Exemplo n.º 1
0
        public override bool Pack(ref UdpBitStream buffer, ref object o)
        {
            pair p = (pair)o;

            buffer.WriteUInt(p.seq, 32);
            buffer.WriteUInt(p.val, 32);

            UdpLog.User("sending {0} (seq: {1})", p.val, p.seq);
            return(true);
        }
Exemplo n.º 2
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        public static uint WriteAxisToBitstream(this float val, int axis, ref UdpBitStream bitstream, bool lowerBitsOnly = false)
        {
            uint compressedAxis = val.CompressAxis(axis);

            bitstream.WriteUInt(val.CompressAxis(axis), lowerBitsOnly ? axisRanges[axis].lowerBits : axisRanges[axis].bits);
            return(compressedAxis);
        }
Exemplo n.º 3
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        public static uint WriteAxisToBitstream(this float val, int axis, ref UdpBitStream bitstream, BitCullingLevel bcl)
        {
            uint compressedAxis = val.CompressAxis(axis);

            bitstream.WriteUInt(val.CompressAxis(axis), axisRanges[axis].GetBitsAtCullLevel(bcl));
            return(compressedAxis);
        }
Exemplo n.º 4
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        public override void MirrorToClients(ref UdpBitStream outstream, Frame frame, bool hasChanged)
        {
            // Write the used flag (if this is not a forced update) and determine if an update needs to be written.
            if (WriteUpdateFlag(ref outstream, frame, hasChanged) == false)
            {
                return;
            }

            if (rotationType == RotationType.Quaternion)
            {
                outstream.WriteULong(frame.elements[index].compTrans, totalBitsForQuat);
            }
            else
            {
                for (int i = 0; i < 3; i++)
                {
                    if (includedAxes.IsXYZ(i))
                    {
                        outstream.WriteUInt(frame.elements[index].compTrans[i], axes[i].bits);
                    }
                }
            }

            lastSentCompressed = frame.elements[index].compTrans;
        }
Exemplo n.º 5
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        public override bool Write(ref UdpBitStream bitstream, Frame frame)
        {
            // Base class does some forceUpdate checking, keep it around.
            bool         forceUpdate = IsUpdateForced(frame);
            ElementFrame e           = frames[frame.frameid];

            e.compXform = Compress();
            e.xform     = Localized;
            CompressedElement newComp = e.compXform;

            if (rotationType == RotationType.Quaternion)
            {
                // For frames between forced updates, we need to first send a flag bit for if this element is being sent
                if (!forceUpdate)
                {
                    bool hasChanged = newComp.quat != lastSentCompressed.quat && sendCullMask.OnChanges();
                    bitstream.WriteBool(hasChanged);

                    // if no changes have occured we are done.
                    if (!hasChanged)
                    {
                        return(false);
                    }
                }

                bitstream.WriteULong(newComp.quat, totalBitsForQuat);

                lastSentCompressed.quat = newComp.quat;
                lastSentTransform       = e.xform;

                return(true);
            }

            else
            {
                // For frames between forced updates, we need to first send a flag bit for if this element is being sent
                if (!forceUpdate)
                {
                    bool hasChanged = !CompressedElement.Compare(newComp, lastSentCompressed) && sendCullMask.OnChanges();
                    bitstream.WriteBool(hasChanged);

                    // if no changes have occured we are done.
                    if (!hasChanged)
                    {
                        return(false);
                    }
                }

                for (int axis = 0; axis < 3; axis++)
                {
                    if (includedAxes.IsXYZ(axis))
                    {
                        bitstream.WriteUInt(newComp[axis], axes[axis].bits);
                        lastSentCompressed[axis] = newComp[axis];
                    }
                }

