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pod_task.go
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pod_task.go
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/*
Copyright 2015 The Kubernetes Authors All rights reserved.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
package podtask
import (
"fmt"
"strings"
"time"
"github.com/gogo/protobuf/proto"
"github.com/pborman/uuid"
"k8s.io/kubernetes/contrib/mesos/pkg/offers"
annotation "k8s.io/kubernetes/contrib/mesos/pkg/scheduler/meta"
"k8s.io/kubernetes/contrib/mesos/pkg/scheduler/metrics"
mresource "k8s.io/kubernetes/contrib/mesos/pkg/scheduler/resource"
"k8s.io/kubernetes/pkg/api"
"k8s.io/kubernetes/pkg/labels"
log "github.com/golang/glog"
mesos "github.com/mesos/mesos-go/mesosproto"
mutil "github.com/mesos/mesos-go/mesosutil"
)
type StateType int
const (
StatePending StateType = iota
StateRunning
StateFinished
StateUnknown
)
type FlagType string
const (
Launched = FlagType("launched")
Bound = FlagType("bound")
Deleted = FlagType("deleted")
)
// A struct that describes a pod task.
type T struct {
ID string
Pod api.Pod
Spec Spec
Offer offers.Perishable // thread-safe
State StateType
Flags map[FlagType]struct{}
CreateTime time.Time
UpdatedTime time.Time // time of the most recent StatusUpdate we've seen from the mesos master
podStatus api.PodStatus
executor *mesos.ExecutorInfo // readonly
podKey string
launchTime time.Time
bindTime time.Time
mapper HostPortMappingType
}
type Spec struct {
SlaveID string
AssignedSlave string
CPU mresource.CPUShares
Memory mresource.MegaBytes
PortMap []HostPortMapping
Ports []uint64
Data []byte
}
// mostly-clone this pod task. the clone will actually share the some fields:
// - executor // OK because it's read only
// - Offer // OK because it's guarantees safe concurrent access
func (t *T) Clone() *T {
if t == nil {
return nil
}
// shallow-copy
clone := *t
// deep copy
(&t.Spec).copyTo(&clone.Spec)
clone.Flags = map[FlagType]struct{}{}
for k := range t.Flags {
clone.Flags[k] = struct{}{}
}
return &clone
}
func (old *Spec) copyTo(new *Spec) {
if len(old.PortMap) > 0 {
new.PortMap = append(([]HostPortMapping)(nil), old.PortMap...)
}
if len(old.Ports) > 0 {
new.Ports = append(([]uint64)(nil), old.Ports...)
}
if len(old.Data) > 0 {
new.Data = append(([]byte)(nil), old.Data...)
}
}
func (t *T) HasAcceptedOffer() bool {
return t.Spec.SlaveID != ""
}
func (t *T) GetOfferId() string {
if t.Offer == nil {
return ""
}
return t.Offer.Details().Id.GetValue()
}
func generateTaskName(pod *api.Pod) string {
ns := pod.Namespace
if ns == "" {
ns = api.NamespaceDefault
}
return fmt.Sprintf("%s.%s.pods", pod.Name, ns)
}
func (t *T) BuildTaskInfo() *mesos.TaskInfo {
info := &mesos.TaskInfo{
Name: proto.String(generateTaskName(&t.Pod)),
TaskId: mutil.NewTaskID(t.ID),
SlaveId: mutil.NewSlaveID(t.Spec.SlaveID),
Executor: t.executor,
Data: t.Spec.Data,
Resources: []*mesos.Resource{
mutil.NewScalarResource("cpus", float64(t.Spec.CPU)),
mutil.NewScalarResource("mem", float64(t.Spec.Memory)),
},
}
if portsResource := rangeResource("ports", t.Spec.Ports); portsResource != nil {
info.Resources = append(info.Resources, portsResource)
}
return info
}
// Fill the Spec in the T, should be called during k8s scheduling, before binding.
