/* * 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; using System.Collections.Generic; using System.Net; using System.Net.Sockets; using System.Reflection; using System.Runtime.Remoting; using System.Runtime.Remoting.Channels; using System.Runtime.Remoting.Channels.Tcp; using System.Security.Authentication; using System.Threading; using libsecondlife; using log4net; using Nwc.XmlRpc; using OpenSim.Framework; using OpenSim.Framework.Communications; using OpenSim.Framework.Servers; using OpenSim.Region.Communications.Local; namespace OpenSim.Region.Communications.OGS1 { public class OGS1GridServices : IGridServices, IInterRegionCommunications { private static readonly ILog m_log = LogManager.GetLogger(MethodBase.GetCurrentMethod().DeclaringType); private LocalBackEndServices m_localBackend = new LocalBackEndServices(); private Dictionary m_remoteRegionInfoCache = new Dictionary(); private List m_knownRegions = new List(); private Dictionary m_deadRegionCache = new Dictionary(); private Dictionary m_queuedGridSettings = new Dictionary(); public BaseHttpServer httpListener; public NetworkServersInfo serversInfo; public BaseHttpServer httpServer; public string _gdebugRegionName = String.Empty; public string gdebugRegionName { get { return _gdebugRegionName; } set { _gdebugRegionName = value; } } public string _rdebugRegionName = String.Empty; public string rdebugRegionName { get { return _rdebugRegionName; } set { _rdebugRegionName = value; } } /// /// Contructor. Adds "expect_user" and "check" xmlrpc method handlers /// /// /// public OGS1GridServices(NetworkServersInfo servers_info, BaseHttpServer httpServe) { serversInfo = servers_info; httpServer = httpServe; //Respond to Grid Services requests httpServer.AddXmlRPCHandler("expect_user", ExpectUser); httpServer.AddXmlRPCHandler("check", PingCheckReply); StartRemoting(); } // see IGridServices public RegionCommsListener RegisterRegion(RegionInfo regionInfo) { m_log.InfoFormat( "[OGS1 GRID SERVICES]: Attempting to register region {0} with grid at {1}", regionInfo.RegionName, serversInfo.GridURL); Hashtable GridParams = new Hashtable(); // Login / Authentication GridParams["authkey"] = serversInfo.GridSendKey; GridParams["recvkey"] = serversInfo.GridRecvKey; GridParams["UUID"] = regionInfo.RegionID.ToString(); GridParams["sim_ip"] = regionInfo.ExternalHostName; GridParams["sim_port"] = regionInfo.InternalEndPoint.Port.ToString(); GridParams["region_locx"] = regionInfo.RegionLocX.ToString(); GridParams["region_locy"] = regionInfo.RegionLocY.ToString(); GridParams["sim_name"] = regionInfo.RegionName; GridParams["http_port"] = serversInfo.HttpListenerPort.ToString(); GridParams["remoting_port"] = NetworkServersInfo.RemotingListenerPort.ToString(); GridParams["map-image-id"] = regionInfo.EstateSettings.terrainImageID.ToString(); GridParams["originUUID"] = regionInfo.originRegionID.ToString(); GridParams["server_uri"] = regionInfo.ServerURI; GridParams["region_secret"] = regionInfo.regionSecret; // part of an initial brutish effort to provide accurate information (as per the xml region spec) // wrt the ownership of a given region // the (very bad) assumption is that this value is being read and handled inconsistently or // not at all. Current strategy is to put the code in place to support the validity of this information // and to roll forward debugging any issues from that point // // this particular section of the mod attempts to supply a value from the region's xml file to the grid // server for the UUID of the region's owner (master avatar) GridParams["master_avatar_uuid"] = regionInfo.MasterAvatarAssignedUUID.ToString(); // Package into an XMLRPC Request ArrayList SendParams = new ArrayList(); SendParams.Add(GridParams); // Send Request XmlRpcResponse GridResp; try { XmlRpcRequest GridReq = new XmlRpcRequest("simulator_login", SendParams); GridResp = GridReq.Send(serversInfo.GridURL, 30000); } catch (Exception e) { Exception e2 = new Exception( String.Format("Unable to connect to grid at {0}. Grid service not running?", serversInfo.GridURL), e); throw(e2); } Hashtable GridRespData = (Hashtable)GridResp.Value; Hashtable griddatahash = GridRespData; // Process Response if (GridRespData.ContainsKey("error")) { string errorstring = (string) GridRespData["error"]; Exception e = new Exception(String.Format("Unable to connect to grid at {0}: {1}", serversInfo.GridURL, errorstring)); throw e; } else { m_knownRegions = RequestNeighbours(regionInfo.RegionLocX, regionInfo.RegionLocY); if (GridRespData.ContainsKey("allow_forceful_banlines")) { if ((string) GridRespData["allow_forceful_banlines"] != "TRUE") { //m_localBackend.SetForcefulBanlistsDisallowed(regionInfo.RegionHandle); m_queuedGridSettings.Add("allow_forceful_banlines", "FALSE"); } } m_log.InfoFormat( "[OGS1 GRID SERVICES]: Region {0} successfully registered with grid at {1}", regionInfo.RegionName, serversInfo.GridURL); } return m_localBackend.RegisterRegion(regionInfo); } public bool DeregisterRegion(RegionInfo regionInfo) { Hashtable GridParams = new Hashtable(); GridParams["UUID"] = regionInfo.RegionID.ToString(); // Package into an XMLRPC Request