TEST_F(DockerTest, ROOT_DOCKER_CheckPortResource) { const string containerName = NAME_PREFIX + "-port-resource-test"; Owned<Docker> docker(Docker::create(tests::flags.docker, tests::flags.docker_socket, false).get()); // Make sure the container is removed. Future<Nothing> remove = docker->rm(containerName, true); ASSERT_TRUE(process::internal::await(remove, Seconds(10))); ContainerInfo containerInfo; containerInfo.set_type(ContainerInfo::DOCKER); ContainerInfo::DockerInfo dockerInfo; dockerInfo.set_image("busybox"); dockerInfo.set_network(ContainerInfo::DockerInfo::BRIDGE); ContainerInfo::DockerInfo::PortMapping portMapping; portMapping.set_host_port(10000); portMapping.set_container_port(80); dockerInfo.add_port_mappings()->CopyFrom(portMapping); containerInfo.mutable_docker()->CopyFrom(dockerInfo); CommandInfo commandInfo; commandInfo.set_shell(false); commandInfo.set_value("true"); Resources resources = Resources::parse("ports:[9998-9999];ports:[10001-11000]").get(); Future<Nothing> run = docker->run( containerInfo, commandInfo, containerName, "dir", "/mnt/mesos/sandbox", resources); // Port should be out side of the provided ranges. AWAIT_EXPECT_FAILED(run); resources = Resources::parse("ports:[9998-9999];ports:[10000-11000]").get(); Try<string> directory = environment->mkdtemp(); CHECK_SOME(directory) << "Failed to create temporary directory"; run = docker->run( containerInfo, commandInfo, containerName, directory.get(), "/mnt/mesos/sandbox", resources); AWAIT_READY(run); }
TaskInfo buildTask (string hostname, string id, const SlaveID& slave) { hostProfile profile = hostList[hostname]; // Define the Docker container. /* Since there is no "executor" to manage the tasks, the container will be built and attached directly into the task below */ ContainerInfo container; container.set_type(container.DOCKER); ContainerInfo::DockerInfo docker; docker.set_image(DOCKER_IMAGE); container.mutable_docker()->MergeFrom(docker); // Mount local volume inside Container Volume * volume = container.add_volumes(); volume->set_container_path("/mnt"); volume->set_host_path("/local/mesos"); volume->set_mode(Volume_Mode_RW); // Define the task TaskInfo task; task.set_name("K3-" + k3binary); task.mutable_task_id()->set_value(id); task.mutable_slave_id()->MergeFrom(slave); task.mutable_container()->MergeFrom(container); //task.set_data(stringify(localTasks)); // Define include files for the command CommandInfo command; CommandInfo_URI * k3_bin = command.add_uris(); k3_bin->set_value(fileServer + "/" + k3binary); k3_bin->set_executable(true); k3_bin->set_extract(false); // CommandInfo_URI * k3_args = command.add_uris(); // k3_args->set_value(runpath + "/k3input.yaml"); // command.set_value("$MESOS_SANDBOX/" + k3binary + " -l INFO -p " + // "$MESOS_SANDBOX/k3input.yaml"); task.mutable_command()->MergeFrom(command); // Option A for doing resources management (see scheduler for option B) Resource* resource; resource = task.add_resources(); resource->set_name("cpus"); resource->set_type(Value::SCALAR); resource->mutable_scalar()->set_value(profile.cpu); resource = task.add_resources(); resource->set_name("mem"); resource->set_type(Value::SCALAR); resource->mutable_scalar()->set_value(profile.mem); return task; }
virtual void resourceOffers( SchedulerDriver* driver, const vector<Offer>& offers) { static const Try<Resources> TASK_RESOURCES = Resources::parse(resources); if (TASK_RESOURCES.isError()) { cerr << "Failed to parse resources '" << resources << "': " << TASK_RESOURCES.error() << endl; driver->abort(); return; } foreach (const Offer& offer, offers) { if (!launched && Resources(offer.resources()).contains(TASK_RESOURCES.get())) { TaskInfo task; task.set_name(name); task.mutable_task_id()->set_value(name); task.mutable_slave_id()->MergeFrom(offer.slave_id()); task.mutable_resources()->CopyFrom(TASK_RESOURCES.get()); task.mutable_command()->set_value(command); if (uri.isSome()) { task.mutable_command()->add_uris()->set_value(uri.get()); } if (dockerImage.isSome()) { ContainerInfo containerInfo; containerInfo.set_type(ContainerInfo::DOCKER); ContainerInfo::DockerInfo dockerInfo; dockerInfo.set_image(dockerImage.get()); containerInfo.mutable_docker()->CopyFrom(dockerInfo); task.mutable_container()->CopyFrom(containerInfo); } vector<TaskInfo> tasks; tasks.push_back(task); driver->launchTasks(offer.id(), tasks); cout << "task " << name << " submitted to slave " << offer.slave_id() << endl; launched = true; } else { driver->declineOffer(offer.id()); } } }
