// DEPRECATION NOTICE. PLEASE DO NOT ADD ANYTHING TO THIS FILE. // // server/server.go is deprecated. We are working on breaking it up into smaller, cleaner // pieces which will be easier to find and test. This will help make the code less // redundant and more readable. // // Contributors, please don't add anything to server/server.go, unless it has the explicit // goal of helping the deprecation effort. // // Maintainers, please refuse patches which add code to server/server.go. // // Instead try the following files: // * For code related to local image management, try graph/ // * For code related to image downloading, uploading, remote search etc, try registry/ // * For code related to the docker daemon, try daemon/ // * For small utilities which could potentially be useful outside of Docker, try pkg/ // * For miscalleneous "util" functions which are docker-specific, try encapsulating them // inside one of the subsystems above. If you really think they should be more widely // available, are you sure you can't remove the docker dependencies and move them to // pkg? In last resort, you can add them to utils/ (but please try not to). package server import ( "bytes" "encoding/json" "fmt" "io" "io/ioutil" "log" "net" "net/http" "net/url" "os" "os/exec" gosignal "os/signal" "path" "path/filepath" "runtime" "strconv" "strings" "sync" "sync/atomic" "syscall" "time" "github.com/dotcloud/docker/archive" "github.com/dotcloud/docker/daemon" "github.com/dotcloud/docker/daemonconfig" "github.com/dotcloud/docker/dockerversion" "github.com/dotcloud/docker/engine" "github.com/dotcloud/docker/graph" "github.com/dotcloud/docker/image" "github.com/dotcloud/docker/pkg/graphdb" "github.com/dotcloud/docker/pkg/signal" "github.com/dotcloud/docker/pkg/tailfile" "github.com/dotcloud/docker/registry" "github.com/dotcloud/docker/runconfig" "github.com/dotcloud/docker/utils" "github.com/dotcloud/docker/utils/filters" ) func (srv *Server) handlerWrap(h engine.Handler) engine.Handler { return func(job *engine.Job) engine.Status { if !srv.IsRunning() { return job.Errorf("Server is not running") } srv.tasks.Add(1) defer srv.tasks.Done() return h(job) } } // jobInitApi runs the remote api server `srv` as a daemon, // Only one api server can run at the same time - this is enforced by a pidfile. // The signals SIGINT, SIGQUIT and SIGTERM are intercepted for cleanup. func InitServer(job *engine.Job) engine.Status { job.Logf("Creating server") srv, err := NewServer(job.Eng, daemonconfig.ConfigFromJob(job)) if err != nil { return job.Error(err) } if srv.daemon.Config().Pidfile != "" { job.Logf("Creating pidfile") if err := utils.CreatePidFile(srv.daemon.Config().Pidfile); err != nil { // FIXME: do we need fatal here instead of returning a job error? log.Fatal(err) } } job.Logf("Setting up signal traps") c := make(chan os.Signal, 1) gosignal.Notify(c, os.Interrupt, syscall.SIGTERM, syscall.SIGQUIT) go func() { interruptCount := uint32(0) for sig := range c { go func(sig os.Signal) { log.Printf("Received signal '%v', starting shutdown of docker...\n", sig) switch sig { case os.Interrupt, syscall.SIGTERM: // If the user really wants to interrupt, let him do so. if atomic.LoadUint32(&interruptCount) < 3 { atomic.AddUint32(&interruptCount, 1) // Initiate the cleanup only once if atomic.LoadUint32(&interruptCount) == 1 { utils.RemovePidFile(srv.daemon.Config().Pidfile) srv.Close() } else { return } } else { log.Printf("Force shutdown of docker, interrupting cleanup\n") } case syscall.SIGQUIT: } os.Exit(128 + int(sig.