/* * Copyright (c) 2020, 2022, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. * * This code is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. */ /* * @test * @bug 8245462 8229822 8254786 * @summary Tests cancelling the request. * @library /test/lib http2/server * @key randomness * @build jdk.test.lib.net.SimpleSSLContext HttpServerAdapters * ReferenceTracker CancelRequestTest * @modules java.base/sun.net.www.http * java.net.http/jdk.internal.net.http.common * java.net.http/jdk.internal.net.http.frame * java.net.http/jdk.internal.net.http.hpack * @run testng/othervm -Djdk.internal.httpclient.debug=true * -Djdk.httpclient.enableAllMethodRetry=true * CancelRequestTest */ // * -Dseed=3582896013206826205L // * -Dseed=5784221742235559231L import com.sun.net.httpserver.HttpServer; import com.sun.net.httpserver.HttpsConfigurator; import com.sun.net.httpserver.HttpsServer; import jdk.internal.net.http.common.OperationTrackers.Tracker; import jdk.test.lib.RandomFactory; import jdk.test.lib.net.SimpleSSLContext; import org.testng.ITestContext; import org.testng.ITestResult; import org.testng.SkipException; import org.testng.annotations.AfterClass; import org.testng.annotations.AfterTest; import org.testng.annotations.BeforeMethod; import org.testng.annotations.BeforeTest; import org.testng.annotations.DataProvider; import org.testng.annotations.Test; import javax.net.ssl.SSLContext; import java.io.IOException; import java.io.InputStream; import java.io.OutputStream; import java.lang.ref.Reference; import java.net.InetAddress; import java.net.InetSocketAddress; import java.net.URI; import java.net.http.HttpClient; import java.net.http.HttpConnectTimeoutException; import java.net.http.HttpRequest; import java.net.http.HttpResponse; import java.net.http.HttpResponse.BodyHandler; import java.net.http.HttpResponse.BodyHandlers; import java.util.Arrays; import java.util.Iterator; import java.util.List; import java.util.Random; import java.util.concurrent.CancellationException; import java.util.concurrent.CompletableFuture; import java.util.concurrent.ConcurrentHashMap; import java.util.concurrent.ConcurrentMap; import java.util.concurrent.CountDownLatch; import java.util.concurrent.ExecutionException; import java.util.concurrent.Executor; import java.util.concurrent.Executors; import java.util.concurrent.atomic.AtomicLong; import java.util.concurrent.atomic.AtomicReference; import java.util.stream.Collectors; import java.util.stream.Stream; import static java.lang.System.arraycopy; import static java.lang.System.out; import static java.nio.charset.StandardCharsets.UTF_8; import static org.testng.Assert.assertEquals; import static org.testng.Assert.assertTrue; public class CancelRequestTest implements HttpServerAdapters { private static final Random random = RandomFactory.getRandom(); SSLContext sslContext; HttpTestServer httpTestServer; // HTTP/1.1 [ 4 servers ] HttpTestServer httpsTestServer; // HTTPS/1.1 HttpTestServer http2TestServer; // HTTP/2 ( h2c ) HttpTestServer https2TestServer; // HTTP/2 ( h2 ) String httpURI; String httpsURI; String http2URI; String https2URI; static final long SERVER_LATENCY = 75; static final int MAX_CLIENT_DELAY = 75; static final int ITERATION_COUNT = 3; // a shared executor helps reduce the amount of threads created by the test static final Executor executor = new TestExecutor(Executors.newCachedThreadPool()); static final ConcurrentMap FAILURES = new ConcurrentHashMap<>(); static volatile boolean tasksFailed; static final AtomicLong serverCount = new AtomicLong(); static final AtomicLong clientCount = new AtomicLong(); static final long start = System.nanoTime(); public static String now() { long now = System.nanoTime() - start; long secs = now / 1000_000_000; long mill = (now % 1000_000_000) / 1000_000; long nan = now % 1000_000; return String.format("[%d s, %d ms, %d ns] ", secs, mill, nan); } final ReferenceTracker TRACKER = ReferenceTracker.INSTANCE; private volatile HttpClient sharedClient; static class TestExecutor implements Executor { final AtomicLong tasks = new AtomicLong(); Executor executor; TestExecutor(Executor executor) { this.executor = executor; } @Override public void execute(Runnable command) { long id = tasks.incrementAndGet(); executor.execute(() -> { try { command.run(); } catch (Throwable t) { tasksFailed = true; System.out.printf(now() + "Task %s failed: %s%n", id, t); System.err.printf(now() + "Task %s failed: %s%n", id, t); FAILURES.putIfAbsent("Task " + id, t); throw t; } }); } } protected boolean stopAfterFirstFailure() { return Boolean.getBoolean("jdk.internal.httpclient.debug"); } final AtomicReference skiptests = new AtomicReference<>(); void checkSkip() { var skip = skiptests.get(); if (skip != null) throw skip; } static String name(ITestResult result) { var params = result.getParameters(); return result.getName() + (params == null ? "()" : Arrays.toString(result.getParameters())); } @BeforeMethod void beforeMethod(ITestContext context) { if (stopAfterFirstFailure() && context.getFailedTests().size() > 0) { if (skiptests.get() == null) { SkipException skip = new SkipException("some tests failed"); skip.setStackTrace(new StackTraceElement[0]); skiptests.compareAndSet(null, skip); } } } @AfterClass static final void printFailedTests(ITestContext context) { out.println("\n========================="); var failed = context.getFailedTests().getAllResults().stream() .collect(Collectors.toMap(r -> name(r), ITestResult::getThrowable)); FAILURES.putAll(failed); try { out.printf("%n%sCreated %d servers and %d clients%n", now(), serverCount.get(), clientCount.get()); if (FAILURES.isEmpty()) return; out.println("Failed tests: "); FAILURES.entrySet().forEach((e) -> { out.printf("\t%s: %s%n", e.getKey(), e.getValue()); e.getValue().printStackTrace(out); }); if (tasksFailed) { System.out.println("WARNING: Some tasks failed"); } } finally { out.println("\n=========================\n"); } } private String[] uris() { return new String[] { httpURI, httpsURI, http2URI, https2URI, }; } @DataProvider(name = "asyncurls") public Object[][] asyncurls() { String[] uris = uris(); Object[][] result = new Object[uris.length * 2 * 3][]; //Object[][] result = new Object[uris.length][]; int i = 0; for (boolean mayInterrupt : List.of(true, false, true)) { for (boolean sameClient : List.of(false, true)) { //if (!sameClient) continue; for (String uri : uris()) { String path = sameClient ? "same" : "new"; path = path + (mayInterrupt ? "/interrupt" : "/nointerrupt"); result[i++] = new Object[]{uri + path, sameClient, mayInterrupt}; } } } assert i == uris.length * 2 * 3; // assert i == uris.length ; return result; } @DataProvider(name = "urls") public Object[][] alltests() { String[] uris = uris(); Object[][] result = new Object[uris.length * 2][]; //Object[][] result = new Object[uris.length][]; int i = 0; for (boolean sameClient : List.of(false, true)) { //if (!sameClient) continue; for (String uri : uris()) { String path = sameClient ? "same" : "new"; path = path + "/interruptThread"; result[i++] = new Object[]{uri + path, sameClient}; } } assert i == uris.length * 2; // assert i == uris.length ; return result; } private HttpClient makeNewClient() { clientCount.incrementAndGet(); return TRACKER.track(HttpClient.newBuilder() .proxy(HttpClient.Builder.NO_PROXY) .executor(executor) .sslContext(sslContext) .build()); } HttpClient newHttpClient(boolean share) { if (!share) return makeNewClient(); HttpClient shared = sharedClient; if (shared != null) return shared; synchronized (this) { shared = sharedClient; if (shared == null) { shared = sharedClient = makeNewClient(); } return shared; } } final static String BODY = "Some string | that ? can | be split ? several | ways."; // should accept SSLHandshakeException because of the connectionAborter // with http/2 and should accept Stream 5 cancelled. // => also examine in what measure we should always // rewrap in "Request Cancelled" when the multi exchange was aborted... private static boolean isCancelled(Throwable t) { while (t instanceof ExecutionException) t = t.getCause(); if (t instanceof CancellationException) return true; if (t instanceof IOException) return String.valueOf(t).contains("Request cancelled"); out.println("Not a cancellation exception: " + t); t.printStackTrace(out); return false; } private static void delay() { int delay = random.nextInt(MAX_CLIENT_DELAY); try { System.out.println("client delay: " + delay); Thread.sleep(delay); } catch (InterruptedException x) { out.println("Unexpected exception: " + x); } } @Test(dataProvider = "asyncurls") public void testGetSendAsync(String uri, boolean sameClient, boolean mayInterruptIfRunning) throws Exception { checkSkip(); HttpClient client = null; uri = uri + "/get"; out.printf("%n%s testGetSendAsync(%s, %b, %b)%n", now(), uri, sameClient, mayInterruptIfRunning); for (int i=0; i< ITERATION_COUNT; i++) { if (!sameClient || client == null) client = newHttpClient(sameClient); Tracker tracker = TRACKER.getTracker(client); HttpRequest req = HttpRequest.newBuilder(URI.create(uri)) .GET() .build(); BodyHandler handler = BodyHandlers.ofString(); CountDownLatch latch = new CountDownLatch(1); CompletableFuture> response = client.sendAsync(req, handler); var cf1 = response.whenComplete((r,t) -> System.out.println(t)); CompletableFuture> cf2 = cf1.whenComplete((r,t) -> latch.countDown()); out.println("response: " + response); out.println("cf1: " + cf1); out.println("cf2: " + cf2); delay(); cf1.cancel(mayInterruptIfRunning); out.println("response after cancel: " + response); out.println("cf1 after cancel: " + cf1); out.println("cf2 after cancel: " + cf2); try { String body = cf2.get().body(); assertEquals(body, Stream.of(BODY.split("\\|")).collect(Collectors.joining())); throw new AssertionError("Expected CancellationException not received"); } catch (ExecutionException x) { out.println("Got expected exception: " + x); assertTrue(isCancelled(x)); } // Cancelling the request may cause an IOException instead... boolean hasCancellationException = false; try { cf1.get(); } catch (CancellationException | ExecutionException x) { out.println("Got expected exception: " + x); assertTrue(isCancelled(x)); hasCancellationException = x instanceof CancellationException; } // because it's cf1 that was cancelled then response might not have // completed yet - so wait for it here... try { String body = response.get().body(); assertEquals(body, Stream.of(BODY.split("\\|")).collect(Collectors.joining())); if (mayInterruptIfRunning) { // well actually - this could happen... In which case we'll need to // increase the latency in the server handler... throw new AssertionError("Expected Exception not received"); } } catch (ExecutionException x) { assertEquals(response.isDone(), true); Throwable wrapped = x.getCause(); assertTrue(CancellationException.class.isAssignableFrom(wrapped.getClass())); Throwable cause = wrapped.getCause(); out.println("CancellationException cause: " + x); assertTrue(IOException.class.isAssignableFrom(cause.getClass())); if (cause instanceof HttpConnectTimeoutException) { cause.printStackTrace(out); throw new RuntimeException("Unexpected timeout exception", cause); } if (mayInterruptIfRunning) { out.println("Got expected exception: " + wrapped); out.println("\tcause: " + cause); } else { out.println("Unexpected exception: " + wrapped); wrapped.printStackTrace(out); throw x; } } assertEquals(response.isDone(), true); assertEquals(response.isCancelled(), false); assertEquals(cf1.isCancelled(), hasCancellationException); assertEquals(cf2.isDone(), true); assertEquals(cf2.isCancelled(), false); assertEquals(latch.getCount(), 0); var error = TRACKER.check(tracker, 200, (t) -> t.getOutstandingOperations() > 0 || t.getOutstandingSubscribers() > 0, "subscribers for testGetSendAsync(%s)\n\t step [%s]".formatted(req.uri(), i), false); Reference.reachabilityFence(client); if (error != null) throw error; } } @Test(dataProvider = "asyncurls") public void testPostSendAsync(String uri, boolean sameClient, boolean mayInterruptIfRunning) throws Exception { checkSkip(); uri = uri + "/post"; HttpClient client = null; out.printf("%n%s testPostSendAsync(%s, %b, %b)%n", now(), uri, sameClient, mayInterruptIfRunning); for (int i=0; i< ITERATION_COUNT; i++) { if (!sameClient || client == null) client = newHttpClient(sameClient); Tracker tracker = TRACKER.getTracker(client); CompletableFuture> cancelFuture = new CompletableFuture<>(); Iterable iterable = new Iterable() { @Override public Iterator iterator() { // this is dangerous out.println("waiting for completion on: " + cancelFuture); boolean async = random.nextBoolean(); Runnable cancel = () -> { out.println("Cancelling from " + Thread.currentThread()); var cf1 = cancelFuture.join(); cf1.cancel(mayInterruptIfRunning); out.println("cancelled " + cf1); }; if (async) executor.execute(cancel); else cancel.run(); return List.of(BODY.getBytes(UTF_8)).iterator(); } }; HttpRequest req = HttpRequest.newBuilder(URI.create(uri)) .POST(HttpRequest.BodyPublishers.ofByteArrays(iterable)) .build(); BodyHandler handler = BodyHandlers.ofString(); CountDownLatch latch = new CountDownLatch(1); CompletableFuture> response = client.sendAsync(req, handler); var cf1 = response.whenComplete((r,t) -> System.out.println(t)); CompletableFuture> cf2 = cf1.whenComplete((r,t) -> latch.countDown()); out.println("response: " + response); out.println("cf1: " + cf1); out.println("cf2: " + cf2); cancelFuture.complete(cf1); out.println("response after cancel: " + response); out.println("cf1 after cancel: " + cf1); out.println("cf2 after cancel: " + cf2); try { String body = cf2.get().body(); assertEquals(body, Stream.of(BODY.split("\\|")).collect(Collectors.joining())); throw new AssertionError("Expected CancellationException not received"); } catch (ExecutionException x) { out.println("Got expected exception: " + x); assertTrue(isCancelled(x)); } // Cancelling the request may cause an IOException instead... boolean hasCancellationException = false; try { cf1.get(); } catch (CancellationException | ExecutionException x) { out.println("Got expected exception: " + x); assertTrue(isCancelled(x)); hasCancellationException = x instanceof CancellationException; } // because it's cf1 that was cancelled then response might not have // completed yet - so wait for it here... try { String body = response.get().body(); assertEquals(body, Stream.of(BODY.split("\\|")).collect(Collectors.joining())); if (mayInterruptIfRunning) { // well actually - this could happen... In which case we'll need to // increase the latency in the server handler... throw new AssertionError("Expected Exception not received"); } } catch (ExecutionException x) { assertEquals(response.isDone(), true); Throwable wrapped = x.getCause(); assertTrue(CancellationException.class.isAssignableFrom(wrapped.getClass())); Throwable cause = wrapped.getCause(); assertTrue(IOException.class.isAssignableFrom(cause.getClass())); if (cause instanceof HttpConnectTimeoutException) { cause.printStackTrace(out); throw new RuntimeException("Unexpected timeout exception", cause); } if (mayInterruptIfRunning) { out.println("Got expected exception: " + wrapped); out.println("\tcause: " + cause); } else { out.println("Unexpected exception: " + wrapped); wrapped.printStackTrace(out); throw x; } } assertEquals(response.isDone(), true); assertEquals(response.isCancelled(), false); assertEquals(cf1.isCancelled(), hasCancellationException); assertEquals(cf2.isDone(), true); assertEquals(cf2.isCancelled(), false); assertEquals(latch.getCount(), 0); var error = TRACKER.check(tracker, 200, (t) -> t.getOutstandingOperations() > 0 || t.getOutstandingSubscribers() > 0, "subscribers for testPostSendAsync(%s)\n\t step [%s]".formatted(req.uri(), i), false); Reference.reachabilityFence(client); if (error != null) throw error; } } @Test(dataProvider = "urls") public void testPostInterrupt(String uri, boolean sameClient) throws Exception { checkSkip(); HttpClient client = null; out.printf("%n%s testPostInterrupt(%s, %b)%n", now(), uri, sameClient); for (int i=0; i< ITERATION_COUNT; i++) { if (!sameClient || client == null) client = newHttpClient(sameClient); Tracker tracker = TRACKER.getTracker(client); Thread main = Thread.currentThread(); CompletableFuture interruptingThread = new CompletableFuture<>(); Runnable interrupt = () -> { Thread current = Thread.currentThread(); out.printf("%s Interrupting main from: %s (%s)", now(), current, uri); interruptingThread.complete(current); main.interrupt(); }; Iterable iterable = () -> { var async = random.nextBoolean(); if (async) executor.execute(interrupt); else interrupt.run(); return List.of(BODY.getBytes(UTF_8)).iterator(); }; HttpRequest req = HttpRequest.newBuilder(URI.create(uri)) .POST(HttpRequest.BodyPublishers.ofByteArrays(iterable)) .build(); String body = null; Exception failed = null; try { body = client.send(req, BodyHandlers.ofString()).body(); } catch (Exception x) { failed = x; } if (failed instanceof InterruptedException) { out.println("Got expected exception: " + failed); } else if (failed instanceof IOException) { // that could be OK if the main thread was interrupted // from the main thread: the interrupt status could have // been caught by writing to the socket from the main // thread. if (interruptingThread.get() == main) { out.println("Accepting IOException: " + failed); failed.printStackTrace(out); } else { throw failed; } } else if (failed != null) { assertEquals(body, Stream.of(BODY.split("\\|")).collect(Collectors.joining())); throw failed; } var error = TRACKER.check(tracker, 200, (t) -> t.getOutstandingOperations() > 0 || t.getOutstandingSubscribers() > 0, "subscribers for testPostInterrupt(%s)\n\t step [%s]".formatted(req.uri(), i), false); Reference.reachabilityFence(client); if (error != null) throw error; } } @BeforeTest public void setup() throws Exception { sslContext = new SimpleSSLContext().get(); if (sslContext == null) throw new AssertionError("Unexpected null sslContext"); // HTTP/1.1 HttpTestHandler h1_chunkHandler = new HTTPSlowHandler(); InetSocketAddress sa = new InetSocketAddress(InetAddress.getLoopbackAddress(), 0); httpTestServer = HttpTestServer.of(HttpServer.create(sa, 0)); httpTestServer.addHandler(h1_chunkHandler, "/http1/x/"); httpURI = "http://" + httpTestServer.serverAuthority() + "/http1/x/"; HttpsServer httpsServer = HttpsServer.create(sa, 0); httpsServer.setHttpsConfigurator(new HttpsConfigurator(sslContext)); httpsTestServer = HttpTestServer.of(httpsServer); httpsTestServer.addHandler(h1_chunkHandler, "/https1/x/"); httpsURI = "https://" + httpsTestServer.serverAuthority() + "/https1/x/"; // HTTP/2 HttpTestHandler h2_chunkedHandler = new HTTPSlowHandler(); http2TestServer = HttpTestServer.of(new Http2TestServer("localhost", false, 0)); http2TestServer.addHandler(h2_chunkedHandler, "/http2/x/"); http2URI = "http://" + http2TestServer.serverAuthority() + "/http2/x/"; https2TestServer = HttpTestServer.of(new Http2TestServer("localhost", true, sslContext)); https2TestServer.addHandler(h2_chunkedHandler, "/https2/x/"); https2URI = "https://" + https2TestServer.serverAuthority() + "/https2/x/"; serverCount.addAndGet(4); httpTestServer.start(); httpsTestServer.start(); http2TestServer.start(); https2TestServer.start(); } @AfterTest public void teardown() throws Exception { String sharedClientName = sharedClient == null ? null : sharedClient.toString(); sharedClient = null; Thread.sleep(100); AssertionError fail = TRACKER.check(500); try { httpTestServer.stop(); httpsTestServer.stop(); http2TestServer.stop(); https2TestServer.stop(); } finally { if (fail != null) { if (sharedClientName != null) { System.err.println("Shared client name is: " + sharedClientName); } throw fail; } } } private static boolean isThreadInterrupt(HttpTestExchange t) { return t.getRequestURI().getPath().contains("/interruptThread"); } /** * A handler that slowly sends back a body to give time for the * the request to get cancelled before the body is fully received. */ static class HTTPSlowHandler implements HttpTestHandler { @Override public void handle(HttpTestExchange t) throws IOException { try { out.println("HTTPSlowHandler received request to " + t.getRequestURI()); System.err.println("HTTPSlowHandler received request to " + t.getRequestURI()); boolean isThreadInterrupt = isThreadInterrupt(t); byte[] req; try (InputStream is = t.getRequestBody()) { req = is.readAllBytes(); } t.sendResponseHeaders(200, -1); // chunked/variable try (OutputStream os = t.getResponseBody()) { // lets split the response in several chunks... String msg = (req != null && req.length != 0) ? new String(req, UTF_8) : BODY; String[] str = msg.split("\\|"); for (var s : str) { req = s.getBytes(UTF_8); os.write(req); os.flush(); try { Thread.sleep(SERVER_LATENCY); } catch (InterruptedException x) { // OK } out.printf("Server wrote %d bytes%n", req.length); } } } catch (Throwable e) { out.println("HTTPSlowHandler: unexpected exception: " + e); e.printStackTrace(); throw e; } finally { out.printf("HTTPSlowHandler reply sent: %s%n", t.getRequestURI()); System.err.printf("HTTPSlowHandler reply sent: %s%n", t.getRequestURI()); } } } }