use of org.apache.flink.queryablestate.messages.KvStateInternalRequest in project flink by apache.
the class ClientTest method testRequestUnavailableHost.
/**
* Tests that a request to an unavailable host is failed with ConnectException.
*/
@Test
public void testRequestUnavailableHost() throws Exception {
AtomicKvStateRequestStats stats = new AtomicKvStateRequestStats();
MessageSerializer<KvStateInternalRequest, KvStateResponse> serializer = new MessageSerializer<>(new KvStateInternalRequest.KvStateInternalRequestDeserializer(), new KvStateResponse.KvStateResponseDeserializer());
Client<KvStateInternalRequest, KvStateResponse> client = null;
try (NetUtils.Port port = NetUtils.getAvailablePort()) {
client = new Client<>("Test Client", 1, serializer, stats);
int availablePort = port.getPort();
InetSocketAddress serverAddress = new InetSocketAddress(InetAddress.getLocalHost(), availablePort);
KvStateInternalRequest request = new KvStateInternalRequest(new KvStateID(), new byte[0]);
CompletableFuture<KvStateResponse> future = client.sendRequest(serverAddress, request);
assertThat(future, FlinkMatchers.futureWillCompleteExceptionally(ConnectException.class, Duration.ofHours(1)));
} finally {
if (client != null) {
try {
client.shutdown().get();
} catch (Exception e) {
e.printStackTrace();
}
Assert.assertTrue(client.isEventGroupShutdown());
}
assertEquals("Channel leak", 0L, stats.getNumConnections());
}
}
use of org.apache.flink.queryablestate.messages.KvStateInternalRequest in project flink by apache.
the class ClientTest method testClientServerIntegration.
/**
* Tests multiple clients querying multiple servers until 100k queries have been processed. At
* this point, the client is shut down and its verified that all ongoing requests are failed.
*/
@Test
public void testClientServerIntegration() throws Throwable {
// Config
final int numServers = 2;
final int numServerEventLoopThreads = 2;
final int numServerQueryThreads = 2;
final int numClientEventLoopThreads = 4;
final int numClientsTasks = 8;
final int batchSize = 16;
final int numKeyGroups = 1;
AbstractStateBackend abstractBackend = new MemoryStateBackend();
KvStateRegistry dummyRegistry = new KvStateRegistry();
DummyEnvironment dummyEnv = new DummyEnvironment("test", 1, 0);
dummyEnv.setKvStateRegistry(dummyRegistry);
AbstractKeyedStateBackend<Integer> backend = abstractBackend.createKeyedStateBackend(dummyEnv, new JobID(), "test_op", IntSerializer.INSTANCE, numKeyGroups, new KeyGroupRange(0, 0), dummyRegistry.createTaskRegistry(new JobID(), new JobVertexID()), TtlTimeProvider.DEFAULT, new UnregisteredMetricsGroup(), Collections.emptyList(), new CloseableRegistry());
AtomicKvStateRequestStats clientStats = new AtomicKvStateRequestStats();
final MessageSerializer<KvStateInternalRequest, KvStateResponse> serializer = new MessageSerializer<>(new KvStateInternalRequest.KvStateInternalRequestDeserializer(), new KvStateResponse.KvStateResponseDeserializer());
Client<KvStateInternalRequest, KvStateResponse> client = null;
ExecutorService clientTaskExecutor = null;
final KvStateServerImpl[] server = new KvStateServerImpl[numServers];
try {
client = new Client<>("Test Client", numClientEventLoopThreads, serializer, clientStats);
clientTaskExecutor = Executors.newFixedThreadPool(numClientsTasks);
// Create state
ValueStateDescriptor<Integer> desc = new ValueStateDescriptor<>("any", IntSerializer.INSTANCE);
desc.setQueryable("any");
// Create servers
KvStateRegistry[] registry = new KvStateRegistry[numServers];
AtomicKvStateRequestStats[] serverStats = new AtomicKvStateRequestStats[numServers];
final KvStateID[] ids = new KvStateID[numServers];
for (int i = 0; i < numServers; i++) {
registry[i] = new KvStateRegistry();
serverStats[i] = new AtomicKvStateRequestStats();
