void handleGossip(Connection connection) throws IOException { ARRGCacheEntry peerEntry = new ARRGCacheEntry(connection.in()); int receiveCount = connection.in().readInt(); ARRGCacheEntry[] receivedEntries = new ARRGCacheEntry[receiveCount]; for (int i = 0; i < receiveCount; i++) { receivedEntries[i] = new ARRGCacheEntry(connection.in()); } connection.sendOKReply(); self.writeTo(connection.out()); ARRGCacheEntry[] sendEntries = cache.getRandomEntries(GOSSIP_SIZE, true); connection.out().writeInt(sendEntries.length); for (ARRGCacheEntry entry : sendEntries) { entry.writeTo(connection.out()); } connection.out().flush(); connection.close(); cache.add(peerEntry); cache.add(receivedEntries); resetLastGossip(); logger.debug("bootstrap service for " + poolName + " received request from " + peerEntry); }
public void ping(IbisIdentifier ibis) throws IOException { long start = System.currentTimeMillis(); Connection connection = new Connection(ibis, CONNECTION_TIMEOUT, true, socketFactory, Protocol.VIRTUAL_PORT); connection.out().writeByte(Protocol.MAGIC_BYTE); connection.out().writeByte(Protocol.OPCODE_PING); connection.getAndCheckReply(); IbisIdentifier result = new IbisIdentifier(connection.in()); connection.close(); if (!result.equals(ibis)) { throw new IOException("tried to ping " + ibis + ", reached " + result + " instead"); } if (statistics != null) { statistics.add( Protocol.OPCODE_PING, System.currentTimeMillis() - start, connection.read(), connection.written(), false); } }
void sendLeave(VirtualSocketAddress address) { if (address.equals(serverSocket.getLocalSocketAddress())) { // do not connect to self return; } try { long start = System.currentTimeMillis(); Connection connection = new Connection(address, LEAVE_CONNECTION_TIMEOUT, true, socketFactory); connection.out().writeByte(Protocol.MAGIC_BYTE); connection.out().writeByte(Protocol.OPCODE_LEAVE); registry.getIbisIdentifier().writeTo(connection.out()); connection.getAndCheckReply(); connection.close(); if (statistics != null) { statistics.add( Protocol.OPCODE_LEAVE, System.currentTimeMillis() - start, connection.read(), connection.written(), false); } } catch (IOException e) { logger.debug(serverSocket.getLocalSocketAddress() + " could not send leave to " + address); } }
private void handleLeave(Connection connection) throws IOException { IbisIdentifier ibis = new IbisIdentifier(connection.in()); connection.sendOKReply(); pool.leave(ibis); connection.close(); }
private void handleSignal(Connection connection) throws IOException { IbisIdentifier source = new IbisIdentifier(connection.in()); String signal = connection.in().readUTF(); connection.sendOKReply(); registry.signal(signal, source); connection.close(); }
private void handleGossip(Connection connection) throws IOException { IbisIdentifier peer = new IbisIdentifier(connection.in()); if (peer.equals(registry.getIbisIdentifier())) { logger.error("eep! talking to ourselves"); connection.closeWithError("talking to self"); } if (!peer.poolName().equals(registry.getIbisIdentifier().poolName())) { connection.closeWithError("wrong pool"); } pool.readGossipData(connection.in()); elections.readGossipData(connection.in()); connection.sendOKReply(); pool.writeGossipData(connection.out(), gossipSize); elections.writeGossipData(connection.out()); connection.close(); }
public void sendSignals(String signal, IbisIdentifier[] ibises) throws IOException { String errorMessage = null; for (IbisIdentifier ibis : ibises) { try { long start = System.currentTimeMillis(); Connection connection = new Connection(ibis, CONNECTION_TIMEOUT, true, socketFactory, Protocol.VIRTUAL_PORT); connection.out().writeByte(Protocol.MAGIC_BYTE); connection.out().writeByte(Protocol.OPCODE_SIGNAL); registry.getIbisIdentifier().writeTo(connection.out()); connection.out().writeUTF(signal); connection.getAndCheckReply(); connection.close(); if (statistics != null) { statistics.add( Protocol.OPCODE_SIGNAL, System.currentTimeMillis() - start, connection.read(), connection.written(), false); } } catch (IOException e) { logger.error("could not send signal to " + ibis); if (errorMessage == null) { errorMessage = "could not send signal to: " + ibis; } else { errorMessage += ", " + ibis; } } } if (errorMessage != null) { throw new IOException(errorMessage); } }
