Piston Capping with BinPackedSortedWattsClassToWatts

schedulers/bpswClassMapWattsPistonCapping.go

@@ -0,0 +1,403 @@
+package schedulers
+
+import (
+	"bitbucket.org/sunybingcloud/electron/constants"
+	"bitbucket.org/sunybingcloud/electron/def"
+	"bitbucket.org/sunybingcloud/electron/rapl"
+	"errors"
+	"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"
+	"math"
+	"sort"
+	"strings"
+	"sync"
+	"time"
+)
+
+// Decides if to take offer or not
+func (s *BPSWClassMapWattsPistonCapping) takeOffer(offer *mesos.Offer, task def.Task) bool {
+	cpus, mem, watts := OfferAgg(offer)
+
+	//TODO: Insert watts calculation here instead of taking them as a parameter
+
+	if cpus >= task.CPU && mem >= task.RAM && watts >= task.Watts {
+		return true
+	}
+
+	return false
+}
+
+type BPSWClassMapWattsPistonCapping struct {
+	tasksCreated int
+	tasksRunning int
+	tasks        []def.Task
+	metrics      map[string]def.Metric
+	running      map[string]map[string]bool
+	taskMonitor  map[string][]def.Task
+	totalPower   map[string]float64
+	ignoreWatts  bool
+	ticker       *time.Ticker
+	isCapping    bool
+
+	// First set of PCP values are garbage values, signal to logger to start recording when we're
+	// about to schedule the new task
+	RecordPCP bool
+
+	// This channel is closed when the program receives an interrupt,
+	// signalling that program should shutdown
+	Shutdown chan struct{}
+
+	// This channel is closed after shutdown is closed, and only when all
+	// outstanding tasks have been cleaned up
+	Done chan struct{}
+
+	// Controls when to shutdown pcp logging
+	PCPLog chan struct{}
+}
+
+// New electron scheduler
+func NewBPSWClassMapWattsPistonCapping(tasks []def.Task, ignoreWatts bool) *BPSWClassMapWattsPistonCapping {
+	sort.Sort(def.WattsSorter(tasks))
+
+	s := &BPSWClassMapWattsPistonCapping{
+		tasks:       tasks,
+		ignoreWatts: ignoreWatts,
+		Shutdown:    make(chan struct{}),
+		Done:        make(chan struct{}),
+		PCPLog:      make(chan struct{}),
+		running:     make(map[string]map[string]bool),
+		taskMonitor: make(map[string][]def.Task),
+		totalPower:  make(map[string]float64),
+		RecordPCP:   false,
+		ticker:      time.NewTicker(5 * time.Second),
+		isCapping:   false,
+	}
+	return s
+}
+
+func (s *BPSWClassMapWattsPistonCapping) newTask(offer *mesos.Offer, task def.Task, newTaskClass string) *mesos.TaskInfo {
+	taskName := fmt.Sprintf("%s-%d", task.Name, *task.Instances)
+	s.tasksCreated++
+
+	if !s.RecordPCP {
+		// Turn on logging
+		s.RecordPCP = true
+		time.Sleep(1 * time.Second) // Make sure we're recording by the time the first task starts
+	}
+
+	// If this is our first time running into this Agent
+	if _, ok := s.running[offer.GetSlaveId().GoString()]; !ok {
+		s.running[offer.GetSlaveId().GoString()] = make(map[string]bool)
+	}
+
+	// Setting the task ID to the task. This is done so that we can consider each task to be different
+	// even though they have the same parameters.
