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|
package integration
import (
"context"
"fmt"
"io/ioutil"
"os"
"os/exec"
"path/filepath"
"strings"
"syscall"
"testing"
"time"
"encoding/json"
"github.com/containers/image/copy"
"github.com/containers/image/signature"
"github.com/containers/image/storage"
"github.com/containers/image/transports/alltransports"
"github.com/containers/image/types"
sstorage "github.com/containers/storage"
"github.com/containers/storage/pkg/parsers/kernel"
"github.com/containers/storage/pkg/reexec"
. "github.com/onsi/ginkgo"
. "github.com/onsi/gomega"
"github.com/onsi/gomega/gexec"
"github.com/pkg/errors"
"github.com/projectatomic/libpod/pkg/inspect"
)
// - CRIO_ROOT=/var/tmp/checkout PODMAN_BINARY=/usr/bin/podman CONMON_BINARY=/usr/libexec/crio/conmon PAPR=1 sh .papr.sh
// PODMAN_OPTIONS="--root $TESTDIR/crio $STORAGE_OPTIONS --runroot $TESTDIR/crio-run --runtime ${RUNTIME_BINARY} --conmon ${CONMON_BINARY} --cni-config-dir ${LIBPOD_CNI_CONFIG}"
//TODO do the image caching
// "$COPYIMG_BINARY" --root "$TESTDIR/crio" $STORAGE_OPTIONS --runroot "$TESTDIR/crio-run" --image-name=${IMAGES[${key}]} --import-from=dir:"$ARTIFACTS_PATH"/${key} --add-name=${IMAGES[${key}]}
//TODO whats the best way to clean up after a test
var (
PODMAN_BINARY string
CONMON_BINARY string
CNI_CONFIG_DIR string
RUNC_BINARY string
INTEGRATION_ROOT string
STORAGE_OPTIONS = "--storage-driver vfs"
ARTIFACT_DIR = "/tmp/.artifacts"
CACHE_IMAGES = []string{"alpine", "busybox", fedoraMinimal, nginx}
RESTORE_IMAGES = []string{"alpine", "busybox"}
ALPINE = "docker.io/library/alpine:latest"
BB_GLIBC = "docker.io/library/busybox:glibc"
fedoraMinimal = "registry.fedoraproject.org/fedora-minimal:latest"
nginx = "docker.io/library/nginx:latest"
defaultWaitTimeout = 90
)
// PodmanSession wrapps the gexec.session so we can extend it
type PodmanSession struct {
*gexec.Session
}
// PodmanTest struct for command line options
type PodmanTest struct {
PodmanBinary string
ConmonBinary string
CrioRoot string
CNIConfigDir string
RunCBinary string
RunRoot string
StorageOptions string
SignaturePolicyPath string
ArtifactPath string
TempDir string
}
// 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{}
}
// HACK HACK HACK
// We leak file descriptors through c/storage locks and image caching
// Until we come up with a better solution, just set rlimits on open
// files really high
rlimits := new(syscall.Rlimit)
rlimits.Cur = 99999
rlimits.Max = 99999
if err := syscall.Setrlimit(syscall.RLIMIT_NOFILE, rlimits); err != nil {
fmt.Printf("Error setting new rlimits: %v", err)
os.Exit(1)
}
RegisterFailHandler(Fail)
RunSpecs(t, "Libpod Suite")
}
var _ = BeforeSuite(func() {
//Cache images
cwd, _ := os.Getwd()
INTEGRATION_ROOT = filepath.Join(cwd, "../../")
podman := PodmanCreate("/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)
}
}
})
// CreateTempDirin
func CreateTempDirInTempDir() (string, error) {
return ioutil.TempDir("", "podman_test")
}
// PodmanCreate creates a PodmanTest instance for the tests
func PodmanCreate(tempDir string) PodmanTest {
cwd, _ := os.Getwd()
podmanBinary := filepath.Join(cwd, "../../bin/podman")
if os.Getenv("PODMAN_BINARY") != "" {
podmanBinary = os.Getenv("PODMAN_BINARY")
}
conmonBinary := filepath.Join("/usr/libexec/crio/conmon")
altConmonBinary := "/usr/libexec/podman/conmon"
if _, err := os.Stat(altConmonBinary); err == nil {
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")
}
runCBinary := "/usr/bin/runc"
CNIConfigDir := "/etc/cni/net.d"
return PodmanTest{
PodmanBinary: podmanBinary,
ConmonBinary: conmonBinary,
CrioRoot: filepath.Join(tempDir, "crio"),
CNIConfigDir: CNIConfigDir,
RunCBinary: runCBinary,
RunRoot: filepath.Join(tempDir, "crio-run"),
StorageOptions: storageOptions,
SignaturePolicyPath: filepath.Join(INTEGRATION_ROOT, "test/policy.json"),
ArtifactPath: ARTIFACT_DIR,
TempDir: tempDir,
}
}
//MakeOptions assembles all the podman main options
func (p *PodmanTest) MakeOptions() []string {
return strings.Split(fmt.Sprintf("--root %s --runroot %s --runtime %s --conmon %s --cni-config-dir %s",
p.CrioRoot, p.RunRoot, p.RunCBinary, p.ConmonBinary, p.CNIConfigDir), " ")
}
// Podman is the exec call to podman on the filesystem
func (p *PodmanTest) Podman(args []string) *PodmanSession {
podmanOptions := p.MakeOptions()
if os.Getenv("HOOK_OPTION") != "" {
podmanOptions = append(podmanOptions, os.Getenv("HOOK_OPTION"))
}
podmanOptions = append(podmanOptions, strings.Split(p.StorageOptions, " ")...)