// This test verifies mounting in an absolute path when running a // docker container works. TEST_F(DockerTest, ROOT_DOCKER_MountAbsolute) { Owned<Docker> docker = Docker::create( tests::flags.docker, tests::flags.docker_socket, false).get(); ContainerInfo containerInfo; containerInfo.set_type(ContainerInfo::DOCKER); Try<string> directory = environment->mkdtemp(); CHECK_SOME(directory) << "Failed to create temporary directory"; const string testFile = path::join(directory.get(), "test_file"); EXPECT_SOME(os::write(testFile, "data")); Volume* volume = containerInfo.add_volumes(); volume->set_host_path(testFile); volume->set_container_path("/tmp/test_file"); volume->set_mode(Volume::RO); ContainerInfo::DockerInfo dockerInfo; dockerInfo.set_image("busybox"); containerInfo.mutable_docker()->CopyFrom(dockerInfo); CommandInfo commandInfo; commandInfo.set_shell(true); commandInfo.set_value("ls /tmp/test_file"); Future<Nothing> run = docker->run( containerInfo, commandInfo, NAME_PREFIX + "-mount-absolute-test", directory.get(), directory.get()); AWAIT_READY(run); }
// Test that the prepare launch docker hook execute before launch // a docker container. Test hook create a file "foo" in the sandbox // directory. When the docker container launched, the sandbox directory // is mounted to the docker container. We validate the hook by verifying // the "foo" file exists in the docker container or not. TEST_F(HookTest, ROOT_DOCKER_VerifySlavePreLaunchDockerHook) { Try<Owned<cluster::Master>> master = StartMaster(); ASSERT_SOME(master); MockDocker* mockDocker = new MockDocker(tests::flags.docker, tests::flags.docker_socket); Shared<Docker> docker(mockDocker); slave::Flags flags = CreateSlaveFlags(); Fetcher fetcher; Try<ContainerLogger*> logger = ContainerLogger::create(flags.container_logger); ASSERT_SOME(logger); MockDockerContainerizer containerizer( flags, &fetcher, Owned<ContainerLogger>(logger.get()), docker); Owned<MasterDetector> detector = master.get()->createDetector(); Try<Owned<cluster::Slave>> slave = StartSlave(detector.get(), &containerizer, flags); ASSERT_SOME(slave); MockScheduler sched; MesosSchedulerDriver driver( &sched, DEFAULT_FRAMEWORK_INFO, master.get()->pid, DEFAULT_CREDENTIAL); Future<FrameworkID> frameworkId; EXPECT_CALL(sched, registered(&driver, _, _)) .WillOnce(FutureArg<1>(&frameworkId)); Future<vector<Offer>> offers; EXPECT_CALL(sched, resourceOffers(&driver, _)) .WillOnce(FutureArg<1>(&offers)) .WillRepeatedly(Return()); // Ignore subsequent offers. driver.start(); AWAIT_READY(frameworkId); AWAIT_READY(offers); ASSERT_NE(0u, offers.get().size()); const Offer& offer = offers.get()[0]; SlaveID slaveId = offer.slave_id(); TaskInfo task; task.set_name(""); task.mutable_task_id()->set_value("1"); task.mutable_slave_id()->CopyFrom(offer.slave_id()); task.mutable_resources()->CopyFrom(offer.resources()); CommandInfo command; command.set_value("test -f " + path::join(flags.sandbox_directory, "foo")); ContainerInfo containerInfo; containerInfo.set_type(ContainerInfo::DOCKER); // TODO(tnachen): Use local image to test if possible. ContainerInfo::DockerInfo dockerInfo; dockerInfo.set_image("alpine"); containerInfo.mutable_docker()->CopyFrom(dockerInfo); task.mutable_command()->CopyFrom(command); task.mutable_container()->CopyFrom(containerInfo); vector<TaskInfo> tasks; tasks.push_back(task); Future<ContainerID> containerId; EXPECT_CALL(containerizer, launch(_, _, _, _, _, _, _, _)) .WillOnce(DoAll(FutureArg<0>(&containerId), Invoke(&containerizer, &MockDockerContainerizer::_launch))); Future<TaskStatus> statusRunning; Future<TaskStatus> statusFinished; EXPECT_CALL(sched, statusUpdate(&driver, _)) .WillOnce(FutureArg<1>(&statusRunning)) .WillOnce(FutureArg<1>(&statusFinished)) .WillRepeatedly(DoDefault()); driver.launchTasks(offers.get()[0].id(), tasks); AWAIT_READY_FOR(containerId, Seconds(60)); AWAIT_READY_FOR(statusRunning, Seconds(60)); EXPECT_EQ(TASK_RUNNING, statusRunning.get().state()); AWAIT_READY_FOR(statusFinished, Seconds(60)); EXPECT_EQ(TASK_FINISHED, statusFinished.get().state()); Future<containerizer::Termination> termination = containerizer.wait(containerId.get()); driver.stop(); driver.join(); AWAIT_READY(termination); Future<list<Docker::Container>> containers = docker.get()->ps(true, slave::DOCKER_NAME_PREFIX); AWAIT_READY(containers); // Cleanup all mesos launched containers. foreach (const Docker::Container& container, containers.get()) { AWAIT_READY_FOR(docker.get()->rm(container.id, true), Seconds(30)); } }
