Exemple #1
0
func TestScheduler(t *testing.T) {
	dir, _ := os.Getwd()
	database.NewDB(fmt.Sprintf("%s/../db/test.db", dir))
	database.Clean()
	defer database.Close()

	Convey("eremeticScheduler", t, func() {
		s := eremeticScheduler{}
		id := "eremetic-task.9999"
		database.PutTask(&types.EremeticTask{ID: id})

		Convey("newTask", func() {
			task := types.EremeticTask{
				ID: "eremetic-task.1234",
			}
			offer := mesos.Offer{
				FrameworkId: &mesos.FrameworkID{
					Value: proto.String("framework-id"),
				},
				SlaveId: &mesos.SlaveID{
					Value: proto.String("slave-id"),
				},
				Hostname: proto.String("hostname"),
			}
			taskData, mesosTask := s.newTask(task, &offer)

			So(mesosTask.GetTaskId().GetValue(), ShouldEqual, task.ID)
			So(taskData.SlaveId, ShouldEqual, "slave-id")
		})

		Convey("createEremeticScheduler", func() {
			s := createEremeticScheduler()
			So(s.tasksCreated, ShouldEqual, 0)
		})

		Convey("API", func() {
			Convey("Registered", func() {
				driver := NewMockScheduler()
				driver.On("ReconcileTasks").Return("ok").Once()
				fID := mesos.FrameworkID{Value: proto.String("1234")}
				mInfo := mesos.MasterInfo{}
				s.Registered(driver, &fID, &mInfo)
				So(driver.AssertCalled(t, "ReconcileTasks"), ShouldBeTrue)
			})

			Convey("Reregistered", func() {
				driver := NewMockScheduler()
				driver.On("ReconcileTasks").Return("ok").Once()
				database.Clean()
				s.Reregistered(driver, &mesos.MasterInfo{})
				So(driver.AssertCalled(t, "ReconcileTasks"), ShouldBeTrue)
			})

			Convey("Disconnected", func() {
				s.Disconnected(nil)
			})

			Convey("ResourceOffers", func() {
				driver := NewMockScheduler()
				var offers []*mesos.Offer

				Convey("No offers", func() {
					s.ResourceOffers(driver, offers)
					So(driver.AssertNotCalled(t, "DeclineOffer"), ShouldBeTrue)
					So(driver.AssertNotCalled(t, "LaunchTasks"), ShouldBeTrue)
				})

				Convey("No tasks", func() {
					offers = append(offers, &mesos.Offer{Id: &mesos.OfferID{Value: proto.String("1234")}})
					driver.On("DeclineOffer").Return("declined").Once()
					s.ResourceOffers(driver, offers)
					So(driver.AssertCalled(t, "DeclineOffer"), ShouldBeTrue)
					So(driver.AssertNotCalled(t, "LaunchTasks"), ShouldBeTrue)
				})
			})

			Convey("StatusUpdate", func() {
				Convey("Running then failing", func() {
					s.StatusUpdate(nil, &mesos.TaskStatus{
						TaskId: &mesos.TaskID{
							Value: proto.String(id),
						},
						State: mesos.TaskState_TASK_RUNNING.Enum(),
					})
					task, _ := database.ReadTask(id)
					So(len(task.Status), ShouldEqual, 1)
					So(task.Status[0].Status, ShouldEqual, mesos.TaskState_TASK_RUNNING.String())

					s.StatusUpdate(nil, &mesos.TaskStatus{
						TaskId: &mesos.TaskID{
							Value: proto.String(id),
						},
						State: mesos.TaskState_TASK_FAILED.Enum(),
					})
					task, _ = database.ReadTask(id)

					So(len(task.Status), ShouldEqual, 2)
					So(task.Status[0].Status, ShouldEqual, mesos.TaskState_TASK_RUNNING.String())
					So(task.Status[1].Status, ShouldEqual, mesos.TaskState_TASK_FAILED.String())
				})