podmanOptions = append(podmanOptions, 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\n%v", strings.Join(podmanOptions, " "), err))
}
return &PodmanSession{session}
}
//WaitForContainer waits on a started container
func WaitForContainer(p *PodmanTest) bool {
for i := 0; i < 10; i++ {
if p.NumberOfRunningContainers() == 1 {
return true
}
time.Sleep(1 * time.Second)
}
return false
}
// Cleanup cleans up the temporary store
func (p *PodmanTest) Cleanup() {
// Remove all containers
session := p.Podman([]string{"rm", "-fa"})
session.Wait(90)
// Nuke tempdir
if err := os.RemoveAll(p.TempDir); err != nil {
fmt.Printf("%q\n", err)
}
}
// GrepString takes session output and behaves like grep. it returns a bool
// if successful and an array of strings on positive matches
func (s *PodmanSession) GrepString(term string) (bool, []string) {
var (
greps []string
matches bool
)
for _, line := range strings.Split(s.OutputToString(), "\n") {
if strings.Contains(line, term) {
matches = true
greps = append(greps, line)
}
}
return matches, greps
}
// Pull Images pulls multiple images
func (p *PodmanTest) PullImages(images []string) error {
for _, i := range images {
p.PullImage(i)
}
return nil
}
// Pull Image a single image
// TODO should the timeout be configurable?
func (p *PodmanTest) PullImage(image string) error {
session := p.Podman([]string{"pull", image})
session.Wait(60)
Expect(session.ExitCode()).To(Equal(0))
return nil
}
// OutputToString formats session output to string
func (s *PodmanSession) OutputToString() string {
fields := strings.Fields(fmt.Sprintf("%s", s.Out.Contents()))
return strings.Join(fields, " ")
}
// OutputToStringArray returns the output as a []string
// where each array item is a line split by newline
func (s *PodmanSession) OutputToStringArray() []string {
output := fmt.Sprintf("%s", s.Out.Contents())
return strings.Split(output, "\n")
}
// IsJSONOutputValid attempts to unmarshal the session buffer
// and if successful, returns true, else false
func (s *PodmanSession) IsJSONOutputValid() bool {
var i interface{}
if err := json.Unmarshal(s.Out.Contents(), &i); err != nil {
fmt.Println(err)
return false
}
return true
}
// InspectContainerToJSON takes the session output of an inspect
// container and returns json
func (s *PodmanSession) InspectContainerToJSON() []inspect.ContainerData {
var i []inspect.ContainerData
err := json.Unmarshal(s.Out.Contents(), &i)
Expect(err).To(BeNil())
return i
}
// InspectImageJSON takes the session output of an inspect
// image and returns json
func (s *PodmanSession) InspectImageJSON() []inspect.ImageData {
var i []inspect.ImageData
err := json.Unmarshal(s.Out.Contents(), &i)
Expect(err).To(BeNil())
return i
}
func (s *PodmanSession) WaitWithDefaultTimeout() {
s.Wait(defaultWaitTimeout)
}
// SystemExec is used to exec a system command to check its exit code or output
func (p *PodmanTest) SystemExec(command string, args []string) *PodmanSession {
c := exec.Command(command, args...)