virtual void resourceOffers( SchedulerDriver* driver, const vector<Offer>& offers) { static const Try<Resources> TASK_RESOURCES = Resources::parse(resources); if (TASK_RESOURCES.isError()) { cerr << "Failed to parse resources '" << resources << "': " << TASK_RESOURCES.error() << endl; driver->abort(); return; } foreach (const Offer& offer, offers) { if (!launched && Resources(offer.resources()).contains(TASK_RESOURCES.get())) { TaskInfo task; task.set_name(name); task.mutable_task_id()->set_value(name); task.mutable_slave_id()->MergeFrom(offer.slave_id()); task.mutable_resources()->CopyFrom(TASK_RESOURCES.get()); CommandInfo* commandInfo = task.mutable_command(); commandInfo->set_value(command); if (environment.isSome()) { Environment* environment_ = commandInfo->mutable_environment(); foreachpair (const std::string& name, const std::string& value, environment.get()) { Environment_Variable* environmentVariable = environment_->add_variables(); environmentVariable->set_name(name); environmentVariable->set_value(value); } } if (uri.isSome()) { task.mutable_command()->add_uris()->set_value(uri.get()); } if (dockerImage.isSome()) { ContainerInfo containerInfo; if (containerizer == "mesos") { containerInfo.set_type(ContainerInfo::MESOS); ContainerInfo::MesosInfo mesosInfo; Image mesosImage; mesosImage.set_type(Image::DOCKER); mesosImage.mutable_docker()->set_name(dockerImage.get()); mesosInfo.mutable_image()->CopyFrom(mesosImage); containerInfo.mutable_mesos()->CopyFrom(mesosInfo); } else if (containerizer == "docker") { containerInfo.set_type(ContainerInfo::DOCKER); ContainerInfo::DockerInfo dockerInfo; dockerInfo.set_image(dockerImage.get()); containerInfo.mutable_docker()->CopyFrom(dockerInfo); } else { cerr << "Unsupported containerizer: " << containerizer << endl;; driver->abort(); return; } task.mutable_container()->CopyFrom(containerInfo); } vector<TaskInfo> tasks; tasks.push_back(task); driver->launchTasks(offer.id(), tasks); cout << "task " << name << " submitted to slave " << offer.slave_id() << endl; launched = true; } else {
virtual void resourceOffers(SchedulerDriver* driver, const vector<Offer>& offers) { cout << "." << flush; for (size_t i = 0; i < offers.size(); i++) { const Offer& offer = offers[i]; // Lookup resources we care about. // TODO(benh): It would be nice to ultimately have some helper // functions for looking up resources. double cpus = 0; double mem = 0; for (int i = 0; i < offer.resources_size(); i++) { const Resource& resource = offer.resources(i); if (resource.name() == "cpus" && resource.type() == Value::SCALAR) { cpus = resource.scalar().value(); } else if (resource.name() == "mem" && resource.type() == Value::SCALAR) { mem = resource.scalar().value(); } } // Launch tasks. vector<TaskInfo> tasks; while (tasksLaunched < totalTasks && cpus >= CPUS_PER_TASK && mem >= MEM_PER_TASK) { int taskId = tasksLaunched++; cout << "Starting task " << taskId << " on " << offer.hostname() << endl; TaskInfo task; task.set_name("Task " + lexical_cast<string>(taskId)); task.mutable_task_id()->set_value(lexical_cast<string>(taskId)); task.mutable_slave_id()->MergeFrom(offer.slave_id()); task.mutable_command()->set_value("echo hello"); // Use Docker to run the task. ContainerInfo containerInfo; containerInfo.set_type(ContainerInfo::DOCKER); ContainerInfo::DockerInfo dockerInfo; dockerInfo.set_image("busybox"); containerInfo.mutable_docker()->CopyFrom(dockerInfo); task.mutable_container()->CopyFrom(containerInfo); Resource* resource; resource = task.add_resources(); resource->set_name("cpus"); resource->set_type(Value::SCALAR); resource->mutable_scalar()->set_value(CPUS_PER_TASK); resource = task.add_resources(); resource->set_name("mem"); resource->set_type(Value::SCALAR); resource->mutable_scalar()->set_value(MEM_PER_TASK); tasks.push_back(task); cpus -= CPUS_PER_TASK; mem -= MEM_PER_TASK; } driver->launchTasks(offer.id(), tasks); } }