(syscall.Signal))) }(sig) } }() job.Eng.Hack_SetGlobalVar("httpapi.server", srv) job.Eng.Hack_SetGlobalVar("httpapi.daemon", srv.daemon) for name, handler := range map[string]engine.Handler{ "export": srv.ContainerExport, "create": srv.ContainerCreate, "stop": srv.ContainerStop, "restart": srv.ContainerRestart, "start": srv.ContainerStart, "kill": srv.ContainerKill, "pause": srv.ContainerPause, "unpause": srv.ContainerUnpause, "wait": srv.ContainerWait, "tag": srv.ImageTag, // FIXME merge with "image_tag" "resize": srv.ContainerResize, "commit": srv.ContainerCommit, "info": srv.DockerInfo, "container_delete": srv.ContainerDestroy, "image_export": srv.ImageExport, "images": srv.Images, "history": srv.ImageHistory, "viz": srv.ImagesViz, "container_copy": srv.ContainerCopy, "attach": srv.ContainerAttach, "logs": srv.ContainerLogs, "changes": srv.ContainerChanges, "top": srv.ContainerTop, "load": srv.ImageLoad, "build": srv.Build, "pull": srv.ImagePull, "import": srv.ImageImport, "image_delete": srv.ImageDelete, "events": srv.Events, "push": srv.ImagePush, "containers": srv.Containers, } { if err := job.Eng.Register(name, srv.handlerWrap(handler)); err != nil { return job.Error(err) } } // Install image-related commands from the image subsystem. // See `graph/service.go` if err := srv.daemon.Repositories().Install(job.Eng); err != nil { return job.Error(err) } // Install daemon-related commands from the daemon subsystem. // See `daemon/` if err := srv.daemon.Install(job.Eng); err != nil { return job.Error(err) } srv.SetRunning(true) return engine.StatusOK } func (srv *Server) ContainerPause(job *engine.Job) engine.Status { if len(job.Args) != 1 { return job.Errorf("Usage: %s CONTAINER", job.Name) } name := job.Args[0] container := srv.daemon.Get(name) if container == nil { return job.Errorf("No such container: %s", name) } if err := container.Pause(); err != nil { return job.Errorf("Cannot pause container %s: %s", name, err) } return engine.StatusOK } func (srv *Server) ContainerUnpause(job *engine.Job) engine.Status { if n := len(job.Args); n < 1 || n > 2 { return job.Errorf("Usage: %s CONTAINER", job.Name) } name := job.Args[0] container := srv.daemon.Get(name) if container == nil { return job.Errorf("No such container: %s", name) } if err := container.Unpause(); err != nil { return job.Errorf("Cannot unpause container %s: %s", name, err) } return engine.StatusOK } // ContainerKill send signal to the container // If no signal is given (sig 0), then Kill with SIGKILL and wait // for the container to exit. // If a signal is given, then just send it to the container and return. func (srv *Server) ContainerKill(job *engine.Job) engine.Status { if n := len(job.Args); n < 1 || n > 2 { return job.Errorf("Usage: %s CONTAINER [SIGNAL]", job.Name) } var ( name = job.Args[0] sig uint64 err error ) // If we have a signal, look at it. Otherwise, do nothing if len(job.Args) == 2 && job.Args[1] != "" { // Check if we passed the signal as a number: // The largest legal signal is 31, so let's parse on 5 bits sig, err = strconv.ParseUint(job.Args[1], 10, 5) if err != nil { // The signal is not a number, treat it as a string (either like "KILL" or like "SIGKILL") sig = uint64(signal.SignalMap[strings.TrimPrefix(job.Args[1], "SIG")]) if sig == 0 { return job.Errorf("Invalid signal: %s", job.Args[1]) } } } if container := srv.daemon.Get(name); container != nil { // If no signal is passed, or SIGKILL, perform regular Kill (SIGKILL + wait()) if sig == 0 || syscall.Signal(sig) == syscall.SIGKILL { if err := container.Kill(); err != nil { return job.Errorf("Cannot kill container %s: %s", name, err) } srv.LogEvent("kill", container.ID, srv.daemon.Repositories().ImageName(container.Image)) } else { // Otherwise, just send the requested signal if err := container.KillSig(int(sig)); err != nil { return job.Errorf("Cannot kill container %s: %s", name, err) } // FIXME: Add event for signals } } else { return job.Errorf("No such container: %s", name) } return engine.StatusOK } func (srv *Server) Events(job *engine.Job) engine.Status { if len(job.Args) != 0 { return job.Errorf("Usage: %s", job.Name) } var ( since = job.GetenvInt64("since") until = job.GetenvInt64("until") timeout = time.NewTimer(time.Unix(until, 0).Sub(time.Now())) ) // If no until, disable timeout if until == 0 { timeout.Stop() } listener := make(chan utils.JSONMessage) srv.eventPublisher.Subscribe(listener) defer srv.eventPublisher.Unsubscribe(listener) // When sending an event JSON serialization errors are ignored, but all // other errors lead to the eviction of the listener. sendEvent := func(event *utils.JSONMessage) error { if b, err := json.Marshal(event); err == nil { if _, err = job.Stdout.Write(b); err != nil { return err } } return nil } job.Stdout.Write(nil) // Resend every event in the [since, until] time interval. if since != 0 { for _, event := range srv.GetEvents() { if event.Time >= since && (event.Time <= until || until == 0) { if err := sendEvent(&event); err != nil { return job.Error(err) } } } } for { select { case event, ok := <-listener: if !ok { return engine.StatusOK } if err := sendEvent(&event); err != nil { return job.Error(err) } case <-timeout.C: return engine.StatusOK } } } func (srv *Server) ContainerExport(job *engine.Job) engine.Status { if len(job.Args) != 1 { return job.Errorf("Usage: %s container_id", job.Name) } name := job.Args[0] if container := srv.daemon.Get(name); container != nil { data, err := container.Export() if err != nil { return job.Errorf("%s: %s", name, err) } defer data.Close() // Stream the entire contents of the container (basically a volatile snapshot) if _, err := io.Copy(job.Stdout, data); err != nil { return job.Errorf("%s: %s", name, err) } // FIXME: factor job-specific LogEvent to engine.Job.Run() srv.LogEvent("export", container.ID, srv.daemon.Repositories().ImageName(container.Image)) return engine.StatusOK } return job.Errorf("No such container: %s", name) } // ImageExport exports all images with the given tag. All versions // containing the same tag are exported. The resulting output is an // uncompressed tar ball. // name is the set of tags to export. // out is the writer where the images are written to. func (srv *Server) ImageExport(job *engine.Job) engine.Status { if len(job.Args) != 1 { return job.Errorf("Usage: %s IMAGE\n", job.Name) } name := job.Args[0] // get image json tempdir, err := ioutil.TempDir("", "docker-export-") if err != nil { return job.Error(err) } defer os.RemoveAll(tempdir) utils.Debugf("Serializing %s", name) rootRepo, err := srv.daemon.Repositories().Get(name) if err != nil { return job.Error(err) } if rootRepo != nil { for _, id := range rootRepo { if err := srv.exportImage(job.Eng, id, tempdir); err != nil { return job.Error(err) } } // write repositories rootRepoMap := map[string]graph.Repository{} rootRepoMap[name] = rootRepo rootRepoJson, _ := json.Marshal(rootRepoMap) if err := ioutil.WriteFile(path.Join(tempdir, "repositories"), rootRepoJson, os.FileMode(0644)); err != nil { return job.Error(err) } } else { if