package schedulers
import (
"bytes"
"fmt"
"log"
"sync"
"time"
"github.com/golang/protobuf/proto"
mesos "github.com/mesos/mesos-go/api/v0/mesosproto"
"github.com/mesos/mesos-go/api/v0/mesosutil"
sched "github.com/mesos/mesos-go/api/v0/scheduler"
"gitlab.com/spdf/elektron/def"
elekLogDef "gitlab.com/spdf/elektron/logging/def"
"gitlab.com/spdf/elektron/utilities"
"gitlab.com/spdf/elektron/utilities/schedUtils"
)
type BaseScheduler struct {
ElectronScheduler
SchedPolicyContext
// Current scheduling policy used for resource offer consumption.
curSchedPolicy SchedPolicyState
tasksCreated int
tasksRunning int
tasks []def.Task
metrics map[string]def.Metric
Running map[string]map[string]bool
wattsAsAResource bool
classMapWatts bool
TasksRunningMutex sync.Mutex
HostNameToSlaveID map[string]string
totalResourceAvailabilityRecorded bool
// First set of PCP values are garbage values, signal to logger to start recording when we're
// about to schedule a new task
RecordPCP *bool
// 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{}
// Controls when to shutdown pcp logging.
PCPLog chan struct{}
schedTrace *log.Logger
// Send the type of the message to be logged
logMsgType chan elekLogDef.LogMessageType
// Send the message to be logged
logMsg chan string
mutex sync.Mutex
// Whether switching of scheduling policies at runtime has been enabled
schedPolSwitchEnabled bool
// Name of the first scheduling policy to be deployed, if provided.
// This scheduling policy would be deployed first regardless of the distribution of tasks in the TaskQueue.
// Note: Scheduling policy switching needs to be enabled.
nameOfFstSchedPolToDeploy string
// Scheduling policy switching criteria.
schedPolSwitchCriteria string
// Size of window of tasks that can be scheduled in the next offer cycle.
// The window size can be adjusted to make the most use of every resource offer.
// By default, the schedWindowSize would correspond to the number of remaining tasks that haven't yet
// been scheduled.
schedWindowSize int
// Number of tasks in the window
numTasksInSchedWindow int
// Whether the scheduling window needs to be fixed.
toFixSchedWindow bool // If yes, then schedWindowSize is initialized and kept unchanged.
// Strategy to resize the schedulingWindow.
schedWindowResStrategy schedUtils.SchedWindowResizingStrategy
// Indicate whether the any resource offers from mesos have been received.
hasReceivedResourceOffers bool
}
func (s *BaseScheduler) init(opts ...SchedulerOptions) {
for _, opt := range opts {
// applying options
if err := opt(s); err != nil {
log.Fatal(err)
}
}
s.TasksRunningMutex.Lock()
s.Running = make(map[string]map[string]bool)
s.TasksRunningMutex.Unlock()
s.HostNameToSlaveID = make(map[string]string)
s.mutex = sync.Mutex{}
s.schedWindowResStrategy = schedUtils.SchedWindowResizingCritToStrategy["fillNextOfferCycle"]
// Initially no resource offers would have been received.
