package docker import ( "archive/tar" "bytes" "encoding/base64" "encoding/json" "fmt" "io" "io/ioutil" "math/rand" "net/http" "os" "path" "path/filepath" "runtime" "strings" "syscall" "time" dockermessage "github.com/docker/docker/pkg/jsonmessage" dockerstdcopy "github.com/docker/docker/pkg/stdcopy" dockerapi "github.com/docker/engine-api/client" dockertypes "github.com/docker/engine-api/types" dockercontainer "github.com/docker/engine-api/types/container" dockernetwork "github.com/docker/engine-api/types/network" "github.com/docker/go-connections/tlsconfig" "golang.org/x/net/context" "github.com/openshift/source-to-image/pkg/api" "github.com/openshift/source-to-image/pkg/errors" s2itar "github.com/openshift/source-to-image/pkg/tar" "github.com/openshift/source-to-image/pkg/util" "github.com/openshift/source-to-image/pkg/util/interrupt" ) const ( // ScriptsURLEnvironment is a deprecated environment variable name that // specifies where to look for S2I scripts. Use ScriptsURLLabel instead. ScriptsURLEnvironment = "STI_SCRIPTS_URL" // LocationEnvironment is a deprecated environment variable name that // specifies where to place artifacts in a builder image. Use // DestinationLabel instead. LocationEnvironment = "STI_LOCATION" // ScriptsURLLabel is the name of the Docker image LABEL that tells S2I where // to look for the S2I scripts. This label is also copied into the output // image. // The previous name of this label was 'io.s2i.scripts-url'. This is now // deprecated. ScriptsURLLabel = api.DefaultNamespace + "scripts-url" // DestinationLabel is the name of the Docker image LABEL that tells S2I where // to place the artifacts (scripts, sources) in the builder image. // The previous name of this label was 'io.s2i.destination'. This is now // deprecated DestinationLabel = api.DefaultNamespace + "destination" // AssembleInputFilesLabel is the name of the Docker image LABEL that tells S2I which // files wil be copied from builder to a runtime image. AssembleInputFilesLabel = api.DefaultNamespace + "assemble-input-files" // DefaultDestination is the destination where the artifacts will be placed // if DestinationLabel was not specified. DefaultDestination = "/tmp" // DefaultTag is the image tag, being applied if none is specified. DefaultTag = "latest" // DefaultDockerTimeout specifies a timeout for Docker API calls. When this // timeout is reached, certain Docker API calls might error out. DefaultDockerTimeout = 2 * time.Minute // DefaultShmSize is the default shared memory size to use (in bytes) if not specified. DefaultShmSize = int64(1024 * 1024 * 64) ) // containerNamePrefix prefixes the name of containers launched by S2I. We // cannot reuse the prefix "k8s" because we don't want the containers to be // managed by a kubelet. const containerNamePrefix = "s2i" // containerName creates names for Docker containers launched by S2I. It is // meant to resemble Kubernetes' pkg/kubelet/dockertools.BuildDockerName. func containerName(image string) string { uid := fmt.Sprintf("%08x", rand.Uint32()) // Replace invalid characters for container name with underscores. image = strings.Map(func(r rune) rune { if ('0' <= r && r <= '9') || ('A' <= r && r <= 'Z') || ('a' <= r && r <= 'z') { return r } return '_' }, image) return fmt.Sprintf("%s_%s_%s", containerNamePrefix, image, uid) } // Docker is the interface between STI and the docker engine-api. // It contains higher level operations called from the STI // build or usage commands type Docker interface { IsImageInLocalRegistry(name string) (bool, error) IsImageOnBuild(string) bool GetOnBuild(string) ([]string, error) RemoveContainer(id string) error GetScriptsURL(name string) (string, error) GetAssembleInputFiles(string) (string, error) RunContainer(opts RunContainerOptions) error GetImageID(name string) (string, error) GetImageWorkdir(name string) (string, error) CommitContainer(opts CommitContainerOptions) (string, error) RemoveImage(name string) error CheckImage(name string) (*api.Image, error) PullImage(name string) (*api.Image, error) CheckAndPullImage(name string) (*api.Image, error) BuildImage(opts BuildImageOptions) error GetImageUser(name string) (string, error) GetImageEntrypoint(name string) ([]string, error) GetLabels(name string) (map[string]string, error) UploadToContainer(fs util.FileSystem, srcPath, destPath, container string) error UploadToContainerWithTarWriter(fs util.FileSystem, srcPath, destPath, container string, makeTarWriter func(io.Writer) s2itar.Writer) error DownloadFromContainer(containerPath string, w io.Writer, container