/* * Copyright (c) Contributors, http://www.openmetaverse.org/ * See CONTRIBUTORS.TXT for a full list of copyright holders. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * Neither the name of the OpenSim Project nor the * names of its contributors may be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE DEVELOPERS ``AS IS AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL THE CONTRIBUTORS BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * */ using System; using System.Collections.Generic; using System.Threading; using System.Timers; using libsecondlife; using libsecondlife.Packets; using OpenSim.Framework; using OpenSim.Framework.Communications; using OpenSim.Framework.Console; using OpenSim.Framework.Interfaces; using OpenSim.Framework.Servers; using OpenSim.Framework.Types; using OpenSim.Physics.Manager; using OpenSim.Region.Caches; using OpenSim.Region.Environment.Scripting; using OpenSim.Region.Terrain; using Caps=OpenSim.Region.Capabilities.Caps; using Timer=System.Timers.Timer; namespace OpenSim.Region.Environment.Scenes { public delegate bool FilterAvatarList(ScenePresence avatar); public partial class Scene : SceneBase, ILocalStorageReceiver { protected Timer m_heartbeatTimer = new Timer(); protected Dictionary Avatars; protected Dictionary Prims; private PhysicsScene phyScene; private float timeStep = 0.1f; private Random Rand = new Random(); private uint _primCount = 702000; private System.Threading.Mutex _primAllocateMutex = new Mutex(false); private int storageCount; private Mutex updateLock; protected AuthenticateSessionsBase authenticateHandler; protected RegionCommsListener regionCommsHost; protected CommunicationsManager commsManager; protected Dictionary capsHandlers = new Dictionary(); protected BaseHttpServer httpListener; public ParcelManager parcelManager; public EstateManager estateManager; public EventManager eventManager; public ScriptManager scriptManager; #region Properties ///

/// ///

public PhysicsScene PhysScene { set { this.phyScene = value; } get { return (this.phyScene); } } #endregion #region Constructors ///

/// Creates a new World class, and a region to go with it. ///

/// Dictionary to contain client threads /// Region Handle for this region /// Region Name for this region public Scene(Dictionary clientThreads, RegionInfo regInfo, AuthenticateSessionsBase authen, CommunicationsManager commsMan, AssetCache assetCach, BaseHttpServer httpServer) { updateLock = new Mutex(false); this.authenticateHandler = authen; this.commsManager = commsMan; this.assetCache = assetCach; m_clientThreads = clientThreads; m_regInfo = regInfo; m_regionHandle = m_regInfo.RegionHandle; m_regionName = m_regInfo.RegionName; this.m_datastore = m_regInfo.DataStore; this.RegisterRegionWithComms(); parcelManager = new ParcelManager(this, this.m_regInfo); estateManager = new EstateManager(this, this.m_regInfo); scriptManager = new ScriptManager(this); eventManager = new EventManager(); MainLog.Instance.Verbose("World.cs - creating new entitities instance"); Entities = new Dictionary(); Avatars = new Dictionary(); Prims = new Dictionary(); MainLog.Instance.Verbose("World.cs - creating LandMap"); Terrain = new TerrainEngine(); ScenePresence.LoadAnims(); this.httpListener = httpServer; } #endregion ///

/// ///

public void StartTimer() { m_heartbeatTimer.Enabled = true; m_heartbeatTimer.Interval = 100; m_heartbeatTimer.Elapsed += new ElapsedEventHandler(this.Heartbeat); } #region Update Methods ///

/// Performs per-frame updates regularly ///

/// /// void Heartbeat(object sender, EventArgs e) { this.Update(); } ///

/// Performs per-frame updates on the world, this should be the central world loop ///

public override void Update() { updateLock.WaitOne(); try { if (this.phyScene.IsThreaded) { this.phyScene.GetResults(); } foreach (LLUUID UUID in Entities.Keys) { Entities[UUID].updateMovement(); } lock (this.m_syncRoot) { this.phyScene.Simulate(timeStep); } foreach (LLUUID UUID in Entities.Keys) { Entities[UUID].update(); } // General purpose event manager eventManager.TriggerOnFrame(); //backup world data this.storageCount++; if (storageCount > 1200) //set to how often you want to backup { this.Backup(); storageCount = 0; } } catch (Exception e) { MainLog.Instance.Warn("World.cs: Update() - Failed with exception " + e.ToString()); } updateLock.ReleaseMutex(); } ///

/// ///

/// public bool Backup() { return true; } #endregion #region Regenerate Terrain ///