                return(true);
            }
        }
Exemplo n.º 6
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		public static void WriteWorldCompPosToBitstream(this CompressedElement compressedpos, ref UdpBitStream bitstream, IncludedAxes ia, BitCullingLevel bcl)
		{
			for (int axis = 0; axis < 3; axis++)
			{
				if (ia.IsXYZ(axis)) bitstream.WriteUInt(compressedpos[axis], axisRanges[axis].BitsAtCullLevel(bcl));
			}
		}
Exemplo n.º 7
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 public static void WriteWorldCompPosToBitstream(this CompressedElement compressedpos, ref UdpBitStream bitstream, IncludedAxes ia, bool lowerBitsOnly = false)
 {
     for (int axis = 0; axis < 3; axis++)
     {
         if (ia.IsXYZ(axis))
         {
             bitstream.WriteUInt(compressedpos[axis], lowerBitsOnly ? axisRanges[axis].lowerBits : axisRanges[axis].bits);
         }
     }
 }
Exemplo n.º 8
0
        /// <summary>
        /// Reads update headers for each NST frame update in the incoming bitstream, and passes the bitstream to that NST to read out its
        /// update information.
        /// </summary>
        /// <param name="mirror">True if this is the server, and this is the incoming bitstream. Tells the server that the outstream
        /// needs to be populated for retransmission to all clients. Also false if this is the server running its own outgoing update.</param>
        public static void ReceiveUpdate(ref UdpBitStream bitstream, ref UdpBitStream outstream, bool mirror, int senderId)
        {
            // Create a new bitstream to ensure ptr is at 0. Same data as master though.
            bitstream.ptr = 0;

            int frameid = bitstream.ReadInt(6);

            if (mirror)
            {
                outstream.WriteInt(frameid, 6);
            }

            bool isOfftick = frameid == 60;

            // remove this safety once working
            //TEST
            int        safety = 0;
            UpdateType updateType;

            do
            {
                safety++;
                BandwidthUsage.Start(ref bitstream, BandwidthLogType.UpdateRcv);

                //stop looking when header is EOS
                bool notEOS = bitstream.ReadBool();
                int  mirrorUpdateStartPtr = outstream.ptr;
                BandwidthUsage.AddUsage(ref bitstream, "NotEOS");

                if (mirror)
                {
                    outstream.WriteBool(notEOS);
                }


                if (!notEOS)
                {
                    break;
                }

                // First three bits are the msgtype
                //TODO this might only need to be two
                updateType = (UpdateType)bitstream.ReadInt(3);
                BandwidthUsage.AddUsage(ref bitstream, "UpdateType");

                int updateBitstreamPos = outstream.ptr;
                if (mirror)
                {
                    outstream.WriteInt((int)updateType, 3);
                }

                // Next variable is the NstId - get it to know where to send the rest of the bitstream
                uint nstid = bitstream.ReadUInt(HeaderSettings.single.BitsForNstId);
                BandwidthUsage.AddUsage(ref bitstream, "NstId");

                if (mirror)
                {
                    outstream.WriteUInt(nstid, HeaderSettings.single.BitsForNstId);
                }

                lastNST = NSTTools.GetNstFromId(nstid);
                BandwidthUsage.SetName(lastNST);

                int updatelength = bitstream.ReadInt(UPDATELENGTH_BYTE_COUNT_SIZE);
                if (mirror)
                {
                    outstream.WriteInt(updatelength, UPDATELENGTH_BYTE_COUNT_SIZE);
                }
                BandwidthUsage.AddUsage(ref bitstream, "DataLength");

                //Note the starting pos in stream
                int bodyPtr = bitstream.ptr;
                // The start pos for modifying update lenght for mirror
                int mirrorBodyPtr = outstream.ptr;


                // This mising NST handler is NOT FULLY TESTED. Uses the updatelength value to jump ahead in the bitstream if the NST it is
                // addressed to doesn't exist for some reason.
                if (lastNST == null)
                {
                    //DebugX.LogWarning(!DebugX.logWarnings ? null :
                    DebugX.Log(
                        ("Message for an NST Object " + nstid + " arrived but that object does not exist. (yet/anymore?) This is normal during startup and shutdown."));
                    // Forward to the next update start in the incoming stream.
                    bitstream.ptr = bodyPtr + (updatelength << 3);
                    // rewind to the EOS marker and pretend this arrival never occured for the outgoing mirror stream.
                    outstream.ptr = mirrorUpdateStartPtr;
                    continue;
                }