session, err := gexec.Start(c, GinkgoWriter, GinkgoWriter)
if err != nil {
Fail(fmt.Sprintf("unable to run command: %s %s", command, strings.Join(args, " ")))
}
return &PodmanSession{session}
}
// CreateArtifact creates a cached image in the artifact dir
func (p *PodmanTest) CreateArtifact(image string) error {
if os.Getenv("NO_TEST_CACHE") != "" {
return nil
}
fmt.Printf("Caching %s...\n", image)
imageName := fmt.Sprintf("docker://%s", image)
systemContext := types.SystemContext{
SignaturePolicyPath: p.SignaturePolicyPath,
}
policy, err := signature.DefaultPolicy(&systemContext)
if err != nil {
return errors.Errorf("error loading signature policy: %v", err)
}
policyContext, err := signature.NewPolicyContext(policy)
if err != nil {
return errors.Errorf("error loading signature policy: %v", err)
}
defer func() {
_ = policyContext.Destroy()
}()
options := ©.Options{}
importRef, err := alltransports.ParseImageName(imageName)
if err != nil {
return errors.Errorf("error parsing image name %v: %v", image, err)
}
imageDir := strings.Replace(image, "/", "_", -1)
exportTo := filepath.Join("dir:", p.ArtifactPath, imageDir)
exportRef, err := alltransports.ParseImageName(exportTo)
if err != nil {
return errors.Errorf("error parsing image name %v: %v", exportTo, err)
}
return copy.Image(getTestContext(), policyContext, exportRef, importRef, options)
}
// RestoreArtifact puts the cached image into our test store
func (p *PodmanTest) RestoreArtifact(image string) error {
storeOptions := sstorage.DefaultStoreOptions
storeOptions.GraphDriverName = "vfs"
//storeOptions.GraphDriverOptions = storageOptions
storeOptions.GraphRoot = p.CrioRoot
storeOptions.RunRoot = p.RunRoot
store, err := sstorage.GetStore(storeOptions)
if err != nil {
return errors.Errorf("error opening storage: %v", err)
}
defer func() {
_, _ = store.Shutdown(false)
}()
storage.Transport.SetStore(store)
ref, err := storage.Transport.ParseStoreReference(store, image)
if err != nil {
return errors.Errorf("error parsing image name: %v", err)
}
imageDir := strings.Replace(image, "/", "_", -1)
importFrom := fmt.Sprintf("dir:%s", filepath.Join(p.ArtifactPath, imageDir))
importRef, err := alltransports.ParseImageName(importFrom)
if err != nil {
return errors.Errorf("error parsing image name %v: %v", image, err)
}
systemContext := types.SystemContext{
SignaturePolicyPath: p.SignaturePolicyPath,
}
policy, err := signature.DefaultPolicy(&systemContext)
if err != nil {
return errors.Errorf("error loading signature policy: %v", err)
}
policyContext, err := signature.NewPolicyContext(policy)
if err != nil {
return errors.Errorf("error loading signature policy: %v", err)
}
defer func() {
_ = policyContext.Destroy()
}()
options := ©.Options{}
err = copy.Image(getTestContext(), policyContext, ref, importRef, options)
if err != nil {
return errors.Errorf("error importing %s: %v", importFrom, err)
}
return nil
}
// RestoreAllArtifacts unpacks all cached images
func (p *PodmanTest) 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
}
//RunTopContainer runs a simple container in the background that
// runs top. If the name passed != "", it will have a name
func (p *PodmanTest) RunTopContainer(name string) *PodmanSession {
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 *PodmanTest) RunLsContainer(name string) (*PodmanSession, 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()
}
//NumberOfContainersRunning returns an int of how many
// containers are currently running.
func (p *PodmanTest) NumberOfContainersRunning() int {
var containers []string
ps := p.Podman([]string{"ps", "-q"})
ps.WaitWithDefaultTimeout()
Expect(ps.ExitCode()).To(Equal(0))
for _, i := range ps.OutputToStringArray() {
if i != "" {
containers = append(containers, i)
}
}
return len(containers)
}
// NumberOfContainers returns an int of how many
// containers are currently defined.
func (p *PodmanTest) NumberOfContainers() int {
var containers []string
ps := p.Podman([]string{"ps", "-aq"})
ps.WaitWithDefaultTimeout()
Expect(ps.ExitCode()).To(Equal(0))
for _, i := range ps.OutputToStringArray() {
if i != "" {
containers = append(containers, i)
}
}
return len(containers)
}
// NumberOfRunningContainers returns an int of how many containers are currently
// running
func (p *PodmanTest) NumberOfRunningContainers() int {
var containers []string
ps := p.Podman([]string{"ps", "-q"})
ps.WaitWithDefaultTimeout()
Expect(ps.ExitCode()).To(Equal(0))
for _, i := range ps.OutputToStringArray() {
if i != "" {
containers = append(containers, i)
}
}
return len(containers)
}
// StringInSlice determines if a string is in a string slice, returns bool
func StringInSlice(s string, sl []string) bool {
for _, i := range sl {
if i == s {
return true
}
}
return false
}
//LineInOutputStartsWith returns true if a line in a
// session output starts with the supplied string
func (s *PodmanSession) LineInOuputStartsWith(term string) bool {
for _, i := range s.OutputToStringArray() {
if strings.HasPrefix(i, term) {
return true
}
}
return false
}
//LineInOutputContains returns true if a line in a
// session output starts with the supplied string
func (s *PodmanSession) LineInOutputContains(term string) bool {
for _, i := range s.OutputToStringArray() {
if strings.Contains(i, term) {
return true
}
}
return false
}
//tagOutPutToMap parses each string in imagesOutput and returns
// a map of repo:tag pairs. Notice, the first array item will
// be skipped as it's considered to be the header.
