package integration import ( "encoding/json" "fmt" "io/ioutil" "os" "os/exec" "path/filepath" "sort" "strings" "testing" "github.com/containers/libpod/libpod" "github.com/containers/libpod/pkg/inspect" "github.com/containers/libpod/pkg/rootless" . "github.com/containers/libpod/test/utils" "github.com/containers/storage" "github.com/containers/storage/pkg/reexec" "github.com/containers/storage/pkg/stringid" . "github.com/onsi/ginkgo" . "github.com/onsi/gomega" "github.com/onsi/gomega/gexec" ) var ( PODMAN_BINARY string CONMON_BINARY string CNI_CONFIG_DIR string RUNC_BINARY string INTEGRATION_ROOT string CGROUP_MANAGER = "systemd" ARTIFACT_DIR = "/tmp/.artifacts" RESTORE_IMAGES = []string{ALPINE, BB} defaultWaitTimeout = 90 ) // PodmanTestIntegration struct for command line options type PodmanTestIntegration struct { PodmanTest ConmonBinary string CrioRoot string CNIConfigDir string OCIRuntime string RunRoot string StorageOptions string SignaturePolicyPath string CgroupManager string Host HostOS Timings []string TmpDir string } var LockTmpDir string // PodmanSessionIntegration sturct for command line session type PodmanSessionIntegration struct { *PodmanSession } type testResult struct { name string length float64 } type testResultsSorted []testResult func (a testResultsSorted) Len() int { return len(a) } func (a testResultsSorted) Swap(i, j int) { a[i], a[j] = a[j], a[i] } type testResultsSortedLength struct{ testResultsSorted } func (a testResultsSorted) Less(i, j int) bool { return a[i].length < a[j].length } var testResults []testResult // TestLibpod ginkgo master function func TestLibpod(t *testing.T) { if reexec.Init() { os.Exit(1) } if os.Getenv("NOCACHE") == "1" { CACHE_IMAGES = []string{} RESTORE_IMAGES = []string{} } RegisterFailHandler(Fail) RunSpecs(t, "Libpod Suite") } var _ = SynchronizedBeforeSuite(func() []byte { // Cache images cwd, _ := os.Getwd() INTEGRATION_ROOT = filepath.Join(cwd, "../../") podman := PodmanTestCreate("/tmp") podman.ArtifactPath = ARTIFACT_DIR if _, err := os.Stat(ARTIFACT_DIR); os.IsNotExist(err) { if err = os.Mkdir(ARTIFACT_DIR, 0777); err != nil { fmt.Printf("%q\n", err) os.Exit(1) } } for _, image := range CACHE_IMAGES { if err := podman.CreateArtifact(image); err != nil { fmt.Printf("%q\n", err) os.Exit(1) } } host := GetHostDistributionInfo() if host.Distribution == "rhel" && strings.HasPrefix(host.Version, "7") { f, err := os.OpenFile("/proc/sys/user/max_user_namespaces", os.O_WRONLY, 0644) if err != nil { fmt.Println("Unable to enable userspace on RHEL 7") os.Exit(1) } _, err = f.WriteString("15000") if err != nil { fmt.Println("Unable to enable userspace on RHEL 7") os.Exit(1) } f.Close() } path, err := ioutil.TempDir("", "libpodlock") if err != nil { fmt.Println(err) os.Exit(1) } return []byte(path) }, func(data []byte) { LockTmpDir = string(data) }) func (p *PodmanTestIntegration) Setup() { cwd, _ := os.Getwd() INTEGRATION_ROOT = filepath.Join(cwd, "../../") p.ArtifactPath = ARTIFACT_DIR } // var _ = BeforeSuite(func() { // cwd, _ := os.Getwd() // INTEGRATION_ROOT = filepath.Join(cwd, "../../") // podman := PodmanTestCreate("/tmp") // podman.ArtifactPath = ARTIFACT_DIR // if _, err := os.Stat(ARTIFACT_DIR); os.IsNotExist(err) { // if err = os.Mkdir(ARTIFACT_DIR, 0777); err != nil { // fmt.Printf("%q\n", err) // os.Exit(1) // } // } // }) // for _, image := range CACHE_IMAGES { // if err := podman.CreateArtifact(image); err != nil { // fmt.Printf("%q\n", err) // os.Exit(1) // } // } // host := GetHostDistributionInfo() // if