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run_policy.go
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/
run_policy.go
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package builds
import (
"strings"
g "github.com/onsi/ginkgo"
o "github.com/onsi/gomega"
kapi "k8s.io/kubernetes/pkg/api"
e2e "k8s.io/kubernetes/test/e2e/framework"
buildapi "github.com/openshift/origin/pkg/build/api"
buildclient "github.com/openshift/origin/pkg/build/client"
buildutil "github.com/openshift/origin/pkg/build/util"
exutil "github.com/openshift/origin/test/extended/util"
)
var _ = g.Describe("[builds][Slow] using build configuration runPolicy", func() {
defer g.GinkgoRecover()
var (
// Use invalid source here as we don't care about the result
oc = exutil.NewCLI("cli-build-run-policy", exutil.KubeConfigPath())
)
g.JustBeforeEach(func() {
g.By("waiting for builder service account")
err := exutil.WaitForBuilderAccount(oc.KubeREST().ServiceAccounts(oc.Namespace()))
o.Expect(err).NotTo(o.HaveOccurred())
// Create all fixtures
oc.Run("create").Args("-f", exutil.FixturePath("testdata", "run_policy")).Execute()
})
g.Describe("build configuration with Parallel build run policy", func() {
g.It("runs the builds in parallel", func() {
g.By("starting multiple builds")
var (
startedBuilds []string
counter int
)
bcName := "sample-parallel-build"
buildWatch, err := oc.REST().Builds(oc.Namespace()).Watch(kapi.ListOptions{
LabelSelector: buildutil.BuildConfigSelector(bcName),
})
defer buildWatch.Stop()
// Start first build
stdout, _, err := exutil.StartBuild(oc, bcName, "-o=name")
o.Expect(err).NotTo(o.HaveOccurred())
o.Expect(strings.TrimSpace(stdout)).ShouldNot(o.HaveLen(0))
// extract build name from "build/buildName" resource id
startedBuilds = append(startedBuilds, strings.TrimSpace(strings.Split(stdout, "/")[1]))
// Wait for it to become running
for {
event := <-buildWatch.ResultChan()
build := event.Object.(*buildapi.Build)
o.Expect(buildutil.IsBuildComplete(build)).Should(o.BeFalse())
if build.Name == startedBuilds[0] && build.Status.Phase == buildapi.BuildPhaseRunning {
break
}
}
for i := 0; i < 2; i++ {
stdout, _, err = exutil.StartBuild(oc, bcName, "-o=name")
o.Expect(err).NotTo(o.HaveOccurred())
o.Expect(strings.TrimSpace(stdout)).ShouldNot(o.HaveLen(0))
startedBuilds = append(startedBuilds, strings.TrimSpace(strings.Split(stdout, "/")[1]))
}
o.Expect(err).NotTo(o.HaveOccurred())
for {
event := <-buildWatch.ResultChan()
build := event.Object.(*buildapi.Build)
if build.Name == startedBuilds[0] {
if buildutil.IsBuildComplete(build) {
break
}
continue
}
// When the the other two builds we started after waiting for the first
// build to become running are Pending, verify the first build is still
// running (so the other two builds are started in parallel with first
// build).
// TODO: This might introduce flakes in case the first build complete
// sooner or fail.
if build.Status.Phase == buildapi.BuildPhasePending {
c := buildclient.NewOSClientBuildClient(oc.REST())
firstBuildRunning := false
_, err := buildutil.BuildConfigBuilds(c, oc.Namespace(), bcName, func(b buildapi.Build) bool {
if b.Name == startedBuilds[0] && b.Status.Phase == buildapi.BuildPhaseRunning {
firstBuildRunning = true
}
return false
})
o.Expect(err).NotTo(o.HaveOccurred())
o.Expect(firstBuildRunning).Should(o.BeTrue())
counter++
}
// When the build failed or completed prematurely, fail the test
o.Expect(buildutil.IsBuildComplete(build)).Should(o.BeFalse())
if counter == 2 {
break
}
}
o.Expect(counter).Should(o.BeEquivalentTo(2))
})
})
g.Describe("build configuration with Serial build run policy", func() {
g.It("runs the builds in serial order", func() {
g.By("starting multiple builds")
var (
startedBuilds []string
counter int
)
bcName := "sample-serial-build"
buildVerified := map[string]bool{}
for i := 0; i < 3; i++ {
stdout, _, err := exutil.StartBuild(oc, bcName, "-o=name")
o.Expect(err).NotTo(o.HaveOccurred())
startedBuilds = append(startedBuilds, strings.TrimSpace(strings.Split(stdout, "/")[1]))
}
buildWatch, err := oc.REST().Builds(oc.Namespace()).Watch(kapi.ListOptions{
LabelSelector: buildutil.BuildConfigSelector(bcName),
})
defer buildWatch.Stop()
o.Expect(err).NotTo(o.HaveOccurred())
for {
event := <-buildWatch.ResultChan()
build := event.Object.(*buildapi.Build)
if build.Status.Phase == buildapi.BuildPhaseRunning {
// Ignore events from complete builds (if there are any) if we already
// verified the build.
