Esempio n. 1
0
// 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(),
		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
}
Esempio n. 2
0
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 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
}
Esempio n. 3
0
func TestLimitedResources(t *testing.T) {
	assert := assert.New(t)

	task, _ := fakePodTask("limited")
	pod := &task.Pod
	pod.Spec = api.PodSpec{
		Containers: []api.Container{{
			Name: "a",
			Resources: api.ResourceRequirements{
				Limits: api.ResourceList{
					api.ResourceCPU:    *resource.NewQuantity(1, resource.DecimalSI),
					api.ResourceMemory: *resource.NewQuantity(256*1024*1024, resource.BinarySI),
				},
			},
		}, {
			Name: "b",
			Resources: api.ResourceRequirements{
				Limits: api.ResourceList{
					api.ResourceCPU:    *resource.NewQuantity(2, resource.DecimalSI),
					api.ResourceMemory: *resource.NewQuantity(512*1024*1024, resource.BinarySI),
				},
			},
		}},
	}

	beforeLimitingCPU := mresource.CPUForPod(pod, mresource.DefaultDefaultContainerCPULimit)
	beforeLimitingMem := mresource.MemForPod(pod, mresource.DefaultDefaultContainerMemLimit)

	unboundedCPU := mresource.LimitPodCPU(pod, mresource.DefaultDefaultContainerCPULimit)
	unboundedMem := mresource.LimitPodMem(pod, mresource.DefaultDefaultContainerMemLimit)

	cpu := mresource.PodCPULimit(pod)
	mem := mresource.PodMemLimit(pod)

	assert.False(unboundedCPU, "CPU resources are defined as limited")
	assert.False(unboundedMem, "mem resources are defined as limited")

	assert.Equal(3.0, float64(cpu))
	assert.Equal(768.0, float64(mem))

	assert.Equal(cpu, beforeLimitingCPU)
	assert.Equal(mem, beforeLimitingMem)
}
Esempio n. 4
0
func (s *SchedulerServer) prepareExecutorInfo(hks hyperkube.Interface) (*mesos.ExecutorInfo, *uid.UID, error) {
	ci := &mesos.CommandInfo{
		Shell: proto.Bool(false),
	}

	if s.ExecutorPath != "" {
		uri, executorCmd := s.serveFrameworkArtifact(s.ExecutorPath)
		ci.Uris = append(ci.Uris, &mesos.CommandInfo_URI{Value: proto.String(uri), Executable: proto.Bool(true)})
		ci.Value = proto.String(fmt.Sprintf("./%s", executorCmd))
	} else if !hks.FindServer(hyperkube.CommandMinion) {
		return nil, nil, fmt.Errorf("either run this scheduler via km or else --executor-path is required")
	} else {
		if strings.Index(s.KMPath, "://") > 0 {
			// URI could point directly to executable, e.g. hdfs:///km
			// or else indirectly, e.g. http://acmestorage/tarball.tgz
			// so we assume that for this case the command will always "km"
			ci.Uris = append(ci.Uris, &mesos.CommandInfo_URI{Value: proto.String(s.KMPath), Executable: proto.Bool(true)})
			ci.Value = proto.String("./km") // TODO(jdef) extract constant
		} else if s.KMPath != "" {
			uri, kmCmd := s.serveFrameworkArtifact(s.KMPath)
			ci.Uris = append(ci.Uris, &mesos.CommandInfo_URI{Value: proto.String(uri), Executable: proto.Bool(true)})
			ci.Value = proto.String(fmt.Sprintf("./%s", kmCmd))
		} else {
			uri, kmCmd := s.serveFrameworkArtifact(s.executable)
			ci.Uris = append(ci.Uris, &mesos.CommandInfo_URI{Value: proto.String(uri), Executable: proto.Bool(true)})
			ci.Value = proto.String(fmt.Sprintf("./%s", kmCmd))
		}
		ci.Arguments = append(ci.Arguments, hyperkube.CommandMinion)

		ci.Arguments = append(ci.Arguments, fmt.Sprintf("--run-proxy=%v", s.RunProxy))
		ci.Arguments = append(ci.Arguments, fmt.Sprintf("--proxy-bindall=%v", s.ProxyBindall))
		ci.Arguments = append(ci.Arguments, fmt.Sprintf("--proxy-logv=%d", s.ProxyLogV))

		ci.Arguments = append(ci.Arguments, fmt.Sprintf("--max-log-size=%v", s.MinionLogMaxSize.String()))
		ci.Arguments = append(ci.Arguments, fmt.Sprintf("--max-log-backups=%d", s.MinionLogMaxBackups))
		ci.Arguments = append(ci.Arguments, fmt.Sprintf("--max-log-age=%d", s.MinionLogMaxAgeInDays))
	}