host.Distribution == "rhel" && strings.HasPrefix(host.Version, "7") { // f, err := os.OpenFile("/proc/sys/user/max_user_namespaces", os.O_WRONLY, 0644) // if err != nil { // fmt.Println("Unable to enable userspace on RHEL 7") // os.Exit(1) // } // _, err = f.WriteString("15000") // if err != nil { // fmt.Println("Unable to enable userspace on RHEL 7") // os.Exit(1) // } // f.Close() // } // path, err := ioutil.TempDir("", "libpodlock") // if err != nil { // fmt.Println(err) // os.Exit(1) // } // LockTmpDir = path // }) var _ = AfterSuite(func() { sort.Sort(testResultsSortedLength{testResults}) fmt.Println("integration timing results") for _, result := range testResults { fmt.Printf("%s\t\t%f\n", result.name, result.length) } }) // PodmanTestCreate creates a PodmanTestIntegration instance for the tests func PodmanTestCreateUtil(tempDir string, remote bool) *PodmanTestIntegration { var ( podmanRemoteBinary string ) host := GetHostDistributionInfo() cwd, _ := os.Getwd() podmanBinary := filepath.Join(cwd, "../../bin/podman") if os.Getenv("PODMAN_BINARY") != "" { podmanBinary = os.Getenv("PODMAN_BINARY") } if remote { podmanRemoteBinary = filepath.Join(cwd, "../../bin/podman-remote") if os.Getenv("PODMAN_REMOTE_BINARY") != "" { podmanRemoteBinary = os.Getenv("PODMAN_REMOTE_BINARY") } } conmonBinary := filepath.Join("/usr/libexec/podman/conmon") altConmonBinary := "/usr/libexec/crio/conmon" if _, err := os.Stat(conmonBinary); os.IsNotExist(err) { conmonBinary = altConmonBinary } if os.Getenv("CONMON_BINARY") != "" { conmonBinary = os.Getenv("CONMON_BINARY") } storageOptions := STORAGE_OPTIONS if os.Getenv("STORAGE_OPTIONS") != "" { storageOptions = os.Getenv("STORAGE_OPTIONS") } cgroupManager := CGROUP_MANAGER if rootless.IsRootless() { cgroupManager = "cgroupfs" } if os.Getenv("CGROUP_MANAGER") != "" { cgroupManager = os.Getenv("CGROUP_MANAGER") } // Ubuntu doesn't use systemd cgroups if host.Distribution == "ubuntu" { cgroupManager = "cgroupfs" } ociRuntime := os.Getenv("OCI_RUNTIME") if ociRuntime == "" { var err error ociRuntime, err = exec.LookPath("runc") // If we cannot find the runc binary, setting to something static as we have no way // to return an error. The tests will fail and point out that the runc binary could // not be found nicely. if err != nil { ociRuntime = "/usr/bin/runc" } } os.Setenv("DISABLE_HC_SYSTEMD", "true") CNIConfigDir := "/etc/cni/net.d" p := &PodmanTestIntegration{ PodmanTest: PodmanTest{ PodmanBinary: podmanBinary, ArtifactPath: ARTIFACT_DIR, TempDir: tempDir, RemoteTest: remote, }, ConmonBinary: conmonBinary, CrioRoot: filepath.Join(tempDir, "crio"), TmpDir: tempDir, CNIConfigDir: CNIConfigDir, OCIRuntime: ociRuntime, RunRoot: filepath.Join(tempDir, "crio-run"), StorageOptions: storageOptions, SignaturePolicyPath: filepath.Join(INTEGRATION_ROOT, "test/policy.json"), CgroupManager: cgroupManager, Host: host, } if remote { p.PodmanTest.RemotePodmanBinary = podmanRemoteBinary uuid := stringid.GenerateNonCryptoID() if !rootless.IsRootless() { p.VarlinkEndpoint = fmt.Sprintf("unix:/run/podman/io.podman-%s", uuid) } else { runtimeDir := os.Getenv("XDG_RUNTIME_DIR") socket := fmt.Sprintf("io.podman-%s", uuid) fqpath := filepath.Join(runtimeDir, socket) p.VarlinkEndpoint = fmt.Sprintf("unix:%s", fqpath) } } // Setup registries.conf ENV variable p.setDefaultRegistriesConfigEnv() // Rewrite the PodmanAsUser function p.PodmanMakeOptions = p.makeOptions return p } // RestoreAllArtifacts unpacks all cached images func (p *PodmanTestIntegration) RestoreAllArtifacts() error { if os.Getenv("NO_TEST_CACHE") != "" { return nil } for _, image := range RESTORE_IMAGES { if err := p.RestoreArtifact(image); err != nil { return err } } return nil } // CreateArtifact creates a cached image in the artifact dir func (p *PodmanTestIntegration) CreateArtifact(image string) error { if os.Getenv("NO_TEST_CACHE") != "" { return nil } fmt.Printf("Caching %s...", image) dest := strings.Split(image, "/") destName := fmt.Sprintf("/tmp/%s.tar", strings.Replace(strings.Join(strings.Split(dest[len(dest)-1], "/"), ""), ":", "-", -1)) if _, err := os.Stat(destName); os.IsNotExist(err) { pull := p.Podman([]string{"pull", image}) pull.Wait(90) save := p.Podman([]string{"save", "-o", destName, image}) save.Wait(90) fmt.Printf("\n") } else { fmt.Printf(" already exists.\n") } return nil } // InspectImageJSON takes the session output of an inspect // image and returns json func (s *PodmanSessionIntegration) InspectImageJSON() []inspect.ImageData { var i []inspect.ImageData err := json.Unmarshal(s.Out.Contents(), &i) Expect(err).To(BeNil()) return i } // InspectContainer returns a container's inspect data in JSON format func (p *PodmanTestIntegration) InspectContainer(name string) []inspect.ContainerData { cmd := []string{"inspect", name} session := p.Podman(cmd) session.WaitWithDefaultTimeout() return session.InspectContainerToJSON() } func processTestResult(f GinkgoTestDescription) { tr := testResult{length: f.Duration.Seconds(), name: f.TestText} testResults = append(testResults, tr) } func GetPortLock(port string) storage.Locker { lockFile := filepath.Join(LockTmpDir, port) lock, err := storage.GetLockfile(lockFile) if err != nil { fmt.Println(err) os.Exit(1) } lock.Lock() return lock } // RunTopContainer runs a simple container in the background that // runs top. If the name passed != "", it will have a name func (p *PodmanTestIntegration) RunTopContainer(name string) *PodmanSessionIntegration { var podmanArgs = []string{"run"} if name != "" { podmanArgs = append(podmanArgs, "--name", name) } podmanArgs = append(podmanArgs, "-d", ALPINE, "top") return p.Podman(podmanArgs) } // RunLsContainer runs a simple container in the background that // simply runs ls. If the name passed != "", it will have a name func (p *PodmanTestIntegration) RunLsContainer(name string) (*PodmanSessionIntegration, int, string) { var podmanArgs = []string{"run"} if name != "" { podmanArgs = append(podmanArgs, "--name", name) } podmanArgs = append(podmanArgs, "-d", ALPINE, "ls") session := p.Podman(podmanArgs) session.WaitWithDefaultTimeout() return session, session.ExitCode(), session.OutputToString() } func (p *PodmanTestIntegration) RunLsContainerInPod(name, pod string) (*PodmanSessionIntegration, int, string) { var podmanArgs = []string{"run", "--pod", pod} if name != "" { podmanArgs = append(podmanArgs, "--name", name) } podmanArgs = append(podmanArgs, "-d", ALPINE, "ls") session := p.Podman(podmanArgs) session.WaitWithDefaultTimeout() return session, session.ExitCode(), session.OutputToString() } // BuildImage uses podman build and buildah to build an image // called imageName based on a string dockerfile func (p *PodmanTestIntegration) BuildImage(dockerfile, imageName string, layers string) { dockerfilePath := filepath.Join(p.TempDir, "Dockerfile") err := ioutil.WriteFile(dockerfilePath, []byte(dockerfile), 0755) Expect(err).To(BeNil()) session := p.Podman([]string{"build", "--layers=" + layers, "-t", imageName, "--file", dockerfilePath, p.TempDir}) session.Wait(120) Expect(session.ExitCode()).To(Equal(0)) } // PodmanPID