/* * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. * The ASF licenses this file to You under the Apache License, Version 2.0 * (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package org.apache.tomcat.websocket.server; import java.net.URI; import java.nio.ByteBuffer; import java.util.concurrent.CountDownLatch; import jakarta.websocket.ClientEndpointConfig; import jakarta.websocket.ContainerProvider; import jakarta.websocket.MessageHandler; import jakarta.websocket.Session; import jakarta.websocket.WebSocketContainer; import org.junit.Assert; import org.junit.Test; import org.apache.catalina.Context; import org.apache.catalina.servlets.DefaultServlet; import org.apache.catalina.startup.Tomcat; import org.apache.catalina.startup.TomcatBaseTest; import org.apache.tomcat.websocket.TesterAsyncTiming; import org.apache.tomcat.websocket.TesterMessageCountClient.TesterProgrammaticEndpoint; /* * This test is very timing sensitive. Any failures need to be checked to see if the thresholds just need adjusting to * support a wider range of platforms and/or Java versions or if the failure is an indication of a performance drop in * the WebSocket implementation. */ public class TestAsyncMessagesPerformance extends TomcatBaseTest { @Test public void testAsyncTiming() throws Exception { Tomcat tomcat = getTomcatInstance(); // No file system docBase required Context ctx = getProgrammaticRootContext(); ctx.addApplicationListener(TesterAsyncTiming.Config.class.getName()); Tomcat.addServlet(ctx, "default", new DefaultServlet()); ctx.addServletMappingDecoded("/", "default"); tomcat.start(); WebSocketContainer wsContainer = ContainerProvider.getWebSocketContainer(); ClientEndpointConfig clientEndpointConfig = ClientEndpointConfig.Builder.create().build(); Session wsSession = wsContainer.connectToServer(TesterProgrammaticEndpoint.class, clientEndpointConfig, new URI("ws://localhost:" + getPort() + TesterAsyncTiming.Config.PATH)); AsyncTimingClientHandler handler = new AsyncTimingClientHandler(); wsSession.addMessageHandler(ByteBuffer.class, handler); wsSession.getBasicRemote().sendText("Hello"); System.out.println("Sent Hello message, waiting for data"); handler.waitForLatch(); Assert.assertFalse(handler.hasFailed()); } private static class AsyncTimingClientHandler implements MessageHandler.Partial { private long lastMessage = 0; private int sequence = 0; private int count = 0; private long seqZeroTimingFailureCount = 0; private long seqOneTimingFailureCount = 0; private long seqTwoTimingFailureCount = 0; private CountDownLatch latch = new CountDownLatch(1); private volatile boolean fail = false; @Override public void onMessage(ByteBuffer message, boolean last) { // Expected received data is: // 1 * 16k message in 2 * 8k chunks // 1 * 4k message in 1 * 4k chunk // 50 ms pause // loop if (lastMessage == 0) { // First message. Don't check sequence++; lastMessage = System.nanoTime(); } else { long newTime = System.nanoTime(); long diff = newTime - lastMessage; lastMessage = newTime; if (sequence == 0) { sequence++; if (message.capacity() != 8192) { System.out.println( "SEQ0: Expected size 8192 but was [" + message.capacity() + "], count [" + count + "]"); fail = true; } if (diff < 40000000) { System.out.println("SEQ0: Expected diff > 40ms but was [" + diff + "], count [" + count + "]"); seqZeroTimingFailureCount++; } } else if (sequence == 1) { sequence++; if (message.capacity() != 8192) { System.out.println( "SEQ1: Expected size 8192 but was [" + message.capacity() + "], count [" + count + "]"); fail = true; } // Gap between 2* 8k chunks of 16k message expected to be less than 0.5ms if (diff > 500000) { System.out.println("SEQ1: Expected diff < 500,000 but was [" + diff + "], count [" + count + "]"); seqOneTimingFailureCount++; } } else if (sequence == 2) { sequence = 0; if (message.capacity() != 4096) { System.out.println( "SEQ2: Expected size 4096 but was [" + message.capacity() + "], count [" + count + "]"); fail = true; } // Gap between 16k message and 4k message expected to be less than 0.5ms if (diff > 500000) { System.out.println("SEQ2: Expected diff < 500,000 but was [" + diff + "], count [" + count + "]"); seqTwoTimingFailureCount++; } } } count++; if (count >= TesterAsyncTiming.Config.ITERATIONS * 3) { latch.countDown(); } } public void waitForLatch() throws InterruptedException { latch.await(); } public boolean hasFailed() { // Total iterations are 1500 if (!fail) { if (seqZeroTimingFailureCount > 1) { // The 50ms pause after the short message may very rarely appear to be less than 40ms fail = true; } else if (seqOneTimingFailureCount > 10) { // The two chunks of the 16k message may rarely be more than 0.5ms apart fail = true; } else if (seqTwoTimingFailureCount > 100) { // The short message may often be more than 0.5ms after the long message fail = true; } } return fail; } } }