s.hasReceivedResourceOffers = false
}
func (s *BaseScheduler) SwitchSchedPol(newSchedPol SchedPolicyState) {
s.curSchedPolicy = newSchedPol
}
func (s *BaseScheduler) newTask(offer *mesos.Offer, task def.Task) *mesos.TaskInfo {
taskName := fmt.Sprintf("%s-%d", task.Name, *task.Instances)
s.tasksCreated++
if !*s.RecordPCP {
// Turn on elecLogDef
*s.RecordPCP = true
time.Sleep(1 * time.Second) // Make sure we're recording by the time the first task starts
}
resources := []*mesos.Resource{
mesosutil.NewScalarResource("cpus", task.CPU),
mesosutil.NewScalarResource("mem", task.RAM),
}
if s.wattsAsAResource {
if wattsToConsider, err := def.WattsToConsider(task, s.classMapWatts, offer); err == nil {
s.LogTaskWattsConsideration(task, *offer.Hostname, wattsToConsider)
resources = append(resources, mesosutil.NewScalarResource("watts", wattsToConsider))
} else {
// Error in determining wattsConsideration
s.LogElectronError(err)
}
}
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 *BaseScheduler) OfferRescinded(_ sched.SchedulerDriver, offerID *mesos.OfferID) {
s.LogOfferRescinded(offerID)
}
func (s *BaseScheduler) SlaveLost(_ sched.SchedulerDriver, slaveID *mesos.SlaveID) {
s.LogSlaveLost(slaveID)
}
func (s *BaseScheduler) ExecutorLost(_ sched.SchedulerDriver, executorID *mesos.ExecutorID,
slaveID *mesos.SlaveID, status int) {
s.LogExecutorLost(executorID, slaveID)
}
func (s *BaseScheduler) Error(_ sched.SchedulerDriver, err string) {
s.LogMesosError(err)
}
func (s *BaseScheduler) FrameworkMessage(
driver sched.SchedulerDriver,
executorID *mesos.ExecutorID,
slaveID *mesos.SlaveID,
message string) {
s.LogFrameworkMessage(executorID, slaveID, message)
}
func (s *BaseScheduler) Registered(
_ sched.SchedulerDriver,
frameworkID *mesos.FrameworkID,
masterInfo *mesos.MasterInfo) {
s.LogFrameworkRegistered(frameworkID, masterInfo)
}
func (s *BaseScheduler) Reregistered(_ sched.SchedulerDriver, masterInfo *mesos.MasterInfo) {
s.LogFrameworkReregistered(masterInfo)
}
func (s *BaseScheduler) Disconnected(sched.SchedulerDriver) {
s.LogDisconnected()
}
func (s *BaseScheduler) ResourceOffers(driver sched.SchedulerDriver, offers []*mesos.Offer) {
// Recording the total amount of resources available across the cluster.
utilities.RecordTotalResourceAvailability(offers)
for _, offer := range offers {
if _, ok := s.HostNameToSlaveID[offer.GetHostname()]; !ok {
s.HostNameToSlaveID[offer.GetHostname()] = *offer.SlaveId.Value
}
}
// Switch just before consuming the resource offers.
s.curSchedPolicy.SwitchIfNecessary(s)
// s.Log(elecLogDef.GENERAL, fmt.Sprintf("SchedWindowSize[%d], #TasksInWindow[%d]",
// s.schedWindowSize, s.numTasksInSchedWindow))
s.curSchedPolicy.ConsumeOffers(s, driver, offers)
s.hasReceivedResourceOffers = true
}
func (s *BaseScheduler) StatusUpdate(driver sched.SchedulerDriver, status *mesos.TaskStatus) {
s.LogTaskStatusUpdate(status)
if *status.State == mesos.TaskState_TASK_RUNNING {
// If this is our first time running into this Agent
s.TasksRunningMutex.Lock()
if _, ok := s.Running[*status.SlaveId.Value]; !ok {
s.Running[*status.SlaveId.Value] = make(map[string]bool)
}
// Add task to list of tasks running on node
s.Running[*status.SlaveId.Value][*status.TaskId.Value] = true
s.tasksRunning++
s.TasksRunningMutex.Unlock()
} else if IsTerminal(status.State) {
// Update resource availability.
