/* * Copyright (c) 2014, 2017, 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. */ import java.io.IOException; import java.time.Duration; import java.time.Instant; import java.util.ArrayList; import java.util.List; import java.util.concurrent.ArrayBlockingQueue; import java.util.concurrent.CompletableFuture; import java.util.concurrent.ConcurrentHashMap; import java.util.concurrent.ExecutionException; import java.util.concurrent.TimeUnit; import jdk.test.lib.Utils; import org.testng.annotations.Test; import org.testng.Assert; import org.testng.TestNG; /* * @test * @library /test/lib * @modules java.base/jdk.internal.misc * jdk.management * @build jdk.test.lib.Utils * jdk.test.lib.Asserts * jdk.test.lib.JDKToolFinder * jdk.test.lib.JDKToolLauncher * jdk.test.lib.Platform * jdk.test.lib.process.* * @run testng OnExitTest * @summary Functions of Process.onExit and ProcessHandle.onExit * @author Roger Riggs */ public class OnExitTest extends ProcessUtil { @SuppressWarnings("raw_types") public static void main(String[] args) { Class[] testclass = { OnExitTest.class}; TestNG testng = new TestNG(); testng.setTestClasses(testclass); testng.run(); } /** * Basic test of exitValue and onExit. */ @Test public static void test1() { try { int[] exitValues = {0, 1, 10}; for (int value : exitValues) { Process p = JavaChild.spawn("exit", Integer.toString(value)); CompletableFuture future = p.onExit(); future.thenAccept( (ph) -> { int actualExitValue = ph.exitValue(); printf(" javaChild done: %s, exitStatus: %d%n", ph, actualExitValue); Assert.assertEquals(actualExitValue, value, "actualExitValue incorrect"); Assert.assertEquals(ph, p, "Different Process passed to thenAccept"); }); Process h = future.get(); Assert.assertEquals(h, p); Assert.assertEquals(p.exitValue(), value); Assert.assertFalse(p.isAlive(), "Process should not be alive"); p.waitFor(); } } catch (IOException | InterruptedException | ExecutionException ex) { Assert.fail(ex.getMessage(), ex); } finally { destroyProcessTree(ProcessHandle.current()); } } /** * Test of Completion handler when parent is killed. * Spawn 1 child to spawn 3 children each with 2 children. */ @Test public static void test2() { ProcessHandle procHandle = null; try { ConcurrentHashMap processes = new ConcurrentHashMap<>(); List children = getChildren(ProcessHandle.current()); children.forEach(ProcessUtil::printProcess); JavaChild proc = JavaChild.spawnJavaChild("stdin"); procHandle = proc.toHandle(); printf(" spawned: %d%n", proc.pid()); proc.forEachOutputLine((s) -> { String[] split = s.trim().split(" "); if (split.length == 3 && split[1].equals("spawn")) { Long child = Long.valueOf(split[2]); Long parent = Long.valueOf(split[0].split(":")[0]); processes.put(ProcessHandle.of(child).get(), ProcessHandle.of(parent).get()); } }); proc.sendAction("spawn", "3", "stdin"); proc.sendAction("child", "spawn", "2", "stdin"); // Poll until all 9 child processes exist or the timeout is reached int expected = 9; long timeout = Utils.adjustTimeout(10L); Instant endTimeout = Instant.now().plusSeconds(timeout); do { Thread.sleep(200L); printf(" subprocess count: %d, waiting for %d%n", processes.size(), expected); } while (processes.size() < expected && Instant.now().isBefore(endTimeout)); if (processes.size() < expected) { printf("WARNING: not all children have been started. Can't complete test.%n"); printf(" You can try to increase the timeout or%n"); printf(" you can try to use a faster VM (i.e. not a debug version).