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virtual-kubelet/vendor/github.com/vmware/govmomi/performance/manager.go
Loc Nguyen 513cebe7b7 VMware vSphere Integrated Containers provider (#206) 
* Add Virtual Kubelet provider for VIC

Initial virtual kubelet provider for VMware VIC.  This provider currently
handles creating and starting of a pod VM via the VIC portlayer and persona
server.  Image store handling via the VIC persona server.  This provider
currently requires the feature/wolfpack branch of VIC.

* Added pod stop and delete.  Also added node capacity.

Added the ability to stop and delete pod VMs via VIC.  Also retrieve
node capacity information from the VCH.

* Cleanup and readme file

Some file clean up and added a Readme.md markdown file for the VIC
provider.

* Cleaned up errors, added function comments, moved operation code

1. Cleaned up error handling.  Set standard for creating errors.
2. Added method prototype comments for all interface functions.
3. Moved PodCreator, PodStarter, PodStopper, and PodDeleter to a new folder.

* Add mocking code and unit tests for podcache, podcreator, and podstarter

Used the unit test framework used in VIC to handle assertions in the provider's
unit test.  Mocking code generated using OSS project mockery, which is compatible
with the testify assertion framework.

* Vendored packages for the VIC provider

Requires feature/wolfpack branch of VIC and a few specific commit sha of
projects used within VIC.

* Implementation of POD Stopper and Deleter unit tests (#4)