string) error Version() (dockertypes.Version, error) } // Client contains all methods used when interacting directly with docker engine-api type Client interface { ContainerAttach(ctx context.Context, container string, options dockertypes.ContainerAttachOptions) (dockertypes.HijackedResponse, error) ContainerCommit(ctx context.Context, container string, options dockertypes.ContainerCommitOptions) (dockertypes.ContainerCommitResponse, error) ContainerCreate(ctx context.Context, config *dockercontainer.Config, hostConfig *dockercontainer.HostConfig, networkingConfig *dockernetwork.NetworkingConfig, containerName string) (dockertypes.ContainerCreateResponse, error) ContainerInspect(ctx context.Context, containerID string) (dockertypes.ContainerJSON, error) ContainerRemove(ctx context.Context, containerID string, options dockertypes.ContainerRemoveOptions) error ContainerStart(ctx context.Context, containerID string) error ContainerWait(ctx context.Context, containerID string) (int, error) CopyToContainer(ctx context.Context, container, path string, content io.Reader, opts dockertypes.CopyToContainerOptions) error CopyFromContainer(ctx context.Context, container, srcPath string) (io.ReadCloser, dockertypes.ContainerPathStat, error) ImageBuild(ctx context.Context, buildContext io.Reader, options dockertypes.ImageBuildOptions) (dockertypes.ImageBuildResponse, error) ImageInspectWithRaw(ctx context.Context, imageID string, getSize bool) (dockertypes.ImageInspect, []byte, error) ImagePull(ctx context.Context, ref string, options dockertypes.ImagePullOptions) (io.ReadCloser, error) ImageRemove(ctx context.Context, imageID string, options dockertypes.ImageRemoveOptions) ([]dockertypes.ImageDelete, error) ServerVersion(ctx context.Context) (dockertypes.Version, error) } type stiDocker struct { client Client pullAuth dockertypes.AuthConfig } // InspectImage returns the image information and its raw representation. func (d stiDocker) InspectImage(name string) (*dockertypes.ImageInspect, error) { ctx, cancel := getDefaultContext() defer cancel() resp, _, err := d.client.ImageInspectWithRaw(ctx, name, false) if err != nil { return nil, err } return &resp, nil } // PostExecutor is an interface which provides a PostExecute function type PostExecutor interface { PostExecute(containerID, destination string) error } // PullResult is the result returned by the PullImage function type PullResult struct { OnBuild bool Image *api.Image } // RunContainerOptions are options passed in to the RunContainer method type RunContainerOptions struct { Image string PullImage bool PullAuth api.AuthConfig ExternalScripts bool ScriptsURL string Destination string Env []string // Entrypoint will be used to override the default entrypoint // for the image if it has one. If the image has no entrypoint, // this value is ignored. Entrypoint []string Stdin io.Reader Stdout io.WriteCloser Stderr io.WriteCloser OnStart func(containerID string) error PostExec PostExecutor TargetImage bool NetworkMode string User string CGroupLimits *api.CGroupLimits CapDrop []string Binds []string Command string CommandOverrides func(originalCmd string) string // CommandExplicit provides a full control on the CMD directive. // It won't modified in any way and will be passed to the docker as-is. // Use this option when you want to use arbitrary command as CMD directive. // In this case you can't use Command because 1) it's just a string // 2) it will be modified by prepending base dir and cleaned by the path.Join(). // You also can't use CommandOverrides because 1) it's a string // 2) it only gets applied when Command equals to "assemble" or "usage" script // AND script is inside of the tar archive. CommandExplicit []string } // asDockerConfig converts a RunContainerOptions into a Config understood by the // docker client func (rco RunContainerOptions) asDockerConfig() dockercontainer.Config { return dockercontainer.Config{ Image: getImageName(rco.Image), User: rco.User, Env: rco.Env, Entrypoint: rco.Entrypoint, OpenStdin: rco.Stdin != nil, StdinOnce: rco.Stdin != nil, AttachStdout: rco.Stdout != nil, } } // asDockerHostConfig converts a RunContainerOptions into a HostConfig // understood by the docker client func (rco RunContainerOptions) asDockerHostConfig() dockercontainer.HostConfig { hostConfig := dockercontainer.HostConfig{ CapDrop: rco.CapDrop, PublishAllPorts: rco.TargetImage, NetworkMode: dockercontainer.NetworkMode(rco.NetworkMode), Binds: rco.Binds, } if rco.CGroupLimits != nil { hostConfig.Resources.Memory = rco.CGroupLimits.MemoryLimitBytes