func (t *T) FillFromDetails(details *mesos.Offer) error {
if details == nil {
//programming error
panic("offer details are nil")
}
// compute used resources
cpu := mresource.PodCPULimit(&t.Pod)
mem := mresource.PodMemLimit(&t.Pod)
log.V(3).Infof("Recording offer(s) %s/%s against pod %v: cpu: %.2f, mem: %.2f MB", details.Id, t.Pod.Namespace, t.Pod.Name, cpu, mem)
t.Spec = Spec{
SlaveID: details.GetSlaveId().GetValue(),
AssignedSlave: details.GetHostname(),
CPU: cpu,
Memory: mem,
}
// fill in port mapping
if mapping, err := t.mapper.Generate(t, details); err != nil {
t.Reset()
return err
} else {
ports := []uint64{}
for _, entry := range mapping {
ports = append(ports, entry.OfferPort)
}
t.Spec.PortMap = mapping
t.Spec.Ports = ports
}
// hostname needs of the executor needs to match that of the offer, otherwise
// the kubelet node status checker/updater is very unhappy
const HOSTNAME_OVERRIDE_FLAG = "--hostname-override="
hostname := details.GetHostname() // required field, non-empty
hostnameOverride := HOSTNAME_OVERRIDE_FLAG + hostname
argv := t.executor.Command.Arguments
overwrite := false
for i, arg := range argv {
if strings.HasPrefix(arg, HOSTNAME_OVERRIDE_FLAG) {
overwrite = true
argv[i] = hostnameOverride
break
}
}
if !overwrite {
t.executor.Command.Arguments = append(argv, hostnameOverride)
}
return nil
}
// Clear offer-related details from the task, should be called if/when an offer
// has already been assigned to a task but for some reason is no longer valid.
func (t *T) Reset() {
log.V(3).Infof("Clearing offer(s) from pod %v", t.Pod.Name)
t.Offer = nil
t.Spec = Spec{}
}
func (t *T) AcceptOffer(offer *mesos.Offer) bool {
if offer == nil {
return false
}
// if the user has specified a target host, make sure this offer is for that host
if t.Pod.Spec.NodeName != "" && offer.GetHostname() != t.Pod.Spec.NodeName {
return false
}
// check the NodeSelector
if len(t.Pod.Spec.NodeSelector) > 0 {
slaveLabels := map[string]string{}
for _, a := range offer.Attributes {
if a.GetType() == mesos.Value_TEXT {
slaveLabels[a.GetName()] = a.GetText().GetValue()
}
}
selector := labels.SelectorFromSet(t.Pod.Spec.NodeSelector)
if !selector.Matches(labels.Set(slaveLabels)) {
return false
}
}
// check ports
if _, err := t.mapper.Generate(t, offer); err != nil {
log.V(3).Info(err)
return false
}
// find offered cpu and mem
var (
offeredCpus mresource.CPUShares
offeredMem mresource.MegaBytes
)
for _, resource := range offer.Resources {
if resource.GetName() == "cpus" {
offeredCpus = mresource.CPUShares(*resource.GetScalar().Value)
}
if resource.GetName() == "mem" {
offeredMem = mresource.MegaBytes(*resource.GetScalar().Value)
}
}
// calculate cpu and mem sum over all containers of the pod
// TODO (@sttts): also support pod.spec.resources.limit.request
// TODO (@sttts): take into account the executor resources
cpu := mresource.PodCPULimit(&t.Pod)
mem := mresource.PodMemLimit(&t.Pod)
log.V(4).Infof("trying to match offer with pod %v/%v: cpus: %.2f mem: %.2f MB", t.Pod.Namespace, t.Pod.Name, cpu, mem)
if (cpu > offeredCpus) || (mem > offeredMem) {
log.V(3).Infof("not enough resources for pod %v/%v: cpus: %.2f mem: %.2f MB", t.Pod.Namespace, t.Pod.Name, cpu, mem)
return false
}
return true
}
func (t *T) Set(f FlagType) {
t.Flags[f] = struct{}{}
if Launched == f {
t.launchTime = time.Now()
queueWaitTime := t.launchTime.Sub(t.CreateTime)
metrics.QueueWaitTime.Observe(metrics.InMicroseconds(queueWaitTime))
}
}
func (t *T) Has(f FlagType) (exists bool) {
