#ifndef STAR_WORLD_SERVER_HPP #define STAR_WORLD_SERVER_HPP #include "StarWorld.hpp" #include "StarWorldClientState.hpp" #include "StarCollisionGenerator.hpp" #include "StarSpawner.hpp" #include "StarNetPackets.hpp" #include "StarCellularLighting.hpp" #include "StarCellularLiquid.hpp" #include "StarWeather.hpp" #include "StarInterpolationTracker.hpp" #include "StarWorldStructure.hpp" #include "StarLuaRoot.hpp" #include "StarWorldRenderData.hpp" #include "StarWarping.hpp" namespace Star { STAR_CLASS(Player); STAR_CLASS(WorldTemplate); STAR_CLASS(Sky); STAR_STRUCT(SkyParameters); STAR_CLASS(DamageManager); STAR_CLASS(WireProcessor); STAR_CLASS(EntityMap); STAR_CLASS(WorldStorage); STAR_CLASS(FallingBlocksAgent); STAR_CLASS(DungeonDefinition); STAR_CLASS(WorldServer); STAR_CLASS(TileEntity); STAR_CLASS(UniverseSettings); STAR_EXCEPTION(WorldServerException, StarException); // Describes the amount of optional processing that a call to update() in // WorldServer performs for things like liquid simulation, wiring, sector // generation etc. enum class WorldServerFidelity { Minimum, Low, Medium, High }; extern EnumMap const WorldServerFidelityNames; class WorldServer : public World { public: // Create a new world with the given template, writing new storage file. WorldServer(WorldTemplatePtr const& worldTemplate, IODevicePtr storage); // Synonym for WorldServer(make_shared(size), storage); WorldServer(Vec2U const& size, IODevicePtr storage); // Load an existing world from the given storage files WorldServer(IODevicePtr const& storage); // Load an existing world from the given in-memory chunks WorldServer(WorldChunks const& chunks); // Load an existing world from an in-memory representation ~WorldServer(); void setWorldId(String worldId); String const& worldId() const; void setUniverseSettings(UniverseSettingsPtr universeSettings); UniverseSettingsPtr universeSettings() const; void setReferenceClock(ClockPtr clock); // Give this world a central structure. If there is a previous central // structure it is removed first. Returns the structure with transformed // coordinates. WorldStructure setCentralStructure(WorldStructure centralStructure); WorldStructure const& centralStructure() const; // If there is an active central structure, it is removed and all unmodified // objects and blocks associated with the structure are removed. void removeCentralStructure(); void setPlayerStart(Vec2F const& startPosition, bool respawnInWorld = false); bool spawnTargetValid(SpawnTarget const& spawnTarget) const; // Returns false if the client id already exists, or the spawn target is // invalid. bool addClient(ConnectionId clientId, SpawnTarget const& spawnTarget, bool isLocal); // Removes client, sends the WorldStopPacket, and returns any pending packets // for that client List removeClient(ConnectionId clientId); List clientIds() const; bool hasClient(ConnectionId clientId) const; RectF clientWindow(ConnectionId clientId) const; // May return null if a Player is not available or if the client id is not // valid. PlayerPtr clientPlayer(ConnectionId clientId) const; List players() const; void handleIncomingPackets(ConnectionId clientId, List const& packets); List getOutgoingPackets(ConnectionId clientId); void startFlyingSky(bool enterHyperspace, bool startInWarp); void stopFlyingSkyAt(SkyParameters const& destination); void setOrbitalSky(SkyParameters const& destination); // Defaults to Medium WorldServerFidelity fidelity() const; void setFidelity(WorldServerFidelity fidelity); void update(float dt); ConnectionId connection() const override; WorldGeometry geometry() const override; uint64_t currentStep() const override; MaterialId material(Vec2I const& position, TileLayer layer) const override; MaterialHue materialHueShift(Vec2I const& position, TileLayer layer) const override; ModId mod(Vec2I const& position, TileLayer layer) const override; MaterialHue modHueShift(Vec2I const& position, TileLayer layer) const override; MaterialColorVariant colorVariant(Vec2I const& position, TileLayer layer) const override; LiquidLevel liquidLevel(Vec2I const& pos) const override; LiquidLevel liquidLevel(RectF const& region) const override; TileModificationList validTileModifications(TileModificationList const& modificationList, bool allowEntityOverlap) const override; TileModificationList applyTileModifications(TileModificationList const& modificationList, bool allowEntityOverlap) override; EntityPtr entity(EntityId entityId) const override; void addEntity(EntityPtr const& entity) override; EntityPtr closestEntity(Vec2F const& center, float radius, EntityFilter selector = EntityFilter()) const override; void forAllEntities(EntityCallback entityCallback) const override; void forEachEntity(RectF const& boundBox, EntityCallback callback) const override; void forEachEntityLine(Vec2F const& begin, Vec2F const& end, EntityCallback callback) const override; void forEachEntityAtTile(Vec2I