				Convey("Failing immediatly", func() {
					s.tasks = make(chan string, 100)
					s.StatusUpdate(nil, &mesos.TaskStatus{
						TaskId: &mesos.TaskID{
							Value: proto.String(id),
						},
						State: mesos.TaskState_TASK_FAILED.Enum(),
					})
					task, _ := database.ReadTask(id)
					So(len(task.Status), ShouldEqual, 2)
					So(task.Status[0].Status, ShouldEqual, mesos.TaskState_TASK_FAILED.String())
					So(task.Status[1].Status, ShouldEqual, mesos.TaskState_TASK_STAGING.String())

					select {
					case c := <-s.tasks:
						So(c, ShouldEqual, id)
					}
				})
			})

			Convey("FrameworkMessage", func() {
				driver := NewMockScheduler()
				message := `{"message": "this is a message"}`
				Convey("From Eremetic", func() {
					source := "eremetic-executor"
					executor := mesos.ExecutorID{
						Value: proto.String(source),
					}
					s.FrameworkMessage(driver, &executor, &mesos.SlaveID{}, message)
				})

				Convey("From an unknown source", func() {
					source := "other-source"
					executor := mesos.ExecutorID{
						Value: proto.String(source),
					}
					s.FrameworkMessage(driver, &executor, &mesos.SlaveID{}, message)
				})

				Convey("A bad json", func() {
					source := "eremetic-executor"
					executor := mesos.ExecutorID{
						Value: proto.String(source),
					}
					s.FrameworkMessage(driver, &executor, &mesos.SlaveID{}, "not a json")
				})
			})

			Convey("OfferRescinded", func() {
				s.OfferRescinded(nil, &mesos.OfferID{})
			})

			Convey("SlaveLost", func() {
				s.SlaveLost(nil, &mesos.SlaveID{})
			})

			Convey("ExecutorLost", func() {
				s.ExecutorLost(nil, &mesos.ExecutorID{}, &mesos.SlaveID{}, 2)
			})

			Convey("Error", func() {
				s.Error(nil, "Error")
			})
		})
	})

	Convey("ScheduleTask", t, func() {
		Convey("Given a valid Request", func() {
			scheduler := &eremeticScheduler{
				tasks: make(chan string, 100),
			}

			request := types.Request{
				TaskCPUs:    0.5,
				TaskMem:     22.0,
				DockerImage: "busybox",
				Command:     "echo hello",
			}

			Convey("It should put a task id on the channel", func() {
				taskID, err := scheduler.ScheduleTask(request)

				So(err, ShouldBeNil)

				select {
				case c := <-scheduler.tasks:
					So(c, ShouldEqual, taskID)
					task, _ := database.ReadTask(taskID)
					So(task.TaskCPUs, ShouldEqual, request.TaskCPUs)
					So(task.TaskMem, ShouldEqual, request.TaskMem)
					So(task.Command, ShouldEqual, request.Command)
					So(task.User, ShouldEqual, "root")
					So(task.Environment, ShouldBeEmpty)
					So(task.Image, ShouldEqual, request.DockerImage)
					So(task.ID, ShouldStartWith, "eremetic-task.")
				}
			})
		})
	})
}
Exemple #2
0
func TestReconcile(t *testing.T) {
	dir, _ := os.Getwd()
	database.NewDB(fmt.Sprintf("%s/../db/test.db", dir))
	database.Clean()
	defer database.Close()

	maxReconciliationDelay = 1

	Convey("ReconcileTasks", t, func() {
		Convey("Finishes when there are no tasks", func() {
			driver := NewMockScheduler()
			r := ReconcileTasks(driver)

			select {
			case <-r.done:
			}

			So(driver.AssertNotCalled(t, "ReconcileTasks"), ShouldBeTrue)
		})

		Convey("Sends reconcile request", func() {
			driver := NewMockScheduler()
			driver.On("ReconcileTasks").Run(func(mock.Arguments) {
				t, err := database.ReadTask("1234")
				if err != nil {
					panic("mock error")
				}
				t.UpdateStatus(types.Status{
					Status: mesos.TaskState_TASK_RUNNING.String(),
					Time:   time.Now().Unix() + 1,
				})
				database.PutTask(&t)
			}).Once()

			database.PutTask(&types.EremeticTask{
				ID: "1234",
				Status: []types.Status{
					types.Status{
						Status: mesos.TaskState_TASK_STAGING.String(),
						Time:   time.Now().Unix(),
					},
				},
			})

			r := ReconcileTasks(driver)

			select {
			case <-r.done:
			}

			So(driver.AssertCalled(t, "ReconcileTasks"), ShouldBeTrue)
		})

