/*
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* modification, are permitted provided that the following conditions are met:
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* notice, this list of conditions and the following disclaimer in the
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* 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
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* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
using System;
using System.Collections.Generic;
using System.Reflection;
using System.Threading;
using OpenMetaverse;
using OpenMetaverse.Packets;
using log4net;
using OpenSim.Framework.Statistics;
namespace OpenSim.Framework.Communications.Cache
{
public delegate void AssetRequestCallback(UUID assetID, AssetBase asset);
///
/// Manages local cache of assets and their sending to viewers.
///
/// This class actually encapsulates two largely separate mechanisms. One mechanism fetches assets either
/// synchronously or async and passes the data back to the requester. The second mechanism fetches assets and
/// sends packetised data directly back to the client. The only point where they meet is AssetReceived() and
/// AssetNotFound(), which means they do share the same asset and texture caches.
///
/// TODO Assets in this cache are effectively immortal (they are never disposed off through old age).
/// This is not a huge problem at the moment since other memory use usually dwarfs that used by assets
/// but it's something to bear in mind.
///
public class AssetCache : IAssetReceiver
{
private static readonly ILog m_log
= LogManager.GetLogger(MethodBase.GetCurrentMethod().DeclaringType);
///
/// The cache of assets. This does not include textures.
///
private Dictionary Assets;
///
/// The cache of textures.
///
private Dictionary Textures;
///
/// Assets requests which are waiting for asset server data. This includes texture requests
///
private Dictionary RequestedAssets;
///
/// Asset requests with data which are ready to be sent back to requesters. This includes textures.
///
private List AssetRequests;
///
/// Until the asset request is fulfilled, each asset request is associated with a list of requesters
///
private Dictionary RequestLists;
private readonly IAssetServer m_assetServer;
private readonly Thread m_assetCacheThread;
///
/// Report statistical data.
///
public void ShowState()
{
m_log.InfoFormat("Assets:{0} Textures:{1} RequestLists:{2}",
Assets.Count,
Textures.Count,
// AssetRequests.Count,
// RequestedAssets.Count,
RequestLists.Count);
int temporaryImages = 0;
int temporaryAssets = 0;
long imageBytes = 0;
long assetBytes = 0;
foreach (TextureImage texture in Textures.Values)
{
if (texture != null)
{
if (texture.Temporary)
{
temporaryImages++;
}
imageBytes += texture.Data.GetLongLength(0);
}
}
foreach (AssetInfo asset in Assets.Values)
{
if (asset != null)
{
if (asset.Temporary)
{
temporaryAssets++;
}
assetBytes += asset.Data.GetLongLength(0);
}
}
m_log.InfoFormat("Temporary Images: {0} Temporary Assets: {1}",
temporaryImages,
temporaryAssets);
m_log.InfoFormat("Image data: {0}kb Asset data: {1}kb",
imageBytes / 1024,
assetBytes / 1024);
}
///
/// Clear the asset cache.
///
public void Clear()
{
m_log.Info("[ASSET CACHE]: Clearing Asset cache");
if (StatsManager.SimExtraStats != null)
StatsManager.SimExtraStats.ClearAssetCacheStatistics();
Initialize();
}
///
/// Initialize the cache.
///
private void Initialize()
{
Assets = new Dictionary();
Textures = new Dictionary();
AssetRequests = new List();
RequestedAssets = new Dictionary();
RequestLists = new Dictionary();
}
///
/// Constructor. Initialize will need to be called separately.
///
///
public AssetCache(IAssetServer assetServer)
{
m_log.Info("[ASSET CACHE]: Creating Asset cache");
Initialize();
m_assetServer = assetServer;
m_assetServer.SetReceiver(this);
m_assetCacheThread = new Thread(new ThreadStart(RunAssetManager));
m_assetCacheThread.Name = "AssetCacheThread";
m_assetCacheThread.IsBackground = true;
m_assetCacheThread.Start();
ThreadTracker.Add(m_assetCacheThread);
}
///
/// Process the asset queue which holds data which is packeted up and sent
/// directly back to the client.
