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util.go
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util.go
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package api
import (
"fmt"
math "math"
"strings"
time "time"
"github.com/pkg/errors"
v1 "k8s.io/api/core/v1"
metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
"github.com/armadaproject/armada/internal/armada/configuration"
"github.com/armadaproject/armada/internal/common/armadaerrors"
armadaresource "github.com/armadaproject/armada/internal/common/resource"
"github.com/armadaproject/armada/internal/scheduler/adapters"
"github.com/armadaproject/armada/internal/scheduler/schedulerobjects"
)
// IsTerminal returns true if the JobState s corresponds to a state
// that indicates the job has been terminated.
func (s JobState) IsTerminal() bool {
switch s {
case JobState_SUCCEEDED:
return true
case JobState_FAILED:
return true
}
return false
}
func NewNodeFromNodeInfo(nodeInfo *NodeInfo, executor string, allowedPriorities []int32, lastSeen time.Time) (*schedulerobjects.Node, error) {
if executor == "" {
return nil, errors.WithStack(&armadaerrors.ErrInvalidArgument{
Name: "executor",
Value: executor,
Message: "executor is empty",
})
}
if nodeInfo.Name == "" {
return nil, errors.WithStack(&armadaerrors.ErrInvalidArgument{
Name: "nodeInfo.Name",
Value: nodeInfo.Name,
Message: "nodeInfo.Name is empty",
})
}
allocatableByPriorityAndResource := schedulerobjects.NewAllocatableByPriorityAndResourceType(
allowedPriorities,
schedulerobjects.ResourceList{
Resources: nodeInfo.TotalResources,
},
)
for p, rl := range nodeInfo.NonArmadaAllocatedResources {
allocatableByPriorityAndResource.MarkAllocated(p, schedulerobjects.ResourceList{Resources: rl.Resources})
}
nonArmadaAllocatedResources := make(map[int32]schedulerobjects.ResourceList)
for p, rl := range nodeInfo.NonArmadaAllocatedResources {
nonArmadaAllocatedResources[p] = schedulerobjects.ResourceList{Resources: rl.Resources}
}
resourceUsageByQueue := make(map[string]*schedulerobjects.ResourceList)
for queueName, resourceUsage := range nodeInfo.ResourceUsageByQueue {
resourceUsageByQueue[queueName] = &schedulerobjects.ResourceList{Resources: resourceUsage.Resources}
}
jobRunsByState := make(map[string]schedulerobjects.JobRunState)
for jobId, state := range nodeInfo.RunIdsByState {
jobRunsByState[jobId] = JobRunStateFromApiJobState(state)
}
return &schedulerobjects.Node{
Id: fmt.Sprintf("%s-%s", executor, nodeInfo.Name),
Name: nodeInfo.Name,
LastSeen: lastSeen,
Taints: nodeInfo.GetTaints(),
Labels: nodeInfo.GetLabels(),
TotalResources: schedulerobjects.ResourceList{Resources: nodeInfo.TotalResources},
AllocatableByPriorityAndResource: allocatableByPriorityAndResource,
NonArmadaAllocatedResources: nonArmadaAllocatedResources,
StateByJobRunId: jobRunsByState,
Unschedulable: nodeInfo.Unschedulable,
ResourceUsageByQueue: resourceUsageByQueue,
ReportingNodeType: nodeInfo.NodeType,
}, nil
}
func JobRunStateFromApiJobState(s JobState) schedulerobjects.JobRunState {
switch s {
case JobState_QUEUED:
return schedulerobjects.JobRunState_UNKNOWN
case JobState_PENDING:
return schedulerobjects.JobRunState_PENDING
case JobState_RUNNING:
return schedulerobjects.JobRunState_RUNNING
case JobState_SUCCEEDED:
return schedulerobjects.JobRunState_SUCCEEDED
case JobState_FAILED:
return schedulerobjects.JobRunState_FAILED
case JobState_UNKNOWN:
return schedulerobjects.JobRunState_UNKNOWN
}
return schedulerobjects.JobRunState_UNKNOWN
}
func NewNodeTypeFromNodeInfo(nodeInfo *NodeInfo, indexedTaints map[string]interface{}, indexedLabels map[string]interface{}) *schedulerobjects.NodeType {
return schedulerobjects.NewNodeType(nodeInfo.GetTaints(), nodeInfo.GetLabels(), indexedTaints, indexedLabels)
}
func (job *Job) GetRequirements(priorityClasses map[string]configuration.PriorityClass) *schedulerobjects.JobSchedulingInfo {
podSpecs := job.GetAllPodSpecs()
objectRequirements := make([]*schedulerobjects.ObjectRequirements, len(podSpecs))
for i, podSpec := range podSpecs {
if podSpec == nil {
continue
}
objectRequirements[i] = &schedulerobjects.ObjectRequirements{
Requirements: &schedulerobjects.ObjectRequirements_PodRequirements{
PodRequirements: adapters.PodRequirementsFromPod(
&v1.Pod{
ObjectMeta: metav1.ObjectMeta{
Annotations: job.Annotations,
},
Spec: *podSpec,
},
priorityClasses,
),
},
}
}
priorityClassName := ""
if len(podSpecs) > 0 {
priorityClassName = podSpecs[0].PriorityClassName
}
return &schedulerobjects.JobSchedulingInfo{
PriorityClassName: priorityClassName,
Priority: LogSubmitPriorityFromApiPriority(job.GetPriority()),
SubmitTime: job.GetCreated(),
ObjectRequirements: objectRequirements,
}
}
func (job *Job) GetJobSet() string {
return job.JobSetId
}
// LogSubmitPriorityFromApiPriority returns the uint32 representation of the priority included with a submitted job,
// or an error if the conversion fails.
