdditionalWorlds = false; for (const auto & WorldNameValue : Worlds) { AString ValueName = WorldNameValue.first; if (ValueName.compare("World") != 0) { continue; } AString WorldName = WorldNameValue.second; if (WorldName.empty()) { continue; } FoundAdditionalWorlds = true; AString LowercaseName = StrToLower(WorldName); AString WorldPath = a_Settings.GetValueSet("WorldPaths", WorldName, WorldName); AString NetherAppend = "_nether"; AString EndAppend1 = "_the_end"; AString EndAppend2 = "_end"; // The default world is an overworld with no links eDimension Dimension = dimOverworld; AString LinkTo; // if the world is called x_nether if ((LowercaseName.size() > NetherAppend.size()) && (LowercaseName.substr(LowercaseName.size() - NetherAppend.size()) == NetherAppend)) { // The world is called x_nether, see if a world called x exists. If yes, choose it as the linked world, // otherwise, choose the default world as the linked world. // As before, any ini settings will completely override this if an ini is already present. LinkTo = WorldName.substr(0, WorldName.size() - NetherAppend.size()); if (GetWorld(LinkTo) == nullptr) { LinkTo = DefaultWorldName; } Dimension = dimNether; } // if the world is called x_the_end else if ((LowercaseName.size() > EndAppend1.size()) && (LowercaseName.substr(LowercaseName.size() - EndAppend1.size()) == EndAppend1)) { // The world is called x_the_end, see if a world called x exists. If yes, choose it as the linked world, // otherwise, choose the default world as the linked world. // As before, any ini settings will completely override this if an ini is already present. LinkTo = WorldName.substr(0, WorldName.size() - EndAppend1.size()); if (GetWorld(LinkTo) == nullptr) { LinkTo = DefaultWorldName; } Dimension = dimEnd; } // if the world is called x_end else if ((LowercaseName.size() > EndAppend2.size()) && (LowercaseName.substr(LowercaseName.size() - EndAppend2.size()) == EndAppend2)) { // The world is called x_end, see if a world called x exists. If yes, choose it as the linked world, // otherwise, choose the default world as the linked world. // As before, any ini settings will completely override this if an ini is already present. LinkTo = WorldName.substr(0, WorldName.size() - EndAppend2.size()); if (GetWorld(LinkTo) == nullptr) { LinkTo = DefaultWorldName; } Dimension = dimEnd; } m_WorldsByName.try_emplace(WorldName, WorldName, WorldPath, a_dd, WorldNames, Dimension, LinkTo); } // for i - Worlds if (!FoundAdditionalWorlds) { if (a_Settings.GetKeyComment("Worlds", 0) != " World=secondworld") { a_Settings.DeleteKeyComment("Worlds", 0); a_Settings.AddKeyComment("Worlds", " World=secondworld"); } } } void cRoot::StartWorlds(cDeadlockDetect & a_DeadlockDetect) { for (auto & Entry : m_WorldsByName) { auto & World = Entry.second; World.Start(); World.InitializeSpawn(); m_PluginManager->CallHookWorldStarted(World); } } void cRoot::StopWorlds(cDeadlockDetect & a_DeadlockDetect) { for (auto & Entry : m_WorldsByName) { Entry.second.Stop(a_DeadlockDetect); } } cWorld * cRoot::GetDefaultWorld() { ASSERT(m_pDefaultWorld != nullptr); return m_pDefaultWorld; } cWorld * cRoot::GetWorld(const AString & a_WorldName) { const auto FindResult = m_WorldsByName.find(a_WorldName); if (FindResult != m_WorldsByName.cend()) { return &FindResult->second; } return nullptr; } bool cRoot::ForEachWorld(cWorldListCallback a_Callback) { for (auto & World : m_WorldsByName) { if (a_Callback(World.second)) { return false; } } return true; } void cRoot::QueueExecuteConsoleCommand(const AString & a_Cmd, cCommandOutputCallback & a_Output) { const auto KickPlayers = [this] { // Kick all players from the server with custom disconnect message bool SentDisconnect = false; cRoot::Get()->ForEachPlayer( [&](cPlayer & a_Player) { a_Player.GetClientHandle()->Kick(m_Server->GetShutdownMessage()); SentDisconnect = true; return false; } ); if (SentDisconnect) { std::this_thread::sleep_for(std::chrono::seconds(1)); } }; // Some commands are built-in: if (a_Cmd == "stop") { KickPlayers(); cRoot::Stop(); return; } else if (a_Cmd == "restart") { KickPlayers(); cRoot::Restart(); return; } LOG("Executing console command: \"%s\"", a_Cmd.c_str()); m_Server->ExecuteConsoleCommand(a_Cmd, a_Output); } void cRoot::QueueExecuteConsoleCommand(const AString & a_Cmd) { // Put the command into a queue (Alleviates FS #363): QueueExecuteConsoleCommand(a_Cmd, *new cLogCommandDeleteSelfOutputCallback); } void cRoot::KickUser(int a_ClientID, const AString & a_Reason) { m_Server->KickUser(a_ClientID, a_Reason); } size_t cRoot::GetTotalChunkCount(void) { size_t Count = 0; for (const auto & Entry : m_WorldsByName) { Count += Entry.second.GetNumChunks(); } return Count; } void cRoot::SaveAllChunks(void) { for (auto & Entry : m_WorldsByName) { Entry.second.QueueSaveAllChunks(); } } void cRoot::SaveAllChunksNow(void) { for (auto & Entry : m_WorldsByName) { Entry.second.SaveAllChunks(); } } void cRoot::SetSavingEnabled(bool a_SavingEnabled) { for (auto & Entry : m_WorldsByName) { Entry.second.SetSavingEnabled(a_SavingEnabled); } } void cRoot::SendPlayerLists(cPlayer * a_DestPlayer) { for (auto & Entry : m_WorldsByName) { Entry.second.SendPlayerList(a_DestPlayer); } } void cRoot::BroadcastPlayerListsAddPlayer(const cPlayer & a_Player, const cClientHandle * a_Exclude) { for (auto & Entry : m_WorldsByName) { Entry.second.BroadcastPlayerListAddPlayer(a_Player); } } void cRoot::BroadcastPlayerListsRemovePlayer(const cPlayer & a_Player, const cClientHandle * a_Exclude) { for (auto & Entry : m_WorldsByName) { Entry.second.BroadcastPlayerListRemovePlayer(a_Player); } } void cRoot::BroadcastPlayerListsHeaderFooter(const cCompositeChat & a_Header, const cCompositeChat & a_Footer) { for (auto & Entry : m_WorldsByName) { Entry.second.BroadcastPlayerListHeaderFooter(a_Header, a_Footer); } } void cRoot::BroadcastChat(const AString & a_Message, eMessageType a_ChatPrefix) { for (auto & Entry : m_WorldsByName) { Entry.second.BroadcastChat(a_Message, nullptr, a_ChatPrefix); } } void cRoot::BroadcastChat(const cCompositeChat & a_Message) { for (auto & Entry : m_WorldsByName) { Entry.second.BroadcastChat(a_Message); } } bool cRoot::ForEachPlayer(cPlayerListCallback a_Callback) { for (auto & Entry : m_WorldsByName) { if (!Entry.second.ForEachPlayer(a_Callback)) { return false; } } return true; } bool cRoot::FindAndDoWithPlayer(const AString & a_PlayerName, cPlayerListCallback