server[i] = new KvStateServerImpl(InetAddress.getLocalHost().getHostName(), Collections.singletonList(0).iterator(), numServerEventLoopThreads, numServerQueryThreads, registry[i], serverStats[i]);
server[i].start();
backend.setCurrentKey(1010 + i);
// Value per server
ValueState<Integer> state = backend.getPartitionedState(VoidNamespace.INSTANCE, VoidNamespaceSerializer.INSTANCE, desc);
state.update(201 + i);
// we know it must be a KvState but this is not exposed to the user via State
InternalKvState<Integer, ?, Integer> kvState = (InternalKvState<Integer, ?, Integer>) state;
// Register KvState (one state instance for all server)
ids[i] = registry[i].registerKvState(new JobID(), new JobVertexID(), new KeyGroupRange(0, 0), "any", kvState, getClass().getClassLoader());
}
final Client<KvStateInternalRequest, KvStateResponse> finalClient = client;
Callable<Void> queryTask = () -> {
while (true) {
if (Thread.interrupted()) {
throw new InterruptedException();
}
// Random server permutation
List<Integer> random = new ArrayList<>();
for (int j = 0; j < batchSize; j++) {
random.add(j);
}
Collections.shuffle(random);
// Dispatch queries
List<CompletableFuture<KvStateResponse>> futures = new ArrayList<>(batchSize);
for (int j = 0; j < batchSize; j++) {
int targetServer = random.get(j) % numServers;
byte[] serializedKeyAndNamespace = KvStateSerializer.serializeKeyAndNamespace(1010 + targetServer, IntSerializer.INSTANCE, VoidNamespace.INSTANCE, VoidNamespaceSerializer.INSTANCE);
KvStateInternalRequest request = new KvStateInternalRequest(ids[targetServer], serializedKeyAndNamespace);
futures.add(finalClient.sendRequest(server[targetServer].getServerAddress(), request));
}
// Verify results
for (int j = 0; j < batchSize; j++) {
int targetServer = random.get(j) % numServers;
Future<KvStateResponse> future = futures.get(j);
byte[] buf = future.get().getContent();
int value = KvStateSerializer.deserializeValue(buf, IntSerializer.INSTANCE);
assertEquals(201L + targetServer, value);
}
}
};
// Submit tasks
List<Future<Void>> taskFutures = new ArrayList<>();
for (int i = 0; i < numClientsTasks; i++) {
taskFutures.add(clientTaskExecutor.submit(queryTask));
}
long numRequests;
while ((numRequests = clientStats.getNumRequests()) < 100_000L) {
Thread.sleep(100L);
LOG.info("Number of requests {}/100_000", numRequests);
}
try {
client.shutdown().get();
} catch (Exception e) {
e.printStackTrace();
}
Assert.assertTrue(client.isEventGroupShutdown());
final CombinableMatcher<Throwable> exceptionMatcher = either(FlinkMatchers.containsCause(ClosedChannelException.class)).or(FlinkMatchers.containsCause(IllegalStateException.class));
for (Future<Void> future : taskFutures) {
try {
future.get();
fail("Did not throw expected Exception after shut down");
} catch (ExecutionException t) {
assertThat(t, exceptionMatcher);
}
}
assertEquals("Connection leak (client)", 0L, clientStats.getNumConnections());
for (int i = 0; i < numServers; i++) {
boolean success = false;
int numRetries = 0;
while (!success) {
try {
assertEquals("Connection leak (server)", 0L, serverStats[i].getNumConnections());
success = true;
} catch (Throwable t) {
if (numRetries < 10) {
LOG.info("Retrying connection leak check (server)");
Thread.sleep((numRetries + 1) * 50L);
numRetries++;
} else {
throw t;
}
}
}
}
} finally {
if (client != null) {
try {
client.shutdown().get();
} catch (Exception e) {
e.printStackTrace();
}
Assert.assertTrue(client.isEventGroupShutdown());
}
for (int i = 0; i < numServers; i++) {
if (server[i] != null) {
server[i].shutdown();
}
}
if (clientTaskExecutor != null) {
clientTaskExecutor.shutdown();
}
}
}
use of org.apache.flink.queryablestate.messages.KvStateInternalRequest in project flink by apache.
the class KvStateServerTest method testSimpleRequest.
