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results.go
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results.go
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/*
Copyright 2018 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 ipamperf
import (
"bytes"
"fmt"
"sort"
"sync"
"time"
"github.com/golang/glog"
"k8s.io/api/core/v1"
"k8s.io/client-go/informers"
clientset "k8s.io/client-go/kubernetes"
"k8s.io/client-go/tools/cache"
"k8s.io/kubernetes/pkg/cloudprovider"
"k8s.io/kubernetes/pkg/controller/nodeipam/ipam"
nodeutil "k8s.io/kubernetes/pkg/controller/util/node"
)
// Config represents the test configuration that is being run
type Config struct {
CreateQPS int // rate at which nodes are created
KubeQPS int // rate for communication with kubernetes API
CloudQPS int // rate for communication with cloud endpoint
NumNodes int // number of nodes to created and monitored
AllocatorType ipam.CIDRAllocatorType // type of allocator to run
Cloud cloudprovider.Interface // cloud provider
}
type nodeTime struct {
added time.Time // observed time for when node was added
allocated time.Time // observed time for when node was assigned podCIDR
podCIDR string // the allocated podCIDR range
}
// Observer represents the handle to test observer that watches for node changes
// and tracks behavior
type Observer struct {
numAdded int // number of nodes observed added
numAllocated int // number of nodes observed allocated podCIDR
timing map[string]*nodeTime // per node timing
numNodes int // the number of nodes to expect
stopChan chan struct{} // for the shared informer
wg sync.WaitGroup
clientSet *clientset.Clientset
}
// JSONDuration is an alias of time.Duration to support custom Marshal code
type JSONDuration time.Duration
// NodeDuration represents the CIDR allocation time for each node
type NodeDuration struct {
Name string // node name
PodCIDR string // the podCIDR that was assigned to the node
Duration JSONDuration // how long it took to assign podCIDR
}
// Results represents the observed test results.
type Results struct {
Name string // name for the test
Config *Config // handle to the test config
Succeeded bool // whether all nodes were assigned podCIDR
MaxAllocTime JSONDuration // the maximum time take for assignment per node
TotalAllocTime JSONDuration // duration between first addition and last assignment
NodeAllocTime []NodeDuration // assignment time by node name
}
// NewObserver creates a new observer given a handle to the Clientset
func NewObserver(clientSet *clientset.Clientset, numNodes int) *Observer {
o := &Observer{
timing: map[string]*nodeTime{},
numNodes: numNodes,
clientSet: clientSet,
stopChan: make(chan struct{}),
}
return o
}
// StartObserving starts an asynchronous loop to monitor for node changes.
// Call Results() to get the test results after starting observer.
func (o *Observer) StartObserving() error {
o.monitor()
glog.Infof("Test observer started")
return nil
}
// Results returns the test results. It waits for the observer to finish
// and returns the computed results of the observations.