utilities.ResourceAvailabilityUpdate("ON_TASK_TERMINAL_STATE",
*status.TaskId, *status.SlaveId)
s.TasksRunningMutex.Lock()
delete(s.Running[*status.SlaveId.Value], *status.TaskId.Value)
s.tasksRunning--
s.TasksRunningMutex.Unlock()
if s.tasksRunning == 0 {
select {
case <-s.Shutdown:
close(s.Done)
default:
}
}
}
}
func (s *BaseScheduler) Log(lmt elekLogDef.LogMessageType, msg string) {
s.mutex.Lock()
s.logMsgType <- lmt
s.logMsg <- msg
s.mutex.Unlock()
}
func (s *BaseScheduler) LogTaskStarting(ts *def.Task, offer *mesos.Offer) {
lmt := elekLogDef.GENERAL
msgColor := elekLogDef.LogMessageColors[lmt]
var msg string
if ts == nil {
msg = msgColor.Sprintf("TASKS STARTING... host = [%s]", offer.GetHostname())
} else {
msg = msgColor.Sprintf("TASK STARTING... task = [%s], Instance = %d, host = [%s]",
ts.Name, *ts.Instances, offer.GetHostname())
}
s.Log(lmt, msg)
}
func (s *BaseScheduler) LogTaskWattsConsideration(ts def.Task, host string, wattsToConsider float64) {
lmt := elekLogDef.GENERAL
msgColor := elekLogDef.LogMessageColors[lmt]
msg := msgColor.Sprintf("Watts considered for task[%s] and host[%s] = %f Watts",
ts.Name, host, wattsToConsider)
s.Log(lmt, msg)
}
func (s *BaseScheduler) LogOffersReceived(offers []*mesos.Offer) {
lmt := elekLogDef.GENERAL
msgColor := elekLogDef.LogMessageColors[lmt]
msg := msgColor.Sprintf("Received %d resource offers", len(offers))
s.Log(lmt, msg)
}
func (s *BaseScheduler) LogNoPendingTasksDeclineOffers(offer *mesos.Offer) {
lmt := elekLogDef.WARNING
msgColor := elekLogDef.LogMessageColors[lmt]
msg := msgColor.Sprintf("DECLINING OFFER for host[%s]... "+
"No tasks left to schedule", offer.GetHostname())
s.Log(lmt, msg)
}
func (s *BaseScheduler) LogNumberOfRunningTasks() {
lmt := elekLogDef.GENERAL
msgColor := elekLogDef.LogMessageColors[lmt]
msg := msgColor.Sprintf("Number of tasks still Running = %d", s.tasksRunning)
s.Log(lmt, msg)
}
func (s *BaseScheduler) LogCoLocatedTasks(slaveID string) {
lmt := elekLogDef.GENERAL
msgColor := elekLogDef.LogMessageColors[lmt]
buffer := bytes.Buffer{}
buffer.WriteString(fmt.Sprintln("Colocated with:"))
s.TasksRunningMutex.Lock()
for taskName := range s.Running[slaveID] {
buffer.WriteString(fmt.Sprintln(taskName))
}
s.TasksRunningMutex.Unlock()
msg := msgColor.Sprintf(buffer.String())
s.Log(lmt, msg)
}
func (s *BaseScheduler) LogSchedTrace(taskToSchedule *mesos.TaskInfo, offer *mesos.Offer) {
msg := fmt.Sprint(offer.GetHostname() + ":" + taskToSchedule.GetTaskId().GetValue())
s.Log(elekLogDef.SCHED_TRACE, msg)
}
func (s *BaseScheduler) LogTerminateScheduler() {
lmt := elekLogDef.GENERAL
msgColor := elekLogDef.LogMessageColors[lmt]
msg := msgColor.Sprint("Done scheduling all tasks!")
s.Log(lmt, msg)
}
func (s *BaseScheduler) LogInsufficientResourcesDeclineOffer(offer *mesos.Offer,
offerResources ...interface{}) {
lmt := elekLogDef.WARNING
msgColor := elekLogDef.LogMessageColors[lmt]
buffer := bytes.Buffer{}
buffer.WriteString(fmt.Sprintln("DECLINING OFFER... Offer has insufficient resources to launch a task"))
buffer.WriteString(fmt.Sprintf("Offer Resources <CPU: %f, RAM: %f, Watts: %f>", offerResources...))