func tagOutputToMap(imagesOutput []string) map[string]string {
m := make(map[string]string)
// iterate over output but skip the header
for _, i := range imagesOutput[1:] {
tmp := []string{}
for _, x := range strings.Split(i, " ") {
if x != "" {
tmp = append(tmp, x)
}
}
// podman-images(1) return a list like output
// in the format of "Repository Tag [...]"
if len(tmp) < 2 {
continue
}
m[tmp[0]] = tmp[1]
}
return m
}
//LineInOutputContainsTag returns true if a line in the
// session's output contains the repo-tag pair as returned
// by podman-images(1).
func (s *PodmanSession) LineInOutputContainsTag(repo, tag string) bool {
tagMap := tagOutputToMap(s.OutputToStringArray())
for r, t := range tagMap {
if repo == r && tag == t {
return true
}
}
return false
}
//GetContainerStatus returns the containers state.
// This function assumes only one container is active.
func (p *PodmanTest) GetContainerStatus() string {
var podmanArgs = []string{"ps"}
podmanArgs = append(podmanArgs, "--all", "--format={{.Status}}")
session := p.Podman(podmanArgs)
session.WaitWithDefaultTimeout()
return session.OutputToString()
}
// BuildImage uses podman build and buildah to build an image
// called imageName based on a string dockerfile
func (p *PodmanTest) BuildImage(dockerfile, imageName string) {
dockerfilePath := filepath.Join(p.TempDir, "Dockerfile")
err := ioutil.WriteFile(dockerfilePath, []byte(dockerfile), 0755)
Expect(err).To(BeNil())
session := p.Podman([]string{"build", "-t", imageName, "--file", dockerfilePath, p.TempDir})
session.Wait(120)
Expect(session.ExitCode()).To(Equal(0))
}
//GetHostDistribution returns the dist in string format. If the
//distribution cannot be determined, an empty string will be returned.
func (p *PodmanTest) GetHostDistribution() string {
content, err := ioutil.ReadFile("/etc/os-release")
if err != nil {
return ""
}
for _, line := range content {
if strings.HasPrefix(fmt.Sprintf("%s", line), "ID") {
fields := strings.Split(fmt.Sprintf("%s", line), "=")
if len(fields) < 2 {
return ""
}
return strings.Trim(fields[1], "\"")
}
}
return ""
}
// IsKernelNewThan compares the current kernel version to one provided. If
// the kernel is equal to or greater, returns true
func IsKernelNewThan(version string) (bool, error) {
inputVersion, err := kernel.ParseRelease(version)
if err != nil {
return false, err
}
kv, err := kernel.GetKernelVersion()
if err == nil {
return false, err
}
// CompareKernelVersion compares two kernel.VersionInfo structs.
// Returns -1 if a < b, 0 if a == b, 1 it a > b
result := kernel.CompareKernelVersion(*kv, *inputVersion)
if result >= 0 {
return true, nil
}
return false, nil
}
//Wait process or service inside container start, and ready to be used.
func WaitContainerReady(p *PodmanTest, id string, expStr string, timeout int, step int) bool {
startTime := time.Now()
s := p.Podman([]string{"logs", id})
s.WaitWithDefaultTimeout()
fmt.Println(startTime)
for {
if time.Since(startTime) >= time.Duration(timeout)*time.Second {
return false
}
if strings.Contains(s.OutputToString(), expStr) {
return true
}
time.Sleep(time.Duration(step) * time.Second)
s = p.Podman([]string{"logs", id})
s.WaitWithDefaultTimeout()
}
}
//IsCommandAvaible check if command exist
func IsCommandAvailable(command string) bool {
check := exec.Command("bash", "-c", strings.Join([]string{"command -v", command}, " "))
err := check.Run()
if err != nil {
return false
}
return true
}
func getTestContext() context.Context {
return context.Background()
}
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