/**
* Parameter {@code uploadedJarLocation} is actually used to point to the local jar, because Flink
* does not support uploading a jar file before hand. Jar files are always uploaded directly when
* a program is submitted.
*/
public void submitTopologyWithOpts(
final String name, final String uploadedJarLocation, final FlinkTopology topology)
throws AlreadyAliveException, InvalidTopologyException {
if (this.getTopologyJobId(name) != null) {
throw new AlreadyAliveException();
}
final URI uploadedJarUri;
final URL uploadedJarUrl;
try {
uploadedJarUri = new File(uploadedJarLocation).getAbsoluteFile().toURI();
uploadedJarUrl = uploadedJarUri.toURL();
JobWithJars.checkJarFile(uploadedJarUrl);
} catch (final IOException e) {
throw new RuntimeException("Problem with jar file " + uploadedJarLocation, e);
}
try {
FlinkClient.addStormConfigToTopology(topology, conf);
} catch (ClassNotFoundException e) {
LOG.error("Could not register class for Kryo serialization.", e);
throw new InvalidTopologyException("Could not register class for Kryo serialization.");
}
final StreamGraph streamGraph = topology.getExecutionEnvironment().getStreamGraph();
streamGraph.setJobName(name);
final JobGraph jobGraph = streamGraph.getJobGraph();
jobGraph.addJar(new Path(uploadedJarUri));
final Configuration configuration = jobGraph.getJobConfiguration();
configuration.setString(ConfigConstants.JOB_MANAGER_IPC_ADDRESS_KEY, jobManagerHost);
configuration.setInteger(ConfigConstants.JOB_MANAGER_IPC_PORT_KEY, jobManagerPort);
final Client client;
try {
client = new Client(configuration);
} catch (IOException e) {
throw new RuntimeException("Could not establish a connection to the job manager", e);
}
try {
ClassLoader classLoader =
JobWithJars.buildUserCodeClassLoader(
Lists.newArrayList(uploadedJarUrl),
Collections.<URL>emptyList(),
this.getClass().getClassLoader());
client.runDetached(jobGraph, classLoader);
} catch (final ProgramInvocationException e) {
throw new RuntimeException("Cannot execute job due to ProgramInvocationException", e);
}
}
@SuppressWarnings("rawtypes")
public void submitTopologyWithOpts(
final String topologyName,
final Map conf,
final FlinkTopology topology,
final SubmitOptions submitOpts)
throws Exception {
LOG.info("Running Storm topology on FlinkLocalCluster");
if (conf != null) {
topology.getConfig().setGlobalJobParameters(new StormConfig(conf));
}
StreamGraph streamGraph = topology.getStreamGraph();
streamGraph.setJobName(topologyName);
JobGraph jobGraph = streamGraph.getJobGraph();
this.flink.submitJobDetached(jobGraph);
}
private static StreamOperator<?> getOperatorForDataStream(DataStream<?> dataStream) {
StreamExecutionEnvironment env = dataStream.getExecutionEnvironment();
StreamGraph streamGraph = env.getStreamGraph();
return streamGraph.getStreamNode(dataStream.getId()).getOperator();
}
/**
* Tests union functionality. This ensures that self-unions and unions of streams with differing
* parallelism work.
*
* @throws Exception
*/
@Test
public void testUnion() throws Exception {
StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment();
env.setParallelism(4);
DataStream<Long> input1 =
env.generateSequence(0, 0)
.map(
new MapFunction<Long, Long>() {
@Override
public Long map(Long value) throws Exception {
return null;
}
});
DataStream<Long> selfUnion =
input1
.union(input1)
.map(
new MapFunction<Long, Long>() {
@Override
public Long map(Long value) throws Exception {
return null;
}
});
DataStream<Long> input6 =
env.generateSequence(0, 0)
.map(
new MapFunction<Long, Long>() {
@Override
public Long map(Long value) throws Exception {
return null;
}
});
DataStream<Long> selfUnionDifferentPartition =
input6
.broadcast()
.union(input6)
.map(
new MapFunction<Long, Long>() {
@Override
public Long map(Long value) throws Exception {
return null;
}
});
DataStream<Long> input2 =
env.generateSequence(0, 0)
.map(
new MapFunction<Long, Long>() {
@Override
public Long map(Long value) throws Exception {
return null;
}
})
.setParallelism(4);
DataStream<Long> input3 =
env.generateSequence(0, 0)
.map(
new MapFunction<Long, Long>() {
@Override
public Long map(Long value) throws Exception {
return null;
}
})
.setParallelism(2);
DataStream<Long> unionDifferingParallelism =
input2
.union(input3)
.map(
new MapFunction<Long, Long>() {
@Override
public Long map(Long value) throws Exception {
return null;
}
})
.setParallelism(4);
DataStream<Long> input4 =
env.generateSequence(0, 0)
.map(
new MapFunction<Long, Long>() {
@Override
public Long map(Long value) throws Exception {
return null;
}
})
.setParallelism(2);
DataStream<Long> input5 =
env.generateSequence(0, 0)
.map(
new MapFunction<Long, Long>() {
@Override
public Long map(Long value) throws Exception {
return null;
}
})
.setParallelism(4);
DataStream<Long> unionDifferingPartitioning =
input4
.broadcast()
.union(input5)
.map(
new MapFunction<Long, Long>() {
@Override
public Long map(Long value) throws Exception {
return null;
}
})
.setParallelism(4);
StreamGraph streamGraph = env.getStreamGraph();
// verify self union
assertTrue(streamGraph.getStreamNode(selfUnion.getId()).getInEdges().size() == 2);
for (StreamEdge edge : streamGraph.getStreamNode(selfUnion.getId()).getInEdges()) {
assertTrue(edge.getPartitioner() instanceof ForwardPartitioner);
}
// verify self union with differnt partitioners
assertTrue(
streamGraph.getStreamNode(selfUnionDifferentPartition.getId()).getInEdges().size() == 2);
boolean hasForward = false;
boolean hasBroadcast = false;
for (StreamEdge edge :
streamGraph.getStreamNode(selfUnionDifferentPartition.getId()).getInEdges()) {
if (edge.getPartitioner() instanceof ForwardPartitioner) {
hasForward = true;
}
if (edge.getPartitioner() instanceof BroadcastPartitioner) {
hasBroadcast = true;
}
}
assertTrue(hasForward && hasBroadcast);
// verify union of streams with differing parallelism
assertTrue(
streamGraph.getStreamNode(unionDifferingParallelism.getId()).getInEdges().size() == 2);
for (StreamEdge edge :
streamGraph.getStreamNode(unionDifferingParallelism.getId()).getInEdges()) {
if (edge.getSourceId() == input2.getId()) {
assertTrue(edge.getPartitioner() instanceof ForwardPartitioner);
} else if (edge.getSourceId() == input3.getId()) {
assertTrue(edge.getPartitioner() instanceof RebalancePartitioner);
} else {
fail("Wrong input edge.");
}
}
// verify union of streams with differing partitionings
assertTrue(
streamGraph.getStreamNode(unionDifferingPartitioning.getId()).getInEdges().size() == 2);
for (StreamEdge edge :
streamGraph.getStreamNode(unionDifferingPartitioning.getId()).getInEdges()) {
if (edge.getSourceId() == input4.getId()) {
assertTrue(edge.getPartitioner() instanceof BroadcastPartitioner);
} else if (edge.getSourceId() == input5.getId()) {
assertTrue(edge.getPartitioner() instanceof ForwardPartitioner);
} else {
fail("Wrong input edge.");
}
}
}