+	task.SetTaskID(*proto.String("electron-" + taskName))
+	// Add task to list of tasks running on node
+	if len(s.taskMonitor[*offer.Hostname]) == 0 {
+		s.taskMonitor[*offer.Hostname] = []def.Task{task}
+	} else {
+		s.taskMonitor[*offer.Hostname] = append(s.taskMonitor[*offer.Hostname], task)
+	}
+
+	resources := []*mesos.Resource{
+		mesosutil.NewScalarResource("cpus", task.CPU),
+		mesosutil.NewScalarResource("mem", task.RAM),
+	}
+
+	if !s.ignoreWatts {
+		resources = append(resources, mesosutil.NewScalarResource("watts", task.ClassToWatts[newTaskClass]))
+	}
+
+	return &mesos.TaskInfo{
+		Name: proto.String(taskName),
+		TaskId: &mesos.TaskID{
+			Value: proto.String("electron-" + taskName),
+		},
+		SlaveId:   offer.SlaveId,
+		Resources: resources,
+		Command: &mesos.CommandInfo{
+			Value: proto.String(task.CMD),
+		},
+		Container: &mesos.ContainerInfo{
+			Type: mesos.ContainerInfo_DOCKER.Enum(),
+			Docker: &mesos.ContainerInfo_DockerInfo{
+				Image:   proto.String(task.Image),
+				Network: mesos.ContainerInfo_DockerInfo_BRIDGE.Enum(), // Run everything isolated
+			},
+		},
+	}
+}
+
+func (s *BPSWClassMapWattsPistonCapping) Registered(
+	_ sched.SchedulerDriver,
+	frameworkID *mesos.FrameworkID,
+	masterInfo *mesos.MasterInfo) {
+	log.Printf("Framework %s registered with master %s", frameworkID, masterInfo)
+}
+
+func (s *BPSWClassMapWattsPistonCapping) Reregistered(_ sched.SchedulerDriver, masterInfo *mesos.MasterInfo) {
+	log.Printf("Framework re-registered with master %s", masterInfo)
+}
+
+func (s *BPSWClassMapWattsPistonCapping) Disconnected(sched.SchedulerDriver) {
+	log.Println("Framework disconnected with master")
+}
+
+// mutex
+var bpswClassMapWattsPistonMutex sync.Mutex
+
+// go routine to cap eahc node in the cluster at regular intervals of time
+var bpswClassMapWattsPistonCapValues = make(map[string]float64)
+
+// Storing the previous cap value for each host so as to not repeatedly cap the nodes to the same value. (reduces overhead)
+var bpswClassMapWattsPistonPreviousRoundedCapValues = make(map[string]int)
+
+func (s *BPSWClassMapWattsPistonCapping) startCapping() {
+	go func() {
+		for {
+			select {
+			case <-s.ticker.C:
+				// Need to cap each node
+				bpswClassMapWattsPistonMutex.Lock()
+				for host, capValue := range bpswClassMapWattsPistonCapValues {
+					roundedCapValue := int(math.Floor(capValue + 0.5))
+					// has the cap value changed
+					if previousRoundedCap, ok := bpswClassMapWattsPistonPreviousRoundedCapValues[host]; ok {
+						if previousRoundedCap != roundedCapValue {
+							if err := rapl.Cap(host, "rapl", roundedCapValue); err != nil {
+								log.Println(err)
+							} else {
+								log.Printf("Capped [%s] at %d", host, int(math.Floor(capValue)))
+							}
+							bpswClassMapWattsPistonPreviousRoundedCapValues[host] = roundedCapValue
+						}
+					} else {
+						if err := rapl.Cap(host, "rapl", roundedCapValue); err != nil {
+							log.Println(err)
+						} else {
+							log.Printf("Capped [%s] at %d", host, int(math.Floor(capValue+0.5)))
+						}
+						bpswClassMapWattsPistonPreviousRoundedCapValues[host] = roundedCapValue
+					}
+				}
+				bpswClassMapWattsPistonMutex.Unlock()
+			}
+		}
+	}()
+}
+
+// Stop the capping
+func (s *BPSWClassMapWattsPistonCapping) stopCapping() {
+	if s.isCapping {
+		log.Println("Stopping the capping.")
+		s.ticker.Stop()
+		bpswClassMapWattsPistonMutex.Lock()
+		s.isCapping = false
+		bpswClassMapWattsPistonMutex.Unlock()
+	}
+}
+
+func (s *BPSWClassMapWattsPistonCapping) ResourceOffers(driver sched.SchedulerDriver, offers []*mesos.Offer) {
+	log.Printf("Received %d resource offers", len(offers))
+
+	// retrieving the total power for each host in the offers.
