1 files changed, 117 insertions, 207 deletions
diff --git a/OpenSim/Region/ClientStack/LindenUDP/LLImageManager.cs b/OpenSim/Region/ClientStack/LindenUDP/LLImageManager.cs
index b039049..a82eaae 100644
--- a/OpenSim/Region/ClientStack/LindenUDP/LLImageManager.cs
+++ b/OpenSim/Region/ClientStack/LindenUDP/LLImageManager.cs
@@ -27,26 +27,28 @@
 using System;
 using System.Threading;
+using System.Collections;
 using System.Collections.Generic;
+using System.Reflection;
 using OpenMetaverse;
 using OpenMetaverse.Imaging;
 using OpenSim.Framework;
 using OpenSim.Region.Framework.Interfaces;
 using OpenSim.Services.Interfaces;
 using log4net;
-using System.Reflection;
 namespace OpenSim.Region.ClientStack.LindenUDP
 {
    public class LLImageManager
    {
-        
+        private sealed class J2KImageComparer : IComparer<J2KImage>
-        //Public interfaces:
+        {
-        //Constructor - (LLClientView, IAssetCache, IJ2KDecoder);
+            public int Compare(J2KImage x, J2KImage y)
-        //void EnqueueReq - (TextureRequestArgs)
+            {
-        //ProcessImageQueue
+                return x.m_requestedPriority.CompareTo(y.m_requestedPriority);
-        //Close
+            }
+        }
        private static readonly ILog m_log = LogManager.GetLogger(MethodBase.GetCurrentMethod().DeclaringType);
        private bool m_shuttingdown = false;
        private long m_lastloopprocessed = 0;
@@ -54,28 +56,12 @@ namespace OpenSim.Region.ClientStack.LindenUDP
        private LLClientView m_client; //Client we're assigned to
        private IAssetService m_assetCache; //Asset Cache
        private IJ2KDecoder m_j2kDecodeModule; //Our J2K module
+        private C5.IntervalHeap<J2KImage> m_priorityQueue = new C5.IntervalHeap<J2KImage>(10, new J2KImageComparer());
-        private readonly AssetBase m_missingsubstitute; //Sustitute for bad decodes
-        private Dictionary<UUID,J2KImage> m_imagestore; // Our main image storage dictionary
-        private SortedList<double,UUID> m_priorities; // For fast image lookup based on priority
-        private Dictionary<int, int> m_priorityresolver; //Enabling super fast assignment of images with the same priorities
-        private const double doubleMinimum = .0000001;
-        public int m_outstandingtextures = 0;
-        //Constructor
        public LLImageManager(LLClientView client, IAssetService pAssetCache, IJ2KDecoder pJ2kDecodeModule)
        {
-            
-            m_imagestore = new Dictionary<UUID,J2KImage>();
-            m_priorities = new SortedList<double,UUID>();
-            m_priorityresolver = new Dictionary<int, int>();
            m_client = client;
            m_assetCache = pAssetCache;
-            if (pAssetCache != null)
-                m_missingsubstitute = pAssetCache.Get("5748decc-f629-461c-9a36-a35a221fe21f");
-            else
-                m_log.Error("[ClientView] - couldn't set missing image, all manner of things will probably break");
            m_j2kDecodeModule = pJ2kDecodeModule;
        }
@@ -88,174 +74,147 @@ namespace OpenSim.Region.ClientStack.LindenUDP
            //Make sure we're not shutting down..
            if (!m_shuttingdown)
            {
+                J2KImage imgrequest;
-                //Do we already know about this UUID?
+                // Do a linear search for this texture download
-                if (m_imagestore.ContainsKey(newRequest.RequestedAssetID))
+                m_priorityQueue.Find(delegate(J2KImage img) { return img.m_requestedUUID == newRequest.RequestedAssetID; }, out imgrequest);
-                {
-                    //Check the packet sequence to make sure this isn't older than 
-                    //one we've already received
-                    J2KImage imgrequest = m_imagestore[newRequest.RequestedAssetID];
-                    // This is the inbound request sequence number. We can ignore
+                if (imgrequest != null)
-                    // "old" ones.