hostConfig.Resources.MemorySwap = rco.CGroupLimits.MemorySwap hostConfig.Resources.CPUShares = rco.CGroupLimits.CPUShares hostConfig.Resources.CPUQuota = rco.CGroupLimits.CPUQuota hostConfig.Resources.CPUPeriod = rco.CGroupLimits.CPUPeriod } return hostConfig } // asDockerCreateContainerOptions converts a RunContainerOptions into a // ContainerCreateConfig understood by the docker client func (rco RunContainerOptions) asDockerCreateContainerOptions() dockertypes.ContainerCreateConfig { config := rco.asDockerConfig() hostConfig := rco.asDockerHostConfig() return dockertypes.ContainerCreateConfig{ Name: containerName(rco.Image), Config: &config, HostConfig: &hostConfig, } } // asDockerAttachToContainerOptions converts a RunContainerOptions into a // ContainerAttachOptions understood by the docker client func (rco RunContainerOptions) asDockerAttachToContainerOptions() dockertypes.ContainerAttachOptions { return dockertypes.ContainerAttachOptions{ Stdin: rco.Stdin != nil, Stdout: rco.Stdout != nil, Stderr: rco.Stderr != nil, Stream: rco.Stdout != nil, } } // CommitContainerOptions are options passed in to the CommitContainer method type CommitContainerOptions struct { ContainerID string Repository string User string Command []string Env []string Entrypoint []string Labels map[string]string } // BuildImageOptions are options passed in to the BuildImage method type BuildImageOptions struct { Name string Stdin io.Reader Stdout io.Writer CGroupLimits *api.CGroupLimits } // NewEngineAPIClient creates a new Docker engine API client func NewEngineAPIClient(config *api.DockerConfig) (*dockerapi.Client, error) { var httpClient *http.Client if config.UseTLS || config.TLSVerify { tlscOptions := tlsconfig.Options{ InsecureSkipVerify: !config.TLSVerify, } if _, err := os.Stat(config.CAFile); !os.IsNotExist(err) { tlscOptions.CAFile = config.CAFile } if _, err := os.Stat(config.CertFile); !os.IsNotExist(err) { tlscOptions.CertFile = config.CertFile } if _, err := os.Stat(config.KeyFile); !os.IsNotExist(err) { tlscOptions.KeyFile = config.KeyFile } tlsc, err := tlsconfig.Client(tlscOptions) if err != nil { return nil, err } httpClient = &http.Client{ Transport: &http.Transport{ TLSClientConfig: tlsc, }, } } return dockerapi.NewClient(config.Endpoint, os.Getenv("DOCKER_API_VERSION"), httpClient, nil) } // New creates a new implementation of the STI Docker interface func New(config *api.DockerConfig, auth api.AuthConfig) (Docker, error) { client, err := NewEngineAPIClient(config) if err != nil { return nil, err } return &stiDocker{ client: client, pullAuth: dockertypes.AuthConfig{ Username: auth.Username, Password: auth.Password, Email: auth.Email, ServerAddress: auth.ServerAddress, }, }, nil } func getDefaultContext() (context.Context, context.CancelFunc) { // the intention is: all docker API calls with the exception of known long- // running calls (ContainerWait, ImagePull, ImageBuild) must complete within a // certain timeout otherwise we bail. return context.WithTimeout(context.Background(), DefaultDockerTimeout) } // GetImageWorkdir returns the WORKDIR property for the given image name. // When the WORKDIR is not set or empty, return "/" instead. func (d *stiDocker) GetImageWorkdir(name string) (string, error) { resp, err := d.InspectImage(name) if err != nil { return "", err } workdir := resp.Config.WorkingDir if len(workdir) == 0 { // This is a default destination used by UploadToContainer when the WORKDIR // is not set or it is empty. To show user where the injections will end up, // we set this to "/". workdir = "/" } return workdir, nil } // GetImageEntrypoint returns the ENTRYPOINT property for the given image name. func (d *stiDocker) GetImageEntrypoint(name string) ([]string, error) { image, err := d.InspectImage(name) if err != nil { return nil, err } return image.Config.Entrypoint, nil } // UploadToContainer uploads artifacts to the container. func (d *stiDocker) UploadToContainer(fs util.FileSystem, src, dest, container string) error { makeWorldWritable := func(writer io.Writer) s2itar.Writer { return s2itar.ChmodAdapter{Writer: tar.NewWriter(writer), NewFileMode: 0666, NewExecFileMode: 0666, NewDirMode: 0777} } return d.UploadToContainerWithTarWriter(fs, src, dest, container, makeWorldWritable) } // UploadToContainerWithTarWriter uploads artifacts to the container. // If the source is a directory, then all files and sub-folders are copied into // the destination (which has to be directory as well). // If the source is a single file, then the file copied into destination (which // has to be