execs podman and returns its PID func (p *PodmanTestIntegration) PodmanPID(args []string) (*PodmanSessionIntegration, int) { podmanOptions := p.MakeOptions(args) fmt.Printf("Running: %s %s\n", p.PodmanBinary, strings.Join(podmanOptions, " ")) command := exec.Command(p.PodmanBinary, podmanOptions...) session, err := gexec.Start(command, GinkgoWriter, GinkgoWriter) if err != nil { Fail(fmt.Sprintf("unable to run podman command: %s", strings.Join(podmanOptions, " "))) } podmanSession := &PodmanSession{session} return &PodmanSessionIntegration{podmanSession}, command.Process.Pid } // Cleanup cleans up the temporary store func (p *PodmanTestIntegration) Cleanup() { // Remove all containers stopall := p.Podman([]string{"stop", "-a", "--timeout", "0"}) stopall.Wait(90) podstop := p.Podman([]string{"pod", "stop", "-a", "-t", "0"}) podstop.WaitWithDefaultTimeout() podrm := p.Podman([]string{"pod", "rm", "-fa"}) podrm.WaitWithDefaultTimeout() session := p.Podman([]string{"rm", "-fa"}) session.Wait(90) p.StopVarlink() // Nuke tempdir if err := os.RemoveAll(p.TempDir); err != nil { fmt.Printf("%q\n", err) } // Clean up the registries configuration file ENV variable set in Create resetRegistriesConfigEnv() } // CleanupPod cleans up the temporary store func (p *PodmanTestIntegration) CleanupPod() { // Remove all containers session := p.Podman([]string{"pod", "rm", "-fa"}) session.Wait(90) // Nuke tempdir if err := os.RemoveAll(p.TempDir); err != nil { fmt.Printf("%q\n", err) } } // CleanupVolume cleans up the temporary store func (p *PodmanTestIntegration) CleanupVolume() { // Remove all containers session := p.Podman([]string{"volume", "rm", "-fa"}) session.Wait(90) // Nuke tempdir if err := os.RemoveAll(p.TempDir); err != nil { fmt.Printf("%q\n", err) } } // PullImages pulls multiple images func (p *PodmanTestIntegration) PullImages(images []string) error { for _, i := range images { p.PullImage(i) } return nil } // PullImage pulls a single image // TODO should the timeout be configurable? func (p *PodmanTestIntegration) PullImage(image string) error { session := p.Podman([]string{"pull", image}) session.Wait(60) Expect(session.ExitCode()).To(Equal(0)) return nil } // InspectContainerToJSON takes the session output of an inspect // container and returns json func (s *PodmanSessionIntegration) InspectContainerToJSON() []inspect.ContainerData { var i []inspect.ContainerData err := json.Unmarshal(s.Out.Contents(), &i) Expect(err).To(BeNil()) return i } // InspectPodToJSON takes the sessions output from a pod inspect and returns json func (s *PodmanSessionIntegration) InspectPodToJSON() libpod.PodInspect { var i libpod.PodInspect err := json.Unmarshal(s.Out.Contents(), &i) Expect(err).To(BeNil()) return i } // CreatePod creates a pod with no infra container // it optionally takes a pod name func (p *PodmanTestIntegration) CreatePod(name string) (*PodmanSessionIntegration, int, string) { var podmanArgs = []string{"pod", "create", "--infra=false", "--share", ""} if name != "" { podmanArgs = append(podmanArgs, "--name", name) } session := p.Podman(podmanArgs) session.WaitWithDefaultTimeout() return session, session.ExitCode(), session.OutputToString() } func (p *PodmanTestIntegration) RunTopContainerInPod(name, pod string) *PodmanSessionIntegration { var podmanArgs = []string{"run", "--pod", pod} if name != "" { podmanArgs = append(podmanArgs, "--name", name) } podmanArgs = append(podmanArgs, "-d", ALPINE, "top") return p.Podman(podmanArgs) }