304 lines
7.7 KiB
Go
304 lines
7.7 KiB
Go
package main
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import (
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"flag"
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"fmt"
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"github.com/golang/protobuf/proto"
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mesos "github.com/mesos/mesos-go/mesosproto"
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"github.com/mesos/mesos-go/mesosutil"
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sched "github.com/mesos/mesos-go/scheduler"
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"log"
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"os"
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"os/signal"
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"time"
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)
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const (
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shutdownTimeout = time.Duration(30) * time.Second
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)
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const (
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dockerCommand = "echo Hello_World!"
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)
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var (
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defaultFilter = &mesos.Filters{RefuseSeconds: proto.Float64(1)}
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)
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type Task struct {
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cpu float64
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mem float64
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watts float64
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image string
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}
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// NameFor returns the string name for a TaskState.
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func NameFor(state *mesos.TaskState) string {
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switch *state {
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case mesos.TaskState_TASK_STAGING:
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return "TASK_STAGING"
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case mesos.TaskState_TASK_STARTING:
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return "TASK_STARTING"
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case mesos.TaskState_TASK_RUNNING:
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return "TASK_RUNNING"
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case mesos.TaskState_TASK_FINISHED:
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return "TASK_FINISHED" // TERMINAL
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case mesos.TaskState_TASK_FAILED:
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return "TASK_FAILED" // TERMINAL
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case mesos.TaskState_TASK_KILLED:
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return "TASK_KILLED" // TERMINAL
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case mesos.TaskState_TASK_LOST:
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return "TASK_LOST" // TERMINAL
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default:
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return "UNKNOWN"
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}
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}
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// IsTerminal determines if a TaskState is a terminal state, i.e. if it singals
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// that the task has stopped running.
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func IsTerminal(state *mesos.TaskState) bool {
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switch *state {
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case mesos.TaskState_TASK_FINISHED,
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mesos.TaskState_TASK_FAILED,
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mesos.TaskState_TASK_KILLED,
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mesos.TaskState_TASK_LOST:
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return true
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default:
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return false
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}
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}
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// Decides if to take an offer or not
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func offerDecision(offer *mesos.Offer) bool {
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var cpus, mem, watts float64
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for _, resource := range offer.Resources {
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switch resource.GetName() {
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case "cpus":
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cpus += *resource.GetScalar().Value
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case "mem":
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mem += *resource.GetScalar().Value
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case "watts":
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watts += *resource.GetScalar().Value
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fmt.Println("Got watts!: ", *resource.GetScalar().Value)
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}
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}
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var taskCPUs, taskMem, taskWatts float64
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// Insert calculation here
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taskWatts = 50
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taskMem = 4096
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taskCPUs = 3.0
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if cpus >= taskCPUs && mem >= taskMem && watts >= taskWatts {
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return true
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}
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return false
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}
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// rendlerScheduler implements the Scheduler interface and stores
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// the state needed for Rendler to function.
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type electronScheduler struct {
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tasksCreated int
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tasksRunning int
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taskQueue []Task //FIFO
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dockerExecutor *mesos.ExecutorInfo
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// This channel is closed when the program receives an interrupt,
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// signalling that the program should shut down.
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shutdown chan struct{}
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// This channel is closed after shutdown is closed, and only when all
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// outstanding tasks have been cleaned up
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done chan struct{}
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}
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// New electron scheduler
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func newElectronScheduler() *electronScheduler {
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s := &electronScheduler{
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dockerExecutor: &mesos.ExecutorInfo{
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ExecutorId: &mesos.ExecutorID{Value: proto.String("docker-runner")},
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Command: &mesos.CommandInfo{
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Value: proto.String(dockerCommand),
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},
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Name: proto.String("Runner"),
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},
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shutdown: make(chan struct{}),
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done: make(chan struct{}),
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}
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return s
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}
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func (s *electronScheduler) newTask(offer *mesos.Offer, taskCPUs, taskMem, taskWatts float64) *mesos.TaskInfo {
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taskID := s.tasksCreated
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s.tasksCreated++
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return &mesos.TaskInfo{
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TaskId: &mesos.TaskID{
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Value: proto.String(fmt.Sprintf("Electron-%d", taskID)),
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},
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SlaveId: offer.SlaveId,
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Resources: []*mesos.Resource{
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mesosutil.NewScalarResource("cpus", taskCPUs),
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mesosutil.NewScalarResource("mem", taskMem),
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mesosutil.NewScalarResource("watts", taskWatts),
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},
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Container: &mesos.ContainerInfo{
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Type: mesos.ContainerInfo_DOCKER.Enum(),
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Docker: &mesos.ContainerInfo_DockerInfo{
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Image: proto.String("gouravr/minife:v5"),
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},
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},
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}
