419 lines
13 KiB
Go
419 lines
13 KiB
Go
package scheduler
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import (
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"fmt"
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"log"
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"github.com/davecgh/go-spew/spew"
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"github.com/hashicorp/go-multierror"
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"github.com/hashicorp/nomad/nomad/structs"
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)
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const (
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// maxServiceScheduleAttempts is used to limit the number of times
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// we will attempt to schedule if we continue to hit conflicts for services.
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maxServiceScheduleAttempts = 5
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// maxBatchScheduleAttempts is used to limit the number of times
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// we will attempt to schedule if we continue to hit conflicts for batch.
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maxBatchScheduleAttempts = 2
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// allocNotNeeded is the status used when a job no longer requires an allocation
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allocNotNeeded = "alloc not needed due to job update"
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// allocMigrating is the status used when we must migrate an allocation
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allocMigrating = "alloc is being migrated"
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// allocUpdating is the status used when a job requires an update
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allocUpdating = "alloc is being updated due to job update"
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// allocInPlace is the status used when speculating on an in-place update
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allocInPlace = "alloc updating in-place"
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)
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// SetStatusError is used to set the status of the evaluation to the given error
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type SetStatusError struct {
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Err error
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EvalStatus string
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}
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func (s *SetStatusError) Error() string {
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return s.Err.Error()
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}
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// GenericScheduler is used for 'service' and 'batch' type jobs. This scheduler is
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// designed for long-lived services, and as such spends more time attemping
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// to make a high quality placement. This is the primary scheduler for
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// most workloads. It also supports a 'batch' mode to optimize for fast decision
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// making at the cost of quality.
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type GenericScheduler struct {
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logger *log.Logger
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state State
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planner Planner
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batch bool
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eval *structs.Evaluation
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job *structs.Job
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plan *structs.Plan
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planResult *structs.PlanResult
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ctx *EvalContext
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stack *GenericStack
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limitReached bool
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nextEval *structs.Evaluation
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blocked *structs.Evaluation
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}
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// NewServiceScheduler is a factory function to instantiate a new service scheduler
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func NewServiceScheduler(logger *log.Logger, state State, planner Planner) Scheduler {
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s := &GenericScheduler{
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logger: logger,
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state: state,
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planner: planner,
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batch: false,
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}
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return s
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}
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// NewBatchScheduler is a factory function to instantiate a new batch scheduler
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func NewBatchScheduler(logger *log.Logger, state State, planner Planner) Scheduler {
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s := &GenericScheduler{
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logger: logger,
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state: state,
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planner: planner,
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batch: true,
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}
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return s
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}
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// Process is used to handle a single evaluation
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func (s *GenericScheduler) Process(eval *structs.Evaluation) error {
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// Store the evaluation
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s.eval = eval
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// Verify the evaluation trigger reason is understood
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switch eval.TriggeredBy {
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case structs.EvalTriggerJobRegister, structs.EvalTriggerNodeUpdate,
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structs.EvalTriggerJobDeregister, structs.EvalTriggerRollingUpdate,
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structs.EvalTriggerPeriodicJob:
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default:
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desc := fmt.Sprintf("scheduler cannot handle '%s' evaluation reason",
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eval.TriggeredBy)
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return setStatus(s.logger, s.planner, s.eval, s.nextEval, structs.EvalStatusFailed, desc)
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}
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// Retry up to the maxScheduleAttempts and reset if progress is made.
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progress := func() bool { return progressMade(s.planResult) }
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limit := maxServiceScheduleAttempts
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if s.batch {
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limit = maxBatchScheduleAttempts
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}
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if err := retryMax(limit, s.process, progress); err != nil {
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if statusErr, ok := err.(*SetStatusError); ok {
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// Scheduling was tried but made no forward progress so create a
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// blocked eval to retry once resources become available.
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var mErr multierror.Error
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if err := s.createBlockedEval(); err != nil {
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mErr.Errors = append(mErr.Errors, err)
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}
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if err := setStatus(s.logger, s.planner, s.eval, s.nextEval, statusErr.EvalStatus, err.Error()); err != nil {
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mErr.Errors = append(mErr.Errors, err)
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}
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return mErr.ErrorOrNil()
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}
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return err
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}
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// Update the status to complete
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return setStatus(s.logger, s.planner, s.eval, s.nextEval, structs.EvalStatusComplete, "")
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}
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// createBlockedEval creates a blocked eval and stores it.
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func (s *GenericScheduler) createBlockedEval() error {
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e := s.ctx.Eligibility()
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escaped := e.HasEscaped()
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// Only store the eligible classes if the eval hasn't escaped.
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var classEligibility map[string]bool
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if !escaped {
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classEligibility = e.GetClasses()
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}
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s.blocked = s.eval.BlockedEval(classEligibility, escaped)
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return s.planner.CreateEval(s.blocked)
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}
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// process is wrapped in retryMax to iteratively run the handler until we have no
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// further work or we've made the maximum number of attempts.