/**
* Tests a simple successful query via a SocketChannel.
*/
@Test
public void testSimpleRequest() throws Throwable {
KvStateServerImpl server = null;
Bootstrap bootstrap = null;
try {
KvStateRegistry registry = new KvStateRegistry();
KvStateRequestStats stats = new AtomicKvStateRequestStats();
server = new KvStateServerImpl(InetAddress.getLocalHost().getHostName(), Collections.singletonList(0).iterator(), 1, 1, registry, stats);
server.start();
InetSocketAddress serverAddress = server.getServerAddress();
int numKeyGroups = 1;
AbstractStateBackend abstractBackend = new MemoryStateBackend();
DummyEnvironment dummyEnv = new DummyEnvironment("test", 1, 0);
dummyEnv.setKvStateRegistry(registry);
final JobID jobId = new JobID();
AbstractKeyedStateBackend<Integer> backend = abstractBackend.createKeyedStateBackend(dummyEnv, jobId, "test_op", IntSerializer.INSTANCE, numKeyGroups, new KeyGroupRange(0, 0), registry.createTaskRegistry(jobId, new JobVertexID()), TtlTimeProvider.DEFAULT, new UnregisteredMetricsGroup(), Collections.emptyList(), new CloseableRegistry());
final KvStateServerHandlerTest.TestRegistryListener registryListener = new KvStateServerHandlerTest.TestRegistryListener();
registry.registerListener(jobId, registryListener);
ValueStateDescriptor<Integer> desc = new ValueStateDescriptor<>("any", IntSerializer.INSTANCE);
desc.setQueryable("vanilla");
ValueState<Integer> state = backend.getPartitionedState(VoidNamespace.INSTANCE, VoidNamespaceSerializer.INSTANCE, desc);
// Update KvState
int expectedValue = 712828289;
int key = 99812822;
backend.setCurrentKey(key);
state.update(expectedValue);
// Request
byte[] serializedKeyAndNamespace = KvStateSerializer.serializeKeyAndNamespace(key, IntSerializer.INSTANCE, VoidNamespace.INSTANCE, VoidNamespaceSerializer.INSTANCE);
// Connect to the server
final BlockingQueue<ByteBuf> responses = new LinkedBlockingQueue<>();
bootstrap = createBootstrap(new LengthFieldBasedFrameDecoder(Integer.MAX_VALUE, 0, 4, 0, 4), new ChannelInboundHandlerAdapter() {
@Override
public void channelRead(ChannelHandlerContext ctx, Object msg) throws Exception {
responses.add((ByteBuf) msg);
}
});
Channel channel = bootstrap.connect(serverAddress.getAddress(), serverAddress.getPort()).sync().channel();
long requestId = Integer.MAX_VALUE + 182828L;
assertTrue(registryListener.registrationName.equals("vanilla"));
final KvStateInternalRequest request = new KvStateInternalRequest(registryListener.kvStateId, serializedKeyAndNamespace);
ByteBuf serializeRequest = MessageSerializer.serializeRequest(channel.alloc(), requestId, request);
channel.writeAndFlush(serializeRequest);
ByteBuf buf = responses.poll(TIMEOUT_MILLIS, TimeUnit.MILLISECONDS);
assertEquals(MessageType.REQUEST_RESULT, MessageSerializer.deserializeHeader(buf));
assertEquals(requestId, MessageSerializer.getRequestId(buf));
KvStateResponse response = server.getSerializer().deserializeResponse(buf);
int actualValue = KvStateSerializer.deserializeValue(response.getContent(), IntSerializer.INSTANCE);
assertEquals(expectedValue, actualValue);
} finally {
if (server != null) {
server.shutdown();
}
if (bootstrap != null) {
EventLoopGroup group = bootstrap.group();
if (group != null) {
// note: no "quiet period" to not trigger Netty#4357
group.shutdownGracefully(0, 10, TimeUnit.SECONDS);
}
}
}
}
use of org.apache.flink.queryablestate.messages.KvStateInternalRequest in project flink by apache.
