예제 #1
0
// This test verifies that the slave task status label decorator can
// add and remove labels from a TaskStatus during the status update
// sequence. A TaskStatus with two labels ("foo":"bar" and
// "bar":"baz") is sent from the executor. The labels get modified by
// the slave hook to strip the "foo":"bar" pair and/ add a new
// "baz":"qux" pair.
TEST_F(HookTest, VerifySlaveTaskStatusDecorator)
{
  Try<Owned<cluster::Master>> master = StartMaster();
  ASSERT_SOME(master);

  MockExecutor exec(DEFAULT_EXECUTOR_ID);
  TestContainerizer containerizer(&exec);

  Owned<MasterDetector> detector = master.get()->createDetector();
  Try<Owned<cluster::Slave>> slave = StartSlave(detector.get(), &containerizer);
  ASSERT_SOME(slave);

  MockScheduler sched;
  MesosSchedulerDriver driver(
      &sched, DEFAULT_FRAMEWORK_INFO, master.get()->pid, DEFAULT_CREDENTIAL);

  EXPECT_CALL(sched, registered(&driver, _, _));

  Future<vector<Offer>> offers;
  EXPECT_CALL(sched, resourceOffers(&driver, _))
    .WillOnce(FutureArg<1>(&offers))
    .WillRepeatedly(Return()); // Ignore subsequent offers.

  driver.start();

  AWAIT_READY(offers);
  ASSERT_EQ(1u, offers.get().size());

  // Start a task.
  TaskInfo task = createTask(offers.get()[0], "", DEFAULT_EXECUTOR_ID);

  ExecutorDriver* execDriver;
  EXPECT_CALL(exec, registered(_, _, _, _))
    .WillOnce(SaveArg<0>(&execDriver));

  Future<TaskInfo> execTask;
  EXPECT_CALL(exec, launchTask(_, _))
    .WillOnce(FutureArg<1>(&execTask));

  Future<TaskStatus> status;
  EXPECT_CALL(sched, statusUpdate(&driver, _))
    .WillOnce(FutureArg<1>(&status));

  driver.launchTasks(offers.get()[0].id(), {task});

  AWAIT_READY(execTask);

  // Now send TASK_RUNNING update with two labels. The first label
  // ("foo:bar") will be removed by the task status hook to ensure
  // that it can remove labels. The second label will be preserved
  // and forwarded to Master (and eventually to the framework).
  // The hook also adds a new label with the same key but a different
  // value ("bar:quz").
  TaskStatus runningStatus;
  runningStatus.mutable_task_id()->MergeFrom(execTask.get().task_id());
  runningStatus.set_state(TASK_RUNNING);

  // Add two labels to the TaskStatus
  Labels* labels = runningStatus.mutable_labels();

  labels->add_labels()->CopyFrom(createLabel("foo", "bar"));
  labels->add_labels()->CopyFrom(createLabel("bar", "baz"));

  execDriver->sendStatusUpdate(runningStatus);

  AWAIT_READY(status);

  // The hook will hang an extra label off.
  const Labels& labels_ = status.get().labels();

  EXPECT_EQ(2, labels_.labels_size());

  // The test hook will prepend a new "baz":"qux" label.
  EXPECT_EQ("bar", labels_.labels(0).key());
  EXPECT_EQ("qux", labels_.labels(0).value());

  // And lastly, we only expect the "foo":"bar" pair to be stripped by
  // the module. The last pair should be the original "bar":"baz"
  // pair set by the test.
  EXPECT_EQ("bar", labels_.labels(1).key());
  EXPECT_EQ("baz", labels_.labels(1).value());

  // Now validate TaskInfo.container_status. We must have received a
  // container_status with one network_info set by the test hook module.
  EXPECT_TRUE(status.get().has_container_status());
  EXPECT_EQ(1, status.get().container_status().network_infos().size());

  const NetworkInfo networkInfo =
    status.get().container_status().network_infos(0);

  // The hook module sets up '4.3.2.1' as the IP address and 'public' as the
  // network isolation group. The `ip_address` field is deprecated, but the
  // hook module should continue to set it as well as the new `ip_addresses`
  // field for now.
  EXPECT_TRUE(networkInfo.has_ip_address());
  EXPECT_EQ("4.3.2.1", networkInfo.ip_address());

  EXPECT_EQ(1, networkInfo.ip_addresses().size());
  EXPECT_TRUE(networkInfo.ip_addresses(0).has_ip_address());
  EXPECT_EQ("4.3.2.1", networkInfo.ip_addresses(0).ip_address());