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func (s *GenericScheduler) process() (bool, error) {
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// Lookup the Job by ID
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var err error
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s.job, err = s.state.JobByID(s.eval.JobID)
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if err != nil {
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return false, fmt.Errorf("failed to get job '%s': %v",
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s.eval.JobID, err)
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}
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// Create a plan
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s.plan = s.eval.MakePlan(s.job)
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// Reset the failed allocations
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s.eval.FailedTGAllocs = nil
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// Create an evaluation context
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s.ctx = NewEvalContext(s.state, s.plan, s.logger)
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// Construct the placement stack
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s.stack = NewGenericStack(s.batch, s.ctx)
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if s.job != nil {
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s.stack.SetJob(s.job)
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}
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// Compute the target job allocations
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if err := s.computeJobAllocs(); err != nil {
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s.logger.Printf("[ERR] sched: %#v: %v", s.eval, err)
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return false, err
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}
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// If there are failed allocations, we need to create a blocked evaluation
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// to place the failed allocations when resources become available.
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if len(s.eval.FailedTGAllocs) != 0 && s.blocked == nil {
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if err := s.createBlockedEval(); err != nil {
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s.logger.Printf("[ERR] sched: %#v failed to make blocked eval: %v", s.eval, err)
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return false, err
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}
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s.logger.Printf("[DEBUG] sched: %#v: failed to place all allocations, blocked eval '%s' created", s.eval, s.blocked.ID)
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}
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// If the plan is a no-op, we can bail. If AnnotatePlan is set submit the plan
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// anyways to get the annotations.
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if s.plan.IsNoOp() && !s.eval.AnnotatePlan {
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return true, nil
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}
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// If the limit of placements was reached we need to create an evaluation
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// to pickup from here after the stagger period.
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if s.limitReached && s.nextEval == nil {
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s.nextEval = s.eval.NextRollingEval(s.job.Update.Stagger)
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if err := s.planner.CreateEval(s.nextEval); err != nil {
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s.logger.Printf("[ERR] sched: %#v failed to make next eval for rolling update: %v", s.eval, err)
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return false, err
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}
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s.logger.Printf("[DEBUG] sched: %#v: rolling update limit reached, next eval '%s' created", s.eval, s.nextEval.ID)
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}
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// Submit the plan and store the results.
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result, newState, err := s.planner.SubmitPlan(s.plan)
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s.planResult = result
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if err != nil {
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return false, err
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}
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// If we got a state refresh, try again since we have stale data
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if newState != nil {
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s.logger.Printf("[DEBUG] sched: %#v: refresh forced", s.eval)
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s.state = newState
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return false, nil
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}
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// Try again if the plan was not fully committed, potential conflict
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fullCommit, expected, actual := result.FullCommit(s.plan)
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if !fullCommit {
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s.logger.Printf("[DEBUG] sched: %#v: attempted %d placements, %d placed",
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s.eval, expected, actual)
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if newState == nil {
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return false, fmt.Errorf("missing state refresh after partial commit")
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}
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return false, nil
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}
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// Success!
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return true, nil
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}
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// filterCompleteAllocs filters allocations that are terminal and should be
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// re-placed.
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func (s *GenericScheduler) filterCompleteAllocs(allocs []*structs.Allocation) []*structs.Allocation {
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filter := func(a *structs.Allocation) bool {
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if s.batch {
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// Allocs from batch jobs should be filtered when the desired status
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// is terminal or when the client status is failed so that they will
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// be replaced. If they are complete but not failed, they shouldn't
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// be replaced.
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switch a.DesiredStatus {
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case structs.AllocDesiredStatusStop, structs.AllocDesiredStatusEvict, structs.AllocDesiredStatusFailed:
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return true
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default:
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}
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switch a.ClientStatus {
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case structs.AllocClientStatusFailed:
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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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// Filter terminal, non batch allocations
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return a.TerminalStatus()
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}
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n := len(allocs)
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for i := 0; i < n; i++ {
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if filter(allocs[i]) {
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allocs[i], allocs[n-1] = allocs[n-1], nil
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i--
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n--
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}
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}
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return allocs[:n]
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}
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// computeJobAllocs is used to reconcile differences between the job,
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// existing allocations and node status to update the allocations.
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func (s *GenericScheduler) computeJobAllocs() error {
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// Materialize all the task groups, job could be missing if deregistered
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var groups map[string]*structs.TaskGroup
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if s.job != nil {
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groups = materializeTaskGroups(s.job)
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}
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// Lookup the allocations by JobID
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allocs, err := s.state.AllocsByJob(s.eval.JobID)
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if err != nil {
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return fmt.Errorf("failed to get allocs for job '%s': %v",
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s.eval.JobID, err)
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}
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// Filter out the allocations in a terminal state
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allocs = s.filterCompleteAllocs(allocs)
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// Determine the tainted nodes containing job allocs
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tainted, err := taintedNodes(s.state, allocs)
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if err != nil {
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return fmt.Errorf("failed to get tainted nodes for job '%s': %v",
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s.eval.JobID, err)
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}
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// Diff the required and existing allocations
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diff := diffAllocs(s.job, tainted, groups, allocs)
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s.logger.Printf("[DEBUG] sched: %#v: %#v", s.eval, diff)
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// XXX: For debugging purposes only. An issue was observed where a job had a
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// task group with count > 0 that produced a diff where no action would be
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// taken (every slice was empty). Below we dump debug information if this
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// condition is hit.
