public ThreadedMockSender(ISender ReturnPath, object State, IDataHandler Receiver, int RemoveNPTypes, double drop_rate) : base(ReturnPath, State, Receiver, RemoveNPTypes, drop_rate) { _queue = new BlockingQueue(); Thread runner = new Thread(ThreadRun); runner.IsBackground = true; runner.Start(); }
public BlockingQueueAdapter(BlockingQueue bq) { this._bq = bq; }
/// <summary> /// Concurrently puts pieces into DHT /// </summary> /// <returns>True if successful</returns> private bool PutFragsConcurrently(FragmentationInfo fragInfo, byte[] infoKey, int ttl, IList<FingerprintedData> fragments) { bool ret; //prepare the global state int max_enqueues = 1; //we only need a true/false answer BlockingQueue bq_result = new BlockingQueue(max_enqueues); AsyncPutFragsGlobalState global_state = new AsyncPutFragsGlobalState(fragments.Count, fragInfo.BaseKey, bq_result); //@TODO tweak the number of concurrency_degree here. int concurrency_degree = Concurrency; global_state.Concurrency = concurrency_degree; //Put pieces for (int index = 0; index < fragments.Count; index++) { FingerprintedData fpd = fragments[index]; byte[] serializedFpd = fpd.SerializeTo(); Logger.WriteLineIf(LogLevel.Verbose, _log_props, string.Format("Size after serialization {0}", serializedFpd.Length)); byte[] piece_key = BuildFragmentKey(fragInfo.BaseKey, index); string piece_key_string = Encoding.UTF8.GetString(piece_key); //piece state AsyncOpState aps = new AsyncOpState(piece_key, serializedFpd, ttl); AsyncFragsOpState apfs = new AsyncFragsOpState(global_state, aps); //async put, one instance of IDht per put because thread safty not guaranteed IDht proxy = DhtServiceClient.GetXmlRpcDhtClient(_svc_uri.Port); BrunetDhtClientOperations brdht_ops = new BrunetDhtClientOperations( proxy); // Fire the async XML-RPC call. lock (global_state.SyncRoot) { brdht_ops.BeginPutWithCallback(piece_key, serializedFpd, ttl, new AsyncCallback(this.OnDhtPutReturns), apfs); } Logger.WriteLineIf(LogLevel.Verbose, _log_props, string.Format("Put piece {0} to DHT began (asynchronously)", piece_key_string)); if ((concurrency_degree > 1 && (index + 1) % concurrency_degree == 0) || index == fragments.Count - 1) { // Stop to wait for batch finish or all finish global_state.BatchFinishedEvent.WaitOne(); if (concurrency_degree > 1) { Logger.WriteLineIf(LogLevel.Verbose, _log_props, string.Format("Batch {0} finished. Moving on", (int)((index + 1) / concurrency_degree))); } } } //block here until result comes PutFragsStoppedEventArgs stop_args = (PutFragsStoppedEventArgs)bq_result.Dequeue(); // Deal with info object. if (stop_args.IsSuccessful) { ret = _dht.Put(infoKey, fragInfo.SerializeTo(), ttl); if (ret) { Logger.WriteLineIf(LogLevel.Verbose, _log_props, string.Format("FragmentationInfo {0} successfully put", Encoding.UTF8.GetString(infoKey))); } } else { ret = false; } return ret; }
/// <summary> /// Concurrenly gets the fragments from DHT. /// </summary> /// <returns>The fragments</returns> private MemBlock GetFragsConcurrently(byte[] baseKey, int pieceNum, out int largestAge, out int smallestTtl) { // First set the int values to be invalid. smallestTtl = Int32.MaxValue; largestAge = 0; int max_enqueues = 1; BlockingQueue bq_result = new BlockingQueue(max_enqueues); AsyncGetFragsGlobalState global_state = new AsyncGetFragsGlobalState(pieceNum, baseKey, bq_result); int concurrency_degree = Concurrency; global_state.Concurrency = concurrency_degree; for (int i = 0; i < pieceNum; i++) { int index = i; byte[] piece_key = BuildFragmentKey(baseKey, i); string piece_key_string = Encoding.UTF8.GetString(piece_key); // piece state AsyncOpState aps = new AsyncOpState(piece_key); AsyncFragsOpState afos = new AsyncFragsOpState(global_state, aps); // async get, one instance of IDht per get because thread safty not guaranteed IDht proxy = DhtServiceClient.GetXmlRpcDhtClient(_svc_uri.Port); BrunetDhtClientOperations brdht_ops = new BrunetDhtClientOperations( proxy); lock (global_state.SyncRoot) { brdht_ops.BeginGetWithCallback(piece_key, new AsyncCallback(this.OnDhtGetReturns), afos); } Logger.WriteLineIf(LogLevel.Verbose, _log_props, string.Format("Get piece {0} from DHT began (asynchronously)", piece_key_string)); if ((concurrency_degree > 1 && (index + 1) % concurrency_degree == 0) || index == pieceNum - 1) { // Stop to wait for batch finish or all finish global_state.BatchFinishedEvent.WaitOne(); if (concurrency_degree > 1) { Logger.WriteLineIf(LogLevel.Verbose, _log_props, string.Format("Batch {0} finished. Moving on", (int)((index + 1) / concurrency_degree))); } } } //block here until result comes GetFragsStoppedEventArgs stop_args = (GetFragsStoppedEventArgs)bq_result.Dequeue(); //All results have returned. MemBlock ret = new MemBlock(); if (stop_args.IsSuccessful) { // We successfully got everything but aren't sure whether they are // correct. Now parse them. for (int i = 0; i < global_state.Fragments.Length; i++) { try { DhtGetResult dgr = global_state.Fragments[i]; FingerprintedData fpd = (FingerprintedData)DictionaryData.CreateDictionaryData(dgr.value); RegularData rd = fpd.InnerData as RegularData; // This piece is OK. ret = MemBlock.Concat(ret, MemBlock.Reference(rd.PayLoad)); if (smallestTtl > dgr.ttl) smallestTtl = dgr.ttl; if (largestAge < dgr.age) largestAge = dgr.age; //Now it's safe to say, this attempt succeeded. } catch (Exception) { Logger.WriteLineIf(LogLevel.Error, _log_props, string.Format("Parsing Piece failed at index {0}", i)); throw; } } return ret; } return null; }