+                {
+                    if (newRequest.DiscardLevel == -1 && newRequest.Priority == 0f)
-                    if (newRequest.requestSequence > imgrequest.m_lastSequence)
                    {
+                        m_log.Debug("[JPEG2000]: (CAN) ID=" + newRequest.RequestedAssetID);
-                        imgrequest.m_lastSequence = newRequest.requestSequence;
+                        try { m_priorityQueue.Delete(imgrequest.m_priorityQueueHandle); }
+                        catch (Exception) { }
-                        //Check the priority
+                    }
+                    else
+                    {
+                        m_log.DebugFormat("[JPEG2000]: (UPD) ID={0}: D={1}, S={2}, P={3}",
+                        newRequest.RequestedAssetID, newRequest.DiscardLevel, newRequest.PacketNumber, newRequest.Priority);
-                        double priority = imgrequest.m_requestedPriority;
+                        //Check the packet sequence to make sure this isn't older than 
-                        if (priority != newRequest.Priority)
+                        //one we've already received
+                        if (newRequest.requestSequence > imgrequest.m_lastSequence)
                        {
-                            //Remove the old priority
+                            //Update the sequence number of the last RequestImage packet
-                            m_priorities.Remove(imgrequest.m_designatedPriorityKey);
+                            imgrequest.m_lastSequence = newRequest.requestSequence;
-                            //Assign a new unique priority
-                            imgrequest.m_requestedPriority = newRequest.Priority;
-                            imgrequest.m_designatedPriorityKey = AssignPriority(newRequest.RequestedAssetID, newRequest.Priority);
-                        }
-                        //Update the requested discard level
+                            //Update the requested discard level
-                        imgrequest.m_requestedDiscardLevel = newRequest.DiscardLevel;
+                            imgrequest.m_requestedDiscardLevel = newRequest.DiscardLevel;
-                        //Update the requested packet number
+                            //Update the requested packet number
-                        imgrequest.m_requestedPacketNumber = newRequest.PacketNumber;
+                            imgrequest.m_requestedPacketNumber = newRequest.PacketNumber;
-                        //Check if this will create an outstanding texture request
+                            //Update the requested priority
-                        bool activated = imgrequest.m_completedSendAtCurrentDiscardLevel;
+                            imgrequest.m_requestedPriority = newRequest.Priority;
-                        //Run an update
+                            try { m_priorityQueue.Replace(imgrequest.m_priorityQueueHandle, imgrequest); }
+                            catch (Exception) { imgrequest.m_priorityQueueHandle = null; m_priorityQueue.Add(ref imgrequest.m_priorityQueueHandle, imgrequest); }
-                        imgrequest.RunUpdate();
-                        if (activated && !imgrequest.m_completedSendAtCurrentDiscardLevel && imgrequest.m_decoded)
+                            //Run an update
-                        {
+                            imgrequest.RunUpdate();
-                            Interlocked.Increment(ref m_outstandingtextures);
                        }
                    }
                }
                else
                {
-                    J2KImage imgrequest = new J2KImage(this);
+                    if (newRequest.DiscardLevel == -1 && newRequest.Priority == 0f)
+                    {
-                    //Assign our missing substitute
+                        m_log.DebugFormat("[JPEG2000]: (IGN) ID={0}: D={1}, S={2}, P={3}",
-                    imgrequest.m_MissingSubstitute = m_missingsubstitute;
+                            newRequest.RequestedAssetID, newRequest.DiscardLevel, newRequest.PacketNumber, newRequest.Priority);
+                    }
+                    else
+                    {
+                        m_log.DebugFormat("[JPEG2000]: (NEW) ID={0}: D={1}, S={2}, P={3}",
+                            newRequest.RequestedAssetID, newRequest.DiscardLevel, newRequest.PacketNumber, newRequest.Priority);
-                    //Assign our decoder module
+                        imgrequest = new J2KImage(this);
-                    imgrequest.m_j2kDecodeModule = m_j2kDecodeModule;
-                    //Assign our asset cache module
+                        //Assign our decoder module
-                    imgrequest.m_assetCache = m_assetCache;
+                        imgrequest.m_j2kDecodeModule = m_j2kDecodeModule;
-                    //Assign a priority based on our request
+                        //Assign our asset cache module
-                    imgrequest.m_designatedPriorityKey = AssignPriority(newRequest.RequestedAssetID, newRequest.Priority);
+                        imgrequest.m_assetCache = m_assetCache;
-                    //Assign the requested discard level
+                        //Assign the requested discard level
-                    imgrequest.m_requestedDiscardLevel = newRequest.DiscardLevel;
+                        imgrequest.m_requestedDiscardLevel = newRequest.DiscardLevel;
-                    //Assign the requested packet number
+                        //Assign the requested packet number
-                    imgrequest.m_requestedPacketNumber = newRequest.PacketNumber;
+                        imgrequest.m_requestedPacketNumber = newRequest.PacketNumber;
-                    //Assign the requested priority
+                        //Assign the requested priority
-                    imgrequest.m_requestedPriority = newRequest.Priority;
+                        imgrequest.m_requestedPriority = newRequest.Priority;
-                    //Assign the asset uuid
+                        //Assign the asset uuid
-                    imgrequest.m_requestedUUID = newRequest.RequestedAssetID;
+                        imgrequest.m_requestedUUID = newRequest.RequestedAssetID;
-                    m_imagestore.Add(imgrequest.m_requestedUUID, imgrequest);
+                        //Assign the requested priority
+                        imgrequest.m_requestedPriority = newRequest.Priority;
-                    //Run an update
+                        //Add this download to the priority queue
-                    imgrequest.RunUpdate();
+                        m_priorityQueue.Add(ref imgrequest.m_priorityQueueHandle, imgrequest);
+                        //Run an update
+                        imgrequest.RunUpdate();
+                    }
                }
            }
        }
-        private double AssignPriority(UUID pAssetID, double pPriority)
+        public bool ProcessImageQueue(int count, int maxpack)
        {
-            
+            //count is the number of textures we want to process in one go.
