Example 1 with MD5Hash
use of com.linkedin.d2.balancer.util.hashing.MD5Hash in project rest.li by linkedin.
the class SimpleLoadBalancerTest method testLoadBalancerWithPartitionsSmoke.
// load balancer working with partitioned cluster
@Test(groups = { "small", "back-end" })
public void testLoadBalancerWithPartitionsSmoke() throws URISyntaxException, ServiceUnavailableException, InterruptedException, ExecutionException {
for (int tryAgain = 0; tryAgain < 12; ++tryAgain) {
Map<String, LoadBalancerStrategyFactory<? extends LoadBalancerStrategy>> loadBalancerStrategyFactories = new HashMap<>();
Map<String, TransportClientFactory> clientFactories = new HashMap<>();
List<String> prioritizedSchemes = new ArrayList<>();
MockStore<ServiceProperties> serviceRegistry = new MockStore<>();
MockStore<ClusterProperties> clusterRegistry = new MockStore<>();
MockStore<UriProperties> uriRegistry = new MockStore<>();
ScheduledExecutorService executorService = Executors.newSingleThreadScheduledExecutor();
loadBalancerStrategyFactories.put("degrader", new DegraderLoadBalancerStrategyFactoryV3());
clientFactories.put(PropertyKeys.HTTP_SCHEME, new DoNothingClientFactory());
SimpleLoadBalancerState state = new SimpleLoadBalancerState(executorService, uriRegistry, clusterRegistry, serviceRegistry, clientFactories, loadBalancerStrategyFactories);
SimpleLoadBalancer loadBalancer = new SimpleLoadBalancer(state, 5, TimeUnit.SECONDS, executorService);
FutureCallback<None> balancerCallback = new FutureCallback<>();
loadBalancer.start(balancerCallback);
balancerCallback.get();
URI uri1 = URI.create("http://test.qa1.com:1234");
URI uri2 = URI.create("http://test.qa2.com:2345");
URI uri3 = URI.create("http://test.qa3.com:6789");
Map<URI, Double> uris = new HashMap<>();
uris.put(uri1, 1d);
uris.put(uri2, 1d);
uris.put(uri3, 1d);
Map<URI, Map<Integer, PartitionData>> partitionDesc = new HashMap<>();
Map<Integer, PartitionData> server1 = new HashMap<>();
server1.put(0, new PartitionData(1d));
server1.put(1, new PartitionData(1d));
Map<Integer, PartitionData> server2 = new HashMap<>();
server2.put(0, new PartitionData(1d));
Map<Integer, PartitionData> server3 = new HashMap<>();
server3.put(1, new PartitionData(1d));
partitionDesc.put(uri1, server1);
partitionDesc.put(uri2, server2);
partitionDesc.put(uri3, server3);
prioritizedSchemes.add(PropertyKeys.HTTP_SCHEME);
int partitionMethod = tryAgain % 4;
switch(partitionMethod) {
case 0:
clusterRegistry.put("cluster-1", new ClusterProperties("cluster-1", null, new HashMap<>(), new HashSet<>(), new RangeBasedPartitionProperties("id=(\\d+)", 0, 50, 2)));
break;
case 1:
clusterRegistry.put("cluster-1", new ClusterProperties("cluster-1", null, new HashMap<>(), new HashSet<>(), new HashBasedPartitionProperties("id=(\\d+)", 2, HashBasedPartitionProperties.HashAlgorithm.valueOf("MODULO"))));
break;
case 2:
clusterRegistry.put("cluster-1", new ClusterProperties("cluster-1", null, new HashMap<>(), new HashSet<>(), new HashBasedPartitionProperties("id=(\\d+)", 2, HashBasedPartitionProperties.HashAlgorithm.valueOf("MD5"))));
break;
case 3:
// test getRings with gap. here, no server serves partition 2
clusterRegistry.put("cluster-1", new ClusterProperties("cluster-1", null, new HashMap<>(), new HashSet<>(), new RangeBasedPartitionProperties("id=(\\d+)", 0, 50, 4)));
server3.put(3, new PartitionData(1d));
partitionDesc.put(uri3, server3);
break;
default:
break;
}
serviceRegistry.put("foo", new ServiceProperties("foo", "cluster-1", "/foo", Arrays.asList("degrader"), Collections.singletonMap(PropertyKeys.HTTP_LB_CONSISTENT_HASH_ALGORITHM, "pointBased"), null, null, prioritizedSchemes, null));
uriRegistry.put("cluster-1", new UriProperties("cluster-1", partitionDesc));
if (partitionMethod == 3) {
Map<Integer, Ring<URI>> ringMap = loadBalancer.getRings(URI.create("d2://foo"));
assertEquals(ringMap.size(), 4);
// the ring for partition 2 should be empty
assertEquals(ringMap.get(2).toString(), new ConsistentHashRing<>(Collections.emptyList()).toString());
continue;
}
URI expectedUri1 = URI.create("http://test.qa1.com:1234/foo");
