package schedulers
import (
"bitbucket.org/sunybingcloud/elektron/def"
"bitbucket.org/sunybingcloud/elektron/utilities/mesosUtils"
"bitbucket.org/sunybingcloud/elektron/utilities/offerUtils"
mesos "github.com/mesos/mesos-go/api/v0/mesosproto"
sched "github.com/mesos/mesos-go/api/v0/scheduler"
"log"
"math/rand"
)
// Decides if to take an offer or not
func (s *MaxMin) takeOffer(spc SchedPolicyContext, offer *mesos.Offer, task def.Task,
totalCPU, totalRAM, totalWatts float64) bool {
baseSchedRef := spc.(*BaseScheduler)
cpus, mem, watts := offerUtils.OfferAgg(offer)
//TODO: Insert watts calculation here instead of taking them as a parameter
wattsConsideration, err := def.WattsToConsider(task, baseSchedRef.classMapWatts, offer)
if err != nil {
// Error in determining wattsConsideration
log.Fatal(err)
}
if (cpus >= (totalCPU + task.CPU)) && (mem >= (totalRAM + task.RAM)) &&
(!baseSchedRef.wattsAsAResource || (watts >= (totalWatts + wattsConsideration))) {
return true
}
return false
}
type MaxMin struct {
baseSchedPolicyState
}
// Determine if the remaining space inside of the offer is enough for this
// task that we need to create. If it is, create a TaskInfo and return it.
func (s *MaxMin) CheckFit(
spc SchedPolicyContext,
i int,
task def.Task,
wattsConsideration float64,
offer *mesos.Offer,
totalCPU *float64,
totalRAM *float64,
totalWatts *float64) (bool, *mesos.TaskInfo) {
baseSchedRef := spc.(*BaseScheduler)
// Does the task fit.
if s.takeOffer(spc, offer, task, *totalCPU, *totalRAM, *totalWatts) {
*totalWatts += wattsConsideration
*totalCPU += task.CPU
*totalRAM += task.RAM
baseSchedRef.LogCoLocatedTasks(offer.GetSlaveId().GoString())
taskToSchedule := baseSchedRef.newTask(offer, task)
baseSchedRef.LogSchedTrace(taskToSchedule, offer)
*task.Instances--
if *task.Instances <= 0 {
// All instances of task have been scheduled, remove it.
baseSchedRef.tasks = append(baseSchedRef.tasks[:i], baseSchedRef.tasks[i+1:]...)
if len(baseSchedRef.tasks) <= 0 {
baseSchedRef.LogTerminateScheduler()
close(baseSchedRef.Shutdown)
}
}
return true, taskToSchedule
}
return false, nil
}
func (s *MaxMin) ConsumeOffers(spc SchedPolicyContext, driver sched.SchedulerDriver, offers []*mesos.Offer) {
log.Println("Max-Min scheduling...")
baseSchedRef := spc.(*BaseScheduler)
def.SortTasks(baseSchedRef.tasks, def.SortByWatts)
baseSchedRef.LogOffersReceived(offers)
for _, offer := range offers {
offerUtils.UpdateEnvironment(offer)
select {
case <-baseSchedRef.Shutdown:
baseSchedRef.LogNoPendingTasksDeclineOffers(offer)
driver.DeclineOffer(offer.Id, mesosUtils.LongFilter)
baseSchedRef.LogNumberOfRunningTasks()
continue
default:
}
tasks := []*mesos.TaskInfo{}
offerTaken := false
totalWatts := 0.0
totalCPU := 0.0
totalRAM := 0.0
// Assumes s.tasks is ordered in non-decreasing median max-peak order
// Attempt to schedule a single instance of the heaviest workload available first.
// Start from the back until one fits.
direction := false // True = Min Max, False = Max Min
var index int
start := true // If false then index has changed and need to keep it that way
for i := 0; i < len(baseSchedRef.tasks); i++ {
// We need to pick a min task or a max task
// depending on the value of direction.
if direction && start {
index = 0
} else if start {
index = len(baseSchedRef.tasks) - i - 1
}
task := baseSchedRef.tasks[index]
wattsConsideration, err := def.WattsToConsider(task, baseSchedRef.classMapWatts, offer)
if err != nil {
// Error in determining wattsConsideration.
log.Fatal(err)
}
// Don't take offer if it doesn't match our task's host requirement.
if offerUtils.HostMismatch(*offer.Hostname, task.Host) {
continue
}
// TODO: Fix this so index doesn't need to be passed.
taken, taskToSchedule := s.CheckFit(spc, index, task, wattsConsideration, offer,
&totalCPU, &totalRAM, &totalWatts)
if taken {
offerTaken = true
tasks = append(tasks, taskToSchedule)
// Need to change direction and set start to true.
// Setting start to true would ensure that index be set accurately again.
direction = !direction
start = true
i--
} else {
// Need to move index depending on the value of direction.
if direction {
index++
start = false
} else {
index--
start = false
}
}
}
if offerTaken {
baseSchedRef.LogTaskStarting(nil, offer)
LaunchTasks([]*mesos.OfferID{offer.Id}, tasks, driver)
} else {
// If there was no match for the task
cpus, mem, watts := offerUtils.OfferAgg(offer)
baseSchedRef.LogInsufficientResourcesDeclineOffer(offer, cpus, mem, watts)
driver.DeclineOffer(offer.Id, mesosUtils.DefaultFilter)
}
}
// Switch scheduling policy only if feature enabled from CLI
if baseSchedRef.schedPolSwitchEnabled {
// Need to recompute the schedWindow for the next offer cycle.
// The next scheduling policy will schedule at max schedWindow number of tasks.
baseSchedRef.curSchedWindow = baseSchedRef.schedWindowResStrategy.Apply(
func() interface{} { return baseSchedRef.tasks })
// Switching to a random scheduling policy.
// TODO: Switch based on some criteria.
index := rand.Intn(len(SchedPolicies))
for k, v := range SchedPolicies {
if index == 0 {
baseSchedRef.LogSchedPolicySwitch(k, v)
spc.SwitchSchedPol(v)
break
}
index--
}
}
}