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package utils
import (
"bufio"
"encoding/json"
"fmt"
"io/ioutil"
"os"
"os/exec"
"runtime"
"strings"
"time"
"github.com/containers/storage/pkg/parsers/kernel"
. "github.com/onsi/ginkgo"
. "github.com/onsi/gomega"
"github.com/onsi/gomega/gexec"
)
var (
defaultWaitTimeout = 90
OSReleasePath = "/etc/os-release"
ProcessOneCgroupPath = "/proc/1/cgroup"
)
// PodmanTestCommon contains common functions will be updated later in
// the inheritance structs
type PodmanTestCommon interface {
MakeOptions(args []string, noEvents, noCache bool) []string
WaitForContainer() bool
WaitContainerReady(id string, expStr string, timeout int, step int) bool
}
// PodmanTest struct for command line options
type PodmanTest struct {
PodmanMakeOptions func(args []string, noEvents, noCache bool) []string
PodmanBinary string
ArtifactPath string
TempDir string
RemoteTest bool
RemotePodmanBinary string
RemoteSession *os.Process
RemoteSocket string
RemoteCommand *exec.Cmd
ImageCacheDir string
ImageCacheFS string
}
// PodmanSession wraps the gexec.session so we can extend it
type PodmanSession struct {
*gexec.Session
}
// HostOS is a simple struct for the test os
type HostOS struct {
Distribution string
Version string
Arch string
}
// MakeOptions assembles all podman options
func (p *PodmanTest) MakeOptions(args []string, noEvents, noCache bool) []string {
return p.PodmanMakeOptions(args, noEvents, noCache)
}
// PodmanAsUserBase exec podman as user. uid and gid is set for credentials usage. env is used
// to record the env for debugging
func (p *PodmanTest) PodmanAsUserBase(args []string, uid, gid uint32, cwd string, env []string, noEvents, noCache bool, extraFiles []*os.File) *PodmanSession {
var command *exec.Cmd
podmanOptions := p.MakeOptions(args, noEvents, noCache)
podmanBinary := p.PodmanBinary
if p.RemoteTest {
podmanBinary = p.RemotePodmanBinary
}
if p.RemoteTest {
podmanOptions = append([]string{"--remote", "--url", p.RemoteSocket}, podmanOptions...)
}
if env == nil {
fmt.Printf("Running: %s %s\n", podmanBinary, strings.Join(podmanOptions, " "))
} else {
fmt.Printf("Running: (env: %v) %s %s\n", env, podmanBinary, strings.Join(podmanOptions, " "))
}
if uid != 0 || gid != 0 {
pythonCmd := fmt.Sprintf("import os; import sys; uid = %d; gid = %d; cwd = '%s'; os.setgid(gid); os.setuid(uid); os.chdir(cwd) if len(cwd)>0 else True; os.execv(sys.argv[1], sys.argv[1:])", gid, uid, cwd)
nsEnterOpts := append([]string{"-c", pythonCmd, podmanBinary}, podmanOptions...)
command = exec.Command("python", nsEnterOpts...)
} else {
command = exec.Command(podmanBinary, podmanOptions...)
}
if env != nil {
command.Env = env
}
if cwd != "" {
command.Dir = cwd
}
command.ExtraFiles = extraFiles
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}
}
// PodmanBase exec podman with default env.
func (p *PodmanTest) PodmanBase(args []string, noEvents, noCache bool) *PodmanSession {
return p.PodmanAsUserBase(args, 0, 0, "", nil, noEvents, noCache, nil)
}
// WaitForContainer waits on a started container
func (p *PodmanTest) WaitForContainer() bool {
for i := 0; i < 10; i++ {
if p.NumberOfContainersRunning() > 0 {
return true
}
time.Sleep(1 * time.Second)
}
return false
}
// NumberOfContainersRunning returns an int of how many
// containers are currently running.
func (p *PodmanTest) NumberOfContainersRunning() int {
var containers []string
ps := p.PodmanBase([]string{"ps", "-q"}, false, true)
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.PodmanBase([]string{"ps", "-aq"}, false, true)
ps.WaitWithDefaultTimeout()
Expect(ps.ExitCode()).To(Equal(0))
for _, i := range ps.OutputToStringArray() {
if i != "" {
containers = append(containers, i)
}
}
return len(containers)
}
// NumberOfPods returns an int of how many
// pods are currently defined.
func (p *PodmanTest) NumberOfPods() int {
var pods []string
ps := p.PodmanBase([]string{"pod", "ps", "-q"}, false, true)
ps.WaitWithDefaultTimeout()
Expect(ps.ExitCode()).To(Equal(0))
for _, i := range ps.OutputToStringArray() {
if i != "" {
pods = append(pods, i)
}
}
return len(pods)
}
// 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.PodmanBase(podmanArgs, false, true)
session.WaitWithDefaultTimeout()
return session.OutputToString()
}
// WaitContainerReady waits process or service inside container start, and ready to be used.
