cc295b90de
This commit implements an allocation selection algorithm for finding allocations to preempt. It currently special cases network resource asks from others (cpu/memory/disk/iops).
241 lines
5.8 KiB
Go
241 lines
5.8 KiB
Go
package scheduler
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import (
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"fmt"
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"sync"
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"time"
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memdb "github.com/hashicorp/go-memdb"
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"github.com/hashicorp/nomad/helper/testlog"
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"github.com/hashicorp/nomad/nomad/state"
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"github.com/hashicorp/nomad/nomad/structs"
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"github.com/mitchellh/go-testing-interface"
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)
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// RejectPlan is used to always reject the entire plan and force a state refresh
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type RejectPlan struct {
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Harness *Harness
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}
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func (r *RejectPlan) SubmitPlan(*structs.Plan) (*structs.PlanResult, State, error) {
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result := new(structs.PlanResult)
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result.RefreshIndex = r.Harness.NextIndex()
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return result, r.Harness.State, nil
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}
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func (r *RejectPlan) UpdateEval(eval *structs.Evaluation) error {
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return nil
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}
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func (r *RejectPlan) CreateEval(*structs.Evaluation) error {
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return nil
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}
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func (r *RejectPlan) ReblockEval(*structs.Evaluation) error {
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return nil
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}
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// Harness is a lightweight testing harness for schedulers. It manages a state
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// store copy and provides the planner interface. It can be extended for various
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// testing uses or for invoking the scheduler without side effects.
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type Harness struct {
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t testing.T
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State *state.StateStore
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Planner Planner
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planLock sync.Mutex
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Plans []*structs.Plan
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Evals []*structs.Evaluation
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CreateEvals []*structs.Evaluation
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ReblockEvals []*structs.Evaluation
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nextIndex uint64
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nextIndexLock sync.Mutex
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}
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// NewHarness is used to make a new testing harness
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func NewHarness(t testing.T) *Harness {
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state := state.TestStateStore(t)
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h := &Harness{
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t: t,
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State: state,
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nextIndex: 1,
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}
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return h
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}
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// NewHarnessWithState creates a new harness with the given state for testing
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// purposes.
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func NewHarnessWithState(t testing.T, state *state.StateStore) *Harness {
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return &Harness{
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t: t,
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State: state,
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nextIndex: 1,
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}
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}
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// SubmitPlan is used to handle plan submission
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func (h *Harness) SubmitPlan(plan *structs.Plan) (*structs.PlanResult, State, error) {
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// Ensure sequential plan application
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h.planLock.Lock()
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defer h.planLock.Unlock()
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// Store the plan
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h.Plans = append(h.Plans, plan)
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// Check for custom planner
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if h.Planner != nil {
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return h.Planner.SubmitPlan(plan)
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}
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// Get the index
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index := h.NextIndex()
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// Prepare the result
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result := new(structs.PlanResult)
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result.NodeUpdate = plan.NodeUpdate
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result.NodeAllocation = plan.NodeAllocation
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result.NodePreemptions = plan.NodePreemptions
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result.AllocIndex = index
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// Flatten evicts and allocs
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var allocs []*structs.Allocation
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for _, updateList := range plan.NodeUpdate {
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allocs = append(allocs, updateList...)
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}
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for _, allocList := range plan.NodeAllocation {
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allocs = append(allocs, allocList...)
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}
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// Set the time the alloc was applied for the first time. This can be used
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// to approximate the scheduling time.
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now := time.Now().UTC().UnixNano()
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for _, alloc := range allocs {
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if alloc.CreateTime == 0 {
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alloc.CreateTime = now
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}
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}
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// Set create and modify time for preempted allocs and flatten them
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var preemptedAllocs []*structs.Allocation
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for _, preemptions := range result.NodePreemptions {
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for _, alloc := range preemptions {
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if alloc.CreateTime == 0 {
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alloc.CreateTime = now
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}
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alloc.ModifyTime = now
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preemptedAllocs = append(preemptedAllocs, alloc)
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}
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}
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// Setup the update request
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req := structs.ApplyPlanResultsRequest{
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AllocUpdateRequest: structs.AllocUpdateRequest{
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Job: plan.Job,
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Alloc: allocs,
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},
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Deployment: plan.Deployment,
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DeploymentUpdates: plan.DeploymentUpdates,
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EvalID: plan.EvalID,
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NodePreemptions: preemptedAllocs,
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}
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// Apply the full plan
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err := h.State.UpsertPlanResults(index, &req)
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return result, nil, err
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}
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func (h *Harness) UpdateEval(eval *structs.Evaluation) error {
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// Ensure sequential plan application
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h.planLock.Lock()
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defer h.planLock.Unlock()
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// Store the eval
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h.Evals = append(h.Evals, eval)
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// Check for custom planner
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if h.Planner != nil {
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return h.Planner.UpdateEval(eval)
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}
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return nil
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}
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func (h *Harness) CreateEval(eval *structs.Evaluation) error {
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// Ensure sequential plan application
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h.planLock.Lock()
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defer h.planLock.Unlock()
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// Store the eval
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h.CreateEvals = append(h.CreateEvals, eval)
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// Check for custom planner
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if h.Planner != nil {
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return h.Planner.CreateEval(eval)
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}
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return nil
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}
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func (h *Harness) ReblockEval(eval *structs.Evaluation) error {
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// Ensure sequential plan application
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h.planLock.Lock()
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defer h.planLock.Unlock()
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// Check that the evaluation was already blocked.
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ws := memdb.NewWatchSet()
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old, err := h.State.EvalByID(ws, eval.ID)
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if err != nil {
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return err
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}
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if old == nil {
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return fmt.Errorf("evaluation does not exist to be reblocked")
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}
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if old.Status != structs.EvalStatusBlocked {
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return fmt.Errorf("evaluation %q is not already in a blocked state", old.ID)
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}
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h.ReblockEvals = append(h.ReblockEvals, eval)
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return nil
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}
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// NextIndex returns the next index
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func (h *Harness) NextIndex() uint64 {
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h.nextIndexLock.Lock()
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defer h.nextIndexLock.Unlock()
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idx := h.nextIndex
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h.nextIndex += 1
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return idx
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}
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// Snapshot is used to snapshot the current state
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func (h *Harness) Snapshot() State {
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snap, _ := h.State.Snapshot()
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return snap
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}
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// Scheduler is used to return a new scheduler from
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// a snapshot of current state using the harness for planning.
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func (h *Harness) Scheduler(factory Factory) Scheduler {
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logger := testlog.HCLogger(h.t)
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return factory(logger, h.Snapshot(), h)
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}
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// Process is used to process an evaluation given a factory
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// function to create the scheduler
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func (h *Harness) Process(factory Factory, eval *structs.Evaluation) error {
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sched := h.Scheduler(factory)
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return sched.Process(eval)
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}
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func (h *Harness) AssertEvalStatus(t testing.T, state string) {
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if len(h.Evals) != 1 {
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t.Fatalf("bad: %#v", h.Evals)
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}
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update := h.Evals[0]
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if update.Status != state {
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t.Fatalf("bad: %#v", update)
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}
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}
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