ArrayList SendParams = new ArrayList(); SendParams.Add(GridParams); // Send Request XmlRpcRequest GridReq = new XmlRpcRequest("simulator_after_region_moved", SendParams); XmlRpcResponse GridResp = GridReq.Send(serversInfo.GridURL, 10000); Hashtable GridRespData = (Hashtable) GridResp.Value; Hashtable griddatahash = GridRespData; // Process Response if (GridRespData.ContainsKey("error")) { string errorstring = (string)GridRespData["error"]; m_log.Error("Unable to connect to grid: " + errorstring); return false; } // What does DeregisterRegion() do? return m_localBackend.DeregisterRegion(regionInfo); } public virtual Dictionary GetGridSettings() { Dictionary returnGridSettings = new Dictionary(); lock (m_queuedGridSettings) { foreach (string Dictkey in m_queuedGridSettings.Keys) { returnGridSettings.Add(Dictkey, m_queuedGridSettings[Dictkey]); } m_queuedGridSettings.Clear(); } return returnGridSettings; } // see IGridServices public List RequestNeighbours(uint x, uint y) { Hashtable respData = MapBlockQuery((int) x - 1, (int) y - 1, (int) x + 1, (int) y + 1); List neighbours = new List(); foreach (ArrayList neighboursList in respData.Values) { foreach (Hashtable neighbourData in neighboursList) { uint regX = Convert.ToUInt32(neighbourData["x"]); uint regY = Convert.ToUInt32(neighbourData["y"]); if ((x != regX) || (y != regY)) { string simIp = (string) neighbourData["sim_ip"]; uint port = Convert.ToUInt32(neighbourData["sim_port"]); string externalUri = (string) neighbourData["sim_uri"]; string externalIpStr = String.Empty; try { externalIpStr = Util.GetHostFromDNS(simIp).ToString(); } catch (SocketException e) { m_log.WarnFormat("RequestNeighbours(): Lookup of neighbour {0} failed! Not including in neighbours list. {1}", simIp, e); continue; } SimpleRegionInfo sri = new SimpleRegionInfo(regX, regY, simIp, port); sri.RemotingPort = Convert.ToUInt32(neighbourData["remoting_port"]); if (neighbourData.ContainsKey("http_port")) { sri.HttpPort = Convert.ToUInt32(neighbourData["http_port"]); } sri.RegionID = new LLUUID((string) neighbourData["uuid"]); neighbours.Add(sri); } } } return neighbours; } /// /// /// /// /// public RegionInfo RequestNeighbourInfo(LLUUID Region_UUID) { RegionInfo regionInfo; Hashtable requestData = new Hashtable(); requestData["region_UUID"] = Region_UUID.ToString(); requestData["authkey"] = serversInfo.GridSendKey; ArrayList SendParams = new ArrayList(); SendParams.Add(requestData); XmlRpcRequest GridReq = new XmlRpcRequest("simulator_data_request", SendParams); XmlRpcResponse GridResp = GridReq.Send(serversInfo.GridURL, 3000); Hashtable responseData = (Hashtable) GridResp.Value; if (responseData.ContainsKey("error")) { m_log.WarnFormat("[OGS1 GRID SERVICES]: Error received from grid server: {0}", responseData["error"]); return null; } uint regX = Convert.ToUInt32((string) responseData["region_locx"]); uint regY = Convert.ToUInt32((string) responseData["region_locy"]); string internalIpStr = (string) responseData["sim_ip"]; uint port = Convert.ToUInt32(responseData["sim_port"]); string externalUri = (string) responseData["sim_uri"]; IPEndPoint neighbourInternalEndPoint = new IPEndPoint(IPAddress.Parse(internalIpStr), (int) port); string neighbourExternalUri = externalUri; regionInfo = new RegionInfo(regX, regY, neighbourInternalEndPoint, internalIpStr); regionInfo.RemotingPort = Convert.ToUInt32((string) responseData["remoting_port"]); regionInfo.RemotingAddress = internalIpStr; if (responseData.ContainsKey("http_port")) { regionInfo.HttpPort = Convert.ToUInt32((string) responseData["http_port"]); } regionInfo.RegionID = new LLUUID((string) responseData["region_UUID"]); regionInfo.RegionName = (string) responseData["region_name"]; if (requestData.ContainsKey("regionHandle")) { m_remoteRegionInfoCache.Add(Convert.ToUInt64((string) requestData["regionHandle"]), regionInfo); } return regionInfo; } /// /// /// /// /// public RegionInfo RequestNeighbourInfo(ulong regionHandle) { RegionInfo regionInfo = m_localBackend.RequestNeighbourInfo(regionHandle); if (regionInfo != null) { return regionInfo; } if (!m_remoteRegionInfoCache.TryGetValue(regionHandle, out regionInfo)) { try { Hashtable requestData = new Hashtable(); requestData["region_handle"] = regionHandle.ToString(); requestData["authkey"] = serversInfo.GridSendKey; ArrayList SendParams = new ArrayList(); SendParams.Add(requestData); XmlRpcRequest GridReq = new XmlRpcRequest("simulator_data_request", SendParams); XmlRpcResponse GridResp = GridReq.Send(serversInfo.GridURL, 3000); Hashtable responseData = (Hashtable) GridResp.Value; if (responseData.ContainsKey("error")) { m_log.Error("[OGS1 GRID SERVICES]: Error received from grid server: " + responseData["error"]); return null; } uint regX = Convert.ToUInt32((string) responseData["region_locx"]); uint regY = Convert.ToUInt32((string) responseData["region_locy"]); string internalIpStr = (string) responseData["sim_ip"]; uint port = Convert.ToUInt32(responseData["sim_port"]); string externalUri = (string) responseData["sim_uri"]; IPEndPoint neighbourInternalEndPoint = new IPEndPoint(IPAddress.Parse(internalIpStr), (int) port); string