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