-            //First, find out if we can just assign directly
+            //As part of this class re-write, that number will probably rise
-            if (m_priorityresolver.ContainsKey((int)pPriority) == false)
+            //since we're processing in a more efficient manner.
+            // this can happen during Close()
+            if (m_client == null)
+                return false;
+            int numCollected = 0;
+            //Calculate our threshold
+            int threshold;
+            if (m_lastloopprocessed == 0)
            {
-                m_priorities.Add((double)((int)pPriority), pAssetID);
+                if (m_client.PacketHandler == null || m_client.PacketHandler.PacketQueue == null || m_client.PacketHandler.PacketQueue.TextureThrottle == null)
-                m_priorityresolver.Add((int)pPriority, 0);
+                    return false;
-                return (double)((int)pPriority);
+                //This is decent for a semi fast machine, but we'll calculate it more accurately based on time below
+                threshold = m_client.PacketHandler.PacketQueue.TextureThrottle.Current / 6300;
+                m_lastloopprocessed = DateTime.Now.Ticks;
            }
            else
            {
-                //Use the hash lookup goodness of a secondary dictionary to find a free slot
+                double throttleseconds = ((double)DateTime.Now.Ticks - (double)m_lastloopprocessed) / (double)TimeSpan.TicksPerSecond;
-                double mFreePriority = ((int)pPriority) + (doubleMinimum * (m_priorityresolver[(int)pPriority] + 1));
+                throttleseconds = throttleseconds * m_client.PacketHandler.PacketQueue.TextureThrottle.Current;
-                m_priorities[mFreePriority] = pAssetID;
-                m_priorityresolver[(int)pPriority]++;
-                return mFreePriority;
-            }
+                //Average of 1000 bytes per packet
+                throttleseconds = throttleseconds / 1000;
+                //Safe-zone multiplier of 2.0
+                threshold = (int)(throttleseconds * 2.0);
+                m_lastloopprocessed = DateTime.Now.Ticks;
-        }
+            }
-        public bool ProcessImageQueue(int count, int maxpack)
+            if (m_client.PacketHandler == null)
-        {
+                return false;
-            // this can happen during Close()
+            if (m_client.PacketHandler.PacketQueue == null)
-            if (m_client == null)
                return false;
-            
-            //Count is the number of textures we want to process in one go.
-            //As part of this class re-write, that number will probably rise
-            //since we're processing in a more efficient manner.
-            
-            int numCollected = 0;
-             //Calculate our threshold
+            if (threshold < 10)
-             int threshold;
+                threshold = 10;
-             if (m_lastloopprocessed == 0)
-             {
-                  if (m_client.PacketHandler == null || m_client.PacketHandler.PacketQueue == null || m_client.PacketHandler.PacketQueue.TextureThrottle == null)
-                      return false;
-                 //This is decent for a semi fast machine, but we'll calculate it more accurately based on time below
-                  threshold = m_client.PacketHandler.PacketQueue.TextureThrottle.Current / 6300;
-                  m_lastloopprocessed = DateTime.Now.Ticks;
-             }
-             else
-             {
-                 double throttleseconds = ((double)DateTime.Now.Ticks - (double)m_lastloopprocessed) / (double)TimeSpan.TicksPerSecond;
-                 throttleseconds = throttleseconds * m_client.PacketHandler.PacketQueue.TextureThrottle.Current;
- 
-                 //Average of 1000 bytes per packet
-                 throttleseconds = throttleseconds / 1000;
- 
-                 //Safe-zone multiplier of 2.0
-                 threshold = (int)(throttleseconds * 2.0);
-                 m_lastloopprocessed = DateTime.Now.Ticks;
- 
-             }
-             
-             if (threshold < 10)
-             {
-                 threshold = 10;
-             }
-             if (m_client.PacketHandler == null)
-                 return false;
-             if (m_client.PacketHandler.PacketQueue == null)
-                 return false;
-            //First of all make sure our packet queue isn't above our threshold 
            //Uncomment this to see what the texture stack is doing
-             //m_log.Debug("Queue: " + m_client.PacketHandler.PacketQueue.TextureOutgoingPacketQueueCount.ToString() + " Threshold: " + threshold.ToString() + " outstanding: " + m_outstandingtextures.ToString());