+	for _, offer := range offers {
+		if _, ok := s.totalPower[*offer.Hostname]; !ok {
+			_, _, offerWatts := OfferAgg(offer)
+			s.totalPower[*offer.Hostname] = offerWatts
+		}
+	}
+
+	// Displaying the totalPower
+	for host, tpower := range s.totalPower {
+		log.Printf("TotalPower[%s] = %f", host, tpower)
+	}
+
+	for _, offer := range offers {
+		select {
+		case <-s.Shutdown:
+			log.Println("Done scheduling tasks: declining offer on [", offer.GetHostname(), "]")
+			driver.DeclineOffer(offer.Id, longFilter)
+
+			log.Println("Number of tasks still running: ", s.tasksRunning)
+			continue
+		default:
+		}
+
+		tasks := []*mesos.TaskInfo{}
+
+		offerCPU, offerRAM, offerWatts := OfferAgg(offer)
+
+		taken := false
+		totalWatts := 0.0
+		totalCPU := 0.0
+		totalRAM := 0.0
+		// Store the partialLoad for host corresponding to this offer
+		// Once we can't fit any more tasks, we update the capValue for this host with partialLoad and then launch the fitted tasks.
+		partialLoad := 0.0
+		for i, task := range s.tasks {
+
+			// Check host if it exists
+			if task.Host != "" {
+				// Don't take offer if it doesn't match our task's host requirement
+				if !strings.HasPrefix(*offer.Hostname, task.Host) {
+					continue
+				}
+			}
+
+			for *task.Instances > 0 {
+				var nodeClass string
+				for _, attr := range offer.GetAttributes() {
+					if attr.GetName() == "class" {
+						nodeClass = attr.GetText().GetValue()
+					}
+				}
+				// Does the task fit
+				// OR lazy evaluation. If ignoreWatts is set to true, second statement won't
+				// be evaluated
+				if (s.ignoreWatts || (offerWatts >= (totalWatts + task.ClassToWatts[nodeClass]))) &&
+					(offerCPU >= (totalCPU + task.CPU)) &&
+					(offerRAM >= (totalRAM + task.RAM)) {
+
+					fmt.Println("Watts being used: ", task.ClassToWatts[nodeClass])
+					taken = true
+					totalWatts += task.ClassToWatts[nodeClass]
+					totalCPU += task.CPU
+					totalRAM += task.RAM
+					log.Println("Co-Located with: ")
+					coLocated(s.running[offer.GetSlaveId().GoString()])
+					tasks = append(tasks, s.newTask(offer, task, nodeClass))
+
+					fmt.Println("Inst: ", *task.Instances)
+					*task.Instances--
+					partialLoad += ((task.Watts * constants.CapMargin) / s.totalPower[*offer.Hostname]) * 100
+
+					if *task.Instances <= 0 {
+						// All instances of task have been scheduled. Remove it
+						s.tasks = append(s.tasks[:i], s.tasks[i+1:]...)
+						if len(s.tasks) <= 0 {
+							log.Println("Done scheduling all tasks")
+							close(s.Shutdown)
+						}
+					}
+				} else {
+					break // Continue on to the next task
+				}
+			}
+		}
+
+		if taken {
+			// Updating the cap value for offer.Hostname
+			bpswClassMapWattsPistonMutex.Lock()
+			bpswClassMapWattsPistonCapValues[*offer.Hostname] += partialLoad
+			bpswClassMapWattsPistonMutex.Unlock()
+			log.Printf("Starting on [%s]\n", offer.GetHostname())
+			driver.LaunchTasks([]*mesos.OfferID{offer.Id}, tasks, defaultFilter)
+		} else {
+			// If there was no match for task
+			log.Println("There is not enough resources to launch task: ")
+			cpus, mem, watts := OfferAgg(offer)
+
+			log.Printf("<CPU: %f, RAM: %f, Watts: %f>\n", cpus, mem, watts)
+			driver.DeclineOffer(offer.Id, defaultFilter)
+		}
+	}
+}
+
+// Remove finished task from the taskMonitor
+func (s *BPSWClassMapWattsPistonCapping) deleteFromTaskMonitor(finishedTaskID string) (def.Task, string, error) {
+	hostOfFinishedTask := ""
+	indexOfFinishedTask := -1
+	found := false
+	var finishedTask def.Task
+
+	for host, tasks := range s.taskMonitor {
+		for i, task := range tasks {
+			if task.TaskID == finishedTaskID {
+				hostOfFinishedTask = host
+				indexOfFinishedTask = i
+				found = true
+			}
+		}
+		if found {
+			break
+		}
+	}
+
+	if hostOfFinishedTask != "" && indexOfFinishedTask != -1 {
+		finishedTask = s.taskMonitor[hostOfFinishedTask][indexOfFinishedTask]
+		log.Printf("Removing task with TaskID [%s] from the list of running tasks\n",
+			s.taskMonitor[hostOfFinishedTask][indexOfFinishedTask].TaskID)
+		s.taskMonitor[hostOfFinishedTask] = append(s.taskMonitor[hostOfFinishedTask][:indexOfFinishedTask],
+			s.taskMonitor[hostOfFinishedTask][indexOfFinishedTask+1:]...)