a_Callback) { class cCallback { size_t m_BestRating; size_t m_NameLength; const AString m_PlayerName; public: bool operator()(cPlayer & a_Player) { size_t Rating = RateCompareString(m_PlayerName, a_Player.GetName()); if ((Rating > 0) && (Rating >= m_BestRating)) { m_BestMatch = a_Player.GetName(); if (Rating > m_BestRating) { m_NumMatches = 0; } m_BestRating = Rating; ++m_NumMatches; } return (Rating == m_NameLength); // Perfect match } cCallback(const AString & a_CBPlayerName) : m_BestRating(0), m_NameLength(a_CBPlayerName.length()), m_PlayerName(a_CBPlayerName), m_BestMatch(), m_NumMatches(0) { } AString m_BestMatch; unsigned m_NumMatches; } Callback(a_PlayerName); ForEachPlayer(Callback); if (Callback.m_NumMatches == 1) { return DoWithPlayer(Callback.m_BestMatch, a_Callback); } return false; } bool cRoot::DoWithPlayerByUUID(const cUUID & a_PlayerUUID, cPlayerListCallback a_Callback) { for (auto & Entry : m_WorldsByName) { if (Entry.second.DoWithPlayerByUUID(a_PlayerUUID, a_Callback)) { return true; } } return false; } bool cRoot::DoWithPlayer(const AString & a_PlayerName, cPlayerListCallback a_Callback) { for (auto & Entry : m_WorldsByName) { if (Entry.second.DoWithPlayer(a_PlayerName, a_Callback)) { return true; } } return false; } AString cRoot::GetProtocolVersionTextFromInt(int a_ProtocolVersion) { return cMultiVersionProtocol::GetVersionTextFromInt(static_cast(a_ProtocolVersion)); } int cRoot::GetVirtualRAMUsage(void) { #ifdef _WIN32 PROCESS_MEMORY_COUNTERS_EX pmc; if (GetProcessMemoryInfo(GetCurrentProcess(), (PROCESS_MEMORY_COUNTERS *) &pmc, sizeof(pmc))) { return (int) (pmc.PrivateUsage / 1024); } return -1; #elif defined(__linux__) // Code adapted from // https://stackoverflow.com/questions/63166/how-to-determine-cpu-and-memory-consumption-from-inside-a-process std::ifstream StatFile("/proc/self/status"); if (!StatFile.good()) { return -1; } while (StatFile.good()) { AString Line; std::getline(StatFile, Line); if (strncmp(Line.c_str(), "VmSize:", 7) == 0) { int res = atoi(Line.c_str() + 8); return (res == 0) ? -1 : res; // If parsing failed, return -1 } } return -1; #elif defined(__APPLE__) // Code adapted from // https://stackoverflow.com/questions/63166/how-to-determine-cpu-and-memory-consumption-from-inside-a-process struct task_basic_info t_info; mach_msg_type_number_t t_info_count = TASK_BASIC_INFO_COUNT; if (KERN_SUCCESS == task_info(mach_task_self(), TASK_BASIC_INFO, reinterpret_cast(&t_info), &t_info_count)) { return static_cast(t_info.virtual_size / 1024); } return -1; #else LOGINFO("%s: Unknown platform, cannot query memory usage", __FUNCTION__); return -1; #endif } int cRoot::GetPhysicalRAMUsage(void) { #ifdef _WIN32 PROCESS_MEMORY_COUNTERS pmc; if (GetProcessMemoryInfo(GetCurrentProcess(), &pmc, sizeof(pmc))) { return (int) (pmc.WorkingSetSize / 1024); } return -1; #elif defined(__linux__) // Code adapted from // https://stackoverflow.com/questions/63166/how-to-determine-cpu-and-memory-consumption-from-inside-a-process std::ifstream StatFile("/proc/self/status"); if (!StatFile.good()) { return -1; } while (StatFile.good()) { AString Line; std::getline(StatFile, Line); if (strncmp(Line.c_str(), "VmRSS:", 6) == 