blob: 44f141a9102e65b3b11ae7a27004823c7afcd49d [file] [log] [blame]
package hst
import (
"bytes"
"context"
"fmt"
"github.com/docker/go-units"
"os"
"os/exec"
"slices"
"strconv"
"strings"
"text/template"
"time"
containerTypes "github.com/docker/docker/api/types/container"
"github.com/docker/docker/api/types/image"
"github.com/docker/docker/pkg/stdcopy"
"github.com/edwarnicke/exechelper"
. "github.com/onsi/ginkgo/v2"
)
const (
logDir string = "/tmp/hs-test/"
volumeDir string = "/volumes"
)
var (
workDir, _ = os.Getwd()
)
type Volume struct {
HostDir string
ContainerDir string
IsDefaultWorkDir bool
}
type Container struct {
Suite *HstSuite
IsOptional bool
RunDetached bool
Name string
ID string
Image string
ExtraRunningArgs string
Volumes map[string]Volume
EnvVars map[string]string
VppInstance *VppInstance
AllocatedCpus []int
ctx context.Context
}
func newContainer(suite *HstSuite, yamlInput ContainerConfig) (*Container, error) {
containerName := yamlInput["name"].(string)
if len(containerName) == 0 {
err := fmt.Errorf("container name must not be blank")
return nil, err
}
var container = new(Container)
container.Volumes = make(map[string]Volume)
container.EnvVars = make(map[string]string)
container.Name = containerName
container.Suite = suite
container.ctx = context.Background()
if Image, ok := yamlInput["image"]; ok {
container.Image = Image.(string)
} else {
container.Image = "hs-test/vpp"
}
if args, ok := yamlInput["extra-args"]; ok {
container.ExtraRunningArgs = args.(string)
} else {
container.ExtraRunningArgs = ""
}
if isOptional, ok := yamlInput["is-optional"]; ok {
container.IsOptional = isOptional.(bool)
} else {
container.IsOptional = false
}
if runDetached, ok := yamlInput["run-detached"]; ok {
container.RunDetached = runDetached.(bool)
} else {
container.RunDetached = true
}
if _, ok := yamlInput["volumes"]; ok {
workingVolumeDir := logDir + suite.GetCurrentTestName() + volumeDir
workDirReplacer := strings.NewReplacer("$HST_DIR", workDir)
volDirReplacer := strings.NewReplacer("$HST_VOLUME_DIR", workingVolumeDir)
for _, volu := range yamlInput["volumes"].([]interface{}) {
volumeMap := volu.(ContainerConfig)
hostDir := workDirReplacer.Replace(volumeMap["host-dir"].(string))
hostDir = volDirReplacer.Replace(hostDir)
containerDir := volumeMap["container-dir"].(string)
isDefaultWorkDir := false
if isDefault, ok := volumeMap["is-default-work-dir"]; ok {
isDefaultWorkDir = isDefault.(bool)
}
container.addVolume(hostDir, containerDir, isDefaultWorkDir)
}
}
if _, ok := yamlInput["vars"]; ok {
for _, envVar := range yamlInput["vars"].([]interface{}) {
envVarMap := envVar.(ContainerConfig)
name := envVarMap["name"].(string)
value := envVarMap["value"].(string)
container.AddEnvVar(name, value)
}
}
return container, nil
}
func (c *Container) getWorkDirVolume() (res Volume, exists bool) {
for _, v := range c.Volumes {
if v.IsDefaultWorkDir {
res = v
exists = true
return
}
}
return
}
func (c *Container) GetHostWorkDir() (res string) {
if v, ok := c.getWorkDirVolume(); ok {
res = v.HostDir
}
return
}
func (c *Container) GetContainerWorkDir() (res string) {
if v, ok := c.getWorkDirVolume(); ok {
res = v.ContainerDir
}
return
}
func (c *Container) getContainerArguments() string {
args := "--ulimit nofile=90000:90000 --cap-add=all --privileged --network host"
args += c.getVolumesAsCliOption()
args += c.getEnvVarsAsCliOption()
if *VppSourceFileDir != "" {
args += fmt.Sprintf(" -v %s:%s", *VppSourceFileDir, *VppSourceFileDir)
}
args += " --name " + c.Name + " " + c.Image
args += " " + c.ExtraRunningArgs
return args
}
func (c *Container) PullDockerImage(name string, ctx context.Context) {
// "func (*Client) ImagePull" doesn't work, returns "No such image"
c.Suite.Log("Pulling image: " + name)
_, err := exechelper.CombinedOutput("docker pull " + name)
c.Suite.AssertNil(err)
}
// Creates a container
func (c *Container) Create() error {
var sliceOfImageNames []string
images, err := c.Suite.Docker.ImageList(c.ctx, image.ListOptions{})
c.Suite.AssertNil(err)
for _, image := range images {
sliceOfImageNames = append(sliceOfImageNames, strings.Split(image.RepoTags[0], ":")[0])
}
if !slices.Contains(sliceOfImageNames, c.Image) {
c.PullDockerImage(c.Image, c.ctx)
}
c.allocateCpus()
cpuSet := fmt.Sprintf("%d-%d", c.AllocatedCpus[0], c.AllocatedCpus[len(c.AllocatedCpus)-1])
resp, err := c.Suite.Docker.ContainerCreate(
c.ctx,
&containerTypes.Config{
Image: c.Image,
Env: c.getEnvVars(),
Cmd: strings.Split(c.ExtraRunningArgs, " "),
},
&containerTypes.HostConfig{
Resources: containerTypes.Resources{
Ulimits: []*units.Ulimit{
{
Name: "nofile",
Soft: 90000,
Hard: 90000,
},
},
CpusetCpus: cpuSet,
},
CapAdd: []string{"ALL"},
Privileged: true,
NetworkMode: "host",
Binds: c.getVolumesAsSlice(),
},
nil,
nil,
c.Name,
)
c.ID = resp.ID
return err
}
func (c *Container) allocateCpus() {
c.Suite.StartedContainers = append(c.Suite.StartedContainers, c)
c.AllocatedCpus = c.Suite.AllocateCpus()
c.Suite.Log("Allocated CPUs " + fmt.Sprint(c.AllocatedCpus) + " to container " + c.Name)
}
// Starts a container
func (c *Container) Start() error {
var err error
for nTries := 0; nTries < 5; nTries++ {
err = c.Suite.Docker.ContainerStart(c.ctx, c.ID, containerTypes.StartOptions{})
if err == nil {
continue
}
c.Suite.Log("Error while starting " + c.Name + ". Retrying...")
