예제 #1
0
 private void checkNodeResourceUsage(
     int expected, org.apache.hadoop.yarn.server.resourcemanager.NodeManager node) {
   Assert.assertEquals(expected, node.getUsed().getMemory());
   node.checkResourceUsage();
 }
예제 #2
0
  //  @Test
  public void testFifoScheduler() throws Exception {

    LOG.info("--- START: testFifoScheduler ---");

    final int GB = 1024;

    // Register node1
    String host_0 = "host_0";
    org.apache.hadoop.yarn.server.resourcemanager.NodeManager nm_0 =
        registerNode(host_0, 1234, 2345, NetworkTopology.DEFAULT_RACK, 4 * GB);
    nm_0.heartbeat();

    // Register node2
    String host_1 = "host_1";
    org.apache.hadoop.yarn.server.resourcemanager.NodeManager nm_1 =
        registerNode(host_1, 1234, 2345, NetworkTopology.DEFAULT_RACK, 2 * GB);
    nm_1.heartbeat();

    // ResourceRequest priorities
    Priority priority_0 = org.apache.hadoop.yarn.server.resourcemanager.resource.Priority.create(0);
    Priority priority_1 = org.apache.hadoop.yarn.server.resourcemanager.resource.Priority.create(1);

    // Submit an application
    Application application_0 = new Application("user_0", resourceManager);
    application_0.submit();

    application_0.addNodeManager(host_0, 1234, nm_0);
    application_0.addNodeManager(host_1, 1234, nm_1);

    Resource capability_0_0 = Resources.createResource(GB);
    application_0.addResourceRequestSpec(priority_1, capability_0_0);

    Resource capability_0_1 = Resources.createResource(2 * GB);
    application_0.addResourceRequestSpec(priority_0, capability_0_1);

    Task task_0_0 = new Task(application_0, priority_1, new String[] {host_0, host_1});
    application_0.addTask(task_0_0);

    // Submit another application
    Application application_1 = new Application("user_1", resourceManager);
    application_1.submit();

    application_1.addNodeManager(host_0, 1234, nm_0);
    application_1.addNodeManager(host_1, 1234, nm_1);

    Resource capability_1_0 = Resources.createResource(3 * GB);
    application_1.addResourceRequestSpec(priority_1, capability_1_0);

    Resource capability_1_1 = Resources.createResource(4 * GB);
    application_1.addResourceRequestSpec(priority_0, capability_1_1);

    Task task_1_0 = new Task(application_1, priority_1, new String[] {host_0, host_1});
    application_1.addTask(task_1_0);

    // Send resource requests to the scheduler
    LOG.info("Send resource requests to the scheduler");
    application_0.schedule();
    application_1.schedule();

    // Send a heartbeat to kick the tires on the Scheduler
    LOG.info(
        "Send a heartbeat to kick the tires on the Scheduler... "
            + "nm0 -> task_0_0 and task_1_0 allocated, used=4G "
            + "nm1 -> nothing allocated");
    nm_0.heartbeat(); // task_0_0 and task_1_0 allocated, used=4G
    nm_1.heartbeat(); // nothing allocated

    // Get allocations from the scheduler
    application_0.schedule(); // task_0_0
    checkApplicationResourceUsage(GB, application_0);

    application_1.schedule(); // task_1_0
    checkApplicationResourceUsage(3 * GB, application_1);

    nm_0.heartbeat();
    nm_1.heartbeat();

    checkNodeResourceUsage(4 * GB, nm_0); // task_0_0 (1G) and task_1_0 (3G)
    checkNodeResourceUsage(0 * GB, nm_1); // no tasks, 2G available

    LOG.info("Adding new tasks...");

    Task task_1_1 = new Task(application_1, priority_1, new String[] {RMNode.ANY});
    application_1.addTask(task_1_1);

    Task task_1_2 = new Task(application_1, priority_1, new String[] {RMNode.ANY});
    application_1.addTask(task_1_2);

    Task task_1_3 = new Task(application_1, priority_0, new String[] {RMNode.ANY});
    application_1.addTask(task_1_3);

    application_1.schedule();

    Task task_0_1 = new Task(application_0, priority_1, new String[] {host_0, host_1});
    application_0.addTask(task_0_1);