	//TODO(jdef): provide some way (env var?) for users to customize executor config
	//TODO(jdef): set -address to 127.0.0.1 if `address` is 127.0.0.1
	//TODO(jdef): propagate dockercfg from RootDirectory?

	apiServerArgs := strings.Join(s.APIServerList, ",")
	ci.Arguments = append(ci.Arguments, fmt.Sprintf("--api-servers=%s", apiServerArgs))
	ci.Arguments = append(ci.Arguments, fmt.Sprintf("--v=%d", s.ExecutorLogV)) // this also applies to the minion
	ci.Arguments = append(ci.Arguments, fmt.Sprintf("--allow-privileged=%t", s.AllowPrivileged))
	ci.Arguments = append(ci.Arguments, fmt.Sprintf("--suicide-timeout=%v", s.ExecutorSuicideTimeout))

	if s.ExecutorBindall {
		//TODO(jdef) determine whether hostname-override is really needed for bindall because
		//it conflicts with kubelet node status checks/updates
		//ci.Arguments = append(ci.Arguments, "--hostname-override=0.0.0.0")
		ci.Arguments = append(ci.Arguments, "--address=0.0.0.0")
	}

	ci.Arguments = append(ci.Arguments, fmt.Sprintf("--cgroup-prefix=%v", s.ExecutorCgroupPrefix))
	ci.Arguments = append(ci.Arguments, fmt.Sprintf("--cadvisor-port=%v", s.KubeletCadvisorPort))
	ci.Arguments = append(ci.Arguments, fmt.Sprintf("--sync-frequency=%v", s.KubeletSyncFrequency))

	if s.AuthPath != "" {
		//TODO(jdef) should probably support non-local files, e.g. hdfs:///some/config/file
		uri, basename := s.serveFrameworkArtifact(s.AuthPath)
		ci.Uris = append(ci.Uris, &mesos.CommandInfo_URI{Value: proto.String(uri)})
		ci.Arguments = append(ci.Arguments, fmt.Sprintf("--auth-path=%s", basename))
	}
	appendOptional := func(name string, value string) {
		if value != "" {
			ci.Arguments = append(ci.Arguments, fmt.Sprintf("--%s=%s", name, value))
		}
	}
	if s.ClusterDNS != nil {
		appendOptional("cluster-dns", s.ClusterDNS.String())
	}
	appendOptional("cluster-domain", s.ClusterDomain)
	appendOptional("root-dir", s.KubeletRootDirectory)
	appendOptional("docker-endpoint", s.KubeletDockerEndpoint)
	appendOptional("pod-infra-container-image", s.KubeletPodInfraContainerImage)
	appendOptional("host-network-sources", s.KubeletHostNetworkSources)
	appendOptional("network-plugin", s.KubeletNetworkPluginName)

	log.V(1).Infof("prepared executor command %q with args '%+v'", ci.GetValue(), ci.Arguments)

	// Create mesos scheduler driver.
	execInfo := &mesos.ExecutorInfo{
		Command: ci,
		Name:    proto.String(execcfg.DefaultInfoName),
		Source:  proto.String(execcfg.DefaultInfoSource),
	}

	// Check for staticPods
	var staticPodCPUs, staticPodMem float64
	if s.StaticPodsConfigPath != "" {
		bs, paths, err := archive.ZipDir(s.StaticPodsConfigPath)
		if err != nil {
			return nil, nil, err
		}

		// try to read pod files and sum resources
		// TODO(sttts): don't terminate when static pods are broken, but skip them
		// TODO(sttts): add a directory watch and tell running executors about updates
		for _, podPath := range paths {
			podJson, err := ioutil.ReadFile(podPath)
			if err != nil {
				return nil, nil, fmt.Errorf("error reading static pod spec: %v", err)
			}

			pod := api.Pod{}
			err = json.Unmarshal(podJson, &pod)
			if err != nil {
				return nil, nil, fmt.Errorf("error parsing static pod spec at %v: %v", podPath, err)
			}