/// Rebuilds the terrain using a procedural algorithm ///

public void RegenerateTerrain() { try { Terrain.hills(); lock (this.m_syncRoot) { this.phyScene.SetTerrain(Terrain.getHeights1D()); } this.localStorage.SaveMap(this.Terrain.getHeights1D()); foreach (IClientAPI client in m_clientThreads.Values) { this.SendLayerData(client); } foreach (LLUUID UUID in Entities.Keys) { Entities[UUID].LandRenegerated(); } } catch (Exception e) { MainLog.Instance.Warn("World.cs: RegenerateTerrain() - Failed with exception " + e.ToString()); } } ///

/// Rebuilds the terrain using a 2D float array ///

/// 256,256 float array containing heights public void RegenerateTerrain(float[,] newMap) { try { this.Terrain.setHeights2D(newMap); lock (this.m_syncRoot) { this.phyScene.SetTerrain(this.Terrain.getHeights1D()); } this.localStorage.SaveMap(this.Terrain.getHeights1D()); foreach (IClientAPI client in m_clientThreads.Values) { this.SendLayerData(client); } foreach (LLUUID UUID in Entities.Keys) { Entities[UUID].LandRenegerated(); } } catch (Exception e) { MainLog.Instance.Warn("World.cs: RegenerateTerrain() - Failed with exception " + e.ToString()); } } ///

/// Rebuilds the terrain assuming changes occured at a specified point[?] ///

/// ??? /// ??? /// ??? public void RegenerateTerrain(bool changes, int pointx, int pointy) { try { if (changes) { /* Dont save here, rely on tainting system instead */ foreach (IClientAPI client in m_clientThreads.Values) { this.SendLayerData(pointx, pointy, client); } } } catch (Exception e) { MainLog.Instance.Warn("World.cs: RegenerateTerrain() - Failed with exception " + e.ToString()); } } #endregion #region Load Terrain ///

/// Loads the World heightmap ///

/// public override void LoadWorldMap() { try { float[] map = this.localStorage.LoadWorld(); if (map == null) { if (string.IsNullOrEmpty(this.m_regInfo.estateSettings.terrainFile)) { Console.WriteLine("No default terrain, procedurally generating..."); this.Terrain.hills(); this.localStorage.SaveMap(this.Terrain.getHeights1D()); } else { try { this.Terrain.loadFromFileF32(this.m_regInfo.estateSettings.terrainFile); this.Terrain *= this.m_regInfo.estateSettings.terrainMultiplier; } catch { Console.WriteLine("Unable to load default terrain, procedurally generating instead..."); Terrain.hills(); } this.localStorage.SaveMap(this.Terrain.getHeights1D()); } } else { this.Terrain.setHeights1D(map); } CreateTerrainTexture(); } catch (Exception e) { MainLog.Instance.Warn("World.cs: LoadWorldMap() - Failed with exception " + e.ToString()); } } ///

/// ///

private void CreateTerrainTexture() { //create a texture asset of the terrain byte[] data = this.Terrain.exportJpegImage("defaultstripe.png"); this.m_regInfo.estateSettings.terrainImageID = LLUUID.Random(); AssetBase asset = new AssetBase(); asset.FullID = this.m_regInfo.estateSettings.terrainImageID; asset.Data = data; asset.Name = "terrainImage"; asset.Type = 0; this.assetCache.AddAsset(asset); } #endregion #region Primitives Methods ///

/// Loads the World's objects ///

public void LoadPrimsFromStorage() { try { MainLog.Instance.Verbose("World.cs: LoadPrimsFromStorage() - Loading primitives"); this.localStorage.LoadPrimitives(this); } catch (Exception e) { MainLog.Instance.Warn("World.cs: LoadPrimsFromStorage() - Failed with exception " + e.ToString()); } } ///

/// Loads a specific object from storage ///

/// The object to load public void PrimFromStorage(PrimData prim) { } ///

/// Returns a new unallocated primitive ID ///

/// A brand new primitive ID public uint PrimIDAllocate() { uint myID; _primAllocateMutex.WaitOne(); ++_primCount; myID = _primCount; _primAllocateMutex.ReleaseMutex(); return myID; } ///

/// ///

/// /// public void AddNewPrim(Packet addPacket, IClientAPI agentClient) { AddNewPrim((ObjectAddPacket)addPacket, agentClient.AgentId); } ///

/// ///

/// /// public void AddNewPrim(ObjectAddPacket addPacket, LLUUID ownerID) { try { SceneObject sceneOb = new SceneObject(m_regionHandle, this, addPacket, ownerID, this.PrimIDAllocate()); this.Entities.Add(sceneOb.rootUUID, sceneOb); // Trigger event for listeners // eventManager.TriggerOnNewPrimitive(prim); } catch (Exception e) { MainLog.Instance.Warn("World.cs: AddNewPrim() - Failed with exception " + e.ToString()); } } public override uint AddNewPrim(LLUUID ownerId, PrimData primData, LLVector3 pos, LLQuaternion rotation, LLUUID texture, int flags) { uint id = NextLocalId; throw new NotImplementedException("Not implemented yet."); } #endregion #region Add/Remove Avatar Methods ///