///
public void RunAssetManager()
{
while (true)
{
try
{
ProcessAssetQueue();
Thread.Sleep(500);
}
catch (Exception e)
{
m_log.Error("[ASSET CACHE]: " + e.ToString());
}
}
}
///
/// Only get an asset if we already have it in the cache.
///
///
///
//private AssetBase GetCachedAsset(UUID assetId)
//{
// AssetBase asset = null;
// if (Textures.ContainsKey(assetId))
// {
// asset = Textures[assetId];
// }
// else if (Assets.ContainsKey(assetId))
// {
// asset = Assets[assetId];
// }
// return asset;
//}
private bool TryGetCachedAsset(UUID assetId, out AssetBase asset)
{
if (Textures.ContainsKey(assetId))
{
asset = Textures[assetId];
return true;
}
else if (Assets.ContainsKey(assetId))
{
asset = Assets[assetId];
return true;
}
asset = null;
return false;
}
///
/// Asynchronously retrieve an asset.
///
///
///
/// A callback invoked when the asset has either been found or not found.
/// If the asset was found this is called with the asset UUID and the asset data
/// If the asset was not found this is still called with the asset UUID but with a null asset data reference
public void GetAsset(UUID assetId, AssetRequestCallback callback, bool isTexture)
{
//m_log.DebugFormat("[ASSET CACHE]: Requesting {0} {1}", isTexture ? "texture" : "asset", assetId);
// Xantor 20080526:
// if a request is made for an asset which is not in the cache yet, but has already been requested by
// something else, queue up the callbacks on that requestor instead of swamping the assetserver
// with multiple requests for the same asset.
AssetBase asset;
if (TryGetCachedAsset(assetId, out asset))
{
callback(assetId, asset);
}
else
{
#if DEBUG
// m_log.DebugFormat("[ASSET CACHE]: Adding request for {0} {1}", isTexture ? "texture" : "asset", assetId);
#endif
NewAssetRequest req = new NewAssetRequest(assetId, callback);
AssetRequestsList requestList;
lock (RequestLists)
{
if (RequestLists.TryGetValue(assetId, out requestList)) // do we already have a request pending?
{
// m_log.DebugFormat("[ASSET CACHE]: Intercepted Duplicate request for {0} {1}", isTexture ? "texture" : "asset", assetId);
// add to callbacks for this assetId
RequestLists[assetId].Requests.Add(req);
}
else
{
// m_log.DebugFormat("[ASSET CACHE]: Adding request for {0} {1}", isTexture ? "texture" : "asset", assetId);
requestList = new AssetRequestsList(assetId);
RequestLists.Add(assetId, requestList);
requestList.Requests.Add(req);
m_assetServer.RequestAsset(assetId, isTexture);
}
}
}
}
///
/// Synchronously retreive an asset. If the asset isn't in the cache, a request will be made to the persistent store to
/// load it into the cache.
///
/// XXX We'll keep polling the cache until we get the asset or we exceed
/// the allowed number of polls. This isn't a very good way of doing things since a single thread
/// is processing inbound packets, so if the asset server is slow, we could block this for up to
/// the timeout period. What we might want to do is register asynchronous callbacks on asset
/// receipt in the same manner as the TextureDownloadModule. Of course,
/// a timeout before asset receipt usually isn't fatal, the operation will work on the retry when the
/// asset is much more likely to have made it into the cache.
