/* * * Licensed to the Apache Software Foundation (ASF) under one * or more contributor license agreements. See the NOTICE file * distributed with this work for additional information * regarding copyright ownership. The ASF licenses this file * to you under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance * with the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, * software distributed under the License is distributed on an * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY * KIND, either express or implied. See the License for the * specific language governing permissions and limitations * under the License. * */ using System; using System.Text; using log4net; using Qpid.Client.Qms.Failover; namespace Qpid.Client.Qms { public class FailoverPolicy { private static readonly ILog _logger = LogManager.GetLogger(typeof(FailoverPolicy)); private const long MINUTE = 60000L; private const long DEFAULT_METHOD_TIMEOUT = 1 * MINUTE; private const long DEFAULT_FAILOVER_TIMEOUT = 4 * MINUTE; private IFailoverMethod[] _methods = new IFailoverMethod[1]; private int _currentMethod; private int _methodsRetries; private int _currentRetry; private bool _timing; private long _lastMethodTime; private long _lastFailTime; public FailoverPolicy(IConnectionInfo connectionInfo) { IFailoverMethod method; //todo This should be integrated in to the connection url when it supports // multiple strategies. _methodsRetries = 0; if (connectionInfo.FailoverMethod == null) { if (connectionInfo.BrokerCount > 1) { method = new FailoverRoundRobin(connectionInfo); } else { method = new FailoverSingleServer(connectionInfo); } } else { string failoverMethod = connectionInfo.FailoverMethod; /* if (failoverMethod.equals(FailoverMethod.RANDOM)) { //todo write a random connection Failover } */ if (failoverMethod.Equals(FailoverMethodConstants.ROUND_ROBIN)) { method = new FailoverRoundRobin(connectionInfo); } else { throw new NotImplementedException("Dynamic loading of FailoverMethods not yet implemented."); // try // { // Type[] constructorSpec = {ConnectionInfo.class}; // Object [] params = {connectionInfo}; // // method = (FailoverMethod) ClassLoader.getSystemClassLoader(). // loadClass(failoverMethod). // getConstructor(constructorSpec).newInstance(params); // } // catch (Exception cnfe) // { // throw new IllegalArgumentException("Unknown failover method:" + failoverMethod); // } } } if (method == null) { throw new ArgumentException("Unknown failover method specified."); } reset(); _methods[_currentMethod] = method; } public FailoverPolicy(IFailoverMethod method) : this(method, 0) { } public FailoverPolicy(IFailoverMethod method, int retries) { _methodsRetries = retries; reset(); _methods[_currentMethod] = method; } private void reset() { _currentMethod = 0; _currentRetry = 0; _timing = false; } public bool FailoverAllowed() { bool failoverAllowed; if (_timing) { long now = CurrentTimeMilliseconds(); if ((now - _lastMethodTime) >= DEFAULT_METHOD_TIMEOUT) { _logger.Info("Failover method timeout"); _lastMethodTime = now; if (!nextMethod()) { return false; } } else if ((now - _lastFailTime) >= DEFAULT_FAILOVER_TIMEOUT) { _logger.Info("Failover timeout"); return false; } else { _lastMethodTime = now; } } else { _timing = true; _lastMethodTime = CurrentTimeMilliseconds(); _lastFailTime = _lastMethodTime; } if (_methods[_currentMethod].FailoverAllowed()) { failoverAllowed = true; } else { if (_currentMethod < (_methods.Length - 1)) { nextMethod(); _logger.Info("Changing method to " + _methods[_currentMethod].MethodName); return FailoverAllowed(); } else { return cycleMethods(); } } return failoverAllowed; } private static long CurrentTimeMilliseconds() { return DateTime.Now.Ticks / TimeSpan.TicksPerMillisecond; } private bool nextMethod() { if (_currentMethod < (_methods.Length - 1)) { _currentMethod++; _methods[_currentMethod].Reset(); return true; } else { return cycleMethods(); } } private bool cycleMethods() { if (_currentRetry < _methodsRetries) { _currentRetry++; _currentMethod = 0; _logger.Info("Retrying methods starting with " + _methods[_currentMethod].MethodName); _methods[_currentMethod].Reset(); return FailoverAllowed(); } else { _logger.Debug("All failover methods exhausted"); return false; } } /** * Notification that connection was successful. */ public void attainedConnection() { _currentRetry = 0; _methods[_currentMethod].AttainedConnection(); _timing = false; } public IBrokerInfo GetCurrentBrokerInfo() { return _methods[_currentMethod].GetCurrentBrokerInfo(); } public IBrokerInfo GetNextBrokerInfo() { return _methods[_currentMethod].GetNextBrokerDetails(); } public void setBroker(IBrokerInfo broker) { _methods[_currentMethod].SetBroker(broker); } public void addMethod(IFailoverMethod method) { int len = _methods.Length + 1; IFailoverMethod[] newMethods = new IFailoverMethod[len]; _methods.CopyTo(newMethods, 0); // System.arraycopy(_methods, 0, newMethods, 0, _methods.length); int index = len - 1; newMethods[index] = method; _methods = newMethods; } public void setMethodRetries(int retries) { _methodsRetries = retries; } public IFailoverMethod getCurrentMethod() { if (_currentMethod >= 0 && _currentMethod < (_methods.Length - 1)) { return _methods[_currentMethod]; } else { return null; } } public String toString() { StringBuilder sb = new StringBuilder(); sb.Append("Failover Policy:\n"); if (FailoverAllowed()) { sb.Append("Failover allowed\n"); } else { sb.Append("Failover not allowed\n"); } sb.Append("Failover policy methods\n"); for (int i = 0; i < _methods.Length; i++) { if (i == _currentMethod) { sb.Append(">"); } sb.Append(_methods[i].ToString()); } return sb.ToString(); } } }