/** * Tests the behavior against a REMOTE address where no job manager is running. */ @Test public void testExceptionWhenRemoteJobManagerUnreachable() throws Exception { final InetSocketAddress unreachableEndpoint; try { int freePort = NetUtils.getAvailablePort(); unreachableEndpoint = new InetSocketAddress(InetAddress.getByName("10.0.1.64"), freePort); } catch (Throwable t) { // do not fail when we spuriously fail to get a free port return; } testFailureBehavior(unreachableEndpoint); }
/** * Tests the behavior against a LOCAL address where no job manager is running. */ @Test public void testExceptionWhenLocalJobManagerUnreachablelocal() throws Exception { final InetSocketAddress unreachableEndpoint; try { int freePort = NetUtils.getAvailablePort(); unreachableEndpoint = new InetSocketAddress(InetAddress.getLocalHost(), freePort); } catch (Throwable t) { // do not fail when we spuriously fail to get a free port return; } testFailureBehavior(unreachableEndpoint); }
int port = NetUtils.getAvailablePort(); ActorSystem as = AkkaUtils.createActorSystem( new Configuration(),
int kafkaPort = NetUtils.getAvailablePort(); kafkaProperties.put("port", Integer.toString(kafkaPort));
int kafkaPort = NetUtils.getAvailablePort(); kafkaProperties.put("port", Integer.toString(kafkaPort));
int kafkaPort = NetUtils.getAvailablePort(); kafkaProperties.put("port", Integer.toString(kafkaPort));
int kafkaPort = NetUtils.getAvailablePort(); kafkaProperties.put("port", Integer.toString(kafkaPort));
@Before public void setUp() throws Exception { ExecutionEnvironment env = ExecutionEnvironment.createLocalEnvironment(); env.generateSequence(1, 1000).output(new DiscardingOutputFormat<Long>()); Plan plan = env.createProgramPlan(); JobWithJars jobWithJars = new JobWithJars(plan, Collections.<URL>emptyList(), Collections.<URL>emptyList()); program = mock(PackagedProgram.class); when(program.getPlanWithJars()).thenReturn(jobWithJars); final int freePort = NetUtils.getAvailablePort(); config = new Configuration(); config.setString(JobManagerOptions.ADDRESS, "localhost"); config.setInteger(JobManagerOptions.PORT, freePort); config.setString(AkkaOptions.ASK_TIMEOUT, AkkaOptions.ASK_TIMEOUT.defaultValue()); try { scala.Tuple2<String, Object> address = new scala.Tuple2<String, Object>("localhost", freePort); jobManagerSystem = AkkaUtils.createActorSystem(config, new scala.Some<scala.Tuple2<String, Object>>(address)); } catch (Exception e) { e.printStackTrace(); fail("Setup of test actor system failed."); } }
client = new Client<>("Test Client", 1, serializer, stats); int availablePort = NetUtils.getAvailablePort();
int kafkaPort = NetUtils.getAvailablePort(); kafkaProperties.put("port", Integer.toString(kafkaPort));
int kafkaPort = NetUtils.getAvailablePort(); kafkaProperties.put("port", Integer.toString(kafkaPort));
int kafkaPort = NetUtils.getAvailablePort(); kafkaProperties.put("port", Integer.toString(kafkaPort));
int kafkaPort = NetUtils.getAvailablePort(); kafkaProperties.put("port", Integer.toString(kafkaPort));
int kafkaPort = NetUtils.getAvailablePort(); kafkaProperties.put("port", Integer.toString(kafkaPort));
int kafkaPort = NetUtils.getAvailablePort(); kafkaProperties.put("port", Integer.toString(kafkaPort));
int kafkaPort = NetUtils.getAvailablePort(); kafkaProperties.put("port", Integer.toString(kafkaPort));
int kafkaPort = NetUtils.getAvailablePort(); kafkaProperties.put("port", Integer.toString(kafkaPort));