///
///
///
/// null if the asset could not be retrieved
public AssetBase GetAsset(UUID assetID, bool isTexture)
{
// I'm not going over 3 seconds since this will be blocking processing of all the other inbound
// packets from the client.
int pollPeriod = 200;
int maxPolls = 15;
AssetBase asset;
if (TryGetCachedAsset(assetID, out asset))
{
return asset;
}
else
{
m_assetServer.RequestAsset(assetID, isTexture);
do
{
Thread.Sleep(pollPeriod);
if (TryGetCachedAsset(assetID, out asset))
{
return asset;
}
} while (--maxPolls > 0);
m_log.WarnFormat("[ASSET CACHE]: {0} {1} was not received before the retrieval timeout was reached",
isTexture ? "texture" : "asset", assetID.ToString());
return null;
}
}
///
/// Add an asset to both the persistent store and the cache.
///
///
public void AddAsset(AssetBase asset)
{
if (asset.Type == (int)AssetType.Texture)
{
if (!Textures.ContainsKey(asset.FullID))
{
TextureImage textur = new TextureImage(asset);
Textures.Add(textur.FullID, textur);
if (StatsManager.SimExtraStats != null)
StatsManager.SimExtraStats.AddTexture(textur);
if (!asset.Temporary)
{
m_assetServer.StoreAsset(asset);
}
}
}
else
{
if (!Assets.ContainsKey(asset.FullID))
{
AssetInfo assetInf = new AssetInfo(asset);
Assets.Add(assetInf.FullID, assetInf);
if (StatsManager.SimExtraStats != null)
StatsManager.SimExtraStats.AddAsset(assetInf);
if (!asset.Temporary)
{
m_assetServer.StoreAsset(asset);
}
}
}
}
///
/// Allows you to clear a specific asset by uuid out
/// of the asset cache. This is needed because the osdynamic
/// texture code grows the asset cache without bounds. The
/// real solution here is a much better cache archicture, but
/// this is a stop gap measure until we have such a thing.
///
public void ExpireAsset(UUID uuid)
{
// uuid is unique, so no need to worry about it showing up
// in the 2 caches differently. Also, locks are probably
// needed in all of this, or move to synchronized non
// generic forms for Dictionaries.
if (Textures.ContainsKey(uuid))
{
Textures.Remove(uuid);
}
else if (Assets.ContainsKey(uuid))
{
Assets.Remove(uuid);
}
}
// See IAssetReceiver
public void AssetReceived(AssetBase asset, bool IsTexture)
{
//check if it is a texture or not
//then add to the correct cache list
//then check for waiting requests for this asset/texture (in the Requested lists)
//and move those requests into the Requests list.
if (IsTexture)
{
TextureImage image = new TextureImage(asset);
if (!Textures.ContainsKey(image.FullID))
{
Textures.Add(image.FullID, image);
if (StatsManager.SimExtraStats != null)
{
StatsManager.SimExtraStats.AddTexture(image);
}
}
}
else
{
AssetInfo assetInf = new AssetInfo(asset);
if (!Assets.ContainsKey(assetInf.FullID))
{
Assets.Add(assetInf.FullID, assetInf);
if (StatsManager.SimExtraStats != null)
{
StatsManager.SimExtraStats.AddAsset(assetInf);
}
if (RequestedAssets.ContainsKey(assetInf.FullID))
{
AssetRequest req = RequestedAssets[assetInf.FullID];
req.AssetInf = assetInf;
req.NumPackets = CalculateNumPackets(assetInf.Data);
RequestedAssets.Remove(assetInf.FullID);
// If it's a direct request for a script, drop it
// because it's a hacked client
if (req.AssetRequestSource != 2 || assetInf.Type != 10)
AssetRequests.Add(req);
}
}
}
// Notify requesters for this asset
if (RequestLists.ContainsKey(asset.FullID))
{
AssetRequestsList reqList = null;
lock (RequestLists)
{
//m_log.Info("AssetCache: Lock taken on requestLists (AssetReceived #1)");
reqList = RequestLists[asset.FullID];
}
//m_log.Info("AssetCache: Lock released on requestLists (AssetReceived #1)");
if (reqList != null)
{
//making a copy of the list is not ideal
//but the old method of locking around this whole block of code was causing a multi-thread lock
//between this and the TextureDownloadModule
//while the localAsset thread running this and trying to send a texture to the callback in the
//texturedownloadmodule , and hitting a lock in there. While the texturedownload thread (which was holding
// the lock in the texturedownload module) was trying to
//request a new asset and hitting a lock in here on the RequestLists.