/// ///

/// /// public override void AddNewClient(IClientAPI client, bool child) { client.OnRegionHandShakeReply += this.SendLayerData; //remoteClient.OnRequestWearables += new GenericCall(this.GetInitialPrims); client.OnChatFromViewer += this.SimChat; client.OnInstantMessage += this.InstantMessage; client.OnRequestWearables += this.InformClientOfNeighbours; client.OnAddPrim += this.AddNewPrim; client.OnUpdatePrimPosition += this.UpdatePrimPosition; client.OnUpdatePrimSinglePosition += this.UpdatePrimSinglePosition; client.OnUpdatePrimRotation += this.UpdatePrimRotation; client.OnUpdatePrimGroupRotation += this.UpdatePrimRotation; client.OnUpdatePrimSingleRotation += this.UpdatePrimSingleRotation; client.OnUpdatePrimScale += this.UpdatePrimScale; client.OnUpdatePrimShape += this.UpdatePrimShape; client.OnRequestMapBlocks += this.RequestMapBlocks; client.OnTeleportLocationRequest += this.RequestTeleportLocation; client.OnObjectSelect += this.SelectPrim; client.OnGrapUpdate += this.MoveObject; client.OnNameFromUUIDRequest += this.commsManager.HandleUUIDNameRequest; client.OnObjectDescription += this.PrimDescription; client.OnObjectName += this.PrimName; client.OnLinkObjects += this.LinkObjects; client.OnObjectDuplicate += this.DuplicateObject; /* remoteClient.OnParcelPropertiesRequest += new ParcelPropertiesRequest(parcelManager.handleParcelPropertiesRequest); remoteClient.OnParcelDivideRequest += new ParcelDivideRequest(parcelManager.handleParcelDivideRequest); remoteClient.OnParcelJoinRequest += new ParcelJoinRequest(parcelManager.handleParcelJoinRequest); remoteClient.OnParcelPropertiesUpdateRequest += new ParcelPropertiesUpdateRequest(parcelManager.handleParcelPropertiesUpdateRequest); remoteClient.OnEstateOwnerMessage += new EstateOwnerMessageRequest(estateManager.handleEstateOwnerMessage); */ this.estateManager.sendRegionHandshake(client); CreateAndAddScenePresence(client); return; } protected void CreateAndAddScenePresence(IClientAPI client) { ScenePresence newAvatar = null; MainLog.Instance.Verbose("World.cs:AddViewerAgent() - Creating new avatar for remote viewer agent"); newAvatar = new ScenePresence(client, this, this.m_regInfo); MainLog.Instance.Verbose("World.cs:AddViewerAgent() - Adding new avatar to world"); MainLog.Instance.Verbose("World.cs:AddViewerAgent() - Starting RegionHandshake "); PhysicsVector pVec = new PhysicsVector(newAvatar.Pos.X, newAvatar.Pos.Y, newAvatar.Pos.Z); lock (this.m_syncRoot) { newAvatar.PhysActor = this.phyScene.AddAvatar(pVec); } lock (Entities) { if (!Entities.ContainsKey(client.AgentId)) { this.Entities.Add(client.AgentId, newAvatar); } else { Entities[client.AgentId] = newAvatar; } } lock (Avatars) { if (Avatars.ContainsKey(client.AgentId)) { Avatars[client.AgentId] = newAvatar; } else { this.Avatars.Add(client.AgentId, newAvatar); } } } ///

/// ///

/// public override void RemoveClient(LLUUID agentID) { eventManager.TriggerOnRemovePresence(agentID); return; } #endregion #region Request Avatars List Methods //The idea is to have a group of method that return a list of avatars meeting some requirement // ie it could be all Avatars within a certain range of the calling prim/avatar. ///

/// Request a List of all Avatars in this World ///

/// public List RequestAvatarList() { List result = new List(); foreach (ScenePresence avatar in Avatars.Values) { result.Add(avatar); } return result; } ///

/// Request a filtered list of Avatars in this World ///

/// public List RequestAvatarList(FilterAvatarList filter) { List result = new List(); foreach (ScenePresence avatar in Avatars.Values) { if (filter(avatar)) { result.Add(avatar); } } return result; } ///

/// Request a Avatar by UUID ///

/// /// public ScenePresence RequestAvatar(LLUUID avatarID) { if (this.Avatars.ContainsKey(avatarID)) { return Avatars[avatarID]; } return null; } #endregion ///

/// ///

/// /// public bool DeleteEntity(LLUUID entID) { if (this.Entities.ContainsKey(entID)) { this.Entities.Remove(entID); return true; } return false; } public void SendAllSceneObjectsToClient(IClientAPI client) { foreach (EntityBase ent in Entities.Values) { if (ent is SceneObject) { ((SceneObject)ent).SendAllChildPrimsToClient(client); } } } #region RegionCommsHost ///