func (p *PodmanTest) WaitContainerReady(id string, expStr string, timeout int, step int) bool {
startTime := time.Now()
s := p.PodmanBase([]string{"logs", id}, false, true)
s.WaitWithDefaultTimeout()
for {
if time.Since(startTime) >= time.Duration(timeout)*time.Second {
fmt.Printf("Container %s is not ready in %ds", id, timeout)
return false
}
if strings.Contains(s.OutputToString(), expStr) {
return true
}
time.Sleep(time.Duration(step) * time.Second)
s = p.PodmanBase([]string{"logs", id}, false, true)
s.WaitWithDefaultTimeout()
}
}
// WaitForContainer is a wrapper function for accept inheritance PodmanTest struct.
func WaitForContainer(p PodmanTestCommon) bool {
return p.WaitForContainer()
}
// WaitForContainerReady is a wrapper function for accept inheritance PodmanTest struct.
func WaitContainerReady(p PodmanTestCommon, id string, expStr string, timeout int, step int) bool {
return p.WaitContainerReady(id, expStr, timeout, step)
}
// OutputToString formats session output to string
func (s *PodmanSession) OutputToString() string {
if s == nil || s.Out == nil || s.Out.Contents() == nil {
return ""
}
fields := strings.Fields(string(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 {
var results []string
output := string(s.Out.Contents())
for _, line := range strings.Split(output, "\n") {
if line != "" {
results = append(results, line)
}
}
return results
}
// ErrorToString formats session stderr to string
func (s *PodmanSession) ErrorToString() string {
fields := strings.Fields(string(s.Err.Contents()))
return strings.Join(fields, " ")
}
// ErrorToStringArray returns the stderr output as a []string
// where each array item is a line split by newline
func (s *PodmanSession) ErrorToStringArray() []string {
output := string(s.Err.Contents())
return strings.Split(output, "\n")
}
// 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 s.OutputToStringArray() {
if strings.Contains(line, term) {
matches = true
greps = append(greps, line)
}
}
return matches, greps
}
// ErrorGrepString takes session stderr output and behaves like grep. it returns a bool
// if successful and an array of strings on positive matches
func (s *PodmanSession) ErrorGrepString(term string) (bool, []string) {
var (
greps []string
matches bool
)
for _, line := range s.ErrorToStringArray() {
if strings.Contains(line, term) {
matches = true
greps = append(greps, line)
}
}
return matches, greps
}
// 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 contains the supplied string
func (s *PodmanSession) LineInOutputContains(term string) bool {
for _, i := range s.OutputToStringArray() {
if strings.Contains(i, term) {
return true
}
}
return false
}
// 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())
return tagMap[repo][tag]
}
// 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
}
// WaitWithDefaultTimeout waits for process finished with defaultWaitTimeout
func (s *PodmanSession) WaitWithDefaultTimeout() {
Eventually(s, defaultWaitTimeout).Should(gexec.Exit())
os.Stdout.Sync()
os.Stderr.Sync()
fmt.Println("output:", s.OutputToString())
}
// CreateTempDirinTempDir create a temp dir with prefix podman_test
func CreateTempDirInTempDir() (string, error) {
return ioutil.TempDir("", "podman_test")
}
// SystemExec is used to exec a system command to check its exit code or output
func 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, " ")))
}
session.Wait(defaultWaitTimeout)
return &PodmanSession{session}
}
// StartSystemExec is used to start exec a system command
func StartSystemExec(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}
}
// 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
}
// tagOutPutToMap parses each string in imagesOutput and returns
// a map whose key is a repo, and value is another map whose keys
// are the tags found for that repo. Notice, the first array item will
// be skipped as it's considered to be the header.
func tagOutputToMap(imagesOutput []string) map[string]map[string]bool {
m := make(map[string]map[string]bool)
// 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
}
if m[tmp[0]] == nil {
m[tmp[0]] = map[string]bool{}
}
m[tmp[0]][tmp[1]] = true
}
return m
}
// GetHostDistributionInfo returns a struct with its distribution name and version
func GetHostDistributionInfo() HostOS {
f, err := os.Open(OSReleasePath)
defer f.Close()
if err != nil {
return HostOS{}
}
l := bufio.NewScanner(f)
host := HostOS{}
host.Arch = runtime.GOARCH
for l.Scan() {
if strings.HasPrefix(l.Text(), "ID=") {
host.Distribution = strings.Replace(strings.TrimSpace(strings.Join(strings.Split(l.Text(), "=")[1:], "")), "\"", "", -1)
}
if strings.HasPrefix(l.Text(), "VERSION_ID=") {
host.Version = strings.Replace(strings.TrimSpace(strings.Join(strings.Split(l.Text(), "=")[1:], "")), "\"", "", -1)
}
}
return host
}
// IsKernelNewerThan compares the current kernel version to one provided. If
// the kernel is equal to or greater, returns true
func IsKernelNewerThan(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
}
// 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
}
// WriteJsonFile write json format data to a json file
func WriteJsonFile(data []byte, filePath string) error {
var jsonData map[string]interface{}
json.Unmarshal(data, &jsonData)
formatJson, _ := json.MarshalIndent(jsonData, "", " ")
return ioutil.WriteFile(filePath, formatJson, 0644)
}
// Containerized check the podman command run inside container
func Containerized() bool {
container := os.Getenv("container")
if container != "" {
return true
}
b, err := ioutil.ReadFile(ProcessOneCgroupPath)
if err != nil {
// shrug, if we cannot read that file, return false
return false
}
if strings.Index(string(b), "docker") > -1 {
return true
}
return false
}
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