                // Tell this nst to read its mail. updateType may get modified by server receive for things like teleport.
                Frame frame = lastNST.ReadUpdate(ref bitstream, ref outstream, frameid, isOfftick, updateType, updatelength, mirror);
                updateType = frame.updateType;

                // overwrite the updateType of the server outgoing in case it has changed.
                if (mirror)
                {
                    outstream.WriteIntAtPos((int)updateType, 3, updateBitstreamPos);
                }

                //Advance ptr to next update in stream by force, in case the last update wasn't read for any reason (such as the NST leaving the game)
                bitstream.ptr = bodyPtr + (updatelength << 3);

                // write the update byte length for the mirror (not the same value as the incoming due to server side adjustments)
                if (mirror)
                {
                    int holdPos = outstream.ptr;
                    outstream.ptr = mirrorBodyPtr - UPDATELENGTH_BYTE_COUNT_SIZE;
                    // get the bytesused rounded up.
                    int bytes = ((holdPos - mirrorBodyPtr) >> 3) + (((holdPos - mirrorBodyPtr) % 8 == 0) ? 0 : 1);
                    outstream.WriteInt(bytes, UPDATELENGTH_BYTE_COUNT_SIZE);
                    outstream.ptr = mirrorBodyPtr + (bytes << 3);
                }
            } while (safety < 100);

            /// NST updates are finished - any data to append to the master update can go here
            IntegrityCheck.ReadCheck(ref bitstream, ref outstream, "End of All Update Reads", mirror);

            MasterRTT.Rcv(ref bitstream, ref outstream, mirror, senderId);
            BandwidthUsage.AddUsage(ref bitstream, "RTT checks");

            // Very last thing... report the bits that were used. This is conditional to the editor only
            BandwidthUsage.ReportMasterBits(ref bitstream, BandwidthLogType.MasterIn);
        }
Exemplo n.º 9
0
        public override bool Pack(ref UdpBitStream buffer, ref object o)
        {
            pair p = (pair) o;
            buffer.WriteUInt(p.seq, 32);
            buffer.WriteUInt(p.val, 32);

            UdpLog.User("sending {0} (seq: {1})", p.val, p.seq);
            return true;
        }
Exemplo n.º 10
0
 public override bool Pack(ref UdpBitStream buffer, ref object o)
 {
     buffer.WriteUInt((uint)o, 32);
     return(true);
 }
Exemplo n.º 11
0
        public override void WriteToBitstream(ref UdpBitStream bitstream, MsgType msgType, bool forceUpdate, bool isKeyframe)
        {
            // Base class does some forceUpdate checking, keep it around.
            //forceUpdate = base.WriteToBitstream(ref bitstream, msgType, forceUpdate);
            //bool hasChanged = false;

            if (rotationType == XType.Quaternion)
            {
                ulong compressedQuat = QuatCompress.CompressQuatToBitsBuffer(Localized, totalBitsForQuat);

                // For frames between forced updates, we need to first send a flag bit for if this element is being sent
                if (!forceUpdate)
                {
                    bool hasChanged = compressedQuat != lastSentCompressed;
                    bitstream.WriteBool(hasChanged);

                    // if no changes have occured we are done.
                    if (!hasChanged)
                    {
                        return;
                    }
                }

                bitstream.WriteULong(compressedQuat, totalBitsForQuat);
                lastSentCompressed = compressedQuat;
                return;
            }

            else
            {
                // Euler types...