public void gossip() { VirtualSocketAddress address = arrg.getRandomMember(); if (address == null || address.equals(serverSocket.getLocalSocketAddress())) { logger.debug("noone to gossip with, or (not) gossiping with self"); return; } try { long start = System.currentTimeMillis(); Connection connection = new Connection(address, CONNECTION_TIMEOUT, true, socketFactory); connection.out().writeByte(Protocol.MAGIC_BYTE); connection.out().writeByte(Protocol.OPCODE_GOSSIP); registry.getIbisIdentifier().writeTo(connection.out()); pool.writeGossipData(connection.out(), gossipSize); elections.writeGossipData(connection.out()); connection.getAndCheckReply(); pool.readGossipData(connection.in()); elections.readGossipData(connection.in()); connection.close(); if (statistics != null) { statistics.add( Protocol.OPCODE_GOSSIP, System.currentTimeMillis() - start, connection.read(), connection.written(), false); } } catch (IOException e) { logger.debug("could not gossip with " + address, e); } }
public void run() { Connection connection = null; try { logger.debug("accepting connection"); connection = new Connection(serverSocket); logger.debug("connection accepted"); } catch (IOException e) { if (registry.isStopped()) { threadEnded(); return; } logger.error("Accept failed, waiting a second, will retry", e); // wait a bit try { Thread.sleep(1000); } catch (InterruptedException e1) { // IGNORE } } // create new thread for next connection createThread(); if (connection == null) { threadEnded(); return; } long start = System.currentTimeMillis(); byte opcode = 0; try { byte magic = connection.in().readByte(); if (magic != Protocol.MAGIC_BYTE) { throw new IOException("Invalid header byte in accepting connection"); } opcode = connection.in().readByte(); if (logger.isDebugEnabled()) { logger.debug("got request, opcode = " + Protocol.opcodeString(opcode)); } switch (opcode) { case Protocol.OPCODE_ARRG_GOSSIP: handleArrgGossip(connection); break; case Protocol.OPCODE_SIGNAL: handleSignal(connection); break; case Protocol.OPCODE_LEAVE: handleLeave(connection); break; case Protocol.OPCODE_GOSSIP: handleGossip(connection); break; case Protocol.OPCODE_PING: handlePing(connection); break; default: logger.error("unknown opcode: " + opcode); } } catch (IOException e) { logger.error("error on handling connection", e); } finally { connection.close(); } logger.debug("done handling request"); if (statistics != null) { statistics.add( opcode, System.currentTimeMillis() - start, connection.read(), connection.written(), true); } threadEnded(); }
private void gossip(VirtualSocketAddress victim, int timeout, boolean fillTimeout) throws IOException { long start = System.currentTimeMillis(); if (victim == null) { logger.debug("no victim specified"); return; } if (victim.equals(self.getAddress())) { logger.debug("not gossiping with outselves"); return; } logger.debug("gossiping with " + victim); ARRGCacheEntry[] sendEntries = cache.getRandomEntries(GOSSIP_SIZE, true); Connection connection = null; try { connection = new Connection(victim, timeout, fillTimeout, socketFactory); // header connection.out().writeByte(Protocol.MAGIC_BYTE); connection.out().writeByte(Protocol.OPCODE_ARRG_GOSSIP); connection.out().writeUTF(poolName); // data self.writeTo(connection.out()); connection.out().writeInt(sendEntries.length); for (ARRGCacheEntry entry : sendEntries) { entry.writeTo(connection.out()); } connection.getAndCheckReply(); ARRGCacheEntry peerEntry = new ARRGCacheEntry(connection.in()); int receiveCount = connection.in().readInt(); ARRGCacheEntry[] receivedEntries = new ARRGCacheEntry[receiveCount]; for (int i = 0; i < receiveCount; i++) { receivedEntries[i] = new ARRGCacheEntry(connection.in()); } connection.close(); cache.add(peerEntry); cache.add(receivedEntries); resetLastGossip(); if (statistics != null) { statistics.add( Protocol.OPCODE_ARRG_GOSSIP, System.currentTimeMillis() - start, connection.read(), connection.written(), false); } } finally { if (connection != null) { connection.close(); } } }