// This test tests the functionality of the docker's interfaces. TEST(DockerTest, ROOT_DOCKER_interface) { string containerName = "mesos-docker-test"; Resources resources = Resources::parse("cpus:1;mem:512").get(); Docker docker = Docker::create(tests::flags.docker, false).get(); // Cleaning up the container first if it exists. Future<Nothing> status = docker.rm(containerName, true); ASSERT_TRUE(status.await(Seconds(10))); // Verify that we do not see the container. Future<list<Docker::Container> > containers = docker.ps(true, containerName); AWAIT_READY(containers); foreach (const Docker::Container& container, containers.get()) { EXPECT_NE("/" + containerName, container.name); } Try<string> directory = environment->mkdtemp(); CHECK_SOME(directory) << "Failed to create temporary directory"; ContainerInfo containerInfo; containerInfo.set_type(ContainerInfo::DOCKER); ContainerInfo::DockerInfo dockerInfo; dockerInfo.set_image("busybox"); containerInfo.mutable_docker()->CopyFrom(dockerInfo); CommandInfo commandInfo; commandInfo.set_value("sleep 120"); // Start the container. status = docker.run( containerInfo, commandInfo, containerName, directory.get(), "/mnt/mesos/sandbox", resources); AWAIT_READY(status); // Should be able to see the container now. containers = docker.ps(); AWAIT_READY(containers); bool found = false; foreach (const Docker::Container& container, containers.get()) { if ("/" + containerName == container.name) { found = true; break; } } EXPECT_TRUE(found); Future<Docker::Container> container = docker.inspect(containerName); AWAIT_READY(container); // Test some fields of the container. EXPECT_NE("", container.get().id); EXPECT_EQ("/" + containerName, container.get().name); EXPECT_SOME(container.get().pid); // Kill the container. status = docker.kill(containerName); AWAIT_READY(status); // Now, the container should not appear in the result of ps(). // But it should appear in the result of ps(true). containers = docker.ps(); AWAIT_READY(containers); foreach (const Docker::Container& container, containers.get()) { EXPECT_NE("/" + containerName, container.name); } containers = docker.ps(true, containerName); AWAIT_READY(containers); found = false; foreach (const Docker::Container& container, containers.get()) { if ("/" + containerName == container.name) { found = true; break; } } EXPECT_TRUE(found); // Check the container's info, both id and name should remain the // same since we haven't removed it, but the pid should be none // since it's not running. container = docker.inspect(containerName); AWAIT_READY(container); EXPECT_NE("", container.get().id); EXPECT_EQ("/" + containerName, container.get().name); EXPECT_NONE(container.get().pid); // Remove the container. status = docker.rm(containerName); AWAIT_READY(status); // Should not be able to inspect the container. container = docker.inspect(containerName); AWAIT_FAILED(container); // Also, now we should not be able to see the container by invoking // ps(true). containers = docker.ps(true, containerName); AWAIT_READY(containers); foreach (const Docker::Container& container, containers.get()) { EXPECT_NE("/" + containerName, container.name); } // Start the container again, this time we will do a "rm -f" // directly, instead of killing and rm. status = docker.run( containerInfo, commandInfo, containerName, directory.get(), "/mnt/mesos/sandbox", resources); AWAIT_READY(status); // Verify that the container is there. containers = docker.ps(); AWAIT_READY(containers); found = false; foreach (const Docker::Container& container, containers.get()) { if ("/" + containerName == container.name) { found = true; break; } } EXPECT_TRUE(found); // Then do a "rm -f". status = docker.rm(containerName, true); AWAIT_READY(status); // Verify that the container is totally removed, that is we can't // find it by ps() or ps(true). containers = docker.ps(); AWAIT_READY(containers); foreach (const Docker::Container& container, containers.get()) { EXPECT_NE("/" + containerName, container.name); } containers = docker.ps(true, containerName); AWAIT_READY(containers); foreach (const Docker::Container& container, containers.get()) { EXPECT_NE("/" + containerName, container.name); } }