    Task task_0_2 = new Task(application_0, priority_1, new String[] {host_0, host_1});
    application_0.addTask(task_0_2);

    Task task_0_3 = new Task(application_0, priority_0, new String[] {RMNode.ANY});
    application_0.addTask(task_0_3);

    application_0.schedule();

    // Send a heartbeat to kick the tires on the Scheduler
    LOG.info("Sending hb from " + nm_0.getHostName());
    nm_0.heartbeat(); // nothing new, used=4G

    LOG.info("Sending hb from " + nm_1.getHostName());
    nm_1.heartbeat(); // task_0_3, used=2G

    // Get allocations from the scheduler
    LOG.info("Trying to allocate...");
    application_0.schedule();
    checkApplicationResourceUsage(3 * GB, application_0);
    application_1.schedule();
    checkApplicationResourceUsage(3 * GB, application_1);
    nm_0.heartbeat();
    nm_1.heartbeat();
    checkNodeResourceUsage(4 * GB, nm_0);
    checkNodeResourceUsage(2 * GB, nm_1);

    // Complete tasks
    LOG.info("Finishing up task_0_0");
    application_0.finishTask(task_0_0); // Now task_0_1
    application_0.schedule();
    application_1.schedule();
    nm_0.heartbeat();
    nm_1.heartbeat();
    checkApplicationResourceUsage(3 * GB, application_0);
    checkApplicationResourceUsage(3 * GB, application_1);
    checkNodeResourceUsage(4 * GB, nm_0);
    checkNodeResourceUsage(2 * GB, nm_1);

    LOG.info("Finishing up task_1_0");
    application_1.finishTask(task_1_0); // Now task_0_2
    application_0.schedule(); // final overcommit for app0 caused here
    application_1.schedule();
    nm_0.heartbeat(); // final overcommit for app0 occurs here
    nm_1.heartbeat();
    checkApplicationResourceUsage(4 * GB, application_0);
    checkApplicationResourceUsage(0 * GB, application_1);
    // checkNodeResourceUsage(1*GB, nm_0);  // final over-commit -> rm.node->1G, test.node=2G
    checkNodeResourceUsage(2 * GB, nm_1);

    LOG.info("Finishing up task_0_3");
    application_0.finishTask(task_0_3); // No more
    application_0.schedule();
    application_1.schedule();
    nm_0.heartbeat();
    nm_1.heartbeat();
    checkApplicationResourceUsage(2 * GB, application_0);
    checkApplicationResourceUsage(0 * GB, application_1);
    // checkNodeResourceUsage(2*GB, nm_0);  // final over-commit, rm.node->1G, test.node->2G
    checkNodeResourceUsage(0 * GB, nm_1);

    LOG.info("Finishing up task_0_1");
    application_0.finishTask(task_0_1);
    application_0.schedule();
    application_1.schedule();
    nm_0.heartbeat();
    nm_1.heartbeat();
    checkApplicationResourceUsage(1 * GB, application_0);
    checkApplicationResourceUsage(0 * GB, application_1);

    LOG.info("Finishing up task_0_2");
    application_0.finishTask(task_0_2); // now task_1_3 can go!
    application_0.schedule();
    application_1.schedule();
    nm_0.heartbeat();
    nm_1.heartbeat();
    checkApplicationResourceUsage(0 * GB, application_0);
    checkApplicationResourceUsage(4 * GB, application_1);

    LOG.info("Finishing up task_1_3");
    application_1.finishTask(task_1_3); // now task_1_1
    application_0.schedule();
    application_1.schedule();
    nm_0.heartbeat();
    nm_1.heartbeat();
    checkApplicationResourceUsage(0 * GB, application_0);
    checkApplicationResourceUsage(3 * GB, application_1);

    LOG.info("Finishing up task_1_1");
    application_1.finishTask(task_1_1);
    application_0.schedule();
    application_1.schedule();
    nm_0.heartbeat();
    nm_1.heartbeat();
    checkApplicationResourceUsage(0 * GB, application_0);
    checkApplicationResourceUsage(3 * GB, application_1);

    LOG.info("--- END: testFifoScheduler ---");
  }