0) { int res = atoi(Line.c_str() + 7); return (res == 0) ? -1 : res; // If parsing failed, return -1 } } return -1; #elif defined(__APPLE__) // Code adapted from // https://stackoverflow.com/questions/63166/how-to-determine-cpu-and-memory-consumption-from-inside-a-process struct task_basic_info t_info; mach_msg_type_number_t t_info_count = TASK_BASIC_INFO_COUNT; if (KERN_SUCCESS == task_info(mach_task_self(), TASK_BASIC_INFO, reinterpret_cast(&t_info), &t_info_count)) { return static_cast(t_info.resident_size / 1024); } return -1; #elif defined(__FreeBSD__) /* struct rusage self_usage; int status = getrusage(RUSAGE_SELF, &self_usage); if (!status) { return static_cast(self_usage.ru_maxrss); } return -1; */ // Good to watch: https://www.youtube.com/watch?v=Os5cK0H8EOA - getrusage. // Unfortunately, it only gives peak memory usage a.k.a max resident set size // So it is better to use FreeBSD kvm function to get the size of resident pages. static kvm_t * kd = NULL; if (kd == NULL) { kd = kvm_open( NULL, "/dev/null", NULL, O_RDONLY, "kvm_open" ); // returns a descriptor used to access kernel virtual memory } if (kd != NULL) { int pc = 0; // number of processes found struct kinfo_proc * kp; kp = kvm_getprocs(kd, KERN_PROC_PID, getpid(), &pc); if ((kp != NULL) && (pc >= 1)) { return static_cast(kp->ki_rssize * getpagesize() / 1024); } } return -1; #else LOGINFO("%s: Unknown platform, cannot query memory usage", __FUNCTION__); return -1; #endif } void cRoot::LogChunkStats(cCommandOutputCallback & a_Output) { int SumNumValid = 0; int SumNumDirty = 0; int SumNumInLighting = 0; size_t SumNumInGenerator = 0; int SumMem = 0; for (auto & Entry : m_WorldsByName) { auto & World = Entry.second; const auto NumInGenerator = World.GetGeneratorQueueLength(); const auto NumInSaveQueue = World.GetStorageSaveQueueLength(); const auto NumInLoadQueue = World.GetStorageLoadQueueLength(); int NumValid = 0; int NumDirty = 0; int NumInLighting = 0; World.GetChunkStats(NumValid, NumDirty, NumInLighting); a_Output.OutLn(fmt::format(FMT_STRING("World {}:"), World.GetName())); a_Output.OutLn(fmt::format(FMT_STRING(" Num loaded chunks: {}"), NumValid)); a_Output.OutLn(fmt::format(FMT_STRING(" Num dirty chunks: {}"), NumDirty)); a_Output.OutLn(fmt::format(FMT_STRING(" Num chunks in lighting queue: {}"), NumInLighting)); a_Output.OutLn(fmt::format(FMT_STRING(" Num chunks in generator queue: {}"), NumInGenerator)); a_Output.OutLn(fmt::format(FMT_STRING(" Num chunks in storage load queue: {}"), NumInLoadQueue)); a_Output.OutLn(fmt::format(FMT_STRING(" Num chunks in storage save queue: {}"), NumInSaveQueue)); int Mem = NumValid * static_cast(sizeof(cChunk)); a_Output.OutLn(fmt::format( FMT_STRING(" Memory used by chunks: {} KiB ({} MiB)"), (Mem + 1023) / 1024, (Mem + 1024 * 1024 - 1) / (1024 * 1024) )); SumNumValid += NumValid; SumNumDirty += NumDirty; SumNumInLighting += NumInLighting; SumNumInGenerator += NumInGenerator; SumMem += Mem; } a_Output.OutLn("Totals:"); a_Output.OutLn(fmt::format(FMT_STRING(" Num loaded chunks: {}"), SumNumValid)); a_Output.OutLn(fmt::format(FMT_STRING(" Num dirty chunks: {}"), SumNumDirty)); a_Output.OutLn(fmt::format(FMT_STRING(" Num chunks in lighting