err := srv.exportImage(job.Eng, name, tempdir); err != nil { return job.Error(err) } } fs, err := archive.Tar(tempdir, archive.Uncompressed) if err != nil { return job.Error(err) } defer fs.Close() if _, err := io.Copy(job.Stdout, fs); err != nil { return job.Error(err) } utils.Debugf("End Serializing %s", name) return engine.StatusOK } func (srv *Server) exportImage(eng *engine.Engine, name, tempdir string) error { for n := name; n != ""; { // temporary directory tmpImageDir := path.Join(tempdir, n) if err := os.Mkdir(tmpImageDir, os.FileMode(0755)); err != nil { if os.IsExist(err) { return nil } return err } var version = "1.0" var versionBuf = []byte(version) if err := ioutil.WriteFile(path.Join(tmpImageDir, "VERSION"), versionBuf, os.FileMode(0644)); err != nil { return err } // serialize json json, err := os.Create(path.Join(tmpImageDir, "json")) if err != nil { return err } job := eng.Job("image_inspect", n) job.SetenvBool("raw", true) job.Stdout.Add(json) if err := job.Run(); err != nil { return err } // serialize filesystem fsTar, err := os.Create(path.Join(tmpImageDir, "layer.tar")) if err != nil { return err } job = eng.Job("image_tarlayer", n) job.Stdout.Add(fsTar) if err := job.Run(); err != nil { return err } // find parent job = eng.Job("image_get", n) info, _ := job.Stdout.AddEnv() if err := job.Run(); err != nil { return err } n = info.Get("Parent") } return nil } func (srv *Server) Build(job *engine.Job) engine.Status { if len(job.Args) != 0 { return job.Errorf("Usage: %s\n", job.Name) } var ( remoteURL = job.Getenv("remote") repoName = job.Getenv("t") suppressOutput = job.GetenvBool("q") noCache = job.GetenvBool("nocache") rm = job.GetenvBool("rm") forceRm = job.GetenvBool("forcerm") authConfig = ®istry.AuthConfig{} configFile = ®istry.ConfigFile{} tag string context io.ReadCloser ) job.GetenvJson("authConfig", authConfig) job.GetenvJson("configFile", configFile) repoName, tag = utils.ParseRepositoryTag(repoName) if remoteURL == "" { context = ioutil.NopCloser(job.Stdin) } else if utils.IsGIT(remoteURL) { if !strings.HasPrefix(remoteURL, "git://") { remoteURL = "https://" + remoteURL } root, err := ioutil.TempDir("", "docker-build-git") if err != nil { return job.Error(err) } defer os.RemoveAll(root) if output, err := exec.Command("git", "clone", "--recursive", remoteURL, root).CombinedOutput(); err != nil { return job.Errorf("Error trying to use git: %s (%s)", err, output) } c, err := archive.Tar(root, archive.Uncompressed) if err != nil { return job.Error(err) } context = c } else if utils.IsURL(remoteURL) { f, err := utils.Download(remoteURL) if err != nil { return job.Error(err) } defer f.Body.Close() dockerFile, err := ioutil.ReadAll(f.Body) if err != nil { return job.Error(err) } c, err := archive.Generate("Dockerfile", string(dockerFile)) if err != nil { return job.Error(err) } context = c } defer context.Close() sf := utils.NewStreamFormatter(job.GetenvBool("json")) b := NewBuildFile(srv, &utils.StdoutFormater{ Writer: job.Stdout, StreamFormatter: sf, }, &utils.StderrFormater{ Writer: job.Stdout, StreamFormatter: sf, }, !suppressOutput, !noCache, rm, forceRm, job.Stdout, sf, authConfig, configFile) id, err := b.Build(context) if err != nil { return job.Error(err) } if repoName != "" { srv.daemon.Repositories().Set(repoName, tag, id, false) } return engine.StatusOK } // Loads a set of images into the repository. This is the complementary of ImageExport. // The input stream is an uncompressed tar ball containing images and metadata. func (srv *Server) ImageLoad(job *engine.Job) engine.Status { tmpImageDir, err := ioutil.TempDir("", "docker-import-") if err != nil { return job.Error(err) } defer os.RemoveAll(tmpImageDir) var ( repoTarFile = path.Join(tmpImageDir, "repo.tar") repoDir = path.Join(tmpImageDir, "repo") ) tarFile, err := os.Create(repoTarFile) if err != nil { return job.Error(err) } if _, err := io.Copy(tarFile, job.Stdin); err != nil { return job.Error(err) } tarFile.Close() repoFile, err := os.Open(repoTarFile) if err != nil { return job.Error(err) } if err := os.Mkdir(repoDir, os.ModeDir); err != nil { return job.Error(err) } if err := archive.Untar(repoFile, repoDir, nil); err != nil { return job.Error(err) } dirs, err := ioutil.ReadDir(repoDir) if err != nil { return job.Error(err) } for _, d := range dirs { if d.IsDir() { if err := srv.recursiveLoad(job.Eng, d.Name(), tmpImageDir); err != nil { return job.Error(err) } } } repositoriesJson, err := ioutil.ReadFile(path.Join(tmpImageDir, "repo", "repositories")) if err == nil { repositories := map[string]graph.Repository{} if err := json.Unmarshal(repositoriesJson, &repositories); err != nil { return job.Error(err) } for imageName, tagMap := range repositories { for tag, address := range tagMap { if err := srv.daemon.Repositories().Set(imageName, tag, address, true); err != nil { return job.Error(err) } } } } else if !os.IsNotExist(err) { return job.Error(err) } return engine.StatusOK } func (srv *Server) recursiveLoad(eng *engine.Engine, address, tmpImageDir string) error { if err := eng.Job("image_get", address).Run(); err != nil { utils.Debugf("Loading %s", address) imageJson, err := ioutil.ReadFile(path.Join(tmpImageDir, "repo", address, "json")) if err != nil { utils.Debugf("Error reading json", err) return err } layer, err := os.Open(path.Join(tmpImageDir, "repo", address, "layer.tar")) if err != nil { utils.Debugf("Error reading embedded tar", err) return err } img, err := image.NewImgJSON(imageJson) if err != nil { utils.Debugf("Error unmarshalling json", err) return err } if img.Parent != "" { if !srv.daemon.Graph().Exists(img.Parent) { if err := srv.recursiveLoad(eng, img.Parent, tmpImageDir); err != nil { return err } } } if err := srv.daemon.Graph().Register(imageJson, layer, img); err != nil { return err } } utils.Debugf("Completed processing %s", address) return nil } func (srv *Server) ImagesViz(job *engine.Job) engine.Status { images, _ := srv.daemon.Graph().Map() if images == nil { return engine.StatusOK } job.Stdout.Write([]byte("digraph docker {\n")) var ( parentImage *image.Image err error ) for _, image := range images { parentImage, err = image.GetParent() if err != nil { return job.Errorf("Error while getting parent image: %v", err) } if parentImage != nil { job.Stdout.Write([]byte(" \"" + parentImage.ID + "\" -> \"" + image.ID + "\"\n")) } else { job.Stdout.Write([]byte(" base -> \"" + image.ID + "\" [style=invis]\n")) } } for id, repos := range srv.daemon.Repositories().GetRepoRefs() { job.Stdout.Write([]byte(" \"" + id + "\" [label=\"" + id + "\\n" + strings.Join(repos, "\\n") + "\",shape=box,fillcolor=\"paleturquoise\",style=\"filled,rounded\"];\n")) } job.Stdout.Write([]byte(" base [style=invisible]\n}\n")) return engine.StatusOK } func (srv *Server) Images(job *engine.Job) engine.Status { var ( allImages map[string]*image.Image err error filt_tagged = true ) imageFilters, err := filters.FromParam(job.Getenv("filters")) if err != nil { return job.Error(err) } if i, ok := imageFilters["dangling"]; ok { for _, value := range i { if