time.Sleep(1 * time.Second)
}
return err
}
func (c *Container) GetOutput() (string, string) {
// Wait for the container to finish executing
statusCh, errCh := c.Suite.Docker.ContainerWait(c.ctx, c.ID, containerTypes.WaitConditionNotRunning)
select {
case err := <-errCh:
c.Suite.AssertNil(err)
case <-statusCh:
}
// Get the logs from the container
logOptions := containerTypes.LogsOptions{ShowStdout: true, ShowStderr: true}
logReader, err := c.Suite.Docker.ContainerLogs(c.ctx, c.ID, logOptions)
c.Suite.AssertNil(err)
defer logReader.Close()
var stdoutBuf, stderrBuf bytes.Buffer
// Use stdcopy.StdCopy to demultiplex the multiplexed stream
_, err = stdcopy.StdCopy(&stdoutBuf, &stderrBuf, logReader)
c.Suite.AssertNil(err)
stdout := stdoutBuf.String()
stderr := stderrBuf.String()
return stdout, stderr
}
func (c *Container) prepareCommand() (string, error) {
if c.Name == "" {
return "", fmt.Errorf("run container failed: name is blank")
}
cmd := "docker exec "
if c.RunDetached {
cmd += " -d"
}
cmd += " " + c.getContainerArguments()
c.Suite.Log(cmd)
return cmd, nil
}
func (c *Container) CombinedOutput() (string, error) {
cmd, err := c.prepareCommand()
if err != nil {
return "", err
}
byteOutput, err := exechelper.CombinedOutput(cmd)
return string(byteOutput), err
}
// Creates and starts a container
func (c *Container) Run() {
c.Suite.AssertNil(c.Create())
c.Suite.AssertNil(c.Start())
}
func (c *Container) addVolume(hostDir string, containerDir string, isDefaultWorkDir bool) {
var volume Volume
volume.HostDir = hostDir
volume.ContainerDir = containerDir
volume.IsDefaultWorkDir = isDefaultWorkDir
c.Volumes[hostDir] = volume
}
func (c *Container) getVolumesAsSlice() []string {
var volumeSlice []string
if *VppSourceFileDir != "" {
volumeSlice = append(volumeSlice, fmt.Sprintf("%s:%s", *VppSourceFileDir, *VppSourceFileDir))
}
if len(c.Volumes) > 0 {
for _, volume := range c.Volumes {
volumeSlice = append(volumeSlice, fmt.Sprintf("%s:%s", volume.HostDir, volume.ContainerDir))
}
}
return volumeSlice
}
func (c *Container) getVolumesAsCliOption() string {
cliOption := ""
if len(c.Volumes) > 0 {
for _, volume := range c.Volumes {
cliOption += fmt.Sprintf(" -v %s:%s", volume.HostDir, volume.ContainerDir)
}
}
return cliOption
}
func (c *Container) AddEnvVar(name string, value string) {
c.EnvVars[name] = value
}
func (c *Container) getEnvVarsAsCliOption() string {
cliOption := ""
if len(c.EnvVars) == 0 {
return cliOption
}
for name, value := range c.EnvVars {
cliOption += fmt.Sprintf(" -e %s=%s", name, value)
}
return cliOption
}
func (c *Container) getEnvVars() []string {
var envVars []string
if len(c.EnvVars) == 0 {
return envVars
}
for name, value := range c.EnvVars {
envVars = append(envVars, fmt.Sprintf("%s=%s", name, value))
}
return envVars
}
func (c *Container) newVppInstance(cpus []int, additionalConfigs ...Stanza) (*VppInstance, error) {
vpp := new(VppInstance)
vpp.Container = c
vpp.Cpus = cpus
vpp.setDefaultCpuConfig()
vpp.AdditionalConfig = append(vpp.AdditionalConfig, additionalConfigs...)
