/* * Copyright (c) Contributors, http://opensimulator.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 Axiom.Math; using libsecondlife; using libsecondlife.Packets; using OpenSim.Framework; using OpenSim.Framework.Console; using OpenSim.Region.Environment.Types; using OpenSim.Region.Physics.Manager; namespace OpenSim.Region.Environment.Scenes { public delegate void PhysicsCrash(); public class InnerScene { #region Events public event PhysicsCrash UnRecoverableError; #endregion #region Fields public Dictionary ScenePresences; // SceneObjects is not currently populated or used. //public Dictionary SceneObjects; public Dictionary Entities; public BasicQuadTreeNode QuadTree; protected RegionInfo m_regInfo; protected Scene m_parentScene; protected PermissionManager PermissionsMngr; protected int m_numRootAgents = 0; protected int m_numPrim = 0; protected int m_numChildAgents = 0; protected int m_physicalPrim = 0; internal object m_syncRoot = new object(); public PhysicsScene _PhyScene; #endregion public InnerScene(Scene parent, RegionInfo regInfo, PermissionManager permissionsMngr) { m_parentScene = parent; m_regInfo = regInfo; PermissionsMngr = permissionsMngr; QuadTree = new BasicQuadTreeNode(null, "/0/", 0, 0, 256, 256); QuadTree.Subdivide(); QuadTree.Subdivide(); } public PhysicsScene PhysicsScene { get { return _PhyScene; } set { // If we're not doing the initial set // Then we've got to remove the previous // event handler try { _PhyScene.OnPhysicsCrash -= physicsBasedCrash; } catch (NullReferenceException) { // This occurs when storing to _PhyScene the first time. // Is there a better way to check the event handler before // getting here // This can be safely ignored. We're setting the first inital // there are no event handler's registered. } _PhyScene = value; _PhyScene.OnPhysicsCrash += physicsBasedCrash; } } public void Close() { ScenePresences.Clear(); //SceneObjects.Clear(); Entities.Clear(); } #region Update Methods internal void UpdatePreparePhysics() { // If we are using a threaded physics engine // grab the latest scene from the engine before // trying to process it. // PhysX does this (runs in the background). if (_PhyScene.IsThreaded) { _PhyScene.GetResults(); } } internal void UpdateEntities() { List updateEntities = GetEntities(); foreach (EntityBase entity in updateEntities) { entity.Update(); } } internal float UpdatePhysics(double elapsed) { lock (m_syncRoot) { return _PhyScene.Simulate((float) elapsed); } } internal void UpdateEntityMovement() { List moveEntities = GetEntities(); foreach (EntityBase entity in moveEntities) { entity.UpdateMovement(); } } #endregion #region Entity Methods public void AddEntityFromStorage(SceneObjectGroup sceneObject) { sceneObject.RegionHandle = m_regInfo.RegionHandle; sceneObject.SetScene(m_parentScene); foreach (SceneObjectPart part in sceneObject.Children.Values) { part.LocalID = m_parentScene.PrimIDAllocate(); } sceneObject.UpdateParentIDs(); AddEntity(sceneObject); } public void AddEntity(SceneObjectGroup sceneObject) { if (!Entities.ContainsKey(sceneObject.UUID)) { // QuadTree.AddObject(sceneObject); lock (Entities) { Entities.Add(sceneObject.UUID, sceneObject); } m_numPrim++; } } public void AddPhysicalPrim(int number) { m_physicalPrim++; } public void RemovePhysicalPrim(int number) { m_physicalPrim--; } public void RemovePrim(uint localID, LLUUID avatar_deleter) { List EntityList = GetEntities(); foreach (EntityBase obj in EntityList) { if (obj is SceneObjectGroup) { if (((SceneObjectGroup) obj).LocalId == localID) { m_parentScene.RemoveEntity((SceneObjectGroup) obj); m_numPrim--; return; } } } } public ScenePresence CreateAndAddScenePresence(IClientAPI client, bool child, AvatarAppearance appearance) { ScenePresence newAvatar = null; newAvatar = new ScenePresence(client, m_parentScene, m_regInfo, appearance); newAvatar.IsChildAgent = child; if (child) { m_numChildAgents++; MainLog.Instance.Verbose("SCENE", m_regInfo.RegionName + ": Creating new child agent."); } else { m_numRootAgents++; MainLog.Instance.Verbose("SCENE", m_regInfo.RegionName + ": Creating new root agent."); MainLog.Instance.Verbose("SCENE", m_regInfo.RegionName + ": Adding Physical agent."); newAvatar.AddToPhysicalScene(); } lock (Entities) { if (!Entities.ContainsKey(client.AgentId)) { Entities.Add(client.AgentId, newAvatar); } else { Entities[client.AgentId] = newAvatar; } } lock (ScenePresences) { if (ScenePresences.ContainsKey(client.AgentId)) { ScenePresences[client.AgentId] = newAvatar; } else { ScenePresences.Add(client.AgentId, newAvatar); } } return newAvatar; } public void SwapRootChildAgent(bool direction_RC_CR_T_F) { if (direction_RC_CR_T_F) { m_numRootAgents--; m_numChildAgents++; } else { m_numChildAgents--; m_numRootAgents++; } } public void removeUserCount(bool TypeRCTF) { if (TypeRCTF) { m_numRootAgents--; } else { m_numChildAgents--; } } public void RemoveAPrimCount() { m_numPrim--; } public void AddAPrimCount() { m_numPrim++; } public int GetChildAgentCount() { return m_numChildAgents; } public int GetRootAgentCount() { return m_numRootAgents; } public int GetTotalObjects() { return m_numPrim; } public int GetActiveObjects() { return m_physicalPrim; } #endregion #region Get Methods /// /// Request a List of all m_scenePresences in this World /// /// public List GetScenePresences() { List result; lock (ScenePresences) { result = new List(ScenePresences.Values); } return result; } public List GetAvatars() { List result = GetScenePresences(delegate(ScenePresence scenePresence) { return !scenePresence.IsChildAgent; }); return result; } /// /// Request a filtered list of m_scenePresences in this World /// /// public List GetScenePresences(FilterAvatarList filter) { List result = new List(); List ScenePresencesList = GetScenePresences(); foreach (ScenePresence avatar in ScenePresencesList) { if (filter(avatar)) { result.Add(avatar); } } return result; } /// /// Request a Avatar by UUID /// /// /// public ScenePresence GetScenePresence(LLUUID avatarID) { if (ScenePresences.ContainsKey(avatarID)) { return ScenePresences[avatarID]; } return null; } private SceneObjectGroup GetGroupByPrim(uint localID) { List EntityList = GetEntities(); foreach (EntityBase ent in EntityList) { if (ent is SceneObjectGroup) { if (((SceneObjectGroup) ent).HasChildPrim(localID)) return (SceneObjectGroup) ent; } } return null; } private SceneObjectGroup GetGroupByPrim(LLUUID fullID) { List EntityList = GetEntities(); foreach (EntityBase ent in EntityList) { if (ent is SceneObjectGroup) { if (((SceneObjectGroup) ent).HasChildPrim(fullID)) return (SceneObjectGroup) ent; } } return null; } public EntityIntersection GetClosestIntersectingPrim(Ray hray) { // Primitive Ray Tracing float closestDistance = 280f; EntityIntersection returnResult = new EntityIntersection(); foreach (EntityBase ent in Entities.Values) { if (ent is SceneObjectGroup) { SceneObjectGroup reportingG = (SceneObjectGroup) ent; EntityIntersection result = reportingG.TestIntersection(hray); if (result.HitTF) { if (result.distance < closestDistance) { closestDistance = result.distance; returnResult = result; } } } } return returnResult; } public SceneObjectPart GetSceneObjectPart(uint localID) { SceneObjectGroup group = GetGroupByPrim(localID); if (group != null) return group.GetChildPart(localID); else return null; } public SceneObjectPart GetSceneObjectPart(LLUUID fullID) { SceneObjectGroup group = GetGroupByPrim(fullID); if (group != null) return group.GetChildPart(fullID); else return null; } internal bool TryGetAvatar(LLUUID avatarId, out ScenePresence avatar) { ScenePresence presence; if (ScenePresences.TryGetValue(avatarId, out presence)) { if (!presence.IsChildAgent) { avatar = presence; return true; } } avatar = null; return false; } internal bool TryGetAvatarByName(string avatarName, out ScenePresence avatar) { foreach (ScenePresence presence in ScenePresences.Values) { if (!presence.IsChildAgent) { string name = presence.ControllingClient.FirstName + " " + presence.ControllingClient.LastName; if (String.Compare(avatarName, name, true) == 0) { avatar = presence; return true; } } } avatar = null; return false; } public List GetEntities() { List result; lock (Entities) { result = new List(Entities.Values); } return result; } #endregion #region Other Methods public void physicsBasedCrash() { if (UnRecoverableError != null) { UnRecoverableError(); } } public LLUUID ConvertLocalIDToFullID(uint localID) { SceneObjectGroup group = GetGroupByPrim(localID); if (group != null) return group.GetPartsFullID(localID); else return LLUUID.Zero; } public void SendAllSceneObjectsToClient(ScenePresence presence) { List EntityList = GetEntities(); foreach (EntityBase ent in EntityList) { if (ent is SceneObjectGroup) { // Only send child agents stuff in their draw distance. // This will need to be done for every agent once we figure out // what we're going to use to store prim that agents already got // the initial update for and what we'll use to limit the // space we check for new objects on movement. if (presence.IsChildAgent) { //Vector3 avPosition = new Vector3(presence.AbsolutePosition.X,presence.AbsolutePosition.Y,presence.AbsolutePosition.Z); //LLVector3 oLoc = ((SceneObjectGroup)ent).AbsolutePosition; //Vector3 objPosition = new Vector3(oLoc.X,oLoc.Y,oLoc.Z); //float distResult = Vector3Distance(avPosition, objPosition); //if (distResult > 512) //{ //int x = 0; //} //if (distResult < presence.DrawDistance) //{ ((SceneObjectGroup) ent).ScheduleFullUpdateToAvatar(presence); //} } else { ((SceneObjectGroup) ent).ScheduleFullUpdateToAvatar(presence); } } } } internal void ForEachClient(Action action) { foreach (ScenePresence presence in ScenePresences.Values) { action(presence.ControllingClient); } } #endregion #region Client Event handlers /// /// /// /// /// /// public void UpdatePrimScale(uint localID, LLVector3 scale, IClientAPI remoteClient) { SceneObjectGroup group = GetGroupByPrim(localID); if (group != null) { if (PermissionsMngr.CanEditObjectPosition(remoteClient.AgentId, group.UUID)) { group.Resize(scale, localID); } } } /// /// This handles the nifty little tool tip that you get when you drag your mouse over an object /// Send to the Object Group to process. We don't know enough to service the request /// /// /// /// /// public void RequestObjectPropertiesFamily(IClientAPI remoteClient, LLUUID AgentID, uint RequestFlags, LLUUID ObjectID) { SceneObjectGroup group = GetGroupByPrim(ObjectID); if (group != null) group.ServiceObjectPropertiesFamilyRequest(remoteClient, AgentID, RequestFlags); } /// /// /// /// /// /// public void UpdatePrimSingleRotation(uint localID, LLQuaternion rot, IClientAPI remoteClient) { SceneObjectGroup group = GetGroupByPrim(localID); if (group != null) { if (PermissionsMngr.CanEditObjectPosition(remoteClient.AgentId, group.UUID)) { group.UpdateSingleRotation(rot, localID); } } } /// /// /// /// /// /// public void UpdatePrimRotation(uint localID, LLQuaternion rot, IClientAPI remoteClient) { SceneObjectGroup group = GetGroupByPrim(localID); if (group != null) { if (PermissionsMngr.CanEditObjectPosition(remoteClient.AgentId, group.UUID)) { group.UpdateGroupRotation(rot); } } } /// /// /// /// /// /// /// public void UpdatePrimRotation(uint localID, LLVector3 pos, LLQuaternion rot, IClientAPI remoteClient) { SceneObjectGroup group = GetGroupByPrim(localID); if (group != null) { if (PermissionsMngr.CanEditObjectPosition(remoteClient.AgentId, group.UUID)) { group.UpdateGroupRotation(pos, rot); } } } public void UpdatePrimSinglePosition(uint localID, LLVector3 pos, IClientAPI remoteClient) { SceneObjectGroup group = GetGroupByPrim(localID); if (group != null) { if (PermissionsMngr.CanEditObjectPosition(remoteClient.AgentId, group.UUID)) { group.UpdateSinglePosition(pos, localID); } } } /// /// /// /// /// /// public void UpdatePrimPosition(uint localID, LLVector3 pos, IClientAPI remoteClient) { SceneObjectGroup group = GetGroupByPrim(localID); if (group != null) { if (PermissionsMngr.CanEditObjectPosition(remoteClient.AgentId, group.UUID)) { group.UpdateGroupPosition(pos); } } } /// /// /// /// /// /// public void UpdatePrimTexture(uint localID, byte[] texture, IClientAPI remoteClient) { SceneObjectGroup group = GetGroupByPrim(localID); if (group != null) { if (PermissionsMngr.CanEditObjectPosition(remoteClient.AgentId, group.UUID)) { group.UpdateTextureEntry(localID, texture); } } } /// /// /// /// /// /// public void UpdatePrimFlags(uint localID, Packet packet, IClientAPI remoteClient) { SceneObjectGroup group = GetGroupByPrim(localID); if (group != null) { if (PermissionsMngr.CanEditObject(remoteClient.AgentId, group.UUID)) { group.UpdatePrimFlags(localID, (ushort) packet.Type, true, packet.ToBytes()); } } } public void MoveObject(LLUUID objectID, LLVector3 offset, LLVector3 pos, IClientAPI remoteClient) { SceneObjectGroup group = GetGroupByPrim(objectID); if (group != null) { if (PermissionsMngr.CanEditObjectPosition(remoteClient.AgentId, group.UUID)) { group.GrabMovement(offset, pos, remoteClient); } } } /// /// /// /// /// public void PrimName(IClientAPI remoteClient, uint primLocalID, string name) { SceneObjectGroup group = GetGroupByPrim(primLocalID); if (group != null) { if (PermissionsMngr.CanEditObject(remoteClient.AgentId, group.UUID)) { group.SetPartName(Util.CleanString(name), primLocalID); } } } /// /// /// /// /// public void PrimDescription(IClientAPI remoteClient, uint primLocalID, string description) { SceneObjectGroup group = GetGroupByPrim(primLocalID); if (group != null) { if (PermissionsMngr.CanEditObject(remoteClient.AgentId, group.UUID)) { group.SetPartDescription(Util.CleanString(description), primLocalID); } } } public void UpdateExtraParam(LLUUID agentID, uint primLocalID, ushort type, bool inUse, byte[] data) { SceneObjectGroup group = GetGroupByPrim(primLocalID); if (group != null) { if (PermissionsMngr.CanEditObject(agentID, group.UUID)) { group.UpdateExtraParam(primLocalID, type, inUse, data); } } } /// /// /// /// /// public void UpdatePrimShape(LLUUID agentID, uint primLocalID, ObjectShapePacket.ObjectDataBlock shapeBlock) { SceneObjectGroup group = GetGroupByPrim(primLocalID); if (group != null) { if (PermissionsMngr.CanEditObjectPosition(agentID, group.GetPartsFullID(primLocalID))) { group.UpdateShape(shapeBlock, primLocalID); } } } /// /// /// /// /// public void LinkObjects(uint parentPrim, List childPrims) { List EntityList = GetEntities(); SceneObjectGroup parenPrim = null; foreach (EntityBase ent in EntityList) { if (ent is SceneObjectGroup) { if (((SceneObjectGroup) ent).LocalId == parentPrim) { parenPrim = (SceneObjectGroup) ent; break; } } } List children = new List(); if (parenPrim != null) { for (int i = 0; i < childPrims.Count; i++) { foreach (EntityBase ent in EntityList) { if (ent is SceneObjectGroup) { if (((SceneObjectGroup) ent).LocalId == childPrims[i]) { children.Add((SceneObjectGroup) ent); } } } } } foreach (SceneObjectGroup sceneObj in children) { parenPrim.LinkToGroup(sceneObj); } } /// /// Delink a linkset /// /// public void DelinkObjects(List primIds) { SceneObjectGroup parenPrim = null; // Need a list of the SceneObjectGroup local ids // XXX I'm anticipating that building this dictionary once is more efficient than // repeated scanning of the Entity.Values for a large number of primIds. However, it might // be more efficient yet to keep this dictionary permanently on hand. Dictionary sceneObjects = new Dictionary(); List EntitieList = GetEntities(); foreach (EntityBase ent in EntitieList) { if (ent is SceneObjectGroup) { SceneObjectGroup obj = (SceneObjectGroup) ent; sceneObjects.Add(obj.LocalId, obj); } } // Find the root prim among the prim ids we've been given for (int i = 0; i < primIds.Count; i++) { if (sceneObjects.ContainsKey(primIds[i])) { parenPrim = sceneObjects[primIds[i]]; primIds.RemoveAt(i); break; } } if (parenPrim != null) { foreach (uint childPrimId in primIds) { parenPrim.DelinkFromGroup(childPrimId); } } else { MainLog.Instance.Verbose("SCENE", "DelinkObjects(): Could not find a root prim out of {0} as given to a delink request!", primIds); } } /// /// /// /// /// /// public void DuplicateObject(uint originalPrim, LLVector3 offset, uint flags, LLUUID AgentID, LLUUID GroupID) { List EntityList = GetEntities(); SceneObjectGroup originPrim = null; foreach (EntityBase ent in EntityList) { if (ent is SceneObjectGroup) { if (((SceneObjectGroup) ent).LocalId == originalPrim) { originPrim = (SceneObjectGroup) ent; break; } } } if (originPrim != null) { if (PermissionsMngr.CanCopyObject(AgentID, originPrim.UUID)) { SceneObjectGroup copy = originPrim.Copy(AgentID, GroupID); copy.AbsolutePosition = copy.AbsolutePosition + offset; lock (Entities) { Entities.Add(copy.UUID, copy); } m_numPrim++; copy.ScheduleGroupForFullUpdate(); m_parentScene.EventManager.TriggerOnAddEntity(copy.RootPart.LocalID); // rex, added } } else { MainLog.Instance.Warn("client", "Attempted to duplicate nonexistant prim"); } } /// /// Calculates the distance between two Vector3s /// /// /// /// public float Vector3Distance(Vector3 v1, Vector3 v2) { // We don't really need the double floating point precision... // so casting it to a single return (float) Math.Sqrt((v1.x - v2.x)*(v1.x - v2.x) + (v1.y - v2.y)*(v1.y - v2.y) + (v1.z - v2.z)*(v1.z - v2.z)); } #endregion } }