full path to a file inside the container). func (d *stiDocker) UploadToContainerWithTarWriter(fs util.FileSystem, src, dest, container string, makeTarWriter func(io.Writer) s2itar.Writer) error { path := filepath.Dir(dest) r, w := io.Pipe() go func() { tarWriter := makeTarWriter(w) tarWriter = s2itar.RenameAdapter{Writer: tarWriter, Old: filepath.Base(src), New: filepath.Base(dest)} err := s2itar.New(fs).CreateTarStreamToTarWriter(src, true, tarWriter, nil) if err == nil { err = tarWriter.Close() } w.CloseWithError(err) }() glog.V(3).Infof("Uploading %q to %q ...", src, path) ctx, cancel := getDefaultContext() defer cancel() err := d.client.CopyToContainer(ctx, container, path, r, dockertypes.CopyToContainerOptions{}) if err != nil { glog.V(0).Infof("error: Uploading to container failed: %v", err) } return err } // DownloadFromContainer downloads file (or directory) from the container. func (d *stiDocker) DownloadFromContainer(containerPath string, w io.Writer, container string) error { ctx, cancel := getDefaultContext() defer cancel() readCloser, _, err := d.client.CopyFromContainer(ctx, container, containerPath) if err != nil { return err } defer readCloser.Close() _, err = io.Copy(w, readCloser) return err } // IsImageInLocalRegistry determines whether the supplied image is in the local registry. func (d *stiDocker) IsImageInLocalRegistry(name string) (bool, error) { name = getImageName(name) resp, err := d.InspectImage(name) if resp != nil { return true, nil } if err != nil && !dockerapi.IsErrImageNotFound(err) { return false, errors.NewInspectImageError(name, err) } return false, nil } // GetImageUser finds and retrieves the user associated with // an image if one has been specified func (d *stiDocker) GetImageUser(name string) (string, error) { name = getImageName(name) resp, err := d.InspectImage(name) if err != nil { glog.V(4).Infof("error inspecting image %s: %v", name, err) return "", errors.NewInspectImageError(name, err) } user := resp.ContainerConfig.User if len(user) == 0 { user = resp.Config.User } return user, nil } // Version returns information of the docker client and server host func (d *stiDocker) Version() (dockertypes.Version, error) { ctx, cancel := getDefaultContext() defer cancel() return d.client.ServerVersion(ctx) } // IsImageOnBuild provides information about whether the Docker image has // OnBuild instruction recorded in the Image Config. func (d *stiDocker) IsImageOnBuild(name string) bool { onbuild, err := d.GetOnBuild(name) return err == nil && len(onbuild) > 0 } // GetOnBuild returns the set of ONBUILD Dockerfile commands to execute // for the given image func (d *stiDocker) GetOnBuild(name string) ([]string, error) { name = getImageName(name) resp, err := d.InspectImage(name) if err != nil { glog.V(4).Infof("error inspecting image %s: %v", name, err) return nil, errors.NewInspectImageError(name, err) } return resp.Config.OnBuild, nil } // CheckAndPullImage pulls an image into the local registry if not present // and returns the image metadata func (d *stiDocker) CheckAndPullImage(name string) (*api.Image, error) { name = getImageName(name) displayName := name if !glog.Is(3) { // For less verbose log levels (less than 3), shorten long iamge names like: // "centos/php-56-centos7@sha256:51c3e2b08bd9fadefccd6ec42288680d6d7f861bdbfbd2d8d24960621e4e27f5" // to include just enough characters to differentiate the build from others in the docker repository: // "centos/php-56-centos7@sha256:51c3e2b08bd..." // 18 characters is somewhat arbitrary, but should be enough to avoid a name collision. split := strings.Split(name, "@") if len(split) > 1 && len(split[1]) > 18 { displayName = split[0] + "@" + split[1][:18] + "..." } } image, err := d.CheckImage(name) if err != nil && !strings.Contains(err.(errors.Error).Details.Error(), "No such image") { return nil, err } if image == nil { glog.V(1).Infof("Image %q not available locally, pulling ...", displayName) return d.PullImage(name) } glog.V(3).Infof("Using locally available image %q", displayName) return image, nil } // CheckImage checks image from the local registry. func (d *stiDocker) CheckImage(name string) (*api.Image, error) { name = getImageName(name) inspect, err := d.InspectImage(name) if err != nil { glog.V(4).Infof("error inspecting image %s: %v", name, err) return nil, errors.NewInspectImageError(name, err) } if inspect != nil { image := &api.Image{} updateImageWithInspect(image, inspect) return image, nil } return nil, nil } func base64EncodeAuth(auth dockertypes.AuthConfig) (string, error) { var buf bytes.Buffer