strings.ToLower(value) == "true" { filt_tagged = false } } } if job.GetenvBool("all") && filt_tagged { allImages, err = srv.daemon.Graph().Map() } else { allImages, err = srv.daemon.Graph().Heads() } if err != nil { return job.Error(err) } lookup := make(map[string]*engine.Env) srv.daemon.Repositories().Lock() for name, repository := range srv.daemon.Repositories().Repositories { if job.Getenv("filter") != "" { if match, _ := path.Match(job.Getenv("filter"), name); !match { continue } } for tag, id := range repository { image, err := srv.daemon.Graph().Get(id) if err != nil { log.Printf("Warning: couldn't load %s from %s/%s: %s", id, name, tag, err) continue } if out, exists := lookup[id]; exists { if filt_tagged { out.SetList("RepoTags", append(out.GetList("RepoTags"), fmt.Sprintf("%s:%s", name, tag))) } } else { // get the boolean list for if only the untagged images are requested delete(allImages, id) if filt_tagged { out := &engine.Env{} out.Set("ParentId", image.Parent) out.SetList("RepoTags", []string{fmt.Sprintf("%s:%s", name, tag)}) out.Set("Id", image.ID) out.SetInt64("Created", image.Created.Unix()) out.SetInt64("Size", image.Size) out.SetInt64("VirtualSize", image.GetParentsSize(0)+image.Size) lookup[id] = out } } } } srv.daemon.Repositories().Unlock() outs := engine.NewTable("Created", len(lookup)) for _, value := range lookup { outs.Add(value) } // Display images which aren't part of a repository/tag if job.Getenv("filter") == "" { for _, image := range allImages { out := &engine.Env{} out.Set("ParentId", image.Parent) out.SetList("RepoTags", []string{":"}) out.Set("Id", image.ID) out.SetInt64("Created", image.Created.Unix()) out.SetInt64("Size", image.Size) out.SetInt64("VirtualSize", image.GetParentsSize(0)+image.Size) outs.Add(out) } } outs.ReverseSort() if _, err := outs.WriteListTo(job.Stdout); err != nil { return job.Error(err) } return engine.StatusOK } func (srv *Server) DockerInfo(job *engine.Job) engine.Status { images, _ := srv.daemon.Graph().Map() var imgcount int if images == nil { imgcount = 0 } else { imgcount = len(images) } kernelVersion := "" if kv, err := utils.GetKernelVersion(); err == nil { kernelVersion = kv.String() } // if we still have the original dockerinit binary from before we copied it locally, let's return the path to that, since that's more intuitive (the copied path is trivial to derive by hand given VERSION) initPath := utils.DockerInitPath("") if initPath == "" { // if that fails, we'll just return the path from the daemon initPath = srv.daemon.SystemInitPath() } v := &engine.Env{} v.SetInt("Containers", len(srv.daemon.List())) v.SetInt("Images", imgcount) v.Set("Driver", srv.daemon.GraphDriver().String()) v.SetJson("DriverStatus", srv.daemon.GraphDriver().Status()) v.SetBool("MemoryLimit", srv.daemon.SystemConfig().MemoryLimit) v.SetBool("SwapLimit", srv.daemon.SystemConfig().SwapLimit) v.SetBool("IPv4Forwarding", !srv.daemon.SystemConfig().IPv4ForwardingDisabled) v.SetBool("Debug", os.Getenv("DEBUG") != "") v.SetInt("NFd", utils.GetTotalUsedFds()) v.SetInt("NGoroutines", runtime.NumGoroutine()) v.Set("ExecutionDriver", srv.daemon.ExecutionDriver().Name()) v.SetInt("NEventsListener", srv.eventPublisher.SubscribersCount()) v.Set("KernelVersion", kernelVersion) v.Set("IndexServerAddress", registry.IndexServerAddress()) v.Set("InitSha1", dockerversion.INITSHA1) v.Set("InitPath", initPath) v.SetList("Sockets", srv.daemon.Sockets) if _, err := v.WriteTo(job.Stdout); err != nil { return job.Error(err) } return engine.StatusOK } func (srv *Server) ImageHistory(job *engine.Job) engine.Status { if n := len(job.Args); n != 1 { return job.Errorf("Usage: %s IMAGE", job.Name) } name := job.Args[0] foundImage, err := srv.daemon.Repositories().LookupImage(name) if err != nil { return job.Error(err) } lookupMap := make(map[string][]string) for name, repository := range srv.daemon.Repositories().Repositories { for tag, id := range repository { // If the ID already has a reverse lookup, do not update it unless for "latest" if _, exists := lookupMap[id]; !exists { lookupMap[id] = []string{} } lookupMap[id] = append(lookupMap[id], name+":"+tag) } } outs := engine.NewTable("Created", 0) err = foundImage.WalkHistory(func(img *image.Image) error { out := &engine.Env{} out.Set("Id", img.ID) out.SetInt64("Created", img.Created.Unix()) out.Set("CreatedBy", strings.Join(img.ContainerConfig.Cmd, " ")) out.SetList("Tags", lookupMap[img.ID]) out.SetInt64("Size", img.Size) outs.Add(out) return nil }) if _, err := outs.WriteListTo(job.Stdout); err != nil { return job.Error(err) } return engine.StatusOK } func (srv *Server) ContainerTop(job *engine.Job) engine.Status { if len(job.Args) != 1 && len(job.Args) != 2 { return job.Errorf("Not enough arguments. Usage: %s CONTAINER [PS_ARGS]\n", job.Name) } var ( name = job.Args[0] psArgs = "-ef" ) if len(job.Args) == 2 && job.Args[1] != "" { psArgs = job.Args[1] } if container := srv.daemon.Get(name); container != nil { if !container.State.IsRunning() { return job.Errorf("Container %s is not running", name) } pids, err := srv.daemon.ExecutionDriver().GetPidsForContainer(container.ID) if err != nil { return job.Error(err) } output, err := exec.Command("ps", psArgs).Output() if err != nil { return job.Errorf("Error running ps: %s", err) } lines := strings.Split(string(output), "\n") header := strings.Fields(lines[0]) out := &engine.Env{} out.SetList("Titles", header) pidIndex := -1 for i, name := range header { if name == "PID" { pidIndex = i } } if pidIndex == -1 { return job.Errorf("Couldn't find PID field in ps output") } processes := [][]string{} for _, line := range lines[1:] { if len(line) == 0 { continue } fields := strings.Fields(line) p, err := strconv.Atoi(fields[pidIndex]) if err != nil { return job.Errorf("Unexpected pid '%s': %s", fields[pidIndex], err) } for _, pid := range pids { if pid == p { // Make sure number of fields equals number of header titles // merging "overhanging" fields process := fields[:len(header)-1] process = append(process, strings.Join(fields[len(header)-1:], " ")) processes = append(processes, process) } } } out.SetJson("Processes", processes) out.WriteTo(job.Stdout) return engine.StatusOK } return job.Errorf("No such container: %s", name) } func (srv *Server) ContainerChanges(job *engine.Job) engine.Status { if n := len(job.Args); n != 1 { return job.Errorf("Usage: %s CONTAINER", job.Name) } name := job.Args[0] if container := srv.daemon.Get(name); container != nil { outs := engine.NewTable("", 0) changes, err := container.Changes() if err != nil { return job.Error(err) } for _, change := range changes { out := &engine.Env{} if err := out.Import(change); err != nil { return job.Error(err) } outs.Add(out) } if _, err := outs.WriteListTo(job.Stdout); err != nil { return job.Error(err) } } else { return job.Errorf("No such container: %s", name) } return engine.StatusOK } func (srv *Server) Containers(job *engine.Job) engine.Status { var ( foundBefore bool displayed int all = job.GetenvBool("all") since = job.Getenv("since") before = job.Getenv("before") n = job.GetenvInt("limit") size = job.GetenvBool("size") ) outs := engine.NewTable("Created", 0) names := map[string][]string{} srv.daemon.ContainerGraph().Walk("/", func(p string, e *graphdb.Entity) error { names[e.ID()] = append(names[e.ID()], p) return nil }, -1) var beforeCont, sinceCont *daemon.Container if before != "" { beforeCont = srv.daemon.Get(before) if beforeCont == nil { return job.Error(fmt.Errorf("Could not find container with name or id %s", before)) } } if since != "" { sinceCont = srv.daemon.Get(since) if sinceCont == nil { return job.Error(fmt.Errorf("Could not find container with name or id %s", since)) } } for _, container := range srv.daemon.List() { if !container.State.IsRunning() && !all && n <= 0 && since == "" && before == "" { continue } if before != "" && !foundBefore { if container.ID == beforeCont.ID { foundBefore = true } continue } if n > 0 && displayed == n { break } if since != "" { if container.ID == sinceCont.ID { break } } displayed++ out := &engine.Env{} out.Set("Id", container.ID) out.SetList("Names", names[container.ID]) out.Set("Image", srv.daemon.Repositories().ImageName(container.Image)) if len(container.Args) > 0 { args := []string{} for _, arg := range container.Args { if strings.Contains(arg, " ") { args = append(args, fmt.Sprintf("'%s'", arg)) } else { args = append(args, arg) } } argsAsString := strings.Join(args, " ") out.Set("Command", fmt.Sprintf("\"%s %s\"", container.Path, argsAsString)) } else { out.Set("Command", fmt.Sprintf("\"%s\"", container.Path)) } out.SetInt64("Created", container.Created.Unix()) out.Set("Status", container.State.String()) str, err := container.NetworkSettings.PortMappingAPI().ToListString() if err != nil { return job.Error(err) } out.Set("Ports", str) if size { sizeRw, sizeRootFs := container.GetSize() out.SetInt64("SizeRw", sizeRw) out.SetInt64("SizeRootFs", sizeRootFs) } outs.Add(out) } outs.ReverseSort() if _, err := outs.WriteListTo(job.Stdout); err != nil { return job.Error(err) } return engine.StatusOK } func (srv *Server) ContainerCommit(job *engine.Job) engine.Status { if len(job.Args) != 1 { return job.Errorf("Not enough arguments. Usage: %s CONTAINER\n", job.Name) } name := job.Args[0] container := srv.daemon.Get(name) if container == nil { return job.Errorf("No such container: %s", name) } var ( config = container.Config newConfig runconfig.Config ) if err := job.GetenvJson("config", &newConfig); err != nil { return job.Error(err) } if err := runconfig.Merge(&newConfig, config); err != nil { return job.Error(err) } img, err := srv.daemon.Commit(container, job.Getenv("repo"), job.Getenv("tag"), job.Getenv("comment"), job.Getenv("author"), job.GetenvBool("pause"), &newConfig) if err != nil { return job.Error(err) } job.Printf("%s\n", img.ID) return engine.StatusOK } func (srv *Server) ImageTag(job *engine.Job) engine.Status { if len(job.Args) != 2 && len(job.Args) != 3 { return job.Errorf("Usage: %s IMAGE REPOSITORY [TAG]\n", job.Name) } var tag string if len(job.Args) == 3 { tag = job.Args[2] } if err := srv.daemon.Repositories().Set(job.Args[1], tag, job.Args[0], job.GetenvBool("force")); err != nil { return job.Error(err) } return engine.StatusOK } func (srv *Server) pullImage(r *registry.Registry, out io.Writer, imgID, endpoint string, token []string, sf *utils.StreamFormatter) error { history, err := r.GetRemoteHistory(imgID, endpoint, token) if err != nil { return err } out.Write(sf.FormatProgress(utils.TruncateID(imgID), "Pulling dependent layers", nil)) // FIXME: Try to stream