msg := msgColor.Sprint(buffer.String())
s.Log(lmt, msg)
}
func (s *BaseScheduler) LogOfferRescinded(offerID *mesos.OfferID) {
lmt := elekLogDef.ERROR
msgColor := elekLogDef.LogMessageColors[lmt]
msg := msgColor.Sprintf("OFFER RESCINDED: OfferID = %s", offerID)
s.Log(lmt, msg)
}
func (s *BaseScheduler) LogSlaveLost(slaveID *mesos.SlaveID) {
lmt := elekLogDef.ERROR
msgColor := elekLogDef.LogMessageColors[lmt]
msg := msgColor.Sprintf("SLAVE LOST: SlaveID = %s", slaveID)
s.Log(lmt, msg)
}
func (s *BaseScheduler) LogExecutorLost(executorID *mesos.ExecutorID, slaveID *mesos.SlaveID) {
lmt := elekLogDef.ERROR
msgColor := elekLogDef.LogMessageColors[lmt]
msg := msgColor.Sprintf("EXECUTOR LOST: ExecutorID = %s, SlaveID = %s", executorID, slaveID)
s.Log(lmt, msg)
}
func (s *BaseScheduler) LogFrameworkMessage(executorID *mesos.ExecutorID,
slaveID *mesos.SlaveID, message string) {
lmt := elekLogDef.GENERAL
msgColor := elekLogDef.LogMessageColors[lmt]
msg := msgColor.Sprintf("Received Framework message from executor [%s]: %s", executorID, message)
s.Log(lmt, msg)
}
func (s *BaseScheduler) LogMesosError(err string) {
lmt := elekLogDef.ERROR
msgColor := elekLogDef.LogMessageColors[lmt]
msg := msgColor.Sprintf("MESOS ERROR: %s", err)
s.Log(lmt, msg)
}
func (s *BaseScheduler) LogElectronError(err error) {
lmt := elekLogDef.ERROR
msgColor := elekLogDef.LogMessageColors[lmt]
msg := msgColor.Sprintf("ELECTRON ERROR: %v", err)
s.Log(lmt, msg)
}
func (s *BaseScheduler) LogFrameworkRegistered(frameworkID *mesos.FrameworkID,
masterInfo *mesos.MasterInfo) {
lmt := elekLogDef.SUCCESS
msgColor := elekLogDef.LogMessageColors[lmt]
msg := msgColor.Sprintf("FRAMEWORK REGISTERED! frameworkID = %s, master = %s",
frameworkID, masterInfo)
s.Log(lmt, msg)
}
func (s *BaseScheduler) LogFrameworkReregistered(masterInfo *mesos.MasterInfo) {
lmt := elekLogDef.GENERAL
msgColor := elekLogDef.LogMessageColors[lmt]
msg := msgColor.Sprintf("Framework re-registered with master %s", masterInfo)
s.Log(lmt, msg)
}
func (s *BaseScheduler) LogDisconnected() {
lmt := elekLogDef.WARNING
msgColor := elekLogDef.LogMessageColors[lmt]
msg := msgColor.Sprint("Framework disconnected with master")
s.Log(lmt, msg)
}
func (s *BaseScheduler) LogTaskStatusUpdate(status *mesos.TaskStatus) {
var lmt elekLogDef.LogMessageType
switch *status.State {
case mesos.TaskState_TASK_ERROR, mesos.TaskState_TASK_FAILED,
mesos.TaskState_TASK_KILLED, mesos.TaskState_TASK_LOST:
lmt = elekLogDef.ERROR
case mesos.TaskState_TASK_FINISHED:
lmt = elekLogDef.SUCCESS
default:
lmt = elekLogDef.GENERAL
}
msgColor := elekLogDef.LogMessageColors[lmt]
msg := elekLogDef.LogMessageColors[elekLogDef.GENERAL].Sprintf("Task Status received for task [%s] --> %s",
*status.TaskId.Value, msgColor.Sprint(NameFor(status.State)))
s.Log(lmt, msg)
}
func (s *BaseScheduler) LogSchedPolicySwitch(name string, nextPolicy SchedPolicyState) {
logSPS := func() {
s.Log(elekLogDef.SPS, name)
}
if s.hasReceivedResourceOffers && (s.curSchedPolicy != nextPolicy) {
logSPS()
} else if !s.hasReceivedResourceOffers {
logSPS()
}
// Logging the size of the scheduling window and the scheduling policy
// that is going to schedule the tasks in the scheduling window.
s.Log(elekLogDef.SCHED_WINDOW, fmt.Sprintf("%d %s", s.schedWindowSize, name))
}
func (s *BaseScheduler) LogClsfnAndTaskDistOverhead(overhead time.Duration) {
// Logging the overhead in microseconds.
s.Log(elekLogDef.CLSFN_TASKDIST_OVERHEAD, fmt.Sprintf("%f", float64(overhead.Nanoseconds())/1000.0))
}