%n"); } children = getDescendants(procHandle); ConcurrentHashMap> completions = new ConcurrentHashMap<>(); Instant startTime = Instant.now(); // Create a future for each of the 9 children processes.forEach( (p, parent) -> { CompletableFuture cf = p.onExit().whenComplete((ph, ex) -> { Duration elapsed = Duration.between(startTime, Instant.now()); printf("whenComplete: pid: %s, exception: %s, thread: %s, elapsed: %s%n", ph, ex, Thread.currentThread(), elapsed); }); completions.put(p, cf); }); // Check that each of the spawned processes is included in the children List remaining = new ArrayList<>(children); processes.forEach((p, parent) -> { Assert.assertTrue(remaining.remove(p), "spawned process should have been in children"); }); // Remove Win32 system spawned conhost.exe processes remaining.removeIf(ProcessUtil::isWindowsConsole); remaining.forEach(p -> printProcess(p, "unexpected: ")); if (remaining.size() > 0) { // Show full list for debugging ProcessUtil.logTaskList(); } proc.destroy(); // kill off the parent proc.waitFor(); // Wait for all the processes and corresponding onExit CF to be completed processes.forEach((p, parent) -> { try { p.onExit().get(); completions.get(p).join(); } catch (InterruptedException | ExecutionException ex) { // ignore } }); // Verify that all 9 exit handlers were called with the correct ProcessHandle processes.forEach((p, parent) -> { ProcessHandle value = completions.get(p).getNow(null); Assert.assertEquals(p, value, "onExit.get value expected: " + p + ", actual: " + value + ": " + p.info()); }); // Show the status of the original children children.forEach(p -> printProcess(p, "after onExit:")); Assert.assertEquals(proc.isAlive(), false, "destroyed process is alive:: %s%n" + proc); } catch (IOException | InterruptedException ex) { Assert.fail(ex.getMessage()); } finally { if (procHandle != null) { destroyProcessTree(procHandle); } } } /** * Verify that onExit completes for a non-child process only when * the process has exited. * Spawn a child (A) waiting to be commanded to exit. * Spawn a child (B) to wait for that process to exit. * Command (A) to exit. * Check that (B) does not complete until (A) has exited. */ @Test public static void peerOnExitTest() { String line = null; ArrayBlockingQueue alines = new ArrayBlockingQueue<>(100); ArrayBlockingQueue blines = new ArrayBlockingQueue<>(100); JavaChild A = null; try { String[] split; A = JavaChild.spawnJavaChild("stdin"); A.forEachOutputLine(l -> alines.add(l)); // Verify A is running A.sendAction("pid"); do { split = getSplitLine(alines); } while (!"pid".equals(split[1])); JavaChild B = null; try { B = JavaChild.spawnJavaChild("stdin"); B.forEachOutputLine(l -> blines.add(l)); // Verify B is running B.sendAction("pid"); do { split = getSplitLine(blines); } while (!"pid".equals(split[1])); // Tell B to wait for A's pid B.sendAction("waitpid", A.pid()); // Wait a bit to see if B will prematurely report the termination of A try { line = blines.poll(5L, TimeUnit.SECONDS); } catch (InterruptedException ie) { Assert.fail("interrupted", ie); } Assert.assertNull(line, "waitpid didn't wait"); A.sendAction("exit", 0L); // Look for B to report that A has exited do { split = getSplitLine(blines); } while (!"waitpid".equals(split[1])); Assert.assertEquals(split[2], "false", "Process A should not be alive"); B.sendAction("exit", 0L); } catch (IOException ioe) { Assert.fail("unable to start JavaChild B", ioe); } finally { B.destroyForcibly(); } } catch (IOException ioe2) { Assert.fail("unable to start JavaChild A", ioe2); } finally { A.destroyForcibly(); } } private static boolean DEBUG = true; /** * Get a line from the queue and split into words on whitespace. * Log to stdout if requested. * @param queue a queue of strings * @return the words split from the line. */ private static String[] getSplitLine(ArrayBlockingQueue queue) { try { String line = queue.take(); String[] split = line.split("\\s"); if (DEBUG) { System.out.printf(" Child Output: %s%n", line); } return split; } catch (InterruptedException ie) { Assert.fail("interrupted", ie); return null; } } }