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autoscaling_utils.go
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/
autoscaling_utils.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 e2e
import (
"fmt"
"strconv"
"time"
"k8s.io/kubernetes/pkg/api"
client "k8s.io/kubernetes/pkg/client/unversioned"
"k8s.io/kubernetes/pkg/util/intstr"
. "github.com/onsi/ginkgo"
)
const (
dynamicConsumptionTimeInSeconds = 30
staticConsumptionTimeInSeconds = 3600
dynamicRequestSizeInMillicores = 100
dynamicRequestSizeInMegabytes = 100
port = 80
targetPort = 8080
timeoutRC = 120 * time.Second
startServiceTimeout = time.Minute
startServiceInterval = 5 * time.Second
resourceConsumerImage = "gcr.io/google_containers/resource_consumer:beta2"
rcIsNil = "ERROR: replicationController = nil"
deploymentIsNil = "ERROR: deployment = nil"
invalidKind = "ERROR: invalid workload kind for resource consumer"
)
/*
ResourceConsumer is a tool for testing. It helps create specified usage of CPU or memory (Warning: memory not supported)
typical use case:
rc.ConsumeCPU(600)
// ... check your assumption here
rc.ConsumeCPU(300)
// ... check your assumption here
*/
type ResourceConsumer struct {
name string
kind string
framework *Framework
cpu chan int
mem chan int
stopCPU chan int
stopMem chan int
consumptionTimeInSeconds int
sleepTime time.Duration
requestSizeInMillicores int
requestSizeInMegabytes int
}
func NewDynamicResourceConsumer(name, kind string, replicas, initCPUTotal, initMemoryTotal int, cpuLimit, memLimit int64, framework *Framework) *ResourceConsumer {
return newResourceConsumer(name, kind, replicas, initCPUTotal, initMemoryTotal, dynamicConsumptionTimeInSeconds, dynamicRequestSizeInMillicores, dynamicRequestSizeInMegabytes, cpuLimit, memLimit, framework)
}
// TODO this still defaults to replication controller
func NewStaticResourceConsumer(name string, replicas, initCPUTotal, initMemoryTotal int, cpuLimit, memLimit int64, framework *Framework) *ResourceConsumer {
return newResourceConsumer(name, kindRC, replicas, initCPUTotal, initMemoryTotal, staticConsumptionTimeInSeconds, initCPUTotal/replicas, initMemoryTotal/replicas, cpuLimit, memLimit, framework)
}
/*
NewResourceConsumer creates new ResourceConsumer
initCPUTotal argument is in millicores
initMemoryTotal argument is in megabytes
memLimit argument is in megabytes, memLimit is a maximum amount of memory that can be consumed by a single pod
cpuLimit argument is in millicores, cpuLimit is a maximum amount of cpu that can be consumed by a single pod
*/
func newResourceConsumer(name, kind string, replicas, initCPUTotal, initMemoryTotal, consumptionTimeInSeconds, requestSizeInMillicores, requestSizeInMegabytes int, cpuLimit, memLimit int64, framework *Framework) *ResourceConsumer {
runServiceAndWorkloadForResourceConsumer(framework.Client, framework.Namespace.Name, name, kind, replicas, cpuLimit, memLimit)
rc := &ResourceConsumer{
name: name,
kind: kind,
framework: framework,
cpu: make(chan int),
mem: make(chan int),
stopCPU: make(chan int),
stopMem: make(chan int),
consumptionTimeInSeconds: consumptionTimeInSeconds,
sleepTime: time.Duration(consumptionTimeInSeconds) * time.Second,
requestSizeInMillicores: requestSizeInMillicores,
requestSizeInMegabytes: requestSizeInMegabytes,