if err := json.NewEncoder(&buf).Encode(auth); err != nil { return "", err } return base64.URLEncoding.EncodeToString(buf.Bytes()), nil } // PullImage pulls an image into the local registry func (d *stiDocker) PullImage(name string) (*api.Image, error) { name = getImageName(name) // RegistryAuth is the base64 encoded credentials for the registry base64Auth, err := base64EncodeAuth(d.pullAuth) if err != nil { return nil, errors.NewPullImageError(name, err) } err = util.TimeoutAfter(DefaultDockerTimeout, fmt.Sprintf("pulling image %q", name), func(timer *time.Timer) error { resp, pullErr := d.client.ImagePull(context.Background(), name, dockertypes.ImagePullOptions{RegistryAuth: base64Auth}) if pullErr != nil { return pullErr } defer resp.Close() decoder := json.NewDecoder(resp) for { if !timer.Stop() { return &util.TimeoutError{} } timer.Reset(DefaultDockerTimeout) var msg dockermessage.JSONMessage pullErr = decoder.Decode(&msg) if pullErr == io.EOF { return nil } if pullErr != nil { return pullErr } if msg.Error != nil { return msg.Error } if msg.ProgressMessage != "" { glog.V(4).Infof("pulling image %s: %s", name, msg.ProgressMessage) } } }) if err != nil { return nil, errors.NewPullImageError(name, err) } inspectResp, err := d.InspectImage(name) if err != nil { return nil, errors.NewPullImageError(name, err) } if inspectResp != nil { image := &api.Image{} updateImageWithInspect(image, inspectResp) return image, nil } return nil, nil } func updateImageWithInspect(image *api.Image, inspect *dockertypes.ImageInspect) { image.ID = inspect.ID if inspect.Config != nil { image.Config = &api.ContainerConfig{ Labels: inspect.Config.Labels, Env: inspect.Config.Env, } } if inspect.ContainerConfig != nil { image.ContainerConfig = &api.ContainerConfig{ Labels: inspect.ContainerConfig.Labels, Env: inspect.ContainerConfig.Env, } } } // RemoveContainer removes a container and its associated volumes. func (d *stiDocker) RemoveContainer(id string) error { ctx, cancel := getDefaultContext() defer cancel() opts := dockertypes.ContainerRemoveOptions{ RemoveVolumes: true, Force: true, } return d.client.ContainerRemove(ctx, id, opts) } // GetLabels retrieves the labels of the given image. func (d *stiDocker) GetLabels(name string) (map[string]string, error) { name = getImageName(name) resp, err := d.InspectImage(name) if err != nil { glog.V(4).Infof("error inspecting image %s: %v", name, err) return nil, errors.NewInspectImageError(name, err) } return resp.Config.Labels, nil } // getImageName checks the image name and adds DefaultTag if none is specified func getImageName(name string) string { _, tag, id := parseRepositoryTag(name) if len(tag) == 0 && len(id) == 0 { //_, tag, _ := parseRepositoryTag(name) //if len(tag) == 0 { return strings.Join([]string{name, DefaultTag}, ":") } return name } // getLabel gets label's value from the image metadata func getLabel(image *api.Image, name string) string { if value, ok := image.Config.Labels[name]; ok { return value } if value, ok := image.ContainerConfig.Labels[name]; ok { return value } return "" } // getVariable gets environment variable's value from the image metadata func getVariable(image *api.Image, name string) string { envName := name + "=" env := append(image.ContainerConfig.Env, image.Config.Env...) for _, v := range env { if strings.HasPrefix(v, envName) { return strings.TrimSpace((v[len(envName):])) } } return "" } // GetScriptsURL finds a scripts-url label on the given image. func (d *stiDocker) GetScriptsURL(image string) (string, error) { imageMetadata, err := d.CheckAndPullImage(image) if err != nil { return "", err } return getScriptsURL(imageMetadata), nil } // GetAssembleInputFiles finds a io.openshift.s2i.assemble-input-files label on the given image. func (d *stiDocker) GetAssembleInputFiles(image string) (string, error) { imageMetadata, err := d.CheckAndPullImage(image) if err != nil { return "", err } label := getLabel(imageMetadata, AssembleInputFilesLabel) if len(label) == 0 { glog.V(0).Infof("warning: Image %q does not contain a value for the %s label", image, AssembleInputFilesLabel) } else { glog.V(3).Infof("Image %q contains %s set to %q", image, AssembleInputFilesLabel, label) } return label, nil } // getScriptsURL finds a scripts url label in the image metadata func getScriptsURL(image *api.Image) string { if image == nil { return "" } scriptsURL := getLabel(image, ScriptsURLLabel) // For backward compatibility, support the old label schema if len(scriptsURL) == 0 { scriptsURL = getLabel(image, "io.s2i.scripts-url") if len(scriptsURL) > 