/// ///

public void RegisterRegionWithComms() { this.regionCommsHost = this.commsManager.GridServer.RegisterRegion(this.m_regInfo); if (this.regionCommsHost != null) { this.regionCommsHost.OnExpectUser += this.NewUserConnection; this.regionCommsHost.OnAvatarCrossingIntoRegion += this.AgentCrossing; } } ///

/// ///

/// /// public void NewUserConnection(ulong regionHandle, AgentCircuitData agent) { // Console.WriteLine("World.cs - add new user connection"); //should just check that its meant for this region if (regionHandle == this.m_regInfo.RegionHandle) { if (agent.CapsPath != "") { //Console.WriteLine("new user, so creating caps handler for it"); Caps cap = new Caps(this.assetCache, httpListener, this.m_regInfo.ExternalHostName, this.m_regInfo.ExternalEndPoint.Port, agent.CapsPath, agent.AgentID); cap.RegisterHandlers(); this.capsHandlers.Add(agent.AgentID, cap); } this.authenticateHandler.AddNewCircuit(agent.circuitcode, agent); } } public void AgentCrossing(ulong regionHandle, LLUUID agentID, LLVector3 position) { if (regionHandle == this.m_regInfo.RegionHandle) { if (this.Avatars.ContainsKey(agentID)) { this.Avatars[agentID].MakeAvatar(position); } } } ///

/// ///

public void InformClientOfNeighbours(IClientAPI remoteClient) { // Console.WriteLine("informing client of neighbouring regions"); List neighbours = this.commsManager.GridServer.RequestNeighbours(this.m_regInfo); //Console.WriteLine("we have " + neighbours.Count + " neighbouring regions"); if (neighbours != null) { for (int i = 0; i < neighbours.Count; i++) { // Console.WriteLine("sending neighbours data"); AgentCircuitData agent = remoteClient.RequestClientInfo(); agent.BaseFolder = LLUUID.Zero; agent.InventoryFolder = LLUUID.Zero; agent.startpos = new LLVector3(128, 128, 70); agent.child = true; this.commsManager.InterRegion.InformRegionOfChildAgent(neighbours[i].RegionHandle, agent); remoteClient.InformClientOfNeighbour(neighbours[i].RegionHandle, neighbours[i].ExternalEndPoint); //this.capsHandlers[remoteClient.AgentId].CreateEstablishAgentComms("", System.Net.IPAddress.Parse(neighbours[i].CommsIPListenAddr) + ":" + neighbours[i].CommsIPListenPort); } } } ///

/// ///

/// /// public RegionInfo RequestNeighbouringRegionInfo(ulong regionHandle) { return this.commsManager.GridServer.RequestNeighbourInfo(regionHandle); } ///

/// ///

/// /// /// /// public void RequestMapBlocks(IClientAPI remoteClient, int minX, int minY, int maxX, int maxY) { List mapBlocks; mapBlocks = this.commsManager.GridServer.RequestNeighbourMapBlocks(minX, minY, maxX, maxY); remoteClient.SendMapBlock(mapBlocks); } ///

/// ///

/// /// /// /// /// public void RequestTeleportLocation(IClientAPI remoteClient, ulong regionHandle, LLVector3 position, LLVector3 lookAt, uint flags) { if (regionHandle == this.m_regionHandle) { if (this.Avatars.ContainsKey(remoteClient.AgentId)) { remoteClient.SendTeleportLocationStart(); remoteClient.SendLocalTeleport(position, lookAt, flags); this.Avatars[remoteClient.AgentId].Teleport(position); } } else { RegionInfo reg = this.RequestNeighbouringRegionInfo(regionHandle); if (reg != null) { remoteClient.SendTeleportLocationStart(); AgentCircuitData agent = remoteClient.RequestClientInfo(); agent.BaseFolder = LLUUID.Zero; agent.InventoryFolder = LLUUID.Zero; agent.startpos = new LLVector3(128, 128, 70); agent.child = true; this.commsManager.InterRegion.InformRegionOfChildAgent(regionHandle, agent); this.commsManager.InterRegion.ExpectAvatarCrossing(regionHandle, remoteClient.AgentId, position); remoteClient.SendRegionTeleport(regionHandle, 13, reg.ExternalEndPoint, 4, (1 << 4)); } //remoteClient.SendTeleportCancel(); } } ///

/// ///

/// /// /// public bool InformNeighbourOfCrossing(ulong regionhandle, LLUUID agentID, LLVector3 position) { return this.commsManager.InterRegion.ExpectAvatarCrossing(regionhandle, agentID, position); } #endregion } }