		Convey("Cancel reconciliation", func() {
			driver := NewMockScheduler()

			database.PutTask(&types.EremeticTask{
				ID: "1234",
				Status: []types.Status{
					types.Status{
						Status: mesos.TaskState_TASK_STAGING.String(),
						Time:   time.Now().Unix(),
					},
				},
			})

			r := ReconcileTasks(driver)
			r.Cancel()

			select {
			case <-r.done:
			}

			So(driver.AssertNotCalled(t, "ReconcileTasks"), ShouldBeTrue)
		})
	})
}
Exemple #3
0
func TestHandling(t *testing.T) {
	scheduler := &mockScheduler{}
	status := []types.Status{
		types.Status{
			Status: mesos.TaskState_TASK_RUNNING.String(),
			Time:   time.Now().Unix(),
		},
	}

	dir, _ := os.Getwd()
	database.NewDB(fmt.Sprintf("%s/../db/test.db", dir))
	database.Clean()
	defer database.Close()

	Convey("writeJSON", t, func() {
		Convey("Should respond with a JSON and the appropriate status code", func() {
			var wr = httptest.NewRecorder()

			writeJSON(200, "foo", wr)
			contentType := wr.HeaderMap["Content-Type"][0]
			So(contentType, ShouldEqual, "application/json; charset=UTF-8")
			So(wr.Code, ShouldEqual, http.StatusOK)
		})
	})

	Convey("HandleError", t, func() {
		wr := httptest.NewRecorder()

		Convey("It should return an error status code", func() {
			var err = mockError{
				message: "Error",
			}

			handleError(err, wr, "A test error")

			So(wr.Code, ShouldEqual, 422)
			So(strings.TrimSpace(wr.Body.String()), ShouldEqual, "{\"error\":\"Error\",\"message\":\"A test error\"}")
		})
	})

	Convey("GetTaskInfo", t, func() {
		wr := httptest.NewRecorder()
		r, _ := http.NewRequest("GET", "/task/eremetic-task.1234", nil)
		m := mux.NewRouter()
		m.HandleFunc("/task/{taskId}", GetTaskInfo(scheduler))

		Convey("Not Found", func() {
			id := "eremetic-task.5678"
			task := types.EremeticTask{
				TaskCPUs: 0.2,
				TaskMem:  0.5,
				Command:  "test",
				Image:    "test",
				Status:   status,
				ID:       id,
			}
			database.PutTask(&task)
			m.ServeHTTP(wr, r)

			So(wr.Code, ShouldEqual, http.StatusNotFound)
		})

		Convey("Found", func() {
			id := "eremetic-task.1234"
			task := types.EremeticTask{
				TaskCPUs: 0.2,
				TaskMem:  0.5,
				Command:  "test",
				Image:    "test",
				Status:   status,
				ID:       id,
			}
			database.PutTask(&task)
			m.ServeHTTP(wr, r)

			So(wr.Code, ShouldEqual, http.StatusOK)
		})
	})

	Convey("AddTask", t, func() {
		wr := httptest.NewRecorder()

		Convey("It should respond with a location header", func() {
			data := []byte(`{"task_mem":22.0, "docker_image": "busybox", "command": "echo hello", "task_cpus":0.5, "tasks_to_launch": 1}`)
			r, _ := http.NewRequest("POST", "/task", bytes.NewBuffer(data))
			r.Host = "localhost"

			handler := AddTask(scheduler)
			handler(wr, r)

			location := wr.HeaderMap["Location"][0]
			So(location, ShouldStartWith, "http://localhost/task/eremetic-task.")
			So(wr.Code, ShouldEqual, http.StatusAccepted)
		})
	})
}