/** * {@inheritDoc} */ @Override public void run() { listener.inetAddressAdded(jmdnsEvent); } });
/** * {@inheritDoc} */ @Override public void run() { listener.inetAddressRemoved(jmdnsEvent); } });
/** * {@inheritDoc} */ @Override public void run() { try { InetAddress[] curentAddresses = _topology.getInetAddresses(); Set<InetAddress> current = new HashSet<InetAddress>(curentAddresses.length); for (InetAddress address : curentAddresses) { current.add(address); if (!_knownAddresses.contains(address)) { final NetworkTopologyEvent event = new NetworkTopologyEventImpl(_mmDNS, address); _mmDNS.inetAddressAdded(event); } } for (InetAddress address : _knownAddresses) { if (!current.contains(address)) { final NetworkTopologyEvent event = new NetworkTopologyEventImpl(_mmDNS, address); _mmDNS.inetAddressRemoved(event); } } _knownAddresses = current; } catch (Exception e) { logger1.warn("Unexpected unhandled exception: " + e); } }
/** * {@inheritDoc} */ @Override public void run() { try { InetAddress[] curentAddresses = _topology.getInetAddresses(); Set<InetAddress> current = new HashSet<InetAddress>(curentAddresses.length); for (InetAddress address : curentAddresses) { current.add(address); if (!_knownAddresses.contains(address)) { final NetworkTopologyEvent event = new NetworkTopologyEventImpl(_mmDNS, address); _mmDNS.inetAddressAdded(event); } } for (InetAddress address : _knownAddresses) { if (!current.contains(address)) { final NetworkTopologyEvent event = new NetworkTopologyEventImpl(_mmDNS, address); _mmDNS.inetAddressRemoved(event); } } _knownAddresses = current; } catch (Exception e) { logger1.warning("Unexpected unhandled exception: " + e); } }
/** * {@inheritDoc} */ @Override public void run() { try { InetAddress[] curentAddresses = _topology.getInetAddresses(); Set<InetAddress> current = new HashSet<InetAddress>(curentAddresses.length); for (InetAddress address : curentAddresses) { current.add(address); if (!_knownAddresses.contains(address)) { final NetworkTopologyEvent event = new NetworkTopologyEventImpl(_mmDNS, address); _mmDNS.inetAddressAdded(event); } } for (InetAddress address : _knownAddresses) { if (!current.contains(address)) { final NetworkTopologyEvent event = new NetworkTopologyEventImpl(_mmDNS, address); _mmDNS.inetAddressRemoved(event); } } _knownAddresses = current; } catch (Exception e) { logger1.warning("Unexpected unhandled exception: " + e); } }
/** * {@inheritDoc} */ @Override public void run() { listener.inetAddressRemoved(jmdnsEvent); } });
/** * {@inheritDoc} */ @Override public void run() { listener.inetAddressAdded(jmdnsEvent); } });
/** * {@inheritDoc} */ @Override public void run() { try { InetAddress[] curentAddresses = _topology.getInetAddresses(); Set<InetAddress> current = new HashSet<InetAddress>(curentAddresses.length); for (InetAddress address : curentAddresses) { current.add(address); if (!_knownAddresses.contains(address)) { final NetworkTopologyEvent event = new NetworkTopologyEventImpl(_mmDNS, address); _mmDNS.inetAddressAdded(event); } } for (InetAddress address : _knownAddresses) { if (!current.contains(address)) { final NetworkTopologyEvent event = new NetworkTopologyEventImpl(_mmDNS, address); _mmDNS.inetAddressRemoved(event); } } _knownAddresses = current; } catch (Exception e) { logger1.warning("Unexpected unhandled exception: " + e); } }
/** * {@inheritDoc} */ @Override public void run() { listener.inetAddressRemoved(jmdnsEvent); } });
/** * {@inheritDoc} */ @Override public void run() { listener.inetAddressAdded(jmdnsEvent); } });
/** * {@inheritDoc} */ @Override public void run() { listener.inetAddressRemoved(jmdnsEvent); } });
/** * {@inheritDoc} */ @Override public void run() { listener.inetAddressAdded(jmdnsEvent); } });