private void handleTransportDisconnect(DiscoveryNode node) { synchronized (masterNodeMutex) { if (!node.equals(this.masterNode)) { return; } if (connectOnNetworkDisconnect) { try { transportService.connectToNode(node); } catch (Exception e) { logger.trace("[master] [{}] transport disconnected (with verified connect)", masterNode); notifyMasterFailure(masterNode, "transport disconnected (with verified connect)"); } } else { logger.trace("[master] [{}] transport disconnected", node); notifyMasterFailure(node, "transport disconnected"); } } }
private void handleTransportDisconnect(DiscoveryNode node) { synchronized (masterNodeMutex) { if (!node.equals(this.masterNode)) { return; } if (connectOnNetworkDisconnect) { try { transportService.connectToNode(node); // if all is well, make sure we restart the pinger if (masterPinger != null) { masterPinger.stop(); } this.masterPinger = new MasterPinger(); threadPool.schedule(pingInterval, ThreadPool.Names.SAME, masterPinger); } catch (Exception e) { logger.trace("[master] [{}] transport disconnected (with verified connect)", masterNode); notifyMasterFailure(masterNode, "transport disconnected (with verified connect)"); } } else { logger.trace("[master] [{}] transport disconnected", node); notifyMasterFailure(node, "transport disconnected"); } } }
private void innerStart(final DiscoveryNode masterNode) { this.masterNode = masterNode; this.retryCount = 0; this.notifiedMasterFailure.set(false); // try and connect to make sure we are connected try { transportService.connectToNode(masterNode); } catch (final Exception e) { // notify master failure (which stops also) and bail.. notifyMasterFailure(masterNode, "failed to perform initial connect [" + e.getMessage() + "]"); return; } if (masterPinger != null) { masterPinger.stop(); } this.masterPinger = new MasterPinger(); // start the ping process threadPool.schedule(pingInterval, ThreadPool.Names.SAME, masterPinger); }