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volume_stat_calculator.go
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/
volume_stat_calculator.go
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/*
Copyright 2016 The Kubernetes Authors.
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 stats
import (
"sync"
"sync/atomic"
"time"
"k8s.io/api/core/v1"
"k8s.io/apimachinery/pkg/util/wait"
stats "k8s.io/kubernetes/pkg/kubelet/apis/stats/v1alpha1"
"k8s.io/kubernetes/pkg/kubelet/metrics"
"k8s.io/kubernetes/pkg/kubelet/util/format"
"k8s.io/kubernetes/pkg/volume"
"github.com/golang/glog"
)
// volumeStatCalculator calculates volume metrics for a given pod periodically in the background and caches the result
type volumeStatCalculator struct {
statsProvider StatsProvider
jitterPeriod time.Duration
pod *v1.Pod
stopChannel chan struct{}
startO sync.Once
stopO sync.Once
latest atomic.Value
}
// PodVolumeStats encapsulates all VolumeStats for a pod
type PodVolumeStats struct {
Volumes []stats.VolumeStats
}
// newVolumeStatCalculator creates a new VolumeStatCalculator
func newVolumeStatCalculator(statsProvider StatsProvider, jitterPeriod time.Duration, pod *v1.Pod) *volumeStatCalculator {
return &volumeStatCalculator{
statsProvider: statsProvider,
jitterPeriod: jitterPeriod,
pod: pod,
stopChannel: make(chan struct{}),
}
}
// StartOnce starts pod volume calc that will occur periodically in the background until s.StopOnce is called
func (s *volumeStatCalculator) StartOnce() *volumeStatCalculator {
s.startO.Do(func() {
go wait.JitterUntil(func() {
s.calcAndStoreStats()
}, s.jitterPeriod, 1.0, true, s.stopChannel)
})
return s
}
// StopOnce stops background pod volume calculation. Will not stop a currently executing calculations until
// they complete their current iteration.
func (s *volumeStatCalculator) StopOnce() *volumeStatCalculator {
s.stopO.Do(func() {
close(s.stopChannel)
})
return s
}
// getLatest returns the most recent PodVolumeStats from the cache
func (s *volumeStatCalculator) GetLatest() (PodVolumeStats, bool) {
if result := s.latest.Load(); result == nil {
return PodVolumeStats{}, false
} else {
return result.(PodVolumeStats), true
}
}
// calcAndStoreStats calculates PodVolumeStats for a given pod and writes the result to the s.latest cache.
// If the pod references PVCs, the prometheus metrics for those are updated with the result.
func (s *volumeStatCalculator) calcAndStoreStats() {
// Find all Volumes for the Pod
volumes, found := s.statsProvider.ListVolumesForPod(s.pod.UID)
if !found {
return
}
// Get volume specs for the pod - key'd by volume name
volumesSpec := make(map[string]v1.Volume)
for _, v := range s.pod.Spec.Volumes {
volumesSpec[v.Name] = v
}
// Call GetMetrics on each Volume and copy the result to a new VolumeStats.FsStats
fsStats := make([]stats.VolumeStats, 0, len(volumes))
for name, v := range volumes {
metric, err := v.GetMetrics()
if err != nil {
// Expected for Volumes that don't support Metrics
if !volume.IsNotSupported(err) {
glog.V(4).Infof("Failed to calculate volume metrics for pod %s volume %s: %+v", format.Pod(s.pod), name, err)
}
continue
}
// Lookup the volume spec and add a 'PVCReference' for volumes that reference a PVC
volSpec := volumesSpec[name]
if pvcSource := volSpec.PersistentVolumeClaim; pvcSource != nil {
pvcRef := stats.PVCReference{
Name: pvcSource.ClaimName,
Namespace: s.pod.GetNamespace(),
}
fsStats = append(fsStats, s.parsePodVolumeStats(name, &pvcRef, metric))
// Set the PVC's prometheus metrics
s.setPVCMetrics(&pvcRef, metric)
} else {
fsStats = append(fsStats, s.parsePodVolumeStats(name, nil, metric))
}
}
// Store the new stats
s.latest.Store(PodVolumeStats{Volumes: fsStats})
}
// parsePodVolumeStats converts (internal) volume.Metrics to (external) stats.VolumeStats structures
func (s *volumeStatCalculator) parsePodVolumeStats(podName string, pvcRef *stats.PVCReference, metric *volume.Metrics) stats.VolumeStats {
available := uint64(metric.Available.Value())
capacity := uint64(metric.Capacity.Value())
used := uint64(metric.Used.Value())
inodes := uint64(metric.Inodes.Value())
inodesFree := uint64(metric.InodesFree.Value())
inodesUsed := uint64(metric.InodesUsed.Value())
return stats.VolumeStats{
Name: podName,
PVCRef: pvcRef,
FsStats: stats.FsStats{Time: metric.Time, AvailableBytes: &available, CapacityBytes: &capacity,
UsedBytes: &used, Inodes: &inodes, InodesFree: &inodesFree, InodesUsed: &inodesUsed},
}
}
// setPVCMetrics sets the given PVC's prometheus metrics to match the given volume.Metrics
func (s *volumeStatCalculator) setPVCMetrics(pvcRef *stats.PVCReference, metric *volume.Metrics) {
metrics.VolumeStatsAvailableBytes.WithLabelValues(pvcRef.Namespace, pvcRef.Name).Set(float64(metric.Available.Value()))
metrics.VolumeStatsCapacityBytes.WithLabelValues(pvcRef.Namespace, pvcRef.Name).Set(float64(metric.Capacity.Value()))
metrics.VolumeStatsUsedBytes.WithLabelValues(pvcRef.Namespace, pvcRef.Name).Set(float64(metric.Used.Value()))
metrics.VolumeStatsInodes.WithLabelValues(pvcRef.Namespace, pvcRef.Name).Set(float64(metric.Inodes.Value()))
metrics.VolumeStatsInodesFree.WithLabelValues(pvcRef.Namespace, pvcRef.Name).Set(float64(metric.InodesFree.Value()))
metrics.VolumeStatsInodesUsed.WithLabelValues(pvcRef.Namespace, pvcRef.Name).Set(float64(metric.InodesUsed.Value()))
}