                CompressedElement newValues = new CompressedElement(0, 0, 0);

                // populate the new compressed position, and test if any of the axes have changed.
                for (int axis = 0; axis < 3; axis++)
                {
                    if (rotationType.IsXYZ(axis))
                    {
                        newValues[axis] = CompressFloat(((Vector3)Localized)[axis], axis);
                    }
                }

                // For frames between forced updates, we need to first send a flag bit for if this element is being sent
                if (!forceUpdate)
                {
                    bool hasChanged = !CompressedElement.Compare(newValues, lastSentCompressed);
                    bitstream.WriteBool(hasChanged);

                    // if no changes have occured we are done.
                    if (!hasChanged)
                    {
                        return;
                    }
                }

                for (int axis = 0; axis < 3; axis++)
                {
                    if (rotationType.IsXYZ(axis))
                    {
                        bitstream.WriteUInt(newValues[axis], xyzBits[axis]);
                        lastSentCompressed[axis] = newValues[axis];
                    }
                }
            }
        }
Exemplo n.º 12
0
        /// <summary>
        /// Reads update headers for each NST frame update in the incoming bitstream, and passes the bitstream to that NST to read out its
        /// update information.
        /// </summary>
        /// <param name="mirror">True if this is the server, and this is the incoming bitstream. Tells the server that the outstream
        /// needs to be populated for retransmission to all clients. Also false if this is the server running its own outgoing update.</param>
        public static void ReceiveUpdate(ref UdpBitStream bitstream, ref UdpBitStream outstream, bool mirror, int senderId)
        {
            // Create a new bitstream to ensure ptr is at 0. Same data as master though.
            bitstream.ptr = 0;

            int frameid = bitstream.ReadInt(6);

            if (mirror)
            {
                outstream.WriteInt(frameid, 6);
            }

            bool isOfftick = frameid == FRAME_COUNT;

            int  sceneIndex     = NSTSceneManager.Deserialize(ref bitstream, ref outstream, mirror);
            bool sceneOutOfSync = HeaderSettings.single.includeSceneIndex && sceneIndex != NSTSceneManager.CurrentSceneIndex;

            if (sceneOutOfSync)
            {
                Debug.LogWarning(frameid + " Out of sync " + sceneIndex + " " + NSTSceneManager.CurrentSceneIndex);
            }


            // remove this safety once working
            //TEST
            int        safety = 0;
            UpdateType updateType;

            do
            {
                safety++;
                BandwidthUsage.Start(ref bitstream, BandwidthLogType.UpdateRcv);

                //stop looking when header is EOS
                bool notEOS = bitstream.ReadBool();
                int  mirrorUpdateStartPtr = outstream.ptr;
                BandwidthUsage.AddUsage(ref bitstream, "NotEOS");

                if (mirror)
                {
                    outstream.WriteBool(notEOS);
                }

                if (!notEOS)
                {
                    break;
                }

                // First three bits are the msgtype
                //TODO this might only need to be two
                updateType = (UpdateType)bitstream.ReadInt(3);
                BandwidthUsage.AddUsage(ref bitstream, "UpdateType");

                int updateBitstreamPos = outstream.ptr;
                if (mirror)
                {
                    outstream.WriteInt((int)updateType, 3);
                }

                // Next variable is the NstId - get it to know where to send the rest of the bitstream
                uint nstid = bitstream.ReadUInt(HeaderSettings.single.BitsForNstId);
                BandwidthUsage.AddUsage(ref bitstream, "NstId");

                if (mirror)
                {
                    outstream.WriteUInt(nstid, HeaderSettings.single.BitsForNstId);
                }

                lastNST = NSTTools.GetNstFromId(nstid);
                BandwidthUsage.SetName(lastNST);

                int updatelength = bitstream.ReadInt(UPDATELENGTH_BYTE_COUNT_SIZE);
                if (mirror)
                {
                    outstream.WriteInt(updatelength, UPDATELENGTH_BYTE_COUNT_SIZE);
                }
                BandwidthUsage.AddUsage(ref bitstream, "DataLength");

                //Note the starting pos in stream
                int bodyPtr = bitstream.ptr;
                // The start pos for modifying update lenght for mirror
                int mirrorBodyPtr = outstream.ptr;

                XDebug.LogWarning(!XDebug.logWarnings ? null :
                                  ("Incoming Update for nstid: " + nstid + " was from a different scene. Ignoring update to avoid data corruption due to different compression settings."), sceneOutOfSync);