queue: {}"), SumNumInLighting)); a_Output.OutLn(fmt::format(FMT_STRING(" Num chunks in generator queue: {}"), SumNumInGenerator)); a_Output.OutLn(fmt::format( FMT_STRING(" Memory used by chunks: {} KiB ({} MiB)"), (SumMem + 1023) / 1024, (SumMem + 1024 * 1024 - 1) / (1024 * 1024) )); a_Output.OutLn("Per-chunk memory size breakdown:"); a_Output.OutLn(fmt::format( FMT_STRING(" block types: {:06} bytes ({:3} KiB)"), sizeof(cChunkDef::BlockTypes), (sizeof(cChunkDef::BlockTypes) + 1023) / 1024 )); a_Output.OutLn(fmt::format( FMT_STRING(" block metadata: {:06} bytes ({:3} KiB)"), sizeof(cChunkDef::BlockNibbles), (sizeof(cChunkDef::BlockNibbles) + 1023) / 1024 )); a_Output.OutLn(fmt::format( FMT_STRING(" block lighting: {:06} bytes ({:3} KiB)"), 2 * sizeof(cChunkDef::BlockNibbles), (2 * sizeof(cChunkDef::BlockNibbles) + 1023) / 1024 )); a_Output.OutLn(fmt::format( FMT_STRING(" heightmap: {:06} bytes ({:3} KiB)"), sizeof(cChunkDef::HeightMap), (sizeof(cChunkDef::HeightMap) + 1023) / 1024 )); a_Output.OutLn(fmt::format( FMT_STRING(" biomemap: {:06} bytes ({:3} KiB)"), sizeof(cChunkDef::BiomeMap), (sizeof(cChunkDef::BiomeMap) + 1023) / 1024 )); } int cRoot::GetFurnaceFuelBurnTime(const cItem & a_Fuel) { cFurnaceRecipe * FR = Get()->GetFurnaceRecipe(); return FR->GetBurnTime(a_Fuel); } AStringVector cRoot::GetPlayerTabCompletionMultiWorld(const AString & a_Text) { AStringVector Results; ForEachWorld( [&](cWorld & a_World) { a_World.TabCompleteUserName(a_Text, Results); return false; } ); return Results; } void cRoot::HandleInput() { if (g_RunAsService) { // Ignore input when running as a service, cin was never opened in that case: return; } cLogCommandOutputCallback Output; AString Command; while (s_NextState == NextState::Run) { #ifndef _WIN32 timeval Timeout {0, 0}; Timeout.tv_usec = 100 * 1000; // 100 msec fd_set ReadSet; FD_ZERO(&ReadSet); FD_SET(STDIN_FILENO, &ReadSet); if (select(STDIN_FILENO + 1, &ReadSet, nullptr, nullptr, &Timeout) <= 0) { // Don't call getline because there's nothing to read continue; } #endif if (!std::getline(std::cin, Command)) { cRoot::Stop(); return; } if (s_NextState != NextState::Run) { // Already shutting down, can't execute commands break; } if (!Command.empty()) { // Execute and clear command string when submitted QueueExecuteConsoleCommand(TrimString(Command), Output); } } } void cRoot::TransitionNextState(NextState a_NextState) { { auto Current = s_NextState.load(); do { // Stopping is final, so stops override restarts: if (Current == NextState::Stop) { return; } } while (!s_NextState.compare_exchange_strong(Current, a_NextState)); } if (s_NextState == NextState::Run) { return; } s_StopEvent.Set(); #ifdef WIN32 DWORD Length; INPUT_RECORD Record { KEY_EVENT, {{TRUE, 1, VK_RETURN, static_cast(MapVirtualKey(VK_RETURN, MAPVK_VK_TO_VSC)), {{VK_RETURN}}, 0}} }; // Can't kill the input thread since it breaks cin (getline doesn't block / receive input on restart) // Apparently no way to unblock getline apart from CancelIoEx, but xoft wants Windows XP support // Only thing I can think of for now. Also, ignore the retval since sometimes there's no cin. WriteConsoleInput(GetStdHandle(STD_INPUT_HANDLE), &Record, 1, &Length); #endif }