the class ClientTest method testSimpleRequests.
/**
* Tests simple queries, of which half succeed and half fail.
*/
@Test
public void testSimpleRequests() throws Exception {
AtomicKvStateRequestStats stats = new AtomicKvStateRequestStats();
MessageSerializer<KvStateInternalRequest, KvStateResponse> serializer = new MessageSerializer<>(new KvStateInternalRequest.KvStateInternalRequestDeserializer(), new KvStateResponse.KvStateResponseDeserializer());
Client<KvStateInternalRequest, KvStateResponse> client = null;
Channel serverChannel = null;
try {
client = new Client<>("Test Client", 1, serializer, stats);
// Random result
final byte[] expected = new byte[1024];
ThreadLocalRandom.current().nextBytes(expected);
final LinkedBlockingQueue<ByteBuf> received = new LinkedBlockingQueue<>();
final AtomicReference<Channel> channel = new AtomicReference<>();
serverChannel = createServerChannel(new ChannelDataCollectingHandler(channel, received));
InetSocketAddress serverAddress = getKvStateServerAddress(serverChannel);
long numQueries = 1024L;
List<CompletableFuture<KvStateResponse>> futures = new ArrayList<>();
for (long i = 0L; i < numQueries; i++) {
KvStateInternalRequest request = new KvStateInternalRequest(new KvStateID(), new byte[0]);
futures.add(client.sendRequest(serverAddress, request));
}
// Respond to messages
Exception testException = new RuntimeException("Expected test Exception");
for (long i = 0L; i < numQueries; i++) {
ByteBuf buf = received.take();
assertNotNull("Receive timed out", buf);
Channel ch = channel.get();
assertNotNull("Channel not active", ch);
assertEquals(MessageType.REQUEST, MessageSerializer.deserializeHeader(buf));
long requestId = MessageSerializer.getRequestId(buf);
KvStateInternalRequest deserRequest = serializer.deserializeRequest(buf);
buf.release();
if (i % 2L == 0L) {
ByteBuf response = MessageSerializer.serializeResponse(serverChannel.alloc(), requestId, new KvStateResponse(expected));
ch.writeAndFlush(response);
} else {
ByteBuf response = MessageSerializer.serializeRequestFailure(serverChannel.alloc(), requestId, testException);
ch.writeAndFlush(response);
}
}
for (long i = 0L; i < numQueries; i++) {
if (i % 2L == 0L) {
KvStateResponse serializedResult = futures.get((int) i).get();
assertArrayEquals(expected, serializedResult.getContent());
} else {
try {
futures.get((int) i).get();
fail("Did not throw expected Exception");
} catch (ExecutionException e) {
if (!(e.getCause() instanceof RuntimeException)) {
fail("Did not throw expected Exception");
}
// else expected
}
}
}
assertEquals(numQueries, stats.getNumRequests());
long expectedRequests = numQueries / 2L;
// Counts can take some time to propagate
while (stats.getNumSuccessful() != expectedRequests || stats.getNumFailed() != expectedRequests) {
Thread.sleep(100L);
}
assertEquals(expectedRequests, stats.getNumSuccessful());
assertEquals(expectedRequests, stats.getNumFailed());
} finally {
if (client != null) {
Exception exc = null;
try {
// todo here we were seeing this problem:
// https://github.com/netty/netty/issues/4357 if we do a get().