+            //m_log.Debug("Queue: " + m_client.PacketHandler.PacketQueue.TextureOutgoingPacketQueueCount.ToString() + " Threshold: " + threshold.ToString() + " outstanding: " + m_outstandingtextures.ToString());
-             if (m_client.PacketHandler.PacketQueue.TextureOutgoingPacketQueueCount < threshold && m_outstandingtextures > 0)
+            if (m_client.PacketHandler.PacketQueue.TextureOutgoingPacketQueueCount < threshold)
-             {
+            {
-                bool justreset = false;
+                while (m_priorityQueue.Count > 0)
-            
-                for (int x = m_priorities.Count - 1; x > -1; x--)
                {
-                    
+                    J2KImage imagereq = m_priorityQueue.FindMax();
-                    J2KImage imagereq = m_imagestore[m_priorities.Values[x]];
-                    if (imagereq.m_decoded == true && !imagereq.m_completedSendAtCurrentDiscardLevel)
+                    if (imagereq.m_decoded == true)
                    {
                        // we need to test this here now that we are dropping assets
                        if (!imagereq.m_hasasset)
@@ -265,78 +224,29 @@ namespace OpenSim.Region.ClientStack.LindenUDP
                            continue;
                        }
-                        numCollected++;
+                        ++numCollected;
                        //SendPackets will send up to ten packets per cycle
                        if (imagereq.SendPackets(m_client, maxpack))
                        {
-                            //Send complete
+                            // Send complete. Destroy any knowledge of this transfer
-                            if (!imagereq.m_completedSendAtCurrentDiscardLevel)
+                            try { m_priorityQueue.Delete(imagereq.m_priorityQueueHandle); }
-                            {
+                            catch (Exception) { }
-                                // I think this field imagereq.m_completedSendAtCurrentDiscardLevel
-                                // is completely redundant
-                                //imagereq.m_completedSendAtCurrentDiscardLevel = true;
-                                Interlocked.Decrement(ref m_outstandingtextures);
-                                // First and foremost, drop the reference to the asset
-                                // so that the asset doesn't stay in memory forever.
-                                // We'll Get it again from the asset service (usually cache)
-                                // if/when the client requests it again.
-                                // In order not to mess much with the current implementation
-                                // of this management code, we drop only the asset reference
-                                // but keep the image request itself.
-                                imagereq.DropAsset();
-                                //Re-assign priority to bottom
-                                //Remove the old priority
-                                m_priorities.Remove(imagereq.m_designatedPriorityKey);
-                                int lowest;
-                                if (m_priorities.Count > 0)
-                                {
-                                    lowest = (int)m_priorities.Keys[0];
-                                    lowest--;
-                                }
-                                else
-                                {
-                                    lowest = -10000;
-                                }
-                                m_priorities.Add((double)lowest, imagereq.m_requestedUUID);
-                                imagereq.m_designatedPriorityKey = (double)lowest;
-                                if (m_priorityresolver.ContainsKey((int)lowest))
-                                {
-                                    m_priorityresolver[(int)lowest]++;
-                                }
-                                else
-                                {
-                                    m_priorityresolver.Add((int)lowest, 0);
-                                }
-                            }
-                        }
-                        if (numCollected == count)
-                        {
-                            break;
                        }
                    }
-                    if (numCollected == count || m_outstandingtextures == 0)
-                        break;
-                    if (numCollected % m_outstandingtextures == 0 && !justreset)