if _, exists := buildVerified[build.Name]; exists {
continue
}
// Verify there are no other running or pending builds than this
// build as serial build always runs alone.
c := buildclient.NewOSClientBuildClient(oc.REST())
builds, err := buildutil.BuildConfigBuilds(c, oc.Namespace(), bcName, func(b buildapi.Build) bool {
if b.Name == build.Name {
return false
}
if b.Status.Phase == buildapi.BuildPhaseRunning || b.Status.Phase == buildapi.BuildPhasePending {
return true
}
return false
})
o.Expect(err).NotTo(o.HaveOccurred())
o.Expect(builds.Items).Should(o.BeEmpty())
// The builds should start in the same order as they were created.
o.Expect(build.Name).Should(o.BeEquivalentTo(startedBuilds[counter]))
buildVerified[build.Name] = true
counter++
}
if counter == len(startedBuilds) {
break
}
}
})
})
g.Describe("build configuration with SerialLatestOnly build run policy", func() {
g.It("runs the builds in serial order but cancel previous builds", func() {
g.By("starting multiple builds")
var (
startedBuilds []string
expectedRunningBuild int
wasCancelled bool
)
bcName := "sample-serial-latest-only-build"
buildVerified := map[string]bool{}
buildWatch, err := oc.REST().Builds(oc.Namespace()).Watch(kapi.ListOptions{
LabelSelector: buildutil.BuildConfigSelector(bcName),
})
defer buildWatch.Stop()
o.Expect(err).NotTo(o.HaveOccurred())
stdout, _, err := exutil.StartBuild(oc, bcName, "-o=name")
o.Expect(err).NotTo(o.HaveOccurred())
startedBuilds = append(startedBuilds, strings.TrimSpace(strings.Split(stdout, "/")[1]))
// Wait for the first build to become running
for {
event := <-buildWatch.ResultChan()
build := event.Object.(*buildapi.Build)
if build.Name == startedBuilds[0] {
if build.Status.Phase == buildapi.BuildPhaseRunning {
buildVerified[build.Name] = true
// now expect the last build to be run.
expectedRunningBuild = 2
break
}
o.Expect(buildutil.IsBuildComplete(build)).Should(o.BeFalse())
}
}
// Trigger two more builds
for i := 0; i < 2; i++ {
stdout, _, err = exutil.StartBuild(oc, bcName, "-o=name")
o.Expect(err).NotTo(o.HaveOccurred())
startedBuilds = append(startedBuilds, strings.TrimSpace(strings.Split(stdout, "/")[1]))
}
// Verify that the first build will complete and the next build to run
// will be the last build created.
for {
event := <-buildWatch.ResultChan()
build := event.Object.(*buildapi.Build)
e2e.Logf("got event for build %s with phase %s", build.Name, build.Status.Phase)
// The second build should be cancelled
if build.Status.Phase == buildapi.BuildPhaseCancelled {
if build.Name == startedBuilds[1] {
buildVerified[build.Name] = true
wasCancelled = true
}
}
// Only first and third build should actually run (serially).
if build.Status.Phase == buildapi.BuildPhaseRunning {
// Ignore events from complete builds (if there are any) if we already
// verified the build.
if _, exists := buildVerified[build.Name]; exists {
continue
}
// Verify there are no other running or pending builds than this
// build as serial build always runs alone.
c := buildclient.NewOSClientBuildClient(oc.REST())
builds, err := buildutil.BuildConfigBuilds(c, oc.Namespace(), bcName, func(b buildapi.Build) bool {
e2e.Logf("[%s] build %s is %s", build.Name, b.Name, b.Status.Phase)
if b.Name == build.Name {
return false
}
if b.Status.Phase == buildapi.BuildPhaseRunning || b.Status.Phase == buildapi.BuildPhasePending {
return true
}
return false
})
o.Expect(err).NotTo(o.HaveOccurred())
o.Expect(builds.Items).Should(o.BeEmpty())
// The builds should start in the same order as they were created.
o.Expect(build.Name).Should(o.BeEquivalentTo(startedBuilds[expectedRunningBuild]))
buildVerified[build.Name] = true
}
if len(buildVerified) == len(startedBuilds) {
break
}
}
o.Expect(wasCancelled).Should(o.BeEquivalentTo(true))
})
})
})