func (suite *SchedulerTestSuite) TestSchdulerDriverLaunchTasks() {
driver := newTestSchedulerDriver(suite.T(), driverConfigMessenger(NewMockScheduler(), suite.framework, suite.master, nil, mockedMessenger()))
go func() {
driver.Run()
}()
<-driver.started
driver.setConnected(true) // simulated
suite.True(driver.Running())
task := util.NewTaskInfo(
"simple-task",
util.NewTaskID("simpe-task-1"),
util.NewSlaveID("slave-1"),
[]*mesos.Resource{util.NewScalarResource("mem", 400)},
)
task.Command = util.NewCommandInfo("pwd")
tasks := []*mesos.TaskInfo{task}
stat, err := driver.LaunchTasks(
[]*mesos.OfferID{{}},
tasks,
&mesos.Filters{},
)
suite.NoError(err)
suite.Equal(mesos.Status_DRIVER_RUNNING, stat)
}
func (suite *SchedulerTestSuite) TestSchdulerDriverLaunchTasksWithError() {
sched := NewMockScheduler()
sched.On("StatusUpdate").Return(nil)
sched.On("Error").Return()
msgr := mockedMessenger()
driver := newTestSchedulerDriver(suite.T(), driverConfigMessenger(sched, suite.framework, suite.master, nil, msgr))
driver.dispatch = func(_ context.Context, _ *upid.UPID, _ proto.Message) error {
return fmt.Errorf("Unable to send message")
}
go func() {
driver.Run()
}()
<-driver.started
driver.setConnected(true) // simulated
suite.True(driver.Running())
// setup an offer
offer := util.NewOffer(
util.NewOfferID("test-offer-001"),
suite.framework.Id,
util.NewSlaveID("test-slave-001"),
"test-slave(1)@localhost:5050",
)
pid, err := upid.Parse("test-slave(1)@localhost:5050")
suite.NoError(err)
driver.cache.putOffer(offer, pid)
// launch task
task := util.NewTaskInfo(
"simple-task",
util.NewTaskID("simpe-task-1"),
util.NewSlaveID("test-slave-001"),
[]*mesos.Resource{util.NewScalarResource("mem", 400)},
)
task.Command = util.NewCommandInfo("pwd")
task.Executor = util.NewExecutorInfo(util.NewExecutorID("test-exec"), task.Command)
tasks := []*mesos.TaskInfo{task}
stat, err := driver.LaunchTasks(
[]*mesos.OfferID{offer.Id},
tasks,
&mesos.Filters{},
)
suite.Equal(mesos.Status_DRIVER_RUNNING, stat)
suite.Error(err)
}
func TestExecutorDriverExecutorRegisteredEvent(t *testing.T) {
setTestEnv(t)
ch := make(chan bool, 2)
// Mock Slave process to respond to registration event.
server := testutil.NewMockSlaveHttpServer(t, func(rsp http.ResponseWriter, req *http.Request) {
reqPath, err := url.QueryUnescape(req.URL.String())
assert.NoError(t, err)
log.Infoln("RCVD request", reqPath)
rsp.WriteHeader(http.StatusAccepted)
})
defer server.Close()
exec := newTestExecutor(t)
exec.ch = ch
exec.t = t
// start
driver := newIntegrationTestDriver(t, exec)
stat, err := driver.Start()
assert.NoError(t, err)
assert.Equal(t, mesos.Status_DRIVER_RUNNING, stat)
defer driver.Stop()
//simulate sending ExecutorRegisteredMessage from server to exec pid.
pbMsg := &mesos.ExecutorRegisteredMessage{
ExecutorInfo: util.NewExecutorInfo(util.NewExecutorID(executorID), util.NewCommandInfo("ls -l")),
FrameworkId: util.NewFrameworkID(frameworkID),
FrameworkInfo: util.NewFrameworkInfo("test", "test-framework", util.NewFrameworkID(frameworkID)),
SlaveId: util.NewSlaveID(slaveID),
SlaveInfo: &mesos.SlaveInfo{Hostname: proto.String("localhost")},
}
c := testutil.NewMockMesosClient(t, server.PID)
connected := driver.connectionListener()
c.SendMessage(driver.self, pbMsg)
select {
case <-connected:
case <-time.After(time.Second * 1):
log.Errorf("Tired of waiting...")
}
}