neighbourExternalUri = externalUri; regionInfo = new RegionInfo(regX, regY, neighbourInternalEndPoint, internalIpStr); regionInfo.RemotingPort = Convert.ToUInt32((string) responseData["remoting_port"]); regionInfo.RemotingAddress = internalIpStr; if (responseData.ContainsKey("http_port")) { regionInfo.HttpPort = Convert.ToUInt32((string) responseData["http_port"]); } regionInfo.RegionID = new LLUUID((string) responseData["region_UUID"]); regionInfo.RegionName = (string) responseData["region_name"]; m_remoteRegionInfoCache.Add(regionHandle, regionInfo); } catch (WebException) { m_log.Error("[OGS1 GRID SERVICES]: " + "Region lookup failed for: " + regionHandle.ToString() + " - Is the GridServer down?"); return null; } } return regionInfo; } public RegionInfo RequestClosestRegion(string regionName) { foreach (RegionInfo ri in m_remoteRegionInfoCache.Values) if(ri.RegionName == regionName) return ri; RegionInfo regionInfo = null; try { Hashtable requestData = new Hashtable(); requestData["region_name_search"] = regionName; requestData["authkey"] = serversInfo.GridSendKey; ArrayList SendParams = new ArrayList(); SendParams.Add(requestData); XmlRpcRequest GridReq = new XmlRpcRequest("simulator_data_request", SendParams); XmlRpcResponse GridResp = GridReq.Send(serversInfo.GridURL, 3000); Hashtable responseData = (Hashtable) GridResp.Value; if (responseData.ContainsKey("error")) { m_log.Error("[OGS1 GRID SERVICES]: Error received from grid server" + responseData["error"]); return null; } uint regX = Convert.ToUInt32((string) responseData["region_locx"]); uint regY = Convert.ToUInt32((string) responseData["region_locy"]); string internalIpStr = (string) responseData["sim_ip"]; uint port = Convert.ToUInt32(responseData["sim_port"]); string externalUri = (string) responseData["sim_uri"]; IPEndPoint neighbourInternalEndPoint = new IPEndPoint(IPAddress.Parse(internalIpStr), (int) port); string neighbourExternalUri = externalUri; regionInfo = new RegionInfo(regX, regY, neighbourInternalEndPoint, internalIpStr); regionInfo.RemotingPort = Convert.ToUInt32((string) responseData["remoting_port"]); regionInfo.RemotingAddress = internalIpStr; if (responseData.ContainsKey("http_port")) { regionInfo.HttpPort = Convert.ToUInt32((string) responseData["http_port"]); } regionInfo.RegionID = new LLUUID((string) responseData["region_UUID"]); regionInfo.RegionName = (string) responseData["region_name"]; if(!m_remoteRegionInfoCache.ContainsKey(regionInfo.RegionHandle)) m_remoteRegionInfoCache.Add(regionInfo.RegionHandle, regionInfo); } catch (WebException) { m_log.Error("[OGS1 GRID SERVICES]: " + "Region lookup failed for: " + regionName + " - Is the GridServer down?"); } return regionInfo; } /// /// /// /// /// /// /// /// public List RequestNeighbourMapBlocks(int minX, int minY, int maxX, int maxY) { int temp = 0; if (minX > maxX) { temp = minX; minX = maxX; maxX = temp; } if (minY > maxY) { temp = minY; minY = maxY; maxY = temp; } Hashtable respData = MapBlockQuery(minX, minY, maxX, maxY); List neighbours = new List(); foreach (ArrayList a in respData.Values) { foreach (Hashtable n in a) { MapBlockData neighbour = new MapBlockData(); neighbour.X = Convert.ToUInt16(n["x"]); neighbour.Y = Convert.ToUInt16(n["y"]); neighbour.Name = (string) n["name"]; neighbour.Access = Convert.ToByte(n["access"]); neighbour.RegionFlags = Convert.ToUInt32(n["region-flags"]); neighbour.WaterHeight = Convert.ToByte(n["water-height"]); neighbour.MapImageId = new LLUUID((string) n["map-image-id"]); neighbours.Add(neighbour); } } return neighbours; } /// /// Performs a XML-RPC query against the grid server returning mapblock information in the specified coordinates /// /// REDUNDANT - OGS1 is to be phased out in favour of OGS2 /// Minimum X value /// Minimum Y value /// Maximum X value /// Maximum Y value /// Hashtable of hashtables containing map data elements private Hashtable MapBlockQuery(int minX, int minY, int maxX, int maxY) { Hashtable param = new Hashtable(); param["xmin"] = minX; param["ymin"] = minY; param["xmax"] = maxX; param["ymax"] = maxY; IList parameters = new ArrayList(); parameters.Add(param); try { XmlRpcRequest req = new XmlRpcRequest("map_block", parameters); XmlRpcResponse resp = req.Send(serversInfo.GridURL, 10000); Hashtable respData = (Hashtable) resp.Value; return respData; } catch (Exception e) { m_log.Error("MapBlockQuery XMLRPC failure: " + e.ToString()); return new Hashtable(); } } /// /// A ping / version check /// /// /// public XmlRpcResponse PingCheckReply(XmlRpcRequest request) { XmlRpcResponse response = new XmlRpcResponse(); Hashtable respData = new Hashtable(); respData["online"] = "true"; m_localBackend.PingCheckReply(respData); response.Value = respData; return response; } // Grid Request Processing /// /// Received from the user server when a user starts logging in. This call allows /// the region to prepare for direct communication from the client. Sends back an empty /// xmlrpc response on completion. /// /// /// public XmlRpcResponse ExpectUser(XmlRpcRequest request) { m_log.Debug("[CONNECTION DEBUGGING]: Expect User called, starting agent setup ... "); Hashtable