public bool Equals(ChordRealNode n1, IChordNode n2) { String strHash1 = n1.getHashedIP().ToString(); String strHash2 = n2.getHashedIP().ToString(); if (String.Compare(strHash1, strHash2) == 0) { return(true); } else { return(false); } }
public void notify(IChordNode possiblePred) //IPAddress possiblePredIP, byte[] possiblePredHashedIP) { if (predecessor == null) //|| ((/*(ChordRealNode)*/possiblePred<self) && (/*(ChordRealNode)*/predecessor<possiblePred))) { predecessor = possiblePred; } else { String strPossiblePredHash = possiblePred.getHashedIP().ToString(); String strSelfHash = self.getHashedIP().ToString(); String strPredecessorHash = predecessor.getHashedIP().ToString(); if ((String.Compare(strPossiblePredHash, strSelfHash) < 0) && (String.Compare(strPredecessorHash, strPossiblePredHash) < 0)) { predecessor = possiblePred; } } }
//IPAddress possiblePredIP, byte[] possiblePredHashedIP) public void notify(IChordNode possiblePred) { if(predecessor==null) //|| ((/*(ChordRealNode)*/possiblePred<self) && (/*(ChordRealNode)*/predecessor<possiblePred))) predecessor = possiblePred; else { String strPossiblePredHash = possiblePred.getHashedIP().ToString(); String strSelfHash = self.getHashedIP().ToString(); String strPredecessorHash = predecessor.getHashedIP().ToString(); if((String.Compare(strPossiblePredHash, strSelfHash)<0) && (String.Compare(strPredecessorHash, strPossiblePredHash)<0)) predecessor = possiblePred; } }
public bool Equals(ChordRealNode n1, IChordNode n2) { String strHash1 = n1.getHashedIP().ToString(); String strHash2 = n2.getHashedIP().ToString(); if(String.Compare(strHash1, strHash2)==0) return true; else return false; }
/* public Node findSuccessor(Node queryNode, Node queryingNode) { return findSuccessor(queryNode.getHashedIP(), queryingNode); } public Node findSuccessor(byte[] queryHashedKey, Node queryingNode) { return engine.findSuccessor(queryHashedKey, queryingNode); } */ public void beginFindSuccessor(IChordNode queryNode, IChordNode queryingNode, AsyncCallback findSuccessorCallBack, Object appState, Guid relayTicket) { Console.WriteLine("ChordRealNode::beginFindSuccessor ENTER"); engine.beginFindSuccessor(queryNode.getHashedIP(), queryingNode, findSuccessorCallBack, appState, relayTicket); }
public void beginFindSuccessor(IChordNode queryNode, IChordNode queryingNode, AsyncCallback findSuccessorCallBack, Object appState, Guid relayTicket) { beginFindSuccessor(queryNode.getHashedIP(), queryingNode, findSuccessorCallBack, appState, relayTicket); }
/* * public Node findSuccessor(Node queryNode, Node queryingNode) * { * return findSuccessor(queryNode.getHashedIP(), queryingNode); * } * * public Node findSuccessor(byte[] queryHashedKey, Node queryingNode) * { * return engine.findSuccessor(queryHashedKey, queryingNode); * } */ public void beginFindSuccessor(IChordNode queryNode, IChordNode queryingNode, AsyncCallback findSuccessorCallBack, Object appState, Guid relayTicket) { Console.WriteLine("ChordRealNode::beginFindSuccessor ENTER"); engine.beginFindSuccessor(queryNode.getHashedIP(), queryingNode, findSuccessorCallBack, appState, relayTicket); }
public void beginFindSuccessor(IChordNode queryNode, IChordNode queryingNode, AsyncCallback findSuccessorCallBack, Object appState, Guid relayTicket) { beginFindSuccessor(queryNode.getHashedIP(), queryingNode, findSuccessorCallBack, appState, relayTicket); }