-                    {
-                        //We've gotten as much as we can from the stack,
-                        //reset to the top so that we can send MOAR DATA (nomnomnom)!
-                        x = m_priorities.Count - 1;
-                        justreset = true; //prevents us from getting stuck in a loop
+                    if (numCollected == count)
-                    }
+                        break;
                }
            }
-            return m_outstandingtextures != 0;
+            return m_priorityQueue.Count > 0;
        }
        //Faux destructor
        public void Close()
        {
-            
            m_shuttingdown = true;
            m_j2kDecodeModule = null;
            m_assetCache = null;

diff --git a/OpenSim/Region/ClientStack/LindenUDP/LLImageManager.cs b/OpenSim/Region/ClientStack/LindenUDP/LLImageManager.cs index b039049..a82eaae 100644 --- a/OpenSim/Region/ClientStack/LindenUDP/LLImageManager.cs +++ b/OpenSim/Region/ClientStack/LindenUDP/LLImageManager.cs
@@ -27,26 +27,28 @@
27		27
28	using System;	28	using System;
29	using System.Threading;	29	using System.Threading;
		30	using System.Collections;
30	using System.Collections.Generic;	31	using System.Collections.Generic;
		32	using System.Reflection;
31	using OpenMetaverse;	33	using OpenMetaverse;
32	using OpenMetaverse.Imaging;	34	using OpenMetaverse.Imaging;
33	using OpenSim.Framework;	35	using OpenSim.Framework;
34	using OpenSim.Region.Framework.Interfaces;	36	using OpenSim.Region.Framework.Interfaces;
35	using OpenSim.Services.Interfaces;	37	using OpenSim.Services.Interfaces;
36	using log4net;	38	using log4net;
37	using System.Reflection;
38		39
39	namespace OpenSim.Region.ClientStack.LindenUDP	40	namespace OpenSim.Region.ClientStack.LindenUDP
40	{	41	{
41
42	public class LLImageManager	42	public class LLImageManager
43	{	43	{
44		44	private sealed class J2KImageComparer : IComparer<J2KImage>
45	//Public interfaces:	45	{
46	//Constructor - (LLClientView, IAssetCache, IJ2KDecoder);	46	public int Compare(J2KImage x, J2KImage y)
47	//void EnqueueReq - (TextureRequestArgs)	47	{
48	//ProcessImageQueue	48	return x.m_requestedPriority.CompareTo(y.m_requestedPriority);
49	//Close	49	}
		50	}
		51
50	private static readonly ILog m_log = LogManager.GetLogger(MethodBase.GetCurrentMethod().DeclaringType);	52	private static readonly ILog m_log = LogManager.GetLogger(MethodBase.GetCurrentMethod().DeclaringType);
51	private bool m_shuttingdown = false;	53	private bool m_shuttingdown = false;
52	private long m_lastloopprocessed = 0;	54	private long m_lastloopprocessed = 0;
@@ -54,28 +56,12 @@ namespace OpenSim.Region.ClientStack.LindenUDP
54	private LLClientView m_client; //Client we're assigned to	56	private LLClientView m_client; //Client we're assigned to
55	private IAssetService m_assetCache; //Asset Cache	57	private IAssetService m_assetCache; //Asset Cache
56	private IJ2KDecoder m_j2kDecodeModule; //Our J2K module	58	private IJ2KDecoder m_j2kDecodeModule; //Our J2K module
		59	private C5.IntervalHeap<J2KImage> m_priorityQueue = new C5.IntervalHeap<J2KImage>(10, new J2KImageComparer());
57		60
58	private readonly AssetBase m_missingsubstitute; //Sustitute for bad decodes
59	private Dictionary<UUID,J2KImage> m_imagestore; // Our main image storage dictionary
60	private SortedList<double,UUID> m_priorities; // For fast image lookup based on priority
61	private Dictionary<int, int> m_priorityresolver; //Enabling super fast assignment of images with the same priorities
62
63	private const double doubleMinimum = .0000001;
64
65	public int m_outstandingtextures = 0;
66	//Constructor
67	public LLImageManager(LLClientView client, IAssetService pAssetCache, IJ2KDecoder pJ2kDecodeModule)	61	public LLImageManager(LLClientView client, IAssetService pAssetCache, IJ2KDecoder pJ2kDecodeModule)
68	{	62	{
69
70	m_imagestore = new Dictionary<UUID,J2KImage>();
71	m_priorities = new SortedList<double,UUID>();
72	m_priorityresolver = new Dictionary<int, int>();
73	m_client = client;	63	m_client = client;
74	m_assetCache = pAssetCache;	64	m_assetCache = pAssetCache;
75	if (pAssetCache != null)
76	m_missingsubstitute = pAssetCache.Get("5748decc-f629-461c-9a36-a35a221fe21f");
77	else
78	m_log.Error("[ClientView] - couldn't set missing image, all manner of things will probably break");
79	m_j2kDecodeModule = pJ2kDecodeModule;	65	m_j2kDecodeModule = pJ2kDecodeModule;
80	}	66	}
81		67
@@ -88,174 +74,147 @@ namespace OpenSim.Region.ClientStack.LindenUDP
88	//Make sure we're not shutting down..	74	//Make sure we're not shutting down..