_, exists = t.Flags[f]
return
}
func New(ctx api.Context, id string, pod api.Pod, executor *mesos.ExecutorInfo) (*T, error) {
if executor == nil {
return nil, fmt.Errorf("illegal argument: executor was nil")
}
key, err := MakePodKey(ctx, pod.Name)
if err != nil {
return nil, err
}
if id == "" {
id = "pod." + uuid.NewUUID().String()
}
task := &T{
ID: id,
Pod: pod,
State: StatePending,
podKey: key,
mapper: MappingTypeForPod(&pod),
Flags: make(map[FlagType]struct{}),
executor: proto.Clone(executor).(*mesos.ExecutorInfo),
}
task.CreateTime = time.Now()
return task, nil
}
func (t *T) SaveRecoveryInfo(dict map[string]string) {
dict[annotation.TaskIdKey] = t.ID
dict[annotation.SlaveIdKey] = t.Spec.SlaveID
dict[annotation.OfferIdKey] = t.Offer.Details().Id.GetValue()
dict[annotation.ExecutorIdKey] = t.executor.ExecutorId.GetValue()
}
// reconstruct a task from metadata stashed in a pod entry. there are limited pod states that
// support reconstruction. if we expect to be able to reconstruct state but encounter errors
// in the process then those errors are returned. if the pod is in a seemingly valid state but
// otherwise does not support task reconstruction return false. if we're able to reconstruct
// state then return a reconstructed task and true.
//
// at this time task reconstruction is only supported for pods that have been annotated with
// binding metadata, which implies that they've previously been associated with a task and
// that mesos knows about it.
//
// assumes that the pod data comes from the k8s registry and reflects the desired state.
//
func RecoverFrom(pod api.Pod) (*T, bool, error) {
// we only expect annotations if pod has been bound, which implies that it has already
// been scheduled and launched
if pod.Spec.NodeName == "" && len(pod.Annotations) == 0 {
log.V(1).Infof("skipping recovery for unbound pod %v/%v", pod.Namespace, pod.Name)
return nil, false, nil
}
// only process pods that are not in a terminal state
switch pod.Status.Phase {
case api.PodPending, api.PodRunning, api.PodUnknown: // continue
default:
log.V(1).Infof("skipping recovery for terminal pod %v/%v", pod.Namespace, pod.Name)
return nil, false, nil
}
ctx := api.WithNamespace(api.NewDefaultContext(), pod.Namespace)
key, err := MakePodKey(ctx, pod.Name)
if err != nil {
return nil, false, err
}
//TODO(jdef) recover ports (and other resource requirements?) from the pod spec as well
now := time.Now()
t := &T{
Pod: pod,
CreateTime: now,
podKey: key,
State: StatePending, // possibly running? mesos will tell us during reconciliation
Flags: make(map[FlagType]struct{}),
mapper: MappingTypeForPod(&pod),
launchTime: now,
bindTime: now,
}
var (
offerId string
)
for _, k := range []string{
annotation.BindingHostKey,
annotation.TaskIdKey,
annotation.SlaveIdKey,
annotation.OfferIdKey,
annotation.ExecutorIdKey,
} {
v, found := pod.Annotations[k]
if !found {
return nil, false, fmt.Errorf("incomplete metadata: missing value for pod annotation: %v", k)
}
switch k {
case annotation.BindingHostKey:
t.Spec.AssignedSlave = v
case annotation.SlaveIdKey:
t.Spec.SlaveID = v
case annotation.OfferIdKey:
offerId = v
case annotation.TaskIdKey:
t.ID = v
case annotation.ExecutorIdKey:
// this is nowhere near sufficient to re-launch a task, but we really just
// want this for tracking
t.executor = &mesos.ExecutorInfo{ExecutorId: mutil.NewExecutorID(v)}
}
}
t.Offer = offers.Expired(offerId, t.Spec.AssignedSlave, 0)
t.Flags[Launched] = struct{}{}
t.Flags[Bound] = struct{}{}
return t, true, nil
}