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}
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func (s *electronScheduler) newDockerTask(offer *mesos.Offer, taskCPUs, taskMem, taskWatts float64) *mesos.TaskInfo {
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task := s.newTask(offer, taskCPUs, taskMem, taskWatts)
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task.Name = proto.String("Electron_" + *task.TaskId.Value)
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task.Command = &mesos.CommandInfo{
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Value: proto.String("cd src && mpirun -np 1 miniFE.x -nx 100 -ny 100 -nz 100"),
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}
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return task
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}
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func (s *electronScheduler) Registered(
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_ sched.SchedulerDriver,
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frameworkID *mesos.FrameworkID,
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masterInfo *mesos.MasterInfo) {
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log.Printf("Framework %s registered with master %s", frameworkID, masterInfo)
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}
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func (s *electronScheduler) Reregistered(_ sched.SchedulerDriver, masterInfo *mesos.MasterInfo) {
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log.Printf("Framework re-registered with master %s", masterInfo)
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}
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func (s *electronScheduler) Disconnected(sched.SchedulerDriver) {
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log.Println("Framework disconnected with master")
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}
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func (s *electronScheduler) ResourceOffers(driver sched.SchedulerDriver, offers []*mesos.Offer) {
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log.Printf("Received %d resource offers", len(offers))
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for _, offer := range offers {
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select {
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case <-s.shutdown:
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log.Println("Shutting down: declining offer on [", offer.Hostname, "]")
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driver.DeclineOffer(offer.Id, defaultFilter)
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if s.tasksRunning == 0 {
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close(s.done)
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}
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continue
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default:
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}
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tasks := []*mesos.TaskInfo{}
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if offerDecision(offer) {
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tasks = append(tasks, s.newDockerTask(offer, 3.0, 4096, 50))
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driver.LaunchTasks([]*mesos.OfferID{offer.Id}, tasks, defaultFilter)
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time.Sleep(15 * time.Minute)
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} else {
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fmt.Println("There is enough resources to launch a task!")
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driver.DeclineOffer(offer.Id, defaultFilter)
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time.Sleep(15 * time.Minute)
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}
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}
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}
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func (s *electronScheduler) StatusUpdate(driver sched.SchedulerDriver, status *mesos.TaskStatus) {
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log.Printf("Received task status [%s] for task [%s]", NameFor(status.State), *status.TaskId.Value)
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if *status.State == mesos.TaskState_TASK_RUNNING {
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s.tasksRunning++
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} else if IsTerminal(status.State) {
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s.tasksRunning--
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if s.tasksRunning == 0 {
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select {
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case <-s.shutdown:
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close(s.done)
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default:
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}
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}
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}
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}
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func (s *electronScheduler) FrameworkMessage(
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driver sched.SchedulerDriver,
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executorID *mesos.ExecutorID,
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slaveID *mesos.SlaveID,
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message string) {
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log.Println("Getting a framework message: ", message)
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switch *executorID.Value {
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case *s.dockerExecutor.ExecutorId.Value:
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log.Print("Received framework message ", message)
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default:
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log.Printf("Received a framework message from some unknown source: %s", *executorID.Value)
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}
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}
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func (s *electronScheduler) OfferRescinded(_ sched.SchedulerDriver, offerID *mesos.OfferID) {
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log.Printf("Offer %s rescinded", offerID)
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}
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func (s *electronScheduler) SlaveLost(_ sched.SchedulerDriver, slaveID *mesos.SlaveID) {
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log.Printf("Slave %s lost", slaveID)
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}
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func (s *electronScheduler) ExecutorLost(_ sched.SchedulerDriver, executorID *mesos.ExecutorID, slaveID *mesos.SlaveID, status int) {
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log.Printf("Executor %s on slave %s was lost", executorID, slaveID)
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}
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func (s *electronScheduler) Error(_ sched.SchedulerDriver, err string) {
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log.Printf("Receiving an error: %s", err)
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}
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func main() {
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master := flag.String("master", "xavier:5050", "Location of leading Mesos master")
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flag.Parse()
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scheduler := newElectronScheduler()
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driver, err := sched.NewMesosSchedulerDriver(sched.DriverConfig{
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Master: *master,
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Framework: &mesos.FrameworkInfo{
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Name: proto.String("Electron"),
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User: proto.String(""),
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},
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Scheduler: scheduler,
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})
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if err != nil {
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log.Printf("Unable to create scheduler driver: %s", err)
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return
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}
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// Catch interrupt
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go func() {
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c := make(chan os.Signal, 1)
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signal.Notify(c, os.Interrupt, os.Kill)
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s := <-c
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if s != os.Interrupt {
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return
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}
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log.Println("Electron is shutting down")
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close(scheduler.shutdown)
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select {
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case <-scheduler.done:
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case <-time.After(shutdownTimeout):
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}
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// Done shutting down
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driver.Stop(false)
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}()
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log.Printf("Starting...")
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if status, err := driver.Run(); err != nil {
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log.Printf("Framework stopped with status %s and error: %s\n", status.String(), err.Error())
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}
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log.Println("Exiting...")
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}
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