0 { glog.V(0).Infof("warning: Image %s uses deprecated label 'io.s2i.scripts-url', please migrate it to %s instead!", image.ID, ScriptsURLLabel) } } if len(scriptsURL) == 0 { scriptsURL = getVariable(image, ScriptsURLEnvironment) if len(scriptsURL) != 0 { glog.V(0).Infof("warning: Image %s uses deprecated environment variable %s, please migrate it to %s label instead!", image.ID, ScriptsURLEnvironment, ScriptsURLLabel) } } if len(scriptsURL) == 0 { glog.V(0).Infof("warning: Image %s does not contain a value for the %s label", image.ID, ScriptsURLLabel) } else { glog.V(2).Infof("Image %s contains %s set to %q", image.ID, ScriptsURLLabel, scriptsURL) } return scriptsURL } // getDestination finds a destination label in the image metadata func getDestination(image *api.Image) string { if val := getLabel(image, DestinationLabel); len(val) != 0 { return val } // For backward compatibility, support the old label schema if val := getLabel(image, "io.s2i.destination"); len(val) != 0 { glog.V(0).Infof("warning: Image %s uses deprecated label 'io.s2i.destination', please migrate it to %s instead!", image.ID, DestinationLabel) return val } if val := getVariable(image, LocationEnvironment); len(val) != 0 { glog.V(0).Infof("warning: Image %s uses deprecated environment variable %s, please migrate it to %s label instead!", image.ID, LocationEnvironment, DestinationLabel) return val } // default directory if none is specified return DefaultDestination } func constructCommand(opts RunContainerOptions, imageMetadata *api.Image, tarDestination string) []string { // base directory for all S2I commands commandBaseDir := determineCommandBaseDir(opts, imageMetadata, tarDestination) // NOTE: We use path.Join instead of filepath.Join to avoid converting the // path to UNC (Windows) format as we always run this inside container. binaryToRun := path.Join(commandBaseDir, opts.Command) // when calling assemble script with Stdin parameter set (the tar file) // we need to first untar the whole archive and only then call the assemble script if opts.Stdin != nil && (opts.Command == api.Assemble || opts.Command == api.Usage) { untarAndRun := fmt.Sprintf("tar -C %s -xf - && %s", tarDestination, binaryToRun) resultedCommand := untarAndRun if opts.CommandOverrides != nil { resultedCommand = opts.CommandOverrides(untarAndRun) } return []string{"/bin/sh", "-c", resultedCommand} } return []string{binaryToRun} } func determineTarDestinationDir(opts RunContainerOptions, imageMetadata *api.Image) string { if len(opts.Destination) != 0 { return opts.Destination } return getDestination(imageMetadata) } func determineCommandBaseDir(opts RunContainerOptions, imageMetadata *api.Image, tarDestination string) string { if opts.ExternalScripts { // for external scripts we must always append 'scripts' because this is // the default subdirectory inside tar for them // NOTE: We use path.Join instead of filepath.Join to avoid converting the // path to UNC (Windows) format as we always run this inside container. glog.V(2).Infof("Both scripts and untarred source will be placed in '%s'", tarDestination) return path.Join(tarDestination, "scripts") } // for internal scripts we can have separate path for scripts and untar operation destination scriptsURL := opts.ScriptsURL if len(scriptsURL) == 0 { scriptsURL = getScriptsURL(imageMetadata) } commandBaseDir := strings.TrimPrefix(scriptsURL, "image://") glog.V(2).Infof("Base directory for S2I scripts is '%s'. Untarring destination is '%s'.", commandBaseDir, tarDestination) return commandBaseDir } // dumpContainerInfo dumps information about a running container (port/IP/etc). func dumpContainerInfo(container dockertypes.ContainerCreateResponse, d *stiDocker, image string) { ctx, cancel := getDefaultContext() defer cancel() containerJSON, err := d.client.ContainerInspect(ctx, container.ID) if err != nil { return } liveports := "\n\nPort Bindings: " for port, bindings := range containerJSON.NetworkSettings.NetworkSettingsBase.Ports { liveports = liveports + "\n Container Port: " + string(port) liveports = liveports + "\n Public Host / Port Mappings:" for _, binding := range bindings { liveports = liveports + "\n IP: " + binding.HostIP + " Port: " + binding.HostPort } } liveports = liveports + "\n" glog.V(0).Infof("\n\n\n\n\nThe image %s has been started in container %s as a result of the --run=true option. The container's stdout/stderr will be redirected to this command's glog output to help you validate its behavior. You can also inspect the container with docker commands if you like. If the