List theseRequests = new List(reqList.Requests);
reqList.Requests.Clear();
lock (RequestLists)
{
// m_log.Info("AssetCache: Lock taken on requestLists (AssetReceived #2)");
RequestLists.Remove(asset.FullID);
}
//m_log.Info("AssetCache: Lock released on requestLists (AssetReceived #2)");
foreach (NewAssetRequest req in theseRequests)
{
// Xantor 20080526 are we really calling all the callbacks if multiple queued for 1 request? -- Yes, checked
// m_log.DebugFormat("[ASSET CACHE]: Callback for asset {0}", asset.FullID);
req.Callback(asset.FullID, asset);
}
}
}
}
// See IAssetReceiver
public void AssetNotFound(UUID assetID, bool IsTexture)
{
//m_log.WarnFormat("[ASSET CACHE]: AssetNotFound for {0}", assetID);
if (IsTexture)
{
Textures[assetID] = null;
}
else
{
Assets[assetID] = null;
}
// Notify requesters for this asset
AssetRequestsList reqList = null;
lock (RequestLists)
{
// m_log.Info("AssetCache: Lock taken on requestLists (AssetNotFound #1)");
if (RequestLists.ContainsKey(assetID))
{
reqList = RequestLists[assetID];
}
}
// m_log.Info("AssetCache: Lock released on requestLists (AssetNotFound #1)");
if (reqList != null)
{
List theseRequests = new List(reqList.Requests);
reqList.Requests.Clear();
lock (RequestLists)
{
// m_log.Info("AssetCache: Lock taken on requestLists (AssetNotFound #2)");
RequestLists.Remove(assetID);
}
// m_log.Info("AssetCache: Lock released on requestLists (AssetNotFound #2)");
foreach (NewAssetRequest req in theseRequests)
{
req.Callback(assetID, null);
}
}
}
///
/// Calculate the number of packets required to send the asset to the client.
///
///
///
private static int CalculateNumPackets(byte[] data)
{
const uint m_maxPacketSize = 600;
int numPackets = 1;
if (data.LongLength > m_maxPacketSize)
{
// over max number of bytes so split up file
long restData = data.LongLength - m_maxPacketSize;
int restPackets = (int)((restData + m_maxPacketSize - 1) / m_maxPacketSize);
numPackets += restPackets;
}
return numPackets;
}
///
/// Handle an asset request from the client. The result will be sent back asynchronously.
///
///
///
public void AddAssetRequest(IClientAPI userInfo, TransferRequestPacket transferRequest)
{
UUID requestID = null;
byte source = 2;
if (transferRequest.TransferInfo.SourceType == 2)
{
//direct asset request
requestID = new UUID(transferRequest.TransferInfo.Params, 0);
}
else if (transferRequest.TransferInfo.SourceType == 3)
{
//inventory asset request
requestID = new UUID(transferRequest.TransferInfo.Params, 80);
source = 3;
//Console.WriteLine("asset request " + requestID);
}
//check to see if asset is in local cache, if not we need to request it from asset server.
//Console.WriteLine("asset request " + requestID);
if (!Assets.ContainsKey(requestID))
{
//not found asset
// so request from asset server
if (!RequestedAssets.ContainsKey(requestID))
{
AssetRequest request = new AssetRequest();
request.RequestUser = userInfo;
request.RequestAssetID = requestID;
request.TransferRequestID = transferRequest.TransferInfo.TransferID;
request.AssetRequestSource = source;
request.Params = transferRequest.TransferInfo.Params;
RequestedAssets.Add(requestID, request);
m_assetServer.RequestAsset(requestID, false);
}
return;
}
// It has an entry in our cache
AssetInfo asset = Assets[requestID];
// FIXME: We never tell the client about assets which do not exist when requested by this transfer mechanism, which can't be right.