requestData = (Hashtable) request.Params[0]; AgentCircuitData agentData = new AgentCircuitData(); agentData.SessionID = new LLUUID((string) requestData["session_id"]); agentData.SecureSessionID = new LLUUID((string) requestData["secure_session_id"]); agentData.firstname = (string) requestData["firstname"]; agentData.lastname = (string) requestData["lastname"]; agentData.AgentID = new LLUUID((string) requestData["agent_id"]); agentData.circuitcode = Convert.ToUInt32(requestData["circuit_code"]); agentData.CapsPath = (string) requestData["caps_path"]; if (requestData.ContainsKey("child_agent") && requestData["child_agent"].Equals("1")) { m_log.Debug("[CONNECTION DEBUGGING]: Child agent detected"); agentData.child = true; } else { m_log.Debug("[CONNECTION DEBUGGING]: Main agent detected"); agentData.startpos = new LLVector3((float)Convert.ToDecimal((string)requestData["startpos_x"]), (float)Convert.ToDecimal((string)requestData["startpos_y"]), (float)Convert.ToDecimal((string)requestData["startpos_z"])); agentData.child = false; } ulong regionHandle = Convert.ToUInt64((string) requestData["regionhandle"]); m_log.Debug("[CONNECTION DEBUGGING]: Triggering welcome for " + agentData.AgentID.ToString() + " into " + regionHandle.ToString()); m_localBackend.TriggerExpectUser(regionHandle, agentData); m_log.Info("[OGS1 GRID SERVICES]: Welcoming new user..."); return new XmlRpcResponse(); } #region m_interRegion Comms /// /// /// private void StartRemoting() { TcpChannel ch; try { ch = new TcpChannel((int)NetworkServersInfo.RemotingListenerPort); ChannelServices.RegisterChannel(ch, false); // Disabled security as Mono doesnt support this. } catch (Exception ex) { m_log.Error("[OGS1 GRID SERVICES]: Exception while attempting to listen on TCP port " + (int)NetworkServersInfo.RemotingListenerPort + "."); throw (ex); } WellKnownServiceTypeEntry wellType = new WellKnownServiceTypeEntry(typeof (OGS1InterRegionRemoting), "InterRegions", WellKnownObjectMode.Singleton); RemotingConfiguration.RegisterWellKnownServiceType(wellType); InterRegionSingleton.Instance.OnArrival += TriggerExpectAvatarCrossing; InterRegionSingleton.Instance.OnChildAgent += IncomingChildAgent; InterRegionSingleton.Instance.OnPrimGroupArrival += IncomingPrim; InterRegionSingleton.Instance.OnPrimGroupNear += TriggerExpectPrimCrossing; InterRegionSingleton.Instance.OnRegionUp += TriggerRegionUp; InterRegionSingleton.Instance.OnChildAgentUpdate += TriggerChildAgentUpdate; InterRegionSingleton.Instance.OnTellRegionToCloseChildConnection += TriggerTellRegionToCloseChildConnection; } #region Methods called by regions in this instance public bool ChildAgentUpdate(ulong regionHandle, ChildAgentDataUpdate cAgentData) { int failures = 0; lock (m_deadRegionCache) { if (m_deadRegionCache.ContainsKey(regionHandle)) { failures = m_deadRegionCache[regionHandle]; } } if (failures <= 3) { RegionInfo regInfo = null; try { if (m_localBackend.ChildAgentUpdate(regionHandle, cAgentData)) { return true; } regInfo = RequestNeighbourInfo(regionHandle); if (regInfo != null) { //don't want to be creating a new link to the remote instance every time like we are here bool retValue = false; OGS1InterRegionRemoting remObject = (OGS1InterRegionRemoting)Activator.GetObject( typeof(OGS1InterRegionRemoting), "tcp://" + regInfo.RemotingAddress + ":" + regInfo.RemotingPort + "/InterRegions"); if (remObject != null) { retValue = remObject.ChildAgentUpdate(regionHandle, cAgentData); } else { m_log.Warn("[OGS1 GRID SERVICES]: remoting object not found"); } remObject = null; // m_log.Info("[INTER]: " + // gdebugRegionName + // ": OGS1 tried to Update Child Agent data on outside region and got " + // retValue.ToString()); return retValue; } NoteDeadRegion(regionHandle); return false; } catch (RemotingException e) { NoteDeadRegion(regionHandle); m_log.WarnFormat( "[OGS1 GRID SERVICES]: Remoting Error: Unable to connect to adjacent region: {0} {1},{2}", regInfo.RegionName, regInfo.RegionLocX, regInfo.RegionLocY); m_log.DebugFormat("[OGS1 GRID SERVICES]: {0} {1}", e.Source, e.Message); return false; } catch (SocketException e) { NoteDeadRegion(regionHandle); m_log.WarnFormat( "[OGS1 GRID SERVICES]: Remoting Error: Unable to connect to adjacent region: {0} {1},{2}", regInfo.RegionName, regInfo.RegionLocX, regInfo.RegionLocY); m_log.DebugFormat("[OGS1 GRID SERVICES]: {0} {1}", e.Source, e.Message); return false; } catch (InvalidCredentialException e) { NoteDeadRegion(regionHandle); m_log.WarnFormat( "[OGS1 GRID SERVICES]: Remoting Error: Unable to connect to adjacent region: {0} {1},{2}", regInfo.RegionName, regInfo.RegionLocX, regInfo.RegionLocY); m_log.DebugFormat("[OGS1 GRID SERVICES]: {0} {1}", e.Source, e.Message); return false; } catch (AuthenticationException e) { NoteDeadRegion(regionHandle); m_log.WarnFormat( "[OGS1 GRID SERVICES]: Remoting Error: Unable to connect to adjacent region: {0} {1},{2}", regInfo.RegionName, regInfo.RegionLocX, regInfo.RegionLocY); m_log.DebugFormat("[OGS1 GRID SERVICES]: {0} {1}", e.Source, e.Message); return false; } catch (Exception e) { NoteDeadRegion(regionHandle); m_log.WarnFormat("[OGS1 GRID SERVICES]: Unable