container is set up to stay running, you will have to Ctrl-C to exit this command, which should also stop the container %s. This particular invocation attempts to run with the port mappings %+v \n\n\n\n\n", image, container.ID, container.ID, liveports) } // redirectResponseToOutputStream handles incoming streamed data from a // container on a "hijacked" connection. If tty is true, expect multiplexed // streams. Rules: 1) if you ask for streamed data from a container, you have // to read it, otherwise sooner or later the container will block writing it. // 2) if you're receiving multiplexed data, you have to actively read both // streams in parallel, otherwise in the case of non-interleaved data, you, and // then the container, will block. func (d *stiDocker) redirectResponseToOutputStream(tty bool, outputStream, errorStream io.Writer, resp io.Reader) error { if outputStream == nil { outputStream = ioutil.Discard } if errorStream == nil { errorStream = ioutil.Discard } var err error if tty { _, err = io.Copy(outputStream, resp) } else { _, err = dockerstdcopy.StdCopy(outputStream, errorStream, resp) } return err } // holdHijackedConnection pumps data up to the container's stdin, and runs a // goroutine to pump data down from the container's stdout and stderr. it holds // open the HijackedResponse until all of this is done. Caller's responsibility // to close resp, as well as outputStream and errorStream if appropriate. func (d *stiDocker) holdHijackedConnection(tty bool, inputStream io.Reader, outputStream, errorStream io.WriteCloser, resp dockertypes.HijackedResponse) error { receiveStdout := make(chan error, 1) if outputStream != nil || errorStream != nil { go func() { receiveErr := d.redirectResponseToOutputStream(tty, outputStream, errorStream, resp.Reader) if outputStream != nil { outputStream.Close() } if errorStream != nil { errorStream.Close() } receiveStdout <- receiveErr }() } var err error if inputStream != nil { _, err = io.Copy(resp.Conn, inputStream) if err != nil { return err } } err = resp.CloseWrite() if err != nil { return err } // Hang around until the streaming is over - either when the server closes // the connection, or someone locally closes resp. return <-receiveStdout } // RunContainer creates and starts a container using the image specified in opts // with the ability to stream input and/or output. func (d *stiDocker) RunContainer(opts RunContainerOptions) error { createOpts := opts.asDockerCreateContainerOptions() // get info about the specified image image := createOpts.Config.Image inspect, err := d.InspectImage(image) imageMetadata := &api.Image{} if err == nil { updateImageWithInspect(imageMetadata, inspect) if opts.PullImage { _, err = d.CheckAndPullImage(image) } } if err != nil { glog.V(0).Infof("error: Unable to get image metadata for %s: %v", image, err) return err } entrypoint, err := d.GetImageEntrypoint(image) if err != nil { return fmt.Errorf("Couldn't get entrypoint of %q image: %v", image, err) } // If the image has an entrypoint already defined, // it will be overridden either by DefaultEntrypoint, // or by the value in opts.Entrypoint. // If the image does not have an entrypoint, but // opts.Entrypoint is supplied, opts.Entrypoint will // be respected. if len(entrypoint) != 0 && len(opts.Entrypoint) == 0 { opts.Entrypoint = DefaultEntrypoint } // tarDestination will be passed as location to PostExecute function // and will be used as the prefix for the CMD (scripts/run) var tarDestination string var cmd []string if !opts.TargetImage { if len(opts.CommandExplicit) != 0 { cmd = opts.CommandExplicit } else { tarDestination = determineTarDestinationDir(opts, imageMetadata) cmd = constructCommand(opts, imageMetadata, tarDestination) } glog.V(5).Infof("Setting %q command for container ...", strings.Join(cmd, " ")) } createOpts.Config.Cmd = cmd if createOpts.HostConfig != nil && createOpts.HostConfig.ShmSize <= 0 { createOpts.HostConfig.ShmSize = DefaultShmSize } // Create a new container. glog.V(2).Infof("Creating container with options {Name:%q Config:%+v HostConfig:%+v} ...", createOpts.Name, createOpts.Config, createOpts.HostConfig) ctx, cancel := getDefaultContext() defer cancel() container, err := d.client.ContainerCreate(ctx, createOpts.Config, createOpts.HostConfig, createOpts.NetworkingConfig, createOpts.Name) if err != nil { return err } // Container was created, so we defer its removal, and also remove it if we get a SIGINT/SIGTERM/SIGQUIT/SIGHUP. removeContainer := func() { glog.V(4).Infof("Removing container %q ...", container.ID) if removeErr := d.RemoveContainer(container.ID); removeErr != nil { glog.V(0).Infof("warning: Failed to remove container %q: %v", container.ID, removeErr) } else { glog.V(4).Infof("Removed container %q", container.ID) } } dumpStack := func(signal os.Signal) { if signal == syscall.SIGQUIT { buf := make([]byte, 1<<16) runtime.Stack(buf, true) fmt.Printf("%s", buf) } os.Exit(2) } return interrupt.New(dumpStack, removeContainer).Run(func() error { glog.V(2).Infof("Attaching to container %q ...", container.ID) ctx, cancel := getDefaultContext() defer cancel() resp, err := d.client.ContainerAttach(ctx, container.ID, opts.asDockerAttachToContainerOptions()) if err != nil { glog.V(0).Infof("error: Unable to attach to container %q: %v", container.ID, err) return err } defer resp.Close() // Start the container glog.V(2).Infof("Starting container %q ...", container.ID) ctx, cancel = getDefaultContext() defer cancel() err = d.client.ContainerStart(ctx, container.ID) if err != nil { return err } // Run OnStart hook if defined. OnStart might block, so we run it in a // new goroutine, and wait for it to be done later on. onStartDone := make(chan error, 1) if opts.OnStart != nil { go func() { onStartDone <- opts.OnStart(container.ID) }() } if opts.TargetImage { // When TargetImage is true, we're dealing with an invocation of `s2i build ... --run` // so this will, e.g., run a web server and block until the user interrupts it (or // the container exits normally). dump port/etc information for the user. dumpContainerInfo(container, d, image) } err = d.holdHijackedConnection(false, opts.Stdin, opts.Stdout, opts.Stderr, resp) if err != nil { return err } // Return an error if the exit code of the container is // non-zero. glog.V(4).Infof("Waiting for container %q to stop ...", container.ID) exitCode, err := d.client.ContainerWait(context.Background(), container.ID) if err != nil { return fmt.Errorf("waiting for container %q to stop: %v", container.ID, err) } if exitCode != 0 { return errors.NewContainerError(container.ID, exitCode, "") } // OnStart must be done before we move on. if opts.OnStart != nil { if err = <-onStartDone; err != nil { return err } } // Run PostExec hook if defined. if opts.PostExec != nil { glog.V(2).Infof("Invoking PostExecute function") if err = opts.PostExec.PostExecute(container.ID, tarDestination); err != nil { return err } } return nil }) } // GetImageID retrieves the ID of the image identified by name func (d *stiDocker) GetImageID(name string) (string, error) { name = getImageName(name) image, err := d.InspectImage(name) if err != nil { return "", err } return image.ID, nil } // CommitContainer commits a container to an image with a specific tag. // The new image ID is returned func (d *stiDocker) CommitContainer(opts CommitContainerOptions) (string, error) { ctx, cancel := getDefaultContext() defer cancel() dockerOpts := dockertypes.ContainerCommitOptions{ Reference: opts.Repository, } if opts.Command != nil || opts.Entrypoint != nil { config := dockercontainer.Config{ Cmd: opts.Command, Entrypoint: opts.Entrypoint, Env: opts.Env, Labels: opts.Labels, User: opts.User, } dockerOpts.Config = &config glog.V(2).Infof("Committing container with dockerOpts: %+v, config: %+v", dockerOpts, config) } resp, err := d.client.ContainerCommit(ctx, opts.ContainerID, dockerOpts) if err == nil { return resp.ID, nil } return "", err } // RemoveImage removes the image with specified ID func (d *stiDocker) RemoveImage(imageID string) error { ctx, cancel := getDefaultContext() defer cancel() _, err := d.client.ImageRemove(ctx, imageID, dockertypes.ImageRemoveOptions{}) return err } // BuildImage builds the image according to specified options func (d *stiDocker) BuildImage(opts BuildImageOptions) error { dockerOpts := dockertypes.ImageBuildOptions{ Tags: []string{opts.Name}, NoCache: true, SuppressOutput: false, Remove: true, ForceRemove: true, } if opts.CGroupLimits != nil { dockerOpts.Memory = opts.CGroupLimits.MemoryLimitBytes dockerOpts.MemorySwap = opts.CGroupLimits.MemorySwap dockerOpts.CPUShares = opts.CGroupLimits.CPUShares dockerOpts.CPUPeriod = opts.CGroupLimits.CPUPeriod dockerOpts.CPUQuota = opts.CGroupLimits.CPUQuota } glog.V(2).Infof("Building container using config: %+v", dockerOpts) resp, err := d.client.ImageBuild(context.Background(), opts.Stdin, dockerOpts) if err != nil { return err } defer resp.Body.Close() // since can't pass in output stream to engine-api, need to copy contents of // the output stream they create into our output stream _, err = io.Copy(opts.Stdout, resp.Body) return err }