if (null == asset)
{
//m_log.DebugFormat("[ASSET CACHE]: Asset transfer request for asset which is {0} already known to be missing. Dropping", requestID);
return;
}
// Scripts cannot be retrieved by direct request
if (transferRequest.TransferInfo.SourceType == 2 && asset.Type == 10)
return;
// The asset is knosn to exist and is in our cache, so add it to the AssetRequests list
AssetRequest req = new AssetRequest();
req.RequestUser = userInfo;
req.RequestAssetID = requestID;
req.TransferRequestID = transferRequest.TransferInfo.TransferID;
req.AssetRequestSource = source;
req.Params = transferRequest.TransferInfo.Params;
req.AssetInf = asset;
req.NumPackets = CalculateNumPackets(asset.Data);
AssetRequests.Add(req);
}
///
/// Process the asset queue which sends packets directly back to the client.
///
private void ProcessAssetQueue()
{
//should move the asset downloading to a module, like has been done with texture downloading
if (AssetRequests.Count == 0)
{
//no requests waiting
return;
}
// if less than 5, do all of them
int num = Math.Min(5, AssetRequests.Count);
AssetRequest req;
AssetRequestToClient req2 = null;
for (int i = 0; i < num; i++)
{
req = (AssetRequest)AssetRequests[i];
if (req2 == null)
{
req2 = new AssetRequestToClient();
}
// Trying to limit memory usage by only creating AssetRequestToClient if needed
//req2 = new AssetRequestToClient();
req2.AssetInf = (AssetBase)req.AssetInf;
req2.AssetRequestSource = req.AssetRequestSource;
req2.DataPointer = req.DataPointer;
req2.DiscardLevel = req.DiscardLevel;
req2.ImageInfo = (AssetBase)req.ImageInfo;
req2.IsTextureRequest = req.IsTextureRequest;
req2.NumPackets = req.NumPackets;
req2.PacketCounter = req.PacketCounter;
req2.Params = req.Params;
req2.RequestAssetID = req.RequestAssetID;
req2.TransferRequestID = req.TransferRequestID;
req.RequestUser.SendAsset(req2);
}
//remove requests that have been completed
for (int i = 0; i < num; i++)
{
AssetRequests.RemoveAt(0);
}
}
public class AssetRequest
{
public IClientAPI RequestUser;
public UUID RequestAssetID;
public AssetInfo AssetInf;
public TextureImage ImageInfo;
public UUID TransferRequestID;
public long DataPointer = 0;
public int NumPackets = 0;
public int PacketCounter = 0;
public bool IsTextureRequest;
public byte AssetRequestSource = 2;
public byte[] Params = null;
//public bool AssetInCache;
//public int TimeRequested;
public int DiscardLevel = -1;
public AssetRequest()
{
}
}
public class AssetInfo : AssetBase
{
public AssetInfo()
{
}
public AssetInfo(AssetBase aBase)
{
Data = aBase.Data;
FullID = aBase.FullID;
Type = aBase.Type;
Name = aBase.Name;
Description = aBase.Description;
}
}
public class TextureImage : AssetBase
{
public TextureImage()
{
}
public TextureImage(AssetBase aBase)
{
Data = aBase.Data;
FullID = aBase.FullID;
Type = aBase.Type;
Name = aBase.Name;
Description = aBase.Description;
}
}
public class AssetRequestsList
{
public UUID AssetID;
public List Requests = new List();
public AssetRequestsList(UUID assetID)
{
AssetID = assetID;
}
}
public class NewAssetRequest
{
public UUID AssetID;
public AssetRequestCallback Callback;
public NewAssetRequest(UUID assetID, AssetRequestCallback callback)
{
AssetID = assetID;
Callback = callback;
}
}
}
}