* Updated files for initial PR
2018-06-04 15:41:32 -07:00

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/*
Copyright (c) 2017 VMware, Inc. 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 performance
import (
"context"
"fmt"
"sort"
"strconv"
"strings"
"sync"
"time"
"github.com/vmware/govmomi/object"
"github.com/vmware/govmomi/vim25"
"github.com/vmware/govmomi/vim25/methods"
"github.com/vmware/govmomi/vim25/mo"
"github.com/vmware/govmomi/vim25/types"
)
// Manager wraps mo.PerformanceManager.
type Manager struct {
object.Common
Sort bool
pm struct {
sync.Mutex
*mo.PerformanceManager
}
providerSummary struct {
sync.Mutex
m map[string]*types.PerfProviderSummary
}
infoByName struct {
sync.Mutex
m map[string]*types.PerfCounterInfo
}
infoByKey struct {
sync.Mutex
m map[int32]*types.PerfCounterInfo
}
}
// NewManager creates a new Manager instance.
func NewManager(client *vim25.Client) *Manager {
m := Manager{
Common: object.NewCommon(client, *client.ServiceContent.PerfManager),
}
m.pm.PerformanceManager = new(mo.PerformanceManager)
return &m
}
// IntervalList wraps []types.PerfInterval.
type IntervalList []types.PerfInterval
// Enabled returns a map with Level as the key and enabled PerfInterval.Name(s) as the value.
func (l IntervalList) Enabled() map[int32][]string {
enabled := make(map[int32][]string)
for level := int32(0); level <= 4; level++ {
var names []string
for _, interval := range l {
if interval.Enabled && interval.Level >= level {
names = append(names, interval.Name)
}
}
enabled[level] = names
}
return enabled
}
// HistoricalInterval gets the PerformanceManager.HistoricalInterval property and wraps as an IntervalList.
func (m *Manager) HistoricalInterval(ctx context.Context) (IntervalList, error) {
var pm mo.PerformanceManager
err := m.Properties(ctx, m.Reference(), []string{"historicalInterval"}, &pm)
if err != nil {
return nil, err
}
return IntervalList(pm.HistoricalInterval), nil
}
// CounterInfo gets the PerformanceManager.PerfCounter property.
// The property value is only collected once, subsequent calls return the cached value.
func (m *Manager) CounterInfo(ctx context.Context) ([]types.PerfCounterInfo, error) {
m.pm.Lock()
defer m.pm.Unlock()
if len(m.pm.PerfCounter) == 0 {
err := m.Properties(ctx, m.Reference(), []string{"perfCounter"}, m.pm.PerformanceManager)
if err != nil {
return nil, err
}
}
return m.pm.PerfCounter, nil
}
// CounterInfoByName converts the PerformanceManager.PerfCounter property to a map,
// where key is types.PerfCounterInfo.Name().
func (m *Manager) CounterInfoByName(ctx context.Context) (map[string]*types.PerfCounterInfo, error) {
m.infoByName.Lock()
defer m.infoByName.Unlock()
if m.infoByName.m != nil {
return m.infoByName.m, nil
}
info, err := m.CounterInfo(ctx)
if err != nil {
return nil, err
}
m.infoByName.m = make(map[string]*types.PerfCounterInfo)
for i := range info {
c := &info[i]
m.infoByName.m[c.Name()] = c
}
return m.infoByName.m, nil
}
// CounterInfoByKey converts the PerformanceManager.PerfCounter property to a map,
// where key is types.PerfCounterInfo.Key.
func (m *Manager) CounterInfoByKey(ctx context.Context) (map[int32]*types.PerfCounterInfo, error) {
m.infoByKey.Lock()
defer m.infoByKey.Unlock()
if m.infoByKey.m != nil {
return m.infoByKey.m, nil
}
info, err := m.CounterInfo(ctx)
if err != nil {
return nil, err
}
m.infoByKey.m = make(map[int32]*types.PerfCounterInfo)
for i := range info {
c := &info[i]
m.infoByKey.m[c.Key] = c
}
return m.infoByKey.m, nil
}
// ProviderSummary wraps the QueryPerfProviderSummary method, caching the value based on entity.Type.
func (m *Manager) ProviderSummary(ctx context.Context, entity types.ManagedObjectReference) (*types.PerfProviderSummary, error) {
m.providerSummary.Lock()
defer m.providerSummary.Unlock()
if m.providerSummary.m == nil {
m.providerSummary.m = make(map[string]*types.PerfProviderSummary)
}
s, ok := m.providerSummary.m[entity.Type]
if ok {
return s, nil
}
req := types.QueryPerfProviderSummary{
This: m.Reference(),
Entity: entity,
}
res, err := methods.QueryPerfProviderSummary(ctx, m.Client(), &req)
if err != nil {
return nil, err
}
s = &res.Returnval
m.providerSummary.m[entity.Type] = s
return s, nil
}
type groupPerfCounterInfo struct {
info map[int32]*types.PerfCounterInfo
ids []types.PerfMetricId
}
func (d groupPerfCounterInfo) Len() int {
return len(d.ids)
}
func (d groupPerfCounterInfo) Less(i, j int) bool {
ci := d.ids[i].CounterId
cj := d.ids[j].CounterId
gi := d.info[ci].GroupInfo.GetElementDescription()
gj := d.info[cj].GroupInfo.GetElementDescription()
return gi.Key < gj.Key
}
func (d groupPerfCounterInfo) Swap(i, j int) {
d.ids[i], d.ids[j] = d.ids[j], d.ids[i]
}
// MetricList wraps []types.PerfMetricId
type MetricList []types.PerfMetricId
// ByKey converts MetricList to map, where key is types.PerfMetricId.CounterId / types.PerfCounterInfo.Key
func (l MetricList) ByKey() map[int32][]*types.PerfMetricId {