const& pos, EntityCallbackOf entityCallback) const override; EntityPtr findEntity(RectF const& boundBox, EntityFilter entityFilter) const override; EntityPtr findEntityLine(Vec2F const& begin, Vec2F const& end, EntityFilter entityFilter) const override; EntityPtr findEntityAtTile(Vec2I const& pos, EntityFilterOf entityFilter) const override; bool tileIsOccupied(Vec2I const& pos, TileLayer layer, bool includeEphemeral = false) const override; void forEachCollisionBlock(RectI const& region, function const& iterator) const override; bool isTileConnectable(Vec2I const& pos, TileLayer layer, bool tilesOnly = false) const override; bool pointTileCollision(Vec2F const& point, CollisionSet const& collisionSet = DefaultCollisionSet) const override; bool lineTileCollision(Vec2F const& begin, Vec2F const& end, CollisionSet const& collisionSet = DefaultCollisionSet) const override; Maybe> lineTileCollisionPoint(Vec2F const& begin, Vec2F const& end, CollisionSet const& collisionSet = DefaultCollisionSet) const override; List collidingTilesAlongLine(Vec2F const& begin, Vec2F const& end, CollisionSet const& collisionSet = DefaultCollisionSet, int maxSize = -1, bool includeEdges = true) const override; bool rectTileCollision(RectI const& region, CollisionSet const& collisionSet = DefaultCollisionSet) const override; TileDamageResult damageTiles(List const& pos, TileLayer layer, Vec2F const& sourcePosition, TileDamage const& tileDamage, Maybe sourceEntity = {}) override; InteractiveEntityPtr getInteractiveInRange(Vec2F const& targetPosition, Vec2F const& sourcePosition, float maxRange) const override; bool canReachEntity(Vec2F const& position, float radius, EntityId targetEntity, bool preferInteractive = true) const override; RpcPromise interact(InteractRequest const& request) override; float gravity(Vec2F const& pos) const override; float windLevel(Vec2F const& pos) const override; float lightLevel(Vec2F const& pos) const override; bool breathable(Vec2F const& pos) const override; float threatLevel() const override; StringList environmentStatusEffects(Vec2F const& pos) const override; StringList weatherStatusEffects(Vec2F const& pos) const override; bool exposedToWeather(Vec2F const& pos) const override; bool isUnderground(Vec2F const& pos) const override; bool disableDeathDrops() const override; List forceRegions() const override; Json getProperty(String const& propertyName, Json const& def = Json()) const override; void setProperty(String const& propertyName, Json const& property) override; void timer(int stepsDelay, WorldAction worldAction) override; double epochTime() const override; uint32_t day() const override; float dayLength() const override; float timeOfDay() const override; LuaRootPtr luaRoot() override; RpcPromise findUniqueEntity(String const& uniqueId) override; RpcPromise sendEntityMessage(Variant const& entity, String const& message, JsonArray const& args = {}) override; bool isTileProtected(Vec2I const& pos) const override; void setTileProtection(DungeonId dungeonId, bool isProtected); // used to globally, temporarily disable protection for certain operations void setTileProtectionEnabled(bool enabled); void setDungeonGravity(DungeonId dungeonId, Maybe gravity); void setDungeonBreathable(DungeonId dungeonId, Maybe breathable); void setDungeonId(RectI const& tileRegion, DungeonId dungeonId); // Signal a region to load / generate, returns true if it is now fully loaded // and generated bool signalRegion(RectI const& region); // Immediately generate a given region void generateRegion(RectI const& region); // Returns true if a region is fully active without signaling it. bool regionActive(RectI const& region); // Queues a microdungeon for placement RpcPromise enqueuePlacement(List distributions, Maybe id); ServerTile const& getServerTile(Vec2I const& position, bool withSignal = false); // Gets mutable pointer to server tile and marks it as needing updates to all // clients. ServerTile* modifyServerTile(Vec2I const& position, bool withSignal = false); EntityId loadUniqueEntity(String const& uniqueId); WorldTemplatePtr worldTemplate() const; SkyPtr sky() const; void modifyLiquid(Vec2I const& pos, LiquidId liquid, float quantity, bool additive = false); void setLiquid(Vec2I const& pos, LiquidId liquid, float level, float pressure); List destroyBlock(TileLayer layer, Vec2I const& pos, bool genItems, bool destroyModFirst); void removeEntity(EntityId entityId, bool andDie); void updateTileEntityTiles(TileEntityPtr const& object, bool removing = false, bool checkBreaks = true); bool isVisibleToPlayer(RectF const& region) const; void activateLiquidRegion(RectI const& region); void activateLiquidLocation(Vec2I const& location); // if blocks cascade, we'll need to do a break check across all tile entities // when the timer next ticks void requestGlobalBreakCheck(); void setSpawningEnabled(bool spawningEnabled); // Write all active sectors to disk without unloading them void