func (o *Observer) Results(name string, config *Config) *Results {
var (
firstAdd time.Time // earliest time any node was added (first node add)
lastAssignment time.Time // latest time any node was assignged CIDR (last node assignment)
)
o.wg.Wait()
close(o.stopChan) // shutdown the shared informer
results := &Results{
Name: name,
Config: config,
Succeeded: o.numAdded == o.numNodes && o.numAllocated == o.numNodes,
MaxAllocTime: 0,
NodeAllocTime: []NodeDuration{},
}
for name, nTime := range o.timing {
addFound := !nTime.added.IsZero()
if addFound && (firstAdd.IsZero() || nTime.added.Before(firstAdd)) {
firstAdd = nTime.added
}
cidrFound := !nTime.allocated.IsZero()
if cidrFound && nTime.allocated.After(lastAssignment) {
lastAssignment = nTime.allocated
}
if addFound && cidrFound {
allocTime := nTime.allocated.Sub(nTime.added)
if allocTime > time.Duration(results.MaxAllocTime) {
results.MaxAllocTime = JSONDuration(allocTime)
}
results.NodeAllocTime = append(results.NodeAllocTime, NodeDuration{
Name: name, PodCIDR: nTime.podCIDR, Duration: JSONDuration(allocTime),
})
}
}
results.TotalAllocTime = JSONDuration(lastAssignment.Sub(firstAdd))
sort.Slice(results.NodeAllocTime, func(i, j int) bool {
return results.NodeAllocTime[i].Duration > results.NodeAllocTime[j].Duration
})
return results
}
func (o *Observer) monitor() {
o.wg.Add(1)
sharedInformer := informers.NewSharedInformerFactory(o.clientSet, 1*time.Second)
nodeInformer := sharedInformer.Core().V1().Nodes().Informer()
nodeInformer.AddEventHandler(cache.ResourceEventHandlerFuncs{
AddFunc: nodeutil.CreateAddNodeHandler(func(node *v1.Node) (err error) {
name := node.GetName()
if node.Spec.PodCIDR != "" {
// ignore nodes that have PodCIDR (might be hold over from previous runs that did not get cleaned up)
return
}
nTime := &nodeTime{}
o.timing[name] = nTime
nTime.added = time.Now()
o.numAdded = o.numAdded + 1
return
}),
UpdateFunc: nodeutil.CreateUpdateNodeHandler(func(oldNode, newNode *v1.Node) (err error) {
name := newNode.GetName()
nTime, found := o.timing[name]
if !found {
return // consistency check - ignore nodes we have not seen the add event for
}
// check if CIDR assigned and ignore redundant updates
if newNode.Spec.PodCIDR != "" && nTime.podCIDR == "" {
nTime.allocated = time.Now()
nTime.podCIDR = newNode.Spec.PodCIDR
o.numAllocated++
if o.numAllocated%10 == 0 {
glog.Infof("progress: %d/%d - %.2d%%", o.numAllocated, o.numNodes, (o.numAllocated * 100.0 / o.numNodes))
}
// do following check only if numAllocated is modified, as otherwise, redundant updates
// can cause wg.Done() to be called multiple times, causing a panic
if o.numAdded == o.numNodes && o.numAllocated == o.numNodes {
glog.Info("All nodes assigned podCIDR")
o.wg.Done()
}
}
return
}),
})
sharedInformer.Start(o.stopChan)
}
// String implements the Stringer interface and returns a multi-line representation
// of the test results.
func (results *Results) String() string {
var b bytes.Buffer
fmt.Fprintf(&b, "\n TestName: %s", results.Name)
fmt.Fprintf(&b, "\n NumNodes: %d, CreateQPS: %d, KubeQPS: %d, CloudQPS: %d, Allocator: %v",
results.Config.NumNodes, results.Config.CreateQPS, results.Config.KubeQPS,
results.Config.CloudQPS, results.Config.AllocatorType)
fmt.Fprintf(&b, "\n Succeeded: %v, TotalAllocTime: %v, MaxAllocTime: %v",
results.Succeeded, time.Duration(results.TotalAllocTime), time.Duration(results.MaxAllocTime))
fmt.Fprintf(&b, "\n %5s %-20s %-20s %s", "Num", "Node", "PodCIDR", "Duration (s)")
for i, d := range results.NodeAllocTime {
fmt.Fprintf(&b, "\n %5d %-20s %-20s %10.3f", i+1, d.Name, d.PodCIDR, time.Duration(d.Duration).Seconds())
}
return b.String()
}
// MarshalJSON implements the json.Marshaler interface
func (jDuration *JSONDuration) MarshalJSON() ([]byte, error) {
return []byte(fmt.Sprintf("\"%s\"", time.Duration(*jDuration).String())), nil
}
// UnmarshalJSON implements the json.Unmarshaler interface
func (jDuration *JSONDuration) UnmarshalJSON(b []byte) (err error) {
var d time.Duration
if d, err = time.ParseDuration(string(b[1 : len(b)-1])); err == nil {
*jDuration = JSONDuration(d)
}
return
}