}
go rc.makeConsumeCPURequests()
rc.ConsumeCPU(initCPUTotal)
go rc.makeConsumeMemRequests()
rc.ConsumeMem(initMemoryTotal)
return rc
}
// ConsumeCPU consumes given number of CPU
func (rc *ResourceConsumer) ConsumeCPU(millicores int) {
Logf("RC %s: consume %v millicores in total", rc.name, millicores)
rc.cpu <- millicores
}
// ConsumeMem consumes given number of Mem
func (rc *ResourceConsumer) ConsumeMem(megabytes int) {
Logf("RC %s: consume %v MB in total", rc.name, megabytes)
rc.mem <- megabytes
}
func (rc *ResourceConsumer) makeConsumeCPURequests() {
defer GinkgoRecover()
var count int
var rest int
sleepTime := time.Duration(0)
for {
select {
case millicores := <-rc.cpu:
Logf("RC %s: consume %v millicores in total", rc.name, millicores)
if rc.requestSizeInMillicores != 0 {
count = millicores / rc.requestSizeInMillicores
}
rest = millicores - count*rc.requestSizeInMillicores
case <-time.After(sleepTime):
Logf("RC %s: sending %v requests to consume %v millicores each and 1 request to consume %v millicores", rc.name, count, rc.requestSizeInMillicores, rest)
if count > 0 {
rc.sendConsumeCPURequests(count, rc.requestSizeInMillicores, rc.consumptionTimeInSeconds)
}
if rest > 0 {
go rc.sendOneConsumeCPURequest(rest, rc.consumptionTimeInSeconds)
}
sleepTime = rc.sleepTime
case <-rc.stopCPU:
return
}
}
}
func (rc *ResourceConsumer) makeConsumeMemRequests() {
defer GinkgoRecover()
var count int
var rest int
sleepTime := time.Duration(0)
for {
select {
case megabytes := <-rc.mem:
Logf("RC %s: consume %v MB in total", rc.name, megabytes)
if rc.requestSizeInMegabytes != 0 {
count = megabytes / rc.requestSizeInMegabytes
}
rest = megabytes - count*rc.requestSizeInMegabytes
case <-time.After(sleepTime):
Logf("RC %s: sending %v requests to consume %v MB each and 1 request to consume %v MB", rc.name, count, rc.requestSizeInMegabytes, rest)
if count > 0 {
rc.sendConsumeMemRequests(count, rc.requestSizeInMegabytes, rc.consumptionTimeInSeconds)
}
if rest > 0 {
go rc.sendOneConsumeMemRequest(rest, rc.consumptionTimeInSeconds)
}
sleepTime = rc.sleepTime
case <-rc.stopMem:
return
}
}
}
func (rc *ResourceConsumer) sendConsumeCPURequests(requests, millicores, durationSec int) {
for i := 0; i < requests; i++ {
go rc.sendOneConsumeCPURequest(millicores, durationSec)
}
}
func (rc *ResourceConsumer) sendConsumeMemRequests(requests, megabytes, durationSec int) {
for i := 0; i < requests; i++ {
go rc.sendOneConsumeMemRequest(megabytes, durationSec)
}
}
// sendOneConsumeCPURequest sends POST request for cpu consumption
func (rc *ResourceConsumer) sendOneConsumeCPURequest(millicores int, durationSec int) {
defer GinkgoRecover()
_, err := rc.framework.Client.Post().
Prefix("proxy").
Namespace(rc.framework.Namespace.Name).
Resource("services").
Name(rc.name).
Suffix("ConsumeCPU").
Param("millicores", strconv.Itoa(millicores)).
Param("durationSec", strconv.Itoa(durationSec)).
DoRaw()
expectNoError(err)
}
// sendOneConsumeMemRequest sends POST request for memory consumption
func (rc *ResourceConsumer) sendOneConsumeMemRequest(megabytes int, durationSec int) {
defer GinkgoRecover()
_, err := rc.framework.Client.Post().
Prefix("proxy").
Namespace(rc.framework.Namespace.Name).
Resource("services").
Name(rc.name).
