223 lines
6.2 KiB
Go
223 lines
6.2 KiB
Go
package api
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import (
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"fmt"
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"sort"
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"time"
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)
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var (
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// NodeDownErr marks an operation as not able to complete since the node is
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// down.
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NodeDownErr = fmt.Errorf("node down")
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)
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// Allocations is used to query the alloc-related endpoints.
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type Allocations struct {
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client *Client
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}
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// Allocations returns a handle on the allocs endpoints.
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func (c *Client) Allocations() *Allocations {
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return &Allocations{client: c}
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}
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// List returns a list of all of the allocations.
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func (a *Allocations) List(q *QueryOptions) ([]*AllocationListStub, *QueryMeta, error) {
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var resp []*AllocationListStub
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qm, err := a.client.query("/v1/allocations", &resp, q)
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if err != nil {
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return nil, nil, err
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}
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sort.Sort(AllocIndexSort(resp))
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return resp, qm, nil
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}
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func (a *Allocations) PrefixList(prefix string) ([]*AllocationListStub, *QueryMeta, error) {
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return a.List(&QueryOptions{Prefix: prefix})
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}
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// Info is used to retrieve a single allocation.
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func (a *Allocations) Info(allocID string, q *QueryOptions) (*Allocation, *QueryMeta, error) {
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var resp Allocation
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qm, err := a.client.query("/v1/allocation/"+allocID, &resp, q)
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if err != nil {
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return nil, nil, err
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}
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return &resp, qm, nil
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}
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func (a *Allocations) Stats(alloc *Allocation, q *QueryOptions) (*AllocResourceUsage, error) {
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var resp AllocResourceUsage
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path := fmt.Sprintf("/v1/client/allocation/%s/stats", alloc.ID)
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_, err := a.client.query(path, &resp, q)
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return &resp, err
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}
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func (a *Allocations) GC(alloc *Allocation, q *QueryOptions) error {
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nodeClient, err := a.client.GetNodeClient(alloc.NodeID, q)
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if err != nil {
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return err
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}
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var resp struct{}
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_, err = nodeClient.query("/v1/client/allocation/"+alloc.ID+"/gc", &resp, nil)
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return err
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}
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// Allocation is used for serialization of allocations.
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type Allocation struct {
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ID string
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Namespace string
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EvalID string
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Name string
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NodeID string
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JobID string
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Job *Job
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TaskGroup string
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Resources *Resources
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TaskResources map[string]*Resources
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Services map[string]string
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Metrics *AllocationMetric
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DesiredStatus string
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DesiredDescription string
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DesiredTransition DesiredTransition
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ClientStatus string
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ClientDescription string
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TaskStates map[string]*TaskState
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DeploymentID string
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DeploymentStatus *AllocDeploymentStatus
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FollowupEvalID string
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PreviousAllocation string
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NextAllocation string
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RescheduleTracker *RescheduleTracker
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CreateIndex uint64
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ModifyIndex uint64
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AllocModifyIndex uint64
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CreateTime int64
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ModifyTime int64
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}
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// AllocationMetric is used to deserialize allocation metrics.
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type AllocationMetric struct {
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NodesEvaluated int
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NodesFiltered int
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NodesAvailable map[string]int
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ClassFiltered map[string]int
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ConstraintFiltered map[string]int
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NodesExhausted int
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ClassExhausted map[string]int
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DimensionExhausted map[string]int
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QuotaExhausted []string
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Scores map[string]float64
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AllocationTime time.Duration
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CoalescedFailures int
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}
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// AllocationListStub is used to return a subset of an allocation
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// during list operations.
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type AllocationListStub struct {
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ID string
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EvalID string
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Name string
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NodeID string
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JobID string
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JobVersion uint64
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TaskGroup string
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DesiredStatus string
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DesiredDescription string
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ClientStatus string
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ClientDescription string
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TaskStates map[string]*TaskState
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DeploymentStatus *AllocDeploymentStatus
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FollowupEvalID string
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RescheduleTracker *RescheduleTracker
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CreateIndex uint64
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ModifyIndex uint64
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CreateTime int64
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ModifyTime int64
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}
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// AllocDeploymentStatus captures the status of the allocation as part of the
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// deployment. This can include things like if the allocation has been marked as
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// healthy.
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type AllocDeploymentStatus struct {
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Healthy *bool
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ModifyIndex uint64
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}
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// AllocIndexSort reverse sorts allocs by CreateIndex.
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type AllocIndexSort []*AllocationListStub
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func (a AllocIndexSort) Len() int {
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return len(a)
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}
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func (a AllocIndexSort) Less(i, j int) bool {
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return a[i].CreateIndex > a[j].CreateIndex
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}
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func (a AllocIndexSort) Swap(i, j int) {
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a[i], a[j] = a[j], a[i]
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}
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// RescheduleInfo is used to calculate remaining reschedule attempts
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// according to the given time and the task groups reschedule policy
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func (a Allocation) RescheduleInfo(t time.Time) (int, int) {
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var reschedulePolicy *ReschedulePolicy
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for _, tg := range a.Job.TaskGroups {
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if *tg.Name == a.TaskGroup {
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reschedulePolicy = tg.ReschedulePolicy
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}
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}
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if reschedulePolicy == nil {
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return 0, 0
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}
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availableAttempts := *reschedulePolicy.Attempts
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interval := *reschedulePolicy.Interval
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attempted := 0
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// Loop over reschedule tracker to find attempts within the restart policy's interval
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if a.RescheduleTracker != nil && availableAttempts > 0 && interval > 0 {
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for j := len(a.RescheduleTracker.Events) - 1; j >= 0; j-- {
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lastAttempt := a.RescheduleTracker.Events[j].RescheduleTime
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timeDiff := t.UTC().UnixNano() - lastAttempt
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if timeDiff < interval.Nanoseconds() {
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attempted += 1
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}
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}
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}
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return attempted, availableAttempts
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}
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// RescheduleTracker encapsulates previous reschedule events
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type RescheduleTracker struct {
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Events []*RescheduleEvent
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}
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// RescheduleEvent is used to keep track of previous attempts at rescheduling an allocation
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type RescheduleEvent struct {
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// RescheduleTime is the timestamp of a reschedule attempt
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RescheduleTime int64
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// PrevAllocID is the ID of the previous allocation being restarted
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PrevAllocID string
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// PrevNodeID is the node ID of the previous allocation
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PrevNodeID string
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}
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// DesiredTransition is used to mark an allocation as having a desired state
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// transition. This information can be used by the scheduler to make the
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// correct decision.
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type DesiredTransition struct {
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// Migrate is used to indicate that this allocation should be stopped and
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// migrated to another node.
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Migrate *bool
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}
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// ShouldMigrate returns whether the transition object dictates a migration.
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func (d DesiredTransition) ShouldMigrate() bool {
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return d.Migrate != nil && *d.Migrate
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}
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