89	if (!m_shuttingdown)	75	if (!m_shuttingdown)
90	{	76	{
		77	J2KImage imgrequest;
91		78
92	//Do we already know about this UUID?	79	// Do a linear search for this texture download
93	if (m_imagestore.ContainsKey(newRequest.RequestedAssetID))	80	m_priorityQueue.Find(delegate(J2KImage img) { return img.m_requestedUUID == newRequest.RequestedAssetID; }, out imgrequest);
94	{
95	//Check the packet sequence to make sure this isn't older than
96	//one we've already received
97
98	J2KImage imgrequest = m_imagestore[newRequest.RequestedAssetID];
99		81
100	// This is the inbound request sequence number. We can ignore	82	if (imgrequest != null)
101	// "old" ones.	83	{
102		84	if (newRequest.DiscardLevel == -1 && newRequest.Priority == 0f)
103	if (newRequest.requestSequence > imgrequest.m_lastSequence)
104	{	85	{
		86	m_log.Debug("[JPEG2000]: (CAN) ID=" + newRequest.RequestedAssetID);
105		87
106	imgrequest.m_lastSequence = newRequest.requestSequence;	88	try { m_priorityQueue.Delete(imgrequest.m_priorityQueueHandle); }
107		89	catch (Exception) { }
108	//Check the priority	90	}
		91	else
		92	{
		93	m_log.DebugFormat("[JPEG2000]: (UPD) ID={0}: D={1}, S={2}, P={3}",
		94	newRequest.RequestedAssetID, newRequest.DiscardLevel, newRequest.PacketNumber, newRequest.Priority);
109		95
110	double priority = imgrequest.m_requestedPriority;	96	//Check the packet sequence to make sure this isn't older than
111	if (priority != newRequest.Priority)	97	//one we've already received
		98	if (newRequest.requestSequence > imgrequest.m_lastSequence)
112	{	99	{
113	//Remove the old priority	100	//Update the sequence number of the last RequestImage packet
114	m_priorities.Remove(imgrequest.m_designatedPriorityKey);	101	imgrequest.m_lastSequence = newRequest.requestSequence;
115	//Assign a new unique priority
116	imgrequest.m_requestedPriority = newRequest.Priority;
117	imgrequest.m_designatedPriorityKey = AssignPriority(newRequest.RequestedAssetID, newRequest.Priority);
118	}
119		102
120	//Update the requested discard level	103	//Update the requested discard level
121	imgrequest.m_requestedDiscardLevel = newRequest.DiscardLevel;	104	imgrequest.m_requestedDiscardLevel = newRequest.DiscardLevel;
122		105
123	//Update the requested packet number	106	//Update the requested packet number
124	imgrequest.m_requestedPacketNumber = newRequest.PacketNumber;	107	imgrequest.m_requestedPacketNumber = newRequest.PacketNumber;
125		108
126	//Check if this will create an outstanding texture request	109	//Update the requested priority
127	bool activated = imgrequest.m_completedSendAtCurrentDiscardLevel;	110	imgrequest.m_requestedPriority = newRequest.Priority;
128	//Run an update	111	try { m_priorityQueue.Replace(imgrequest.m_priorityQueueHandle, imgrequest); }
129		112	catch (Exception) { imgrequest.m_priorityQueueHandle = null; m_priorityQueue.Add(ref imgrequest.m_priorityQueueHandle, imgrequest); }
130	imgrequest.RunUpdate();
131		113
132	if (activated && !imgrequest.m_completedSendAtCurrentDiscardLevel && imgrequest.m_decoded)	114	//Run an update
133	{	115	imgrequest.RunUpdate();
134	Interlocked.Increment(ref m_outstandingtextures);
135	}	116	}
136	}	117	}
137	}	118	}
138	else	119	else
139	{	120	{
140	J2KImage imgrequest = new J2KImage(this);	121	if (newRequest.DiscardLevel == -1 && newRequest.Priority == 0f)
141		122	{
142	//Assign our missing substitute	123	m_log.DebugFormat("[JPEG2000]: (IGN) ID={0}: D={1}, S={2}, P={3}",
143	imgrequest.m_MissingSubstitute = m_missingsubstitute;	124	newRequest.RequestedAssetID, newRequest.DiscardLevel, newRequest.PacketNumber, newRequest.Priority);
		125	}
		126	else
		127	{
		128	m_log.DebugFormat("[JPEG2000]: (NEW) ID={0}: D={1}, S={2}, P={3}",
		129	newRequest.RequestedAssetID, newRequest.DiscardLevel, newRequest.PacketNumber, newRequest.Priority);
144		130
145	//Assign our decoder module	131	imgrequest = new J2KImage(this);
146	imgrequest.m_j2kDecodeModule = m_j2kDecodeModule;
147		132
148	//Assign our asset cache module	133	//Assign our decoder module
149	imgrequest.m_assetCache = m_assetCache;	134	imgrequest.m_j2kDecodeModule = m_j2kDecodeModule;
150		135
151	//Assign a priority based on our request	136	//Assign our asset cache module
152	imgrequest.m_designatedPriorityKey = AssignPriority(newRequest.RequestedAssetID, newRequest.Priority);	137	imgrequest.m_assetCache = m_assetCache;
153		138
154	//Assign the requested discard level	139	//Assign the requested discard level
155	imgrequest.m_requestedDiscardLevel = newRequest.DiscardLevel;	140	imgrequest.m_requestedDiscardLevel = newRequest.DiscardLevel;
156		141
157	//Assign the requested packet number	142	//Assign the requested packet number
158	imgrequest.m_requestedPacketNumber = newRequest.PacketNumber;	143	imgrequest.m_requestedPacketNumber = newRequest.PacketNumber;
159		144
160	//Assign the requested priority	145	//Assign the requested priority
161	imgrequest.m_requestedPriority = newRequest.Priority;	146	imgrequest.m_requestedPriority = newRequest.Priority;
162		147
163	//Assign the asset uuid	148	//Assign the asset uuid
164	imgrequest.m_requestedUUID = newRequest.RequestedAssetID;	149	imgrequest.m_requestedUUID = newRequest.RequestedAssetID;
165		150
166	m_imagestore.Add(imgrequest.m_requestedUUID, imgrequest);	151	//Assign the requested priority
		152	imgrequest.m_requestedPriority = newRequest.Priority;
167		153
168	//Run an update	154	//Add this download to the priority queue
169	imgrequest.RunUpdate();	155	m_priorityQueue.Add(ref imgrequest.m_priorityQueueHandle, imgrequest);
170		156
		157	//Run an update
		158	imgrequest.RunUpdate();
		159	}
171	}	160	}
172	}	161	}
173	}	162	}
174		163
175	private double AssignPriority(UUID pAssetID, double pPriority)	164	public bool ProcessImageQueue(int count, int maxpack)
176	{	165	{
177		166	//count is the number of textures we want to process in one go.