  EXPECT_EQ(1, networkInfo.groups().size());
  EXPECT_EQ("public", networkInfo.groups(0));

  EXPECT_TRUE(networkInfo.has_labels());
  EXPECT_EQ(1, networkInfo.labels().labels().size());

  const Label networkInfoLabel = networkInfo.labels().labels(0);

  // Finally, the labels set inside NetworkInfo by the hook module.
  EXPECT_EQ("net_foo", networkInfoLabel.key());
  EXPECT_EQ("net_bar", networkInfoLabel.value());

  EXPECT_CALL(exec, shutdown(_))
    .Times(AtMost(1));

  driver.stop();
  driver.join();
}
예제 #2
0
process::Future<Option<ContainerLaunchInfo>> NetworkIsolatorProcess::prepare(
    const ContainerID& containerId,
    const ContainerConfig& containerConfig)
{
  LOG(INFO) << "NetworkIsolator::prepare for container: " << containerId;

  const ExecutorInfo executorInfo = containerConfig.executorinfo();
  if (!executorInfo.has_container()) {
    LOG(INFO) << "NetworkIsolator::prepare Ignoring request as "
              << "executorInfo.container is missing for container: "
              << containerId;
    return None();
  }

  if (executorInfo.container().network_infos().size() == 0) {
    LOG(INFO) << "NetworkIsolator::prepare Ignoring request as "
              << "executorInfo.container.network_infos is missing for "
              << "container: " << containerId;
    return None();
  }

  if (executorInfo.container().network_infos().size() > 1) {
    return Failure(
        "NetworkIsolator:: multiple NetworkInfos are not supported.");
  }

  NetworkInfo networkInfo = executorInfo.container().network_infos(0);

  if (networkInfo.has_protocol()) {
    return Failure(
      "NetworkIsolator: NetworkInfo.protocol is deprecated and unsupported.");
  }
  if (networkInfo.has_ip_address()) {
    return Failure(
      "NetworkIsolator: NetworkInfo.ip_address is deprecated and"
      " unsupported.");
  }

  string uid = UUID::random().toString();

  // Two IPAM commands:
  // 1) reserve for IPs the user has specifically asked for.
  // 2) auto-assign IPs.
  // Spin through all IPAddress messages once to get info for each command.
  // Then we'll issue each command if needed.
  IPAMReserveIPMessage reserveMessage;
  IPAMReserveIPMessage::Args* reserveArgs = reserveMessage.mutable_args();

  // Counter of IPs to auto assign.
  int numIPv4 = 0;
  foreach (const NetworkInfo::IPAddress& ipAddress, networkInfo.ip_addresses()) {
    if (ipAddress.has_ip_address() && ipAddress.has_protocol()) {
      return Failure("NetworkIsolator: Cannot include both ip_address and "
                     "protocol in a request.");
    }
    if (ipAddress.has_ip_address()) {
      // Store IP to attempt to reserve.
      reserveArgs->add_ipv4_addrs(ipAddress.ip_address());
    } else if (ipAddress.has_protocol() &&
               ipAddress.protocol() == NetworkInfo::IPv6){
      return Failure("NetworkIsolator: IPv6 is not supported at this time.");
    } else {
      // Either protocol is IPv4, or not included (in which case we default to
      // IPv4 anyway).
      numIPv4++;
    }
  }

  if (!(reserveArgs->ipv4_addrs_size() + numIPv4)) {
    return Failure(
      "NetworkIsolator: Container requires at least one IP address.");
  }

  // All the IP addresses, both reserved and allocated.
  vector<string> allAddresses;

  // Reserve provided IPs first.
  if (reserveArgs->ipv4_addrs_size()) {
    reserveArgs->set_hostname(slaveInfo.hostname());
    reserveArgs->set_uid(uid);
    reserveArgs->mutable_netgroups()->CopyFrom(networkInfo.groups());
    reserveArgs->mutable_labels()->CopyFrom(networkInfo.labels().labels());

    LOG(INFO) << "Sending IP reserve command to IPAM";
    Try<IPAMResponse> response =
      runCommand<IPAMReserveIPMessage, IPAMResponse>(
          ipamClientPath, reserveMessage);
    if (response.isError()) {
      return Failure("Error reserving IPs with IPAM: " + response.error());
    }

    string addresses = "";
    foreach (const string& addr, reserveArgs->ipv4_addrs()) {
      addresses = addresses + addr + " ";
      allAddresses.push_back(addr);
    }
    LOG(INFO) << "IP(s) " << addresses << "reserved with IPAM";
  }