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diffSum := len(diff.stop) + len(diff.place) + len(diff.ignore) +
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len(diff.update) + len(diff.migrate)
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if diffSum == 0 && len(groups) != 0 {
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s.logger.Printf("[ERR] sched: %d tasks to schedule but scheduler believes there is no work", len(groups))
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// Get the original set of allocations for the job.
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jobAllocs, err := s.state.AllocsByJob(s.eval.JobID)
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if err != nil {
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return fmt.Errorf("failed to get allocs for job '%s': %v", s.eval.JobID, err)
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}
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s.logger.Printf("[DEBUG] sched: job: %s", spew.Sdump(s.job))
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s.logger.Printf("[DEBUG] sched: materializeTaskGroups() returned: %s", spew.Sdump(groups))
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s.logger.Printf("[DEBUG] sched: AllocsByJob(%q) returned: %s", s.eval.JobID, spew.Sdump(jobAllocs))
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s.logger.Printf("[DEBUG] sched: filterCompleteAllocs(): %s", spew.Sdump(allocs))
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s.logger.Printf("[DEBUG] sched: taintedNodes(): %s", spew.Sdump(tainted))
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}
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// Add all the allocs to stop
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for _, e := range diff.stop {
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s.plan.AppendUpdate(e.Alloc, structs.AllocDesiredStatusStop, allocNotNeeded)
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}
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// Attempt to do the upgrades in place
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destructiveUpdates, inplaceUpdates := inplaceUpdate(s.ctx, s.eval, s.job, s.stack, diff.update)
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diff.update = destructiveUpdates
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if s.eval.AnnotatePlan {
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s.plan.Annotations = &structs.PlanAnnotations{
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DesiredTGUpdates: desiredUpdates(diff, inplaceUpdates, destructiveUpdates),
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}
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}
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// Check if a rolling upgrade strategy is being used
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limit := len(diff.update) + len(diff.migrate)
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if s.job != nil && s.job.Update.Rolling() {
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limit = s.job.Update.MaxParallel
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}
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// Treat migrations as an eviction and a new placement.
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s.limitReached = evictAndPlace(s.ctx, diff, diff.migrate, allocMigrating, &limit)
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// Treat non in-place updates as an eviction and new placement.
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s.limitReached = s.limitReached || evictAndPlace(s.ctx, diff, diff.update, allocUpdating, &limit)
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// Nothing remaining to do if placement is not required
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if len(diff.place) == 0 {
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return nil
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}
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// Compute the placements
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return s.computePlacements(diff.place)
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}
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// computePlacements computes placements for allocations
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func (s *GenericScheduler) computePlacements(place []allocTuple) error {
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// Get the base nodes
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nodes, byDC, err := readyNodesInDCs(s.state, s.job.Datacenters)
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if err != nil {
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return err
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}
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// Update the set of placement ndoes
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s.stack.SetNodes(nodes)
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for _, missing := range place {
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// Check if this task group has already failed
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if s.eval.FailedTGAllocs != nil {
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if metric, ok := s.eval.FailedTGAllocs[missing.TaskGroup.Name]; ok {
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metric.CoalescedFailures += 1
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continue
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}
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}
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// Attempt to match the task group
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option, _ := s.stack.Select(missing.TaskGroup)
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// Store the available nodes by datacenter
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s.ctx.Metrics().NodesAvailable = byDC
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// Set fields based on if we found an allocation option
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if option != nil {
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// Create an allocation for this
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alloc := &structs.Allocation{
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ID: structs.GenerateUUID(),
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EvalID: s.eval.ID,
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Name: missing.Name,
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JobID: s.job.ID,
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TaskGroup: missing.TaskGroup.Name,
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Metrics: s.ctx.Metrics(),
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NodeID: option.Node.ID,
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TaskResources: option.TaskResources,
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DesiredStatus: structs.AllocDesiredStatusRun,
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ClientStatus: structs.AllocClientStatusPending,
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}
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// Generate service IDs tasks in this allocation
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// COMPAT - This is no longer required and would be removed in v0.4
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alloc.PopulateServiceIDs(missing.TaskGroup)
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s.plan.AppendAlloc(alloc)
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} else {
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// Lazy initialize the failed map
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if s.eval.FailedTGAllocs == nil {
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s.eval.FailedTGAllocs = make(map[string]*structs.AllocMetric)
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}
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s.eval.FailedTGAllocs[missing.TaskGroup.Name] = s.ctx.Metrics()
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}
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}
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return nil
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}
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