ids := make(map[int32][]*types.PerfMetricId, len(l))
for i := range l {
id := &l[i]
ids[id.CounterId] = append(ids[id.CounterId], id)
}
return ids
}
// AvailableMetric wraps the QueryAvailablePerfMetric method.
// The MetricList is sorted by PerfCounterInfo.GroupInfo.Key if Manager.Sort == true.
func (m *Manager) AvailableMetric(ctx context.Context, entity types.ManagedObjectReference, interval int32) (MetricList, error) {
req := types.QueryAvailablePerfMetric{
This: m.Reference(),
Entity: entity.Reference(),
IntervalId: interval,
}
res, err := methods.QueryAvailablePerfMetric(ctx, m.Client(), &req)
if err != nil {
return nil, err
}
if m.Sort {
info, err := m.CounterInfoByKey(ctx)
if err != nil {
return nil, err
}
sort.Sort(groupPerfCounterInfo{info, res.Returnval})
}
return MetricList(res.Returnval), nil
}
// Query wraps the QueryPerf method.
func (m *Manager) Query(ctx context.Context, spec []types.PerfQuerySpec) ([]types.BasePerfEntityMetricBase, error) {
req := types.QueryPerf{
This: m.Reference(),
QuerySpec: spec,
}
res, err := methods.QueryPerf(ctx, m.Client(), &req)
if err != nil {
return nil, err
}
return res.Returnval, nil
}
// SampleByName uses the spec param as a template, constructing a []types.PerfQuerySpec for the given metrics and entities
// and invoking the Query method.
// The spec template can specify instances using the MetricId.Instance field, by default all instances are collected.
// The spec template MaxSample defaults to 1.
// If the spec template IntervalId is a historical interval and StartTime is not specified,
// the StartTime is set to the current time - (IntervalId * MaxSample).
func (m *Manager) SampleByName(ctx context.Context, spec types.PerfQuerySpec, metrics []string, entity []types.ManagedObjectReference) ([]types.BasePerfEntityMetricBase, error) {
info, err := m.CounterInfoByName(ctx)
if err != nil {
return nil, err
}
var ids []types.PerfMetricId
instances := spec.MetricId
if len(instances) == 0 {
// Default to all instances
instances = []types.PerfMetricId{{Instance: "*"}}
}
for _, name := range metrics {
counter, ok := info[name]
if !ok {
return nil, fmt.Errorf("counter %q not found", name)
}
for _, i := range instances {
ids = append(ids, types.PerfMetricId{CounterId: counter.Key, Instance: i.Instance})
}
}
spec.MetricId = ids
if spec.MaxSample == 0 {
spec.MaxSample = 1
}
if spec.IntervalId >= 60 && spec.StartTime == nil {
// Need a StartTime to make use of history
now, err := methods.GetCurrentTime(ctx, m.Client())
if err != nil {
return nil, err
}
// Go back in time
x := spec.IntervalId * -1 * spec.MaxSample
t := now.Add(time.Duration(x) * time.Second)
spec.StartTime = &t
}
var query []types.PerfQuerySpec
for _, e := range entity {
spec.Entity = e.Reference()
query = append(query, spec)
}
return m.Query(ctx, query)
}
// MetricSeries contains the same data as types.PerfMetricIntSeries, but with the CounterId converted to Name.
type MetricSeries struct {
Name string
unit string
Instance string
Value []int64
}
func (s *MetricSeries) Format(val int64) string {
switch types.PerformanceManagerUnit(s.unit) {
case types.PerformanceManagerUnitPercent:
return strconv.FormatFloat(float64(val)/100.0, 'f', 2, 64)
default:
return strconv.FormatInt(val, 10)
}
}
// ValueCSV converts the Value field to a CSV string
func (s *MetricSeries) ValueCSV() string {
vals := make([]string, len(s.Value))
for i := range s.Value {
vals[i] = s.Format(s.Value[i])
}
return strings.Join(vals, ",")
}
// EntityMetric contains the same data as types.PerfEntityMetric, but with MetricSeries type for the Value field.
type EntityMetric struct {
Entity types.ManagedObjectReference
SampleInfo []types.PerfSampleInfo
Value []MetricSeries
}
// SampleInfoCSV converts the SampleInfo field to a CSV string
func (m *EntityMetric) SampleInfoCSV() string {
vals := make([]string, len(m.SampleInfo)*2)
i := 0
for _, s := range m.SampleInfo {
vals[i] = s.Timestamp.Format(time.RFC3339)
i++
vals[i] = strconv.Itoa(int(s.Interval))
i++
}
return strings.Join(vals, ",")
}
// ToMetricSeries converts []BasePerfEntityMetricBase to []EntityMetric
func (m *Manager) ToMetricSeries(ctx context.Context, series []types.BasePerfEntityMetricBase) ([]EntityMetric, error) {
counters, err := m.CounterInfoByKey(ctx)
if err != nil {
return nil, err
}
var result []EntityMetric
for i := range series {
var values []MetricSeries
s, ok := series[i].(*types.PerfEntityMetric)
if !ok {
panic(fmt.Errorf("expected type %T, got: %T", s, series[i]))
}
for j := range s.Value {
v := s.Value[j].(*types.PerfMetricIntSeries)
values = append(values, MetricSeries{
Name: counters[v.Id.CounterId].Name(),
unit: counters[v.Id.CounterId].UnitInfo.GetElementDescription().Key,
Instance: v.Id.Instance,
Value: v.Value,
})
}
result = append(result, EntityMetric{
Entity: s.Entity,
SampleInfo: s.SampleInfo,
Value: values,
})
}
return result, nil
}
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