c.VppInstance = vpp
return vpp, nil
}
func (c *Container) copy(sourceFileName string, targetFileName string) error {
cmd := exec.Command("docker", "cp", sourceFileName, c.Name+":"+targetFileName)
return cmd.Run()
}
func (c *Container) CreateFile(destFileName string, content string) error {
f, err := os.CreateTemp("/tmp", "hst-config"+c.Suite.Ppid)
if err != nil {
return err
}
defer os.Remove(f.Name())
if _, err := f.Write([]byte(content)); err != nil {
return err
}
if err := f.Close(); err != nil {
return err
}
c.copy(f.Name(), destFileName)
return nil
}
func (c *Container) GetFile(sourceFileName, targetFileName string) error {
cmd := exec.Command("docker", "cp", c.Name+":"+sourceFileName, targetFileName)
return cmd.Run()
}
/*
* Executes in detached mode so that the started application can continue to run
* without blocking execution of test
*/
func (c *Container) ExecServer(command string, arguments ...any) {
serverCommand := fmt.Sprintf(command, arguments...)
containerExecCommand := "docker exec -d" + c.getEnvVarsAsCliOption() +
" " + c.Name + " " + serverCommand
GinkgoHelper()
c.Suite.Log(containerExecCommand)
c.Suite.AssertNil(exechelper.Run(containerExecCommand))
}
func (c *Container) Exec(command string, arguments ...any) string {
cliCommand := fmt.Sprintf(command, arguments...)
containerExecCommand := "docker exec" + c.getEnvVarsAsCliOption() +
" " + c.Name + " " + cliCommand
GinkgoHelper()
c.Suite.Log(containerExecCommand)
byteOutput, err := exechelper.CombinedOutput(containerExecCommand)
c.Suite.AssertNil(err, fmt.Sprint(err))
return string(byteOutput)
}
func (c *Container) getLogDirPath() string {
testId := c.Suite.GetTestId()
testName := c.Suite.GetCurrentTestName()
logDirPath := logDir + testName + "/" + testId + "/"
cmd := exec.Command("mkdir", "-p", logDirPath)
if err := cmd.Run(); err != nil {
Fail("mkdir error: " + fmt.Sprint(err))
}
return logDirPath
}
func (c *Container) saveLogs() {
testLogFilePath := c.getLogDirPath() + "container-" + c.Name + ".log"
logs, err := c.log(0)
if err != nil {
c.Suite.Log(err)
return
}
f, err := os.Create(testLogFilePath)
if err != nil {
c.Suite.Log(err)
return
}
defer f.Close()
fmt.Fprint(f, logs)
}
// Returns logs from docker containers. Set 'maxLines' to 0 to output the full log.
func (c *Container) log(maxLines int) (string, error) {
var logOptions containerTypes.LogsOptions
if maxLines == 0 {
logOptions = containerTypes.LogsOptions{ShowStdout: true, ShowStderr: true, Details: true}
} else {
logOptions = containerTypes.LogsOptions{ShowStdout: true, ShowStderr: true, Details: true, Tail: strconv.Itoa(maxLines)}
}
out, err := c.Suite.Docker.ContainerLogs(c.ctx, c.ID, logOptions)
if err != nil {
c.Suite.Log(err)
return "", err
}
defer out.Close()
var stdoutBuf, stderrBuf bytes.Buffer
_, err = stdcopy.StdCopy(&stdoutBuf, &stderrBuf, out)
if err != nil {
c.Suite.Log(err)
}
stdout := stdoutBuf.String()
stderr := stderrBuf.String()
if strings.Contains(stdout, "==> /dev/null <==") {
stdout = ""
}
if strings.Contains(stderr, "tail: cannot open") {
stderr = ""
}
return stdout + stderr, err
}
func (c *Container) stop() error {
if c.VppInstance != nil && c.VppInstance.ApiStream != nil {
c.VppInstance.saveLogs()
c.VppInstance.Disconnect()
}
c.VppInstance = nil
c.saveLogs()
c.Suite.Log("Stopping container " + c.Name)
timeout := 0
if err := c.Suite.Docker.ContainerStop(c.ctx, c.ID, containerTypes.StopOptions{Timeout: &timeout}); err != nil {
return err
}
return nil
}
func (c *Container) CreateConfig(targetConfigName string, templateName string, values any) {
template := template.Must(template.ParseFiles(templateName))
f, err := os.CreateTemp(logDir, "hst-config")
c.Suite.AssertNil(err, err)
defer os.Remove(f.Name())
err = template.Execute(f, values)
c.Suite.AssertNil(err, err)
err = f.Close()
c.Suite.AssertNil(err, err)
c.copy(f.Name(), targetConfigName)
}
func init() {
cmd := exec.Command("mkdir", "-p", logDir)
if err := cmd.Run(); err != nil {
panic(err)
}
}