178	//First, find out if we can just assign directly	167	//As part of this class re-write, that number will probably rise
179	if (m_priorityresolver.ContainsKey((int)pPriority) == false)	168	//since we're processing in a more efficient manner.
		169
		170	// this can happen during Close()
		171	if (m_client == null)
		172	return false;
		173
		174	int numCollected = 0;
		175
		176	//Calculate our threshold
		177	int threshold;
		178	if (m_lastloopprocessed == 0)
180	{	179	{
181	m_priorities.Add((double)((int)pPriority), pAssetID);	180	if (m_client.PacketHandler == null \|\| m_client.PacketHandler.PacketQueue == null \|\| m_client.PacketHandler.PacketQueue.TextureThrottle == null)
182	m_priorityresolver.Add((int)pPriority, 0);	181	return false;
183	return (double)((int)pPriority);	182	//This is decent for a semi fast machine, but we'll calculate it more accurately based on time below
		183	threshold = m_client.PacketHandler.PacketQueue.TextureThrottle.Current / 6300;
		184	m_lastloopprocessed = DateTime.Now.Ticks;
184	}	185	}
185	else	186	else
186	{	187	{
187	//Use the hash lookup goodness of a secondary dictionary to find a free slot	188	double throttleseconds = ((double)DateTime.Now.Ticks - (double)m_lastloopprocessed) / (double)TimeSpan.TicksPerSecond;
188	double mFreePriority = ((int)pPriority) + (doubleMinimum * (m_priorityresolver[(int)pPriority] + 1));	189	throttleseconds = throttleseconds * m_client.PacketHandler.PacketQueue.TextureThrottle.Current;
189	m_priorities[mFreePriority] = pAssetID;
190	m_priorityresolver[(int)pPriority]++;
191	return mFreePriority;
192	}
193		190
		191	//Average of 1000 bytes per packet
		192	throttleseconds = throttleseconds / 1000;
194		193
		194	//Safe-zone multiplier of 2.0
		195	threshold = (int)(throttleseconds * 2.0);
		196	m_lastloopprocessed = DateTime.Now.Ticks;
195		197
196	}	198	}
197		199
198	public bool ProcessImageQueue(int count, int maxpack)	200	if (m_client.PacketHandler == null)
199	{	201	return false;
200		202
201	// this can happen during Close()	203	if (m_client.PacketHandler.PacketQueue == null)
202	if (m_client == null)
203	return false;	204	return false;
204
205	//Count is the number of textures we want to process in one go.
206	//As part of this class re-write, that number will probably rise
207	//since we're processing in a more efficient manner.