to connect to adjacent region: {0} {1},{2}", regInfo.RegionName, regInfo.RegionLocX, regInfo.RegionLocY); m_log.DebugFormat("[OGS1 GRID SERVICES]: {0} {1}", e.Source, e.Message); return false; } } else { //m_log.Info("[INTERREGION]: Skipped Sending Child Update to a region because it failed too many times:" + regionHandle.ToString()); return false; } } /// /// /// /// /// /// public bool InformRegionOfChildAgent(ulong regionHandle, AgentCircuitData agentData) { RegionInfo regInfo = null; try { if (m_localBackend.InformRegionOfChildAgent(regionHandle, agentData)) { return true; } regInfo = RequestNeighbourInfo(regionHandle); if (regInfo != null) { //don't want to be creating a new link to the remote instance every time like we are here bool retValue = false; OGS1InterRegionRemoting remObject = (OGS1InterRegionRemoting)Activator.GetObject( typeof(OGS1InterRegionRemoting), "tcp://" + regInfo.RemotingAddress + ":" + regInfo.RemotingPort + "/InterRegions"); if (remObject != null) { retValue = remObject.InformRegionOfChildAgent(regionHandle, new sAgentCircuitData(agentData)); } else { m_log.Warn("[OGS1 GRID SERVICES]: remoting object not found"); } remObject = null; m_log.Info("[OGS1 GRID SERVICES]: " + gdebugRegionName + ": OGS1 tried to InformRegionOfChildAgent for " + agentData.firstname + " " + agentData.lastname + " and got " + retValue.ToString()); return retValue; } NoteDeadRegion(regionHandle); return false; } catch (RemotingException e) { NoteDeadRegion(regionHandle); m_log.WarnFormat( "[OGS1 GRID SERVICES]: Remoting Error: Unable to connect to adjacent region: {0} {1},{2}", regInfo.RegionName, regInfo.RegionLocX, regInfo.RegionLocY); m_log.DebugFormat("[OGS1 GRID SERVICES]: {0} {1}", e.Source, e.Message); return false; } catch (SocketException e) { NoteDeadRegion(regionHandle); m_log.WarnFormat( "[OGS1 GRID SERVICES]: Remoting Error: Unable to connect to adjacent region: {0} {1},{2}", regInfo.RegionName, regInfo.RegionLocX, regInfo.RegionLocY); m_log.DebugFormat("[OGS1 GRID SERVICES]: {0} {1}", e.Source, e.Message); return false; } catch (InvalidCredentialException e) { NoteDeadRegion(regionHandle); m_log.WarnFormat( "[OGS1 GRID SERVICES]: Remoting Error: Unable to connect to adjacent region: {0} {1},{2}", regInfo.RegionName, regInfo.RegionLocX, regInfo.RegionLocY); m_log.DebugFormat("[OGS1 GRID SERVICES]: {0} {1}", e.Source, e.Message); return false; } catch (AuthenticationException e) { NoteDeadRegion(regionHandle); m_log.WarnFormat( "[OGS1 GRID SERVICES]: Remoting Error: Unable to connect to adjacent region: {0} {1},{2}", regInfo.RegionName, regInfo.RegionLocX, regInfo.RegionLocY); m_log.DebugFormat("[OGS1 GRID SERVICES]: {0} {1}", e.Source, e.Message); return false; } catch (Exception e) { NoteDeadRegion(regionHandle); m_log.WarnFormat( "[OGS1 GRID SERVICES]: Remoting Error: Unable to connect to adjacent region: {0} {1},{2}", regInfo.RegionName, regInfo.RegionLocX, regInfo.RegionLocY); m_log.DebugFormat("[OGS1 GRID SERVICES]: {0} {1}", e.Source, e.Message); return false; } } // UGLY! public bool RegionUp(SerializableRegionInfo region, ulong regionhandle) { SerializableRegionInfo regInfo = null; try { // You may ask why this is in here... // The region asking the grid services about itself.. // And, surprisingly, the reason is.. it doesn't know // it's own remoting port! How special. RegionUpData regiondata = new RegionUpData(region.RegionLocX, region.RegionLocY, region.ExternalHostName, region.InternalEndPoint.Port); region = new SerializableRegionInfo(RequestNeighbourInfo(region.RegionHandle)); region.RemotingAddress = region.ExternalHostName; region.RemotingPort = NetworkServersInfo.RemotingListenerPort; region.HttpPort = serversInfo.HttpListenerPort; if (m_localBackend.RegionUp(region, regionhandle)) { return true; } regInfo = new SerializableRegionInfo(RequestNeighbourInfo(regionhandle)); if (regInfo != null) { // If we're not trying to remote to ourselves. if (regInfo.RemotingAddress != region.RemotingAddress && region.RemotingAddress != null) { //don't want to be creating a new link to the remote instance every time like we are here bool retValue = false; OGS1InterRegionRemoting remObject = (OGS1InterRegionRemoting) Activator.GetObject( typeof(OGS1InterRegionRemoting), "tcp://" + regInfo.RemotingAddress + ":" + regInfo.RemotingPort + "/InterRegions"); if (remObject != null) { retValue = remObject.RegionUp(regiondata, regionhandle); } else { m_log.Warn("[OGS1 GRID SERVICES]: remoting object not found"); } remObject = null; m_log.Info("[INTER]: " + gdebugRegionName + ": OGS1 tried to inform region I'm up"); return retValue; } else { // We're trying to inform ourselves via remoting. // This is here because we're looping over the listeners before we get here. // Odd but it should work. return true; } } return false; } catch (RemotingException e) { m_log.Warn("[OGS1 GRID SERVICES]: Remoting Error: Unable to connect to adjacent region using tcp://" + regInfo.RemotingAddress + ":" + regInfo.RemotingPort + "/InterRegions - @ " + regInfo.RegionLocX + "," + regInfo.RegionLocY + " - Is this neighbor up?"); m_log.DebugFormat("[OGS1 GRID SERVICES]: {0} {1}", e.Source, e.Message); return false; } catch (SocketException e) { m_log.Warn("[OGS1 GRID SERVICES]: Socket Error: Unable to connect to adjacent region using tcp://" + regInfo.RemotingAddress + ":" + regInfo.RemotingPort + "/InterRegions - @ " + regInfo.RegionLocX + "," + regInfo.RegionLocY + " - Is this neighbor up?"); m_log.DebugFormat("[OGS1 GRID SERVICES]: {0} {1}", e.Source, e.Message); return false; } catch (InvalidCredentialException e) { m_log.Warn("[OGS1 GRID SERVICES]: Invalid Credentials: Unable to connect to adjacent region using tcp://" + regInfo.RemotingAddress + ":" + regInfo.RemotingPort + "/InterRegions - @ " + regInfo.RegionLocX + "," + regInfo.RegionLocY); m_log.DebugFormat("[OGS1 GRID SERVICES]: {0} {1}", e.Source, e.Message); return false; } catch (AuthenticationException e) { m_log.Warn("[OGS1 GRID SERVICES]: Authentication exception: Unable to connect to adjacent region using tcp://" + regInfo.RemotingAddress + ":" + regInfo.RemotingPort + "/InterRegions - @ " + regInfo.RegionLocX + "," + regInfo.RegionLocY); m_log.DebugFormat("[OGS1 GRID SERVICES]: {0} {1}", e.Source, e.Message); return false; } catch (Exception e) { // This line errors with a Null Reference Exception.. Why? @.@ //m_log.Warn("Unknown exception: Unable to connect to adjacent region using tcp://" + regInfo.RemotingAddress + // ":" + regInfo.RemotingPort + //"/InterRegions - @ " + regInfo.RegionLocX + "," + regInfo.RegionLocY + " - This is likely caused by an incompatibility in the protocol between this sim and that one"); m_log.Debug(e.ToString()); return false; } } /// /// /// /// /// /// public bool InformRegionOfPrimCrossing(ulong regionHandle, LLUUID primID, string objData, int XMLMethod) { int failures = 0; lock (m_deadRegionCache) { if (m_deadRegionCache.ContainsKey(regionHandle)) { failures = m_deadRegionCache[regionHandle]; } } if (failures <= 1) { RegionInfo regInfo = null; try { if (m_localBackend.InformRegionOfPrimCrossing(regionHandle, primID, objData, XMLMethod)) { return true; } regInfo = RequestNeighbourInfo(regionHandle); if (regInfo != null) { //don't want to be creating a new link to the remote instance every time like we are here bool retValue = false; OGS1InterRegionRemoting remObject = (OGS1InterRegionRemoting)Activator.GetObject( typeof(OGS1InterRegionRemoting), "tcp://" + regInfo.RemotingAddress + ":" + regInfo.RemotingPort + "/InterRegions"); if (remObject != null) { retValue = remObject.InformRegionOfPrimCrossing(regionHandle, primID.UUID, objData, XMLMethod); } else { m_log.Warn("[OGS1 GRID SERVICES]: Remoting object not found"); } remObject = null; return retValue; } NoteDeadRegion(regionHandle); return false; } catch (RemotingException e) { NoteDeadRegion(regionHandle); m_log.Warn("[OGS1 GRID SERVICES]: Remoting Error: Unable to connect to adjacent region: " + regionHandle); m_log.DebugFormat("[OGS1 GRID SERVICES]: {0} {1}", e.Source, e.Message); return false; } catch (SocketException e) { NoteDeadRegion(regionHandle); m_log.Warn("[OGS1 GRID SERVICES]: Remoting Error: Unable to connect to adjacent region: " + regionHandle); m_log.DebugFormat("[OGS1 GRID SERVICES]: {0} {1}", e.Source, e.Message); return false; } catch (InvalidCredentialException e) { NoteDeadRegion(regionHandle); m_log.Warn("[OGS1 GRID SERVICES]: Invalid Credential Exception: Invalid Credentials : " + regionHandle); m_log.DebugFormat("[OGS1 GRID SERVICES]: {0} {1}", e.Source, e.Message); return false; } catch (AuthenticationException e) { NoteDeadRegion(regionHandle); m_log.Warn("[OGS1 GRID SERVICES]: Authentication exception: Unable to connect to adjacent region: " + regionHandle); m_log.DebugFormat("[OGS1 GRID SERVICES]: {0} {1}", e.Source, e.Message); return false; } catch (Exception e) { NoteDeadRegion(regionHandle); m_log.Warn("[OGS1 GRID SERVICES]: Unknown exception: Unable to connect to adjacent region: " + regionHandle); m_log.DebugFormat("[OGS1 GRID SERVICES]: {0}", e); return false; } } else { return false; } } /// /// /// /// /// /// /// public bool ExpectAvatarCrossing(ulong regionHandle, LLUUID agentID, LLVector3 position, bool isFlying) { RegionInfo regInfo = null; try { if (m_localBackend.TriggerExpectAvatarCrossing(regionHandle, agentID, position, isFlying)) { return true; } regInfo = RequestNeighbourInfo(regionHandle); if (regInfo != null) { bool retValue = false; OGS1InterRegionRemoting remObject = (OGS1InterRegionRemoting) Activator.GetObject( typeof (OGS1InterRegionRemoting), "tcp://" + regInfo.RemotingAddress + ":" + regInfo.RemotingPort + "/InterRegions"); if (remObject != null) { retValue = remObject.ExpectAvatarCrossing(regionHandle, agentID.UUID, new sLLVector3(position), isFlying); } else { m_log.Warn("[OGS1 GRID SERVICES]: Remoting object not found"); } remObject = null; return retValue; } //TODO need to see if we know about where this region is and use .net remoting // to inform it. NoteDeadRegion(regionHandle); return false; } catch (RemotingException e) { NoteDeadRegion(regionHandle); m_log.WarnFormat( "[OGS1 GRID SERVICES]: Remoting Error: Unable to connect to adjacent region: {0} {1},{2}", regInfo.RegionName, regInfo.RegionLocX, regInfo.RegionLocY); m_log.DebugFormat("[OGS1 