URI expectedUri2 = URI.create("http://test.qa2.com:2345/foo");
URI expectedUri3 = URI.create("http://test.qa3.com:6789/foo");
Set<URI> expectedUris = new HashSet<>();
expectedUris.add(expectedUri1);
expectedUris.add(expectedUri2);
expectedUris.add(expectedUri3);
for (int i = 0; i < 1000; ++i) {
int ii = i % 100;
RewriteLoadBalancerClient client = (RewriteLoadBalancerClient) loadBalancer.getClient(new URIRequest("d2://foo/id=" + ii), new RequestContext());
String clientUri = client.getUri().toString();
HashFunction<String[]> hashFunction = null;
String[] str = new String[1];
// test KeyMapper target host hint: request is always to target host regardless of what's in d2 URI and whether it's hash-based or range-based partitions
RequestContext requestContextWithHint = new RequestContext();
KeyMapper.TargetHostHints.setRequestContextTargetHost(requestContextWithHint, uri1);
RewriteLoadBalancerClient hintedClient1 = (RewriteLoadBalancerClient) loadBalancer.getClient(new URIRequest("d2://foo/id=" + ii), requestContextWithHint);
String hintedUri1 = hintedClient1.getUri().toString();
Assert.assertEquals(hintedUri1, uri1.toString() + "/foo");
RewriteLoadBalancerClient hintedClient2 = (RewriteLoadBalancerClient) loadBalancer.getClient(new URIRequest("d2://foo/action=purge-all"), requestContextWithHint);
String hintedUri2 = hintedClient2.getUri().toString();
Assert.assertEquals(hintedUri2, uri1.toString() + "/foo");
if (partitionMethod == 2) {
hashFunction = new MD5Hash();
}
for (URI uri : expectedUris) {
if (clientUri.contains(uri.toString())) {
// check if only key belonging to partition 0 gets uri2
if (uri.equals(uri2)) {
if (partitionMethod == 0) {
assertTrue(ii < 50);
} else if (partitionMethod == 1) {
assertTrue(ii % 2 == 0);
} else {
str[0] = ii + "";
assertTrue(hashFunction.hash(str) % 2 == 0);
}
}
// check if only key belonging to partition 1 gets uri3
if (uri.equals(uri3)) {
if (partitionMethod == 0) {
assertTrue(ii >= 50);
} else if (partitionMethod == 1) {
assertTrue(ii % 2 == 1);
} else {
str[0] = ii + "";
assertTrue(hashFunction.hash(str) % 2 == 1);
}
}
}
}
}
// two rings for two partitions
Map<Integer, Ring<URI>> ringMap = loadBalancer.getRings(URI.create("d2://foo"));
assertEquals(ringMap.size(), 2);
if (partitionMethod != 2) {
Set<String> keys = new HashSet<>();
for (int j = 0; j < 50; j++) {
if (partitionMethod == 0) {
keys.add(j + "");
} else {
keys.add(j * 2 + "");
}
}
// if it is range based partition, all keys from 0 ~ 49 belong to partition 0 according to the range definition
// if it is modulo based partition, all even keys belong to partition 0 because the partition count is 2
// only from partition 0
MapKeyResult<Ring<URI>, String> mapKeyResult = loadBalancer.getRings(URI.create("d2://foo"), keys);
Map<Ring<URI>, Collection<String>> keyToPartition = mapKeyResult.getMapResult();
assertEquals(keyToPartition.size(), 1);
for (Ring<URI> ring : keyToPartition.keySet()) {
assertEquals(ring, ringMap.get(0));
}
// now also from partition 1
keys.add("51");
mapKeyResult = loadBalancer.getRings(URI.create("d2://foo"), keys);
assertEquals(mapKeyResult.getMapResult().size(), 2);
assertEquals(mapKeyResult.getUnmappedKeys().size(), 0);
// now only from partition 1
keys.clear();
keys.add("99");
mapKeyResult = loadBalancer.getRings(URI.create("d2://foo"), keys);
keyToPartition = mapKeyResult.getMapResult();
assertEquals(keyToPartition.size(), 1);
assertEquals(mapKeyResult.getUnmappedKeys().size(), 0);
for (Ring<URI> ring : keyToPartition.keySet()) {
assertEquals(ring, ringMap.get(1));
}
keys.add("100");
mapKeyResult = loadBalancer.getRings(URI.create("d2://foo"), keys);
if (partitionMethod == 0) {
// key out of range
Collection<MapKeyResult.UnmappedKey<String>> unmappedKeys = mapKeyResult.getUnmappedKeys();
assertEquals(unmappedKeys.size(), 1);
}
try {
loadBalancer.getClient(new URIRequest("d2://foo/id=100"), new RequestContext());
if (partitionMethod == 0) {
// key out of range
fail("Should throw ServiceUnavailableException caused by PartitionAccessException");
}
} catch (ServiceUnavailableException e) {
}
}
final CountDownLatch latch = new CountDownLatch(1);