Suffix("ConsumeMem").
Param("megabytes", strconv.Itoa(megabytes)).
Param("durationSec", strconv.Itoa(durationSec)).
DoRaw()
expectNoError(err)
}
func (rc *ResourceConsumer) GetReplicas() int {
switch rc.kind {
case kindRC:
replicationController, err := rc.framework.Client.ReplicationControllers(rc.framework.Namespace.Name).Get(rc.name)
expectNoError(err)
if replicationController == nil {
Failf(rcIsNil)
}
return replicationController.Status.Replicas
case kindDeployment:
deployment, err := rc.framework.Client.Deployments(rc.framework.Namespace.Name).Get(rc.name)
expectNoError(err)
if deployment == nil {
Failf(deploymentIsNil)
}
return deployment.Status.Replicas
default:
Failf(invalidKind)
}
return 0
}
func (rc *ResourceConsumer) WaitForReplicas(desiredReplicas int) {
timeout := 10 * time.Minute
for start := time.Now(); time.Since(start) < timeout; time.Sleep(20 * time.Second) {
if desiredReplicas == rc.GetReplicas() {
Logf("%s: current replicas number is equal to desired replicas number: %d", rc.kind, desiredReplicas)
return
} else {
Logf("%s: current replicas number %d waiting to be %d", rc.kind, rc.GetReplicas(), desiredReplicas)
}
}
Failf("timeout waiting %v for pods size to be %d", timeout, desiredReplicas)
}
func (rc *ResourceConsumer) EnsureDesiredReplicas(desiredReplicas int, timeout time.Duration) {
for start := time.Now(); time.Since(start) < timeout; time.Sleep(10 * time.Second) {
actual := rc.GetReplicas()
if desiredReplicas != actual {
Failf("Number of replicas has changed: expected %v, got %v", desiredReplicas, actual)
}
Logf("Number of replicas is as expected")
}
Logf("Number of replicas was stable over %v", timeout)
}
func (rc *ResourceConsumer) CleanUp() {
By(fmt.Sprintf("Removing consuming RC %s", rc.name))
rc.stopCPU <- 0
rc.stopMem <- 0
// Wait some time to ensure all child goroutines are finished.
time.Sleep(10 * time.Second)
expectNoError(DeleteRC(rc.framework.Client, rc.framework.Namespace.Name, rc.name))
expectNoError(rc.framework.Client.Services(rc.framework.Namespace.Name).Delete(rc.name))
}
func runServiceAndWorkloadForResourceConsumer(c *client.Client, ns, name, kind string, replicas int, cpuLimitMillis, memLimitMb int64) {
By(fmt.Sprintf("Running consuming RC %s via %s with %v replicas", name, kind, replicas))
_, err := c.Services(ns).Create(&api.Service{
ObjectMeta: api.ObjectMeta{
Name: name,
},
Spec: api.ServiceSpec{
Ports: []api.ServicePort{{
Port: port,
TargetPort: intstr.FromInt(targetPort),
}},
Selector: map[string]string{
"name": name,
},
},
})
expectNoError(err)
rcConfig := RCConfig{
Client: c,
Image: resourceConsumerImage,
Name: name,
Namespace: ns,
Timeout: timeoutRC,
Replicas: replicas,
CpuRequest: cpuLimitMillis,
CpuLimit: cpuLimitMillis,
MemRequest: memLimitMb * 1024 * 1024, // MemLimit is in bytes
MemLimit: memLimitMb * 1024 * 1024,
}
switch kind {
case kindRC:
expectNoError(RunRC(rcConfig))
break
case kindDeployment:
dpConfig := DeploymentConfig{
rcConfig,
}
expectNoError(RunDeployment(dpConfig))
break
default:
Failf(invalidKind)
}
// Make sure endpoints are propagated.
// TODO(piosz): replace sleep with endpoints watch.
time.Sleep(10 * time.Second)
}