GRID SERVICES]: {0} {1}", e.Source, e.Message); return false; } catch { NoteDeadRegion(regionHandle); return false; } } public bool ExpectPrimCrossing(ulong regionHandle, LLUUID agentID, LLVector3 position, bool isPhysical) { RegionInfo regInfo = null; try { if (m_localBackend.TriggerExpectPrimCrossing(regionHandle, agentID, position, isPhysical)) { return true; } regInfo = RequestNeighbourInfo(regionHandle); if (regInfo != null) { bool retValue = false; OGS1InterRegionRemoting remObject = (OGS1InterRegionRemoting) Activator.GetObject( typeof (OGS1InterRegionRemoting), "tcp://" + regInfo.RemotingAddress + ":" + regInfo.RemotingPort + "/InterRegions"); if (remObject != null) { retValue = remObject.ExpectAvatarCrossing(regionHandle, agentID.UUID, new sLLVector3(position), isPhysical); } else { m_log.Warn("[OGS1 GRID SERVICES]: Remoting object not found"); } remObject = null; return retValue; } //TODO need to see if we know about where this region is and use .net remoting // to inform it. NoteDeadRegion(regionHandle); return false; } catch (RemotingException e) { NoteDeadRegion(regionHandle); m_log.Warn("[OGS1 GRID SERVICES]: Remoting Error: Unable to connect to adjacent region: " + regionHandle); m_log.DebugFormat("[OGS1 GRID SERVICES]: {0} {1}", e.Source, e.Message); return false; } catch (SocketException e) { NoteDeadRegion(regionHandle); m_log.Warn("[OGS1 GRID SERVICES]: Remoting Error: Unable to connect to adjacent region: " + regionHandle); m_log.DebugFormat("[OGS1 GRID SERVICES]: {0} {1}", e.Source, e.Message); return false; } catch (InvalidCredentialException e) { NoteDeadRegion(regionHandle); m_log.Warn("[OGS1 GRID SERVICES]: Invalid Credential Exception: Invalid Credentials : " + regionHandle); m_log.DebugFormat("[OGS1 GRID SERVICES]: {0} {1}", e.Source, e.Message); return false; } catch (AuthenticationException e) { NoteDeadRegion(regionHandle); m_log.Warn("[OGS1 GRID SERVICES]: Authentication exception: Unable to connect to adjacent region: " + regionHandle); m_log.DebugFormat("[OGS1 GRID SERVICES]: {0} {1}", e.Source, e.Message); return false; } catch (Exception e) { NoteDeadRegion(regionHandle); m_log.Warn("[OGS1 GRID SERVICES]: Unknown exception: Unable to connect to adjacent region: " + regionHandle); m_log.DebugFormat("[OGS1 GRID SERVICES]: {0}", e); return false; } } public bool TellRegionToCloseChildConnection(ulong regionHandle, LLUUID agentID) { RegionInfo regInfo = null; try { if (m_localBackend.TriggerTellRegionToCloseChildConnection(regionHandle, agentID)) { return true; } regInfo = RequestNeighbourInfo(regionHandle); if (regInfo != null) { bool retValue = false; OGS1InterRegionRemoting remObject = (OGS1InterRegionRemoting)Activator.GetObject( typeof(OGS1InterRegionRemoting), "tcp://" + regInfo.RemotingAddress + ":" + regInfo.RemotingPort + "/InterRegions"); if (remObject != null) { retValue = remObject.TellRegionToCloseChildConnection(regionHandle, agentID.UUID); } else { m_log.Warn("[OGS1 GRID SERVICES]: Remoting object not found"); } remObject = null; return true; } //TODO need to see if we know about where this region is and use .net remoting // to inform it. NoteDeadRegion(regionHandle); return false; } catch (RemotingException) { NoteDeadRegion(regionHandle); m_log.Warn("[OGS1 GRID SERVICES]: Remoting Error: Unable to connect to adjacent region to tell it to close child agents: " + regInfo.RegionName + " " + regInfo.RegionLocX + "," + regInfo.RegionLocY); //m_log.Debug(e.ToString()); return false; } catch (SocketException e) { NoteDeadRegion(regionHandle); m_log.Warn("[OGS1 GRID SERVICES]: Socket Error: Unable to connect to adjacent region using tcp://" + regInfo.RemotingAddress + ":" + regInfo.RemotingPort + "/InterRegions - @ " + regInfo.RegionLocX + "," + regInfo.RegionLocY + " - Is this neighbor up?"); m_log.DebugFormat("[OGS1 GRID SERVICES]: {0} {1}", e.Source, e.Message); return false; } catch (InvalidCredentialException e) { NoteDeadRegion(regionHandle); m_log.Warn("[OGS1 GRID SERVICES]: Invalid Credentials: Unable to connect to adjacent region using tcp://" + regInfo.RemotingAddress + ":" + regInfo.RemotingPort + "/InterRegions - @ " + regInfo.RegionLocX + "," + regInfo.RegionLocY); m_log.DebugFormat("[OGS1 GRID SERVICES]: {0} {1}", e.Source, e.Message); return false; } catch (AuthenticationException e) { NoteDeadRegion(regionHandle); m_log.Warn("[OGS1 GRID SERVICES]: Authentication exception: Unable to connect to adjacent region using tcp://" + regInfo.RemotingAddress + ":" + regInfo.RemotingPort + "/InterRegions - @ " + regInfo.RegionLocX + "," + regInfo.RegionLocY); m_log.DebugFormat("[OGS1 GRID SERVICES]: {0} {1}", e.Source, e.Message); return false; } catch (WebException e) { NoteDeadRegion(regionHandle); m_log.Warn("[OGS1 GRID SERVICES]: WebException exception: Unable to connect to adjacent region using tcp://" + regInfo.RemotingAddress + ":" + regInfo.RemotingPort + "/InterRegions - @ " + regInfo.RegionLocX + "," + regInfo.RegionLocY); m_log.DebugFormat("[OGS1 GRID SERVICES]: {0} {1}", e.Source, e.Message); return false; } catch (Exception e) { NoteDeadRegion(regionHandle); // This line errors with a Null Reference Exception.. Why? @.