+	} else {
+		return finishedTask, hostOfFinishedTask, errors.New("Finished Task not present in TaskMonitor")
+	}
+	return finishedTask, hostOfFinishedTask, nil
+}
+
+func (s *BPSWClassMapWattsPistonCapping) StatusUpdate(driver sched.SchedulerDriver, status *mesos.TaskStatus) {
+	log.Printf("Received task status [%s] for task [%s]\n", NameFor(status.State), *status.TaskId.Value)
+
+	if *status.State == mesos.TaskState_TASK_RUNNING {
+		bpswClassMapWattsPistonMutex.Lock()
+		s.tasksRunning++
+		bpswClassMapWattsPistonMutex.Unlock()
+	} else if IsTerminal(status.State) {
+		delete(s.running[status.GetSlaveId().GoString()], *status.TaskId.Value)
+		// Deleting the task from the taskMonitor
+		finishedTask, hostOfFinishedTask, err := s.deleteFromTaskMonitor(*status.TaskId.Value)
+		if err != nil {
+			log.Println(err)
+		}
+
+		// Need to update the cap values for host of the finishedTask
+		bpswClassMapWattsPistonMutex.Lock()
+		bpswClassMapWattsPistonCapValues[hostOfFinishedTask] -= ((finishedTask.Watts * constants.CapMargin) / s.totalPower[hostOfFinishedTask]) * 100
+		// Checking to see if the cap value has become 0, in which case we uncap the host.
+		if int(math.Floor(bpswClassMapWattsPistonCapValues[hostOfFinishedTask]+0.5)) == 0 {
+			bpswClassMapWattsPistonCapValues[hostOfFinishedTask] = 100
+		}
+		s.tasksRunning--
+		bpswClassMapWattsPistonMutex.Unlock()
+
+		if s.tasksRunning == 0 {
+			select {
+			case <-s.Shutdown:
+				s.stopCapping()
+				close(s.Done)
+			default:
+			}
+		}
+	}
+	log.Printf("DONE: Task status [%s] for task [%s]", NameFor(status.State), *status.TaskId.Value)
+}
+
+func (s *BPSWClassMapWattsPistonCapping) FrameworkMessage(
+	driver sched.SchedulerDriver,
+	executorID *mesos.ExecutorID,
+	slaveID *mesos.SlaveID,
+	message string) {
+
+	log.Println("Getting a framework message: ", message)
+	log.Printf("Received a framework message from some unknown source: %s", *executorID.Value)
+}
+
+func (s *BPSWClassMapWattsPistonCapping) OfferRescinded(_ sched.SchedulerDriver, offerID *mesos.OfferID) {
+	log.Printf("Offer %s rescinded", offerID)
+}
+func (s *BPSWClassMapWattsPistonCapping) SlaveLost(_ sched.SchedulerDriver, slaveID *mesos.SlaveID) {
+	log.Printf("Slave %s lost", slaveID)
+}
+func (s *BPSWClassMapWattsPistonCapping) ExecutorLost(_ sched.SchedulerDriver, executorID *mesos.ExecutorID, slaveID *mesos.SlaveID, status int) {
+	log.Printf("Executor %s on slave %s was lost", executorID, slaveID)
+}
+
+func (s *BPSWClassMapWattsPistonCapping) Error(_ sched.SchedulerDriver, err string) {
+	log.Printf("Receiving an error: %s", err)
+}