// this is why we now simply wait a bit so that everything is
// shut down and then we check
client.shutdown().get();
} catch (Exception e) {
exc = e;
LOG.error("An exception occurred while shutting down netty.", e);
}
Assert.assertTrue(ExceptionUtils.stringifyException(exc), client.isEventGroupShutdown());
}
if (serverChannel != null) {
serverChannel.close();
}
assertEquals("Channel leak", 0L, stats.getNumConnections());
}
}
use of org.apache.flink.queryablestate.messages.KvStateInternalRequest in project flink by apache.
the class KvStateServerHandlerTest method testSimpleQuery.
/**
* Tests a simple successful query via an EmbeddedChannel.
*/
@Test
public void testSimpleQuery() throws Exception {
KvStateRegistry registry = new KvStateRegistry();
AtomicKvStateRequestStats stats = new AtomicKvStateRequestStats();
MessageSerializer<KvStateInternalRequest, KvStateResponse> serializer = new MessageSerializer<>(new KvStateInternalRequest.KvStateInternalRequestDeserializer(), new KvStateResponse.KvStateResponseDeserializer());
KvStateServerHandler handler = new KvStateServerHandler(testServer, registry, serializer, stats);
EmbeddedChannel channel = new EmbeddedChannel(getFrameDecoder(), handler);
// Register state
ValueStateDescriptor<Integer> desc = new ValueStateDescriptor<>("any", IntSerializer.INSTANCE);
desc.setQueryable("vanilla");
int numKeyGroups = 1;
AbstractStateBackend abstractBackend = new MemoryStateBackend();
DummyEnvironment dummyEnv = new DummyEnvironment("test", 1, 0);
dummyEnv.setKvStateRegistry(registry);
AbstractKeyedStateBackend<Integer> backend = createKeyedStateBackend(registry, numKeyGroups, abstractBackend, dummyEnv);
final TestRegistryListener registryListener = new TestRegistryListener();
registry.registerListener(dummyEnv.getJobID(), registryListener);
// Update the KvState and request it
int expectedValue = 712828289;
int key = 99812822;
backend.setCurrentKey(key);
ValueState<Integer> state = backend.getPartitionedState(VoidNamespace.INSTANCE, VoidNamespaceSerializer.INSTANCE, desc);
state.update(expectedValue);
byte[] serializedKeyAndNamespace = KvStateSerializer.serializeKeyAndNamespace(key, IntSerializer.INSTANCE, VoidNamespace.INSTANCE, VoidNamespaceSerializer.INSTANCE);
long requestId = Integer.MAX_VALUE + 182828L;
assertTrue(registryListener.registrationName.equals("vanilla"));
KvStateInternalRequest request = new KvStateInternalRequest(registryListener.kvStateId, serializedKeyAndNamespace);
ByteBuf serRequest = MessageSerializer.serializeRequest(channel.alloc(), requestId, request);
// Write the request and wait for the response
channel.writeInbound(serRequest);
ByteBuf buf = (ByteBuf) readInboundBlocking(channel);
// skip frame length
buf.skipBytes(4);
// Verify the response
assertEquals(MessageType.REQUEST_RESULT, MessageSerializer.deserializeHeader(buf));
long deserRequestId = MessageSerializer.getRequestId(buf);
KvStateResponse response = serializer.deserializeResponse(buf);
buf.release();
assertEquals(requestId, deserRequestId);
int actualValue = KvStateSerializer.deserializeValue(response.getContent(), IntSerializer.INSTANCE);
assertEquals(expectedValue, actualValue);
assertEquals(stats.toString(), 1, stats.getNumRequests());
// Wait for async successful request report
long deadline = System.nanoTime() + TimeUnit.NANOSECONDS.convert(30, TimeUnit.SECONDS);
while (stats.getNumSuccessful() != 1L && System.nanoTime() <= deadline) {
Thread.sleep(10L);
}
assertEquals(stats.toString(), 1L, stats.getNumSuccessful());
}
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