@ //m_log.Warn("Unknown exception: Unable to connect to adjacent region using tcp://" + regInfo.RemotingAddress + // ":" + regInfo.RemotingPort + //"/InterRegions - @ " + regInfo.RegionLocX + "," + regInfo.RegionLocY + " - This is likely caused by an incompatibility in the protocol between this sim and that one"); m_log.DebugFormat("[OGS1 GRID SERVICES]: {0}", e); return false; } } public bool AcknowledgeAgentCrossed(ulong regionHandle, LLUUID agentId) { return m_localBackend.AcknowledgeAgentCrossed(regionHandle, agentId); } public bool AcknowledgePrimCrossed(ulong regionHandle, LLUUID primId) { return m_localBackend.AcknowledgePrimCrossed(regionHandle, primId); } #endregion #region Methods triggered by calls from external instances /// /// /// /// /// /// public bool IncomingChildAgent(ulong regionHandle, AgentCircuitData agentData) { //m_log.Info("[INTER]: " + gdebugRegionName + ": Incoming OGS1 Agent " + agentData.firstname + " " + agentData.lastname); try { return m_localBackend.IncomingChildAgent(regionHandle, agentData); } catch (RemotingException) { //m_log.Error("Remoting Error: Unable to connect to adjacent region.\n" + e.ToString()); return false; } } public bool TriggerRegionUp(RegionUpData regionData, ulong regionhandle) { m_log.Info("[OGS1 GRID SERVICES]: " + gdebugRegionName + "Incoming OGS1 RegionUpReport: " + "(" + regionData.X + "," + regionData.Y + "). Giving this region a fresh set of 'dead' tries"); RegionInfo nRegionInfo = new RegionInfo(); nRegionInfo.SetEndPoint("127.0.0.1", regionData.PORT); nRegionInfo.ExternalHostName = regionData.IPADDR; nRegionInfo.RegionLocX = regionData.X; nRegionInfo.RegionLocY = regionData.Y; try { lock (m_deadRegionCache) { if (m_deadRegionCache.ContainsKey(nRegionInfo.RegionHandle)) { m_deadRegionCache.Remove(nRegionInfo.RegionHandle); } } return m_localBackend.TriggerRegionUp(nRegionInfo, regionhandle); } catch (RemotingException e) { m_log.Error("[OGS1 GRID SERVICES]: Remoting Error: Unable to connect to adjacent region.\n" + e.ToString()); return false; } } public bool TriggerChildAgentUpdate(ulong regionHandle, ChildAgentDataUpdate cAgentData) { //m_log.Info("[INTER]: Incoming OGS1 Child Agent Data Update"); try { return m_localBackend.TriggerChildAgentUpdate(regionHandle, cAgentData); } catch (RemotingException e) { m_log.Error("[OGS1 GRID SERVICES]: Remoting Error: Unable to connect to adjacent region.\n" + e.ToString()); return false; } } /// /// /// /// /// /// public bool IncomingPrim(ulong regionHandle, LLUUID primID, string objData, int XMLMethod) { // Is this necessary? try { m_localBackend.TriggerExpectPrim(regionHandle, primID, objData, XMLMethod); return true; //m_localBackend. } catch (RemotingException e) { m_log.Error("[OGS1 GRID SERVICES]: Remoting Error: Unable to connect to adjacent region.\n" + e.ToString()); return false; } } /// /// /// /// /// /// /// public bool TriggerExpectAvatarCrossing(ulong regionHandle, LLUUID agentID, LLVector3 position, bool isFlying) { try { return m_localBackend.TriggerExpectAvatarCrossing(regionHandle, agentID, position, isFlying); } catch (RemotingException e) { m_log.Error("[OGS1 GRID SERVICES]: Remoting Error: Unable to connect to adjacent region.\n" + e.ToString()); return false; } } public bool TriggerExpectPrimCrossing(ulong regionHandle, LLUUID agentID, LLVector3 position, bool isPhysical) { try { return m_localBackend.TriggerExpectPrimCrossing(regionHandle, agentID, position, isPhysical); } catch (RemotingException e) { m_log.Error("[OGS1 GRID SERVICES]: Remoting Error: Unable to connect to adjacent region.\n" + e.ToString()); return false; } } public bool TriggerTellRegionToCloseChildConnection(ulong regionHandle, LLUUID agentID) { try { return m_localBackend.TriggerTellRegionToCloseChildConnection(regionHandle, agentID); } catch (RemotingException) { m_log.Info("[OGS1 GRID SERVICES]: Remoting Error: Unable to connect to neighbour to tell it to close a child connection"); return false; } } #endregion #endregion // helper to see if remote region is up bool m_bAvailable = false; int timeOut = 10; //10 seconds public void CheckRegion(string address, uint port) { m_bAvailable = false; IPAddress ia = null; IPAddress.TryParse(address, out ia); IPEndPoint m_EndPoint = new IPEndPoint(ia, (int)port); AsyncCallback ConnectedMethodCallback = new AsyncCallback(ConnectedMethod); Socket socket = new Socket(AddressFamily.InterNetwork, SocketType.Stream, ProtocolType.Tcp); IAsyncResult ar = socket.BeginConnect(m_EndPoint, ConnectedMethodCallback, socket); ar.AsyncWaitHandle.WaitOne(timeOut*1000, false); Thread.Sleep(500); } public bool Available { get { return m_bAvailable; } } void ConnectedMethod(IAsyncResult ar) { Socket socket = (Socket)ar.AsyncState; try { socket.EndConnect(ar); m_bAvailable = true; } catch (Exception) { } socket.Close(); } public void NoteDeadRegion(ulong regionhandle) { lock (m_deadRegionCache) { if (m_deadRegionCache.ContainsKey(regionhandle)) { m_deadRegionCache[regionhandle] = m_deadRegionCache[regionhandle] + 1; } else { m_deadRegionCache.Add(regionhandle, 1); } } } } }