                XDebug.Log(!XDebug.logInfo ? null :
                           //Debug.Log(
                           ("Message for an NST Object " + nstid + " arrived but that object does not exist. (yet/anymore?) This is normal during startup and shutdown."), lastNST == null);

                /// Skip reading if the target NST doesn't exist, or if this we compressed with a different scene (codec mismatch likely)
                if (lastNST == null || sceneOutOfSync)
                {
                    if (sceneOutOfSync)
                    {
                        Debug.LogWarning(frameid + " skipped entirely due to sceneID mismatch");
                    }
                    // Forward to the next update start in the incoming stream.
                    bitstream.ptr = bodyPtr + (updatelength << 3);
                    // rewind to the EOS marker and pretend this arrival never occured for the outgoing mirror stream.
                    if (mirror)
                    {
                        /// TODO : Rather than jump ahead, Server should bulk copy the ignored data to outstream in case other clients can use it.
                        outstream.ptr = mirrorUpdateStartPtr;
                    }
                    continue;
                }

                // Tell this nst to read its mail. updateType may get modified by server receive for things like teleport.
                Frame frame = lastNST.ReadUpdate(ref bitstream, ref outstream, frameid, isOfftick, updateType, updatelength, sceneIndex, sceneOutOfSync, mirror);
                updateType = frame.updateType;

                // overwrite the updateType of the server outgoing in case it has changed.
                if (mirror)
                {
                    outstream.WriteIntAtPos((int)updateType, 3, updateBitstreamPos);
                }

                //Advance ptr to next update in stream by force, in case the last update wasn't read for any reason (such as the NST leaving the game)
                bitstream.ptr = bodyPtr + (updatelength << 3);

                // write the update byte length for the mirror (not the same value as the incoming due to server side adjustments)
                if (mirror)
                {
                    int holdPos = outstream.ptr;
                    outstream.ptr = mirrorBodyPtr - UPDATELENGTH_BYTE_COUNT_SIZE;
                    // get the bytesused rounded up.
                    int bytes = ((holdPos - mirrorBodyPtr) >> 3) + (((holdPos - mirrorBodyPtr) % 8 == 0) ? 0 : 1);
                    outstream.WriteInt(bytes, UPDATELENGTH_BYTE_COUNT_SIZE);
                    outstream.ptr = mirrorBodyPtr + (bytes << 3);
                }
            } while (safety < 100);

            /// NST updates are finished - any data to append to the master update can go here
            IntegrityCheck.ReadCheck(ref bitstream, ref outstream, "End of All Update Reads", mirror);

            if (!isOfftick)
            {
                MasterRTT.Rcv(ref bitstream, ref outstream, mirror, senderId);
            }
            BandwidthUsage.AddUsage(ref bitstream, "RTT checks");

            // Very last thing... report the bits that were used. This is conditional to the editor only
            BandwidthUsage.ReportMasterBits(ref bitstream, BandwidthLogType.MasterIn);
        }
Exemplo n.º 13
0
 public static void WriteCompressedAxisToBitstream(this uint val, int axis, ref UdpBitStream bitstream, bool lowerBitsOnly = false)
 {
     bitstream.WriteUInt(val, lowerBitsOnly ? axisRanges[axis].lowerBits : axisRanges[axis].bits);
 }
Exemplo n.º 14
0
 public static void WriteCompressedAxisToBitstream(this uint val, int axis, ref UdpBitStream bitstream, BitCullingLevel bcl)
 {
     bitstream.WriteUInt(val, axisRanges[axis].GetBitsAtCullLevel(bcl));
 }
Exemplo n.º 15
0
        /// <summary>
        /// Reads update headers for each NST frame update in the incoming bitstream, and passes the bitstream to that NST to read out its
        /// update information.
        /// </summary>
        /// <param name="mirror">True if this is the server, and this is the incoming bitstream. Tells the server that the outstream
        /// needs to be populated for retransmission to all clients. Also false if this is the server running its own outgoing update.</param>
        public static void ReceiveUpdate(ref UdpBitStream bitstream, ref UdpBitStream outstream, bool mirror)
        {
            // Create a new bitstream to ensure ptr is at 0. Same data as master though.
            bitstream.Ptr = 0;