PropertyEventShutdownCallback callback = new PropertyEventShutdownCallback() {
@Override
public void done() {
latch.countDown();
}
};
state.shutdown(callback);
if (!latch.await(60, TimeUnit.SECONDS)) {
fail("unable to shutdown state");
}
executorService.shutdownNow();
assertTrue(executorService.isShutdown(), "ExecutorService should have shut down!");
}
}
Also used :
HashMap(java.util.HashMap)
DegraderLoadBalancerStrategyFactoryV3(com.linkedin.d2.balancer.strategies.degrader.DegraderLoadBalancerStrategyFactoryV3)
ArrayList(java.util.ArrayList)
PartitionData(com.linkedin.d2.balancer.properties.PartitionData)
UriProperties(com.linkedin.d2.balancer.properties.UriProperties)
RangeBasedPartitionProperties(com.linkedin.d2.balancer.properties.RangeBasedPartitionProperties)
RequestContext(com.linkedin.r2.message.RequestContext)
FutureCallback(com.linkedin.common.callback.FutureCallback)
HashSet(java.util.HashSet)
ScheduledExecutorService(java.util.concurrent.ScheduledExecutorService)
RandomLoadBalancerStrategyFactory(com.linkedin.d2.balancer.strategies.random.RandomLoadBalancerStrategyFactory)
LoadBalancerStrategyFactory(com.linkedin.d2.balancer.strategies.LoadBalancerStrategyFactory)
HashBasedPartitionProperties(com.linkedin.d2.balancer.properties.HashBasedPartitionProperties)
RewriteLoadBalancerClient(com.linkedin.d2.balancer.clients.RewriteLoadBalancerClient)
URIRequest(com.linkedin.d2.balancer.util.URIRequest)
Collection(java.util.Collection)
Map(java.util.Map)
DarkClusterConfigMap(com.linkedin.d2.DarkClusterConfigMap)
HashMap(java.util.HashMap)
PropertyEventShutdownCallback(com.linkedin.d2.discovery.event.PropertyEventThread.PropertyEventShutdownCallback)
MockStore(com.linkedin.d2.discovery.stores.mock.MockStore)
ServiceUnavailableException(com.linkedin.d2.balancer.ServiceUnavailableException)
URI(java.net.URI)
ConsistentHashRing(com.linkedin.d2.balancer.util.hashing.ConsistentHashRing)
TransportClientFactory(com.linkedin.r2.transport.common.TransportClientFactory)
LoadBalancerStrategy(com.linkedin.d2.balancer.strategies.LoadBalancerStrategy)
CountDownLatch(java.util.concurrent.CountDownLatch)
ServiceProperties(com.linkedin.d2.balancer.properties.ServiceProperties)
ConsistentHashRing(com.linkedin.d2.balancer.util.hashing.ConsistentHashRing)
Ring(com.linkedin.d2.balancer.util.hashing.Ring)
ClusterProperties(com.linkedin.d2.balancer.properties.ClusterProperties)
MD5Hash(com.linkedin.d2.balancer.util.hashing.MD5Hash)
None(com.linkedin.common.util.None)
Test(org.testng.annotations.Test)
Aggregations
FutureCallback (com.linkedin.common.callback.FutureCallback)1
None (com.linkedin.common.util.None)1
DarkClusterConfigMap (com.linkedin.d2.DarkClusterConfigMap)1
ServiceUnavailableException (com.linkedin.d2.balancer.ServiceUnavailableException)1
RewriteLoadBalancerClient (com.linkedin.d2.balancer.clients.RewriteLoadBalancerClient)1
ClusterProperties (com.linkedin.d2.balancer.properties.ClusterProperties)1
HashBasedPartitionProperties (com.linkedin.d2.balancer.properties.HashBasedPartitionProperties)1
PartitionData (com.linkedin.d2.balancer.properties.PartitionData)1
RangeBasedPartitionProperties (com.linkedin.d2.balancer.properties.RangeBasedPartitionProperties)1
ServiceProperties (com.linkedin.d2.balancer.properties.ServiceProperties)1
UriProperties (com.linkedin.d2.balancer.properties.UriProperties)1
LoadBalancerStrategy (com.linkedin.d2.balancer.strategies.LoadBalancerStrategy)1
LoadBalancerStrategyFactory (com.linkedin.d2.balancer.strategies.LoadBalancerStrategyFactory)1
DegraderLoadBalancerStrategyFactoryV3 (com.linkedin.d2.balancer.strategies.degrader.DegraderLoadBalancerStrategyFactoryV3)1
RandomLoadBalancerStrategyFactory (com.linkedin.d2.balancer.strategies.random.RandomLoadBalancerStrategyFactory)1
URIRequest (com.linkedin.d2.balancer.util.URIRequest)1
ConsistentHashRing (com.linkedin.d2.balancer.util.hashing.ConsistentHashRing)1
MD5Hash (com.linkedin.d2.balancer.util.hashing.MD5Hash)1
Ring (com.linkedin.d2.balancer.util.hashing.Ring)1
PropertyEventShutdownCallback (com.linkedin.d2.discovery.event.PropertyEventThread.PropertyEventShutdownCallback)1