208
209	int numCollected = 0;
210		205
211	//Calculate our threshold	206	if (threshold < 10)
212	int threshold;	207	threshold = 10;
213	if (m_lastloopprocessed == 0)
214	{
215	if (m_client.PacketHandler == null \|\| m_client.PacketHandler.PacketQueue == null \|\| m_client.PacketHandler.PacketQueue.TextureThrottle == null)
216	return false;
217	//This is decent for a semi fast machine, but we'll calculate it more accurately based on time below
218	threshold = m_client.PacketHandler.PacketQueue.TextureThrottle.Current / 6300;
219	m_lastloopprocessed = DateTime.Now.Ticks;
220	}
221	else
222	{
223	double throttleseconds = ((double)DateTime.Now.Ticks - (double)m_lastloopprocessed) / (double)TimeSpan.TicksPerSecond;
224	throttleseconds = throttleseconds * m_client.PacketHandler.PacketQueue.TextureThrottle.Current;
225
226	//Average of 1000 bytes per packet
227	throttleseconds = throttleseconds / 1000;
228
229	//Safe-zone multiplier of 2.0
230	threshold = (int)(throttleseconds * 2.0);
231	m_lastloopprocessed = DateTime.Now.Ticks;
232
233	}
234
235	if (threshold < 10)
236	{
237	threshold = 10;
238	}
239
240	if (m_client.PacketHandler == null)
241	return false;
242
243	if (m_client.PacketHandler.PacketQueue == null)
244	return false;
245
246	//First of all make sure our packet queue isn't above our threshold
247		208
248	//Uncomment this to see what the texture stack is doing	209	//Uncomment this to see what the texture stack is doing
249	//m_log.Debug("Queue: " + m_client.PacketHandler.PacketQueue.TextureOutgoingPacketQueueCount.ToString() + " Threshold: " + threshold.ToString() + " outstanding: " + m_outstandingtextures.ToString());	210	//m_log.Debug("Queue: " + m_client.PacketHandler.PacketQueue.TextureOutgoingPacketQueueCount.ToString() + " Threshold: " + threshold.ToString() + " outstanding: " + m_outstandingtextures.ToString());
250	if (m_client.PacketHandler.PacketQueue.TextureOutgoingPacketQueueCount < threshold && m_outstandingtextures > 0)	211	if (m_client.PacketHandler.PacketQueue.TextureOutgoingPacketQueueCount < threshold)
251	{	212	{
252	bool justreset = false;	213	while (m_priorityQueue.Count > 0)
253
254	for (int x = m_priorities.Count - 1; x > -1; x--)
255	{	214	{
256		215	J2KImage imagereq = m_priorityQueue.FindMax();
257	J2KImage imagereq = m_imagestore[m_priorities.Values[x]];	216
258	if (imagereq.m_decoded == true && !imagereq.m_completedSendAtCurrentDiscardLevel)	217	if (imagereq.m_decoded == true)
259	{	218	{
260	// we need to test this here now that we are dropping assets	219	// we need to test this here now that we are dropping assets
261	if (!imagereq.m_hasasset)	220	if (!imagereq.m_hasasset)
@@ -265,78 +224,29 @@ namespace OpenSim.Region.ClientStack.LindenUDP
265	continue;	224	continue;
266	}	225	}
267		226
268	numCollected++;	227	++numCollected;
		228
269	//SendPackets will send up to ten packets per cycle	229	//SendPackets will send up to ten packets per cycle
270	if (imagereq.SendPackets(m_client, maxpack))	230	if (imagereq.SendPackets(m_client, maxpack))
271	{	231	{
272	//Send complete	232	// Send complete. Destroy any knowledge of this transfer
273	if (!imagereq.m_completedSendAtCurrentDiscardLevel)	233	try { m_priorityQueue.Delete(imagereq.m_priorityQueueHandle); }
274	{	234	catch (Exception) { }
275	// I think this field imagereq.m_completedSendAtCurrentDiscardLevel
276	// is completely redundant
277	//imagereq.m_completedSendAtCurrentDiscardLevel = true;
278
279	Interlocked.Decrement(ref m_outstandingtextures);
280
281	// First and foremost, drop the reference to the asset
282	// so that the asset doesn't stay in memory forever.
283	// We'll Get it again from the asset service (usually cache)
284	// if/when the client requests it again.
285	// In order not to mess much with the current implementation
286	// of this management code, we drop only the asset reference
287	// but keep the image request itself.
288	imagereq.DropAsset();
289
290	//Re-assign priority to bottom
291	//Remove the old priority
292	m_priorities.Remove(imagereq.m_designatedPriorityKey);
293	int lowest;
294	if (m_priorities.Count > 0)
295	{
296	lowest = (int)m_priorities.Keys[0];
297	lowest--;
298	}
299	else
300	{
301	lowest = -10000;
302	}
303	m_priorities.Add((double)lowest, imagereq.m_requestedUUID);
304	imagereq.m_designatedPriorityKey = (double)lowest;
305	if (m_priorityresolver.ContainsKey((int)lowest))
306	{
307	m_priorityresolver[(int)lowest]++;
308	}
309	else
310	{
311	m_priorityresolver.Add((int)lowest, 0);
312	}
313	}
314	}
315	if (numCollected == count)
316	{
317	break;
318	}	235	}
319	}	236	}
320	if (numCollected == count \|\| m_outstandingtextures == 0)
321	break;
322	if (numCollected % m_outstandingtextures == 0 && !justreset)
323	{
324	//We've gotten as much as we can from the stack,
325	//reset to the top so that we can send MOAR DATA (nomnomnom)!
326	x = m_priorities.Count - 1;
327		237
328	justreset = true; //prevents us from getting stuck in a loop	238	if (numCollected == count)
329	}	239	break;
330	}	240	}
331	}	241	}
332		242
333	return m_outstandingtextures != 0;	243	return m_priorityQueue.Count > 0;
334	}	244	}
335		245
336	//Faux destructor	246	//Faux destructor
337	public void Close()	247	public void Close()
338	{	248	{
339		249
340	m_shuttingdown = true;	250	m_shuttingdown = true;
341	m_j2kDecodeModule = null;	251	m_j2kDecodeModule = null;
342	m_assetCache = null;	252	m_assetCache = null;