func LogSubmitPriorityFromApiPriority(priority float64) uint32 {
if priority < 0 {
priority = 0
}
if priority > math.MaxUint32 {
priority = math.MaxUint32
}
priority = math.Round(priority)
return uint32(priority)
}
func (job *Job) GetMainPodSpec() *v1.PodSpec {
if job.PodSpec != nil {
return job.PodSpec
}
for _, podSpec := range job.PodSpecs {
if podSpec != nil {
return podSpec
}
}
return nil
}
func (job *Job) TotalResourceRequest() armadaresource.ComputeResources {
totalResources := make(armadaresource.ComputeResources)
for _, podSpec := range job.GetAllPodSpecs() {
podResource := armadaresource.TotalPodResourceRequest(podSpec)
totalResources.Add(podResource)
}
return totalResources
}
func ShortStringFromEventMessages(msgs []*EventMessage) string {
var sb strings.Builder
sb.WriteString("[")
for i, msg := range msgs {
sb.WriteString(msg.ShortString())
if i < len(msgs)-1 {
sb.WriteString(", ")
}
}
sb.WriteString("]")
return sb.String()
}
func (msg *EventMessage) ShortString() string {
return strings.ReplaceAll(fmt.Sprintf("%T", msg.Events), "*api.EventMessage_", "")
}
func (testSpec *TestSpec) ShortString() string {
var sb strings.Builder
sb.WriteString(
fmt.Sprintf(
"%s: {queue: %s, job set: %s, timeout: %s, expected: [",
testSpec.Name, testSpec.Queue, testSpec.JobSetId, testSpec.Timeout.String(),
),
)
for i, e := range testSpec.GetExpectedEvents() {
sb.WriteString(e.ShortString())
if i < len(testSpec.GetExpectedEvents())-1 {
sb.WriteString(", ")
}
}
sb.WriteString("]}")
return sb.String()
}
func JobIdFromApiEvent(msg *EventMessage) string {
switch e := msg.Events.(type) {
case *EventMessage_Submitted:
return e.Submitted.JobId
case *EventMessage_Queued:
return e.Queued.JobId
case *EventMessage_DuplicateFound:
return e.DuplicateFound.JobId
case *EventMessage_Leased:
return e.Leased.JobId
case *EventMessage_LeaseReturned:
return e.LeaseReturned.JobId
case *EventMessage_LeaseExpired:
return e.LeaseExpired.JobId
case *EventMessage_Pending:
return e.Pending.JobId
case *EventMessage_Running:
return e.Running.JobId
case *EventMessage_UnableToSchedule:
return e.UnableToSchedule.JobId
case *EventMessage_Failed:
return e.Failed.JobId
case *EventMessage_Succeeded:
return e.Succeeded.JobId
case *EventMessage_Reprioritized:
return e.Reprioritized.JobId
case *EventMessage_Cancelling:
return e.Cancelling.JobId
case *EventMessage_Cancelled:
return e.Cancelled.JobId
case *EventMessage_Terminated:
return e.Terminated.JobId
case *EventMessage_Utilisation:
return e.Utilisation.JobId
case *EventMessage_IngressInfo:
return e.IngressInfo.JobId
case *EventMessage_Reprioritizing:
return e.Reprioritizing.JobId
case *EventMessage_Updated:
return e.Updated.JobId
case *EventMessage_Preempted:
return e.Preempted.JobId
}
return ""
}
func JobSetIdFromApiEvent(msg *EventMessage) string {
switch e := msg.Events.(type) {
case *EventMessage_Submitted:
return e.Submitted.JobSetId
case *EventMessage_Queued:
return e.Queued.JobSetId
case *EventMessage_DuplicateFound:
return e.DuplicateFound.JobSetId
case *EventMessage_Leased:
return e.Leased.JobSetId
case *EventMessage_LeaseReturned:
return e.LeaseReturned.JobSetId
case *EventMessage_LeaseExpired:
return e.LeaseExpired.JobSetId
case *EventMessage_Pending:
return e.Pending.JobSetId
case *EventMessage_Running:
return e.Running.JobSetId
case *EventMessage_UnableToSchedule:
return e.UnableToSchedule.JobSetId
case *EventMessage_Failed:
return e.Failed.JobSetId
case *EventMessage_Succeeded:
return e.Succeeded.JobSetId
case *EventMessage_Reprioritized:
return e.Reprioritized.JobSetId
case *EventMessage_Cancelling:
return e.Cancelling.JobSetId
case *EventMessage_Cancelled:
return e.Cancelled.JobSetId
case *EventMessage_Terminated:
return e.Terminated.JobSetId
case *EventMessage_Utilisation:
return e.Utilisation.JobSetId
case *EventMessage_IngressInfo:
return e.IngressInfo.JobSetId
case *EventMessage_Reprioritizing:
return e.Reprioritizing.JobSetId
case *EventMessage_Updated:
return e.Updated.JobSetId
case *EventMessage_Preempted:
return e.Preempted.JobSetId
}
return ""
}