			// TODO(sttts): allow unlimited static pods as well and patch in the default resource limits
			unlimitedCPU := mresource.LimitPodCPU(&pod, s.DefaultContainerCPULimit)
			unlimitedMem := mresource.LimitPodMem(&pod, s.DefaultContainerMemLimit)
			if unlimitedCPU {
				return nil, nil, fmt.Errorf("found static pod without limit on cpu resources: %v", podPath)
			}
			if unlimitedMem {
				return nil, nil, fmt.Errorf("found static pod without limit on memory resources: %v", podPath)
			}

			cpu := mresource.PodCPULimit(&pod)
			mem := mresource.PodMemLimit(&pod)
			log.V(2).Infof("reserving %.2f cpu shares and %.2f MB of memory to static pod %s", cpu, mem, pod.Name)

			staticPodCPUs += float64(cpu)
			staticPodMem += float64(mem)
		}

		// pass zipped pod spec to executor
		execInfo.Data = bs
	}

	execInfo.Resources = []*mesos.Resource{
		mutil.NewScalarResource("cpus", float64(executorCPUs)+staticPodCPUs),
		mutil.NewScalarResource("mem", float64(executorMem)+staticPodMem),
	}

	// calculate ExecutorInfo hash to be used for validating compatibility
	// of ExecutorInfo's generated by other HA schedulers.
	ehash := hashExecutorInfo(execInfo)
	eid := uid.New(ehash, execcfg.DefaultInfoID)
	execInfo.ExecutorId = &mesos.ExecutorID{Value: proto.String(eid.String())}

	return execInfo, eid, nil
}
Esempio n. 5
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// Call ScheduleFunc and subtract some resources, returning the name of the machine the task is scheduled on
func (k *kubeScheduler) doSchedule(task *podtask.T, err error) (string, error) {
	var offer offers.Perishable
	if task.HasAcceptedOffer() {
		// verify that the offer is still on the table
		offerId := task.GetOfferId()
		if offer, ok := k.api.offers().Get(offerId); ok && !offer.HasExpired() {
			// skip tasks that have already have assigned offers
			offer = task.Offer
		} else {
			task.Offer.Release()
			task.Reset()
			if err = k.api.tasks().Update(task); err != nil {
				return "", err
			}
		}
	}
	if err == nil && offer == nil {
		offer, err = k.api.algorithm()(k.api.offers(), k.api, task)
	}
	if err != nil {
		return "", err
	}
	details := offer.Details()
	if details == nil {
		return "", fmt.Errorf("offer already invalid/expired for task %v", task.ID)
	}
	slaveId := details.GetSlaveId().GetValue()
	if slave, ok := k.api.slaveFor(slaveId); !ok {
		// not much sense in Release()ing the offer here since its owner died
		offer.Release()
		k.api.offers().Invalidate(details.Id.GetValue())
		return "", fmt.Errorf("Slave disappeared (%v) while scheduling task %v", slaveId, task.ID)
	} else {
		if task.Offer != nil && task.Offer != offer {
			return "", fmt.Errorf("task.offer assignment must be idempotent, task %+v: offer %+v", task, offer)
		}

		// write resource limits into the pod spec which is transfered to the executor. From here
		// on we can expect that the pod spec of a task has proper limits for CPU and memory.
		// TODO(sttts): For a later separation of the kubelet and the executor also patch the pod on the apiserver
		if unlimitedCPU := mresource.LimitPodCPU(&task.Pod, k.defaultContainerCPULimit); unlimitedCPU {
			log.Warningf("Pod %s/%s without cpu limits is admitted %.2f cpu shares", task.Pod.Namespace, task.Pod.Name, mresource.PodCPULimit(&task.Pod))
		}
		if unlimitedMem := mresource.LimitPodMem(&task.Pod, k.defaultContainerMemLimit); unlimitedMem {
			log.Warningf("Pod %s/%s without memory limits is admitted %.2f MB", task.Pod.Namespace, task.Pod.Name, mresource.PodMemLimit(&task.Pod))
		}

		task.Offer = offer
		task.FillFromDetails(details)

		if err := k.api.tasks().Update(task); err != nil {
			offer.Release()
			return "", err
		}
		return slave.HostName, nil
	}
}