sync(); // Copy full world to in memory representation WorldChunks readChunks(); bool forceModifyTile(Vec2I const& pos, TileModification const& modification, bool allowEntityOverlap); TileModificationList forceApplyTileModifications(TileModificationList const& modificationList, bool allowEntityOverlap); DungeonId dungeonId(Vec2I const& pos) const; bool isPlayerModified(RectI const& region) const; ItemDescriptor collectLiquid(List const& tilePositions, LiquidId liquidId); bool placeDungeon(String const& dungeonName, Vec2I const& position, Maybe dungeonId = {}, bool forcePlacement = true); void addBiomeRegion(Vec2I const& position, String const& biomeName, String const& subBlockSelector, int width); void expandBiomeRegion(Vec2I const& position, int newWidth); // queue generation of the sectors that will be needed to insert or // expand a biome region in order to spread processing over time bool pregenerateAddBiome(Vec2I const& position, int width); bool pregenerateExpandBiome(Vec2I const& position, int newWidth); // set the biome at the given position to be the environment biome for the layer void setLayerEnvironmentBiome(Vec2I const& position); // for terrestrial worlds only. updates the planet type in the celestial as well as local // world parameters along with the primary biome and the weather pool void setPlanetType(String const& planetType, String const& primaryBiomeName); // used to notify the universe server that the celestial planet type has changed Maybe> pullNewPlanetType(); private: struct ClientInfo { ClientInfo(ConnectionId clientId, InterpolationTracker const trackerInit); List monitoringRegions(EntityMapPtr const& entityMap) const; bool needsDamageNotification(RemoteDamageNotification const& rdn) const; ConnectionId clientId; uint64_t skyNetVersion; uint64_t weatherNetVersion; WorldClientState clientState; bool pendingForward; bool started; List outgoingPackets; // All slave entities for which the player should be knowledgable about. HashMap clientSlavesNetVersion; // Batch send tile updates HashSet pendingTileUpdates; HashSet pendingLiquidUpdates; HashSet> pendingTileDamageUpdates; HashSet pendingSectors; HashSet activeSectors; InterpolationTracker interpolationTracker; }; struct TileEntitySpaces { List materials; List roots; }; void init(bool firstTime); // Returns nothing if the processing defined by the given configuration entry // should not run this tick, if it should run this tick, returns the number // of ticks since the last run. Maybe shouldRunThisStep(String const& timingConfiguration); TileModificationList doApplyTileModifications(TileModificationList const& modificationList, bool allowEntityOverlap, bool ignoreTileProtection = false); // Queues pending (step based) updates to the given player void queueUpdatePackets(ConnectionId clientId); void updateDamage(float dt); void updateDamagedBlocks(float dt); // Check for any newly broken entities in this rect void checkEntityBreaks(RectF const& rect); // Push modified tile data to each client. void queueTileUpdates(Vec2I const& pos); void queueTileDamageUpdates(Vec2I const& pos, TileLayer layer); void writeNetTile(Vec2I const& pos, NetTile& netTile) const; void dirtyCollision(RectI const& region); void freshenCollision(RectI const& region); Vec2F findPlayerStart(Maybe firstTry = {}); Vec2F findPlayerSpaceStart(float targetX); void readMetadata(); void writeMetadata(); float gravityFromTile(ServerTile const& tile) const; bool isFloatingDungeonWorld() const; void setupForceRegions(); Json m_serverConfig; WorldTemplatePtr m_worldTemplate; WorldStructure m_centralStructure; Vec2F m_playerStart; bool m_adjustPlayerStart; bool m_respawnInWorld; JsonObject m_worldProperties; Maybe> m_newPlanetType; UniverseSettingsPtr m_universeSettings; EntityMapPtr m_entityMap; ServerTileSectorArrayPtr m_tileArray; WorldStoragePtr m_worldStorage; WorldServerFidelity m_fidelity; Json m_fidelityConfig; HashSet m_damagedBlocks; DamageManagerPtr m_damageManager; WireProcessorPtr m_wireProcessor; LuaRootPtr m_luaRoot; WorldGeometry m_geometry; uint64_t m_currentStep; mutable CellularLightIntensityCalculator m_lightIntensityCalculator; SkyPtr m_sky; ServerWeather m_weather; CollisionGenerator m_collisionGenerator; List m_workingCollisionBlocks; HashMap, pair> m_netStateCache; OrderedHashMap> m_clientInfo; GameTimer m_tileEntityBreakCheckTimer; shared_ptr> m_liquidEngine; FallingBlocksAgentPtr m_fallingBlocksAgent; Spawner m_spawner; // Keep track of material spaces and roots registered by tile entities to // make sure we can cleanly remove them when they change or when the entity // is removed / uninitialized HashMap m_tileEntitySpaces; List> m_timers; bool m_needsGlobalBreakCheck; bool m_generatingDungeon; HashMap m_dungeonIdGravity; HashMap m_dungeonIdBreathable; Set m_protectedDungeonIds; bool m_tileProtectionEnabled; HashMap>>> m_entityMessageResponses; List m_forceRegions; String m_worldId; }; } #endif