            // remove this safety once working
            //TEST
            int        safety = 0;
            UpdateType updateType;

            do
            {
                safety++;
                BandwidthUsage.Start(ref bitstream, BandwidthLogType.UpdateRcv);

                //stop looking when header is EOS
                bool notEOS = bitstream.ReadBool();
                int  mirrorUpdateStartPtr = outstream.Ptr;
                BandwidthUsage.AddUsage(ref bitstream, "NotEOS");

                if (mirror)
                {
                    outstream.WriteBool(notEOS);
                }

                if (!notEOS)
                {
                    break;
                }

                // First three bits are the msgtype
                //TODO this might only need to be two
                updateType = (UpdateType)bitstream.ReadInt(3);
                BandwidthUsage.AddUsage(ref bitstream, "UpdateType");

                int updateBitstreamPos = outstream.Ptr;
                if (mirror)
                {
                    outstream.WriteInt((int)updateType, 3);
                }

                // Next variable is the NstId - get it to know where to send the rest of the bitstream
                uint nstid = bitstream.ReadUInt(NSTSettings.single.bitsForNstId);
                BandwidthUsage.AddUsage(ref bitstream, "NstId");

                if (mirror)
                {
                    outstream.WriteUInt(nstid, NSTSettings.single.bitsForNstId);
                }

                NetworkSyncTransform nst = NetworkSyncTransform.GetNstFromId(nstid);
                BandwidthUsage.SetName(nst);

                int updatelength = bitstream.ReadInt(UPDATELENGTH_BYTE_COUNT_SIZE);
                if (mirror)
                {
                    outstream.WriteInt(updatelength, UPDATELENGTH_BYTE_COUNT_SIZE);
                }
                BandwidthUsage.AddUsage(ref bitstream, "DataLength");

                //Note the starting pos in stream
                int bodyPtr = bitstream.Ptr;
                // The start pos for modifying update lenght for mirror
                int mirrorBodyPtr = outstream.Ptr;

                // This mising NST handler is NOT FULLY TESTED. Uses the updatelength value to jump ahead in the bitstream if the NST it is
                // addressed to doesn't exist for some reason.
                if (nst == null)
                {
                    DebugX.LogWarning(!DebugX.logWarnings ? "" : ("Message for an NST Object arrived but that object does not exist."));
                    // Forward to the next update start in the incoming stream.
                    bitstream.Ptr = bodyPtr + (updatelength << 3);
                    // rewind to the EOS marker and pretend this arrival never occured for the outgoing mirror stream.
                    outstream.Ptr = mirrorUpdateStartPtr;
                    continue;
                }

                // Tell this nst to read its mail. updateType may get modified by server receive for things like teleport.
                updateType = nst.ReceieveGeneric(ref bitstream, ref outstream, updateType, updatelength, mirror);

                // overwrite the updateType of the server outgoing in case it has changed.
                if (mirror)
                {
                    outstream.WriteIntAtPos((int)updateType, 3, updateBitstreamPos);
                }

                //Advance ptr to next update in stream by force, in case the last update wasn't read for any reason (such as the NST leaving the game)
                bitstream.Ptr = bodyPtr + (updatelength << 3);

                // write the update byte length for the mirror (not the same value as the incoming due to server side adjustments)
                if (mirror)
                {
                    int holdPos = outstream.Ptr;
                    outstream.Ptr = mirrorBodyPtr - UPDATELENGTH_BYTE_COUNT_SIZE;
                    // get the bytesused rounded up.
                    int bytes = ((holdPos - mirrorBodyPtr) >> 3) + (((holdPos - mirrorBodyPtr) % 8 == 0) ? 0 : 1);
                    outstream.WriteInt(bytes, UPDATELENGTH_BYTE_COUNT_SIZE);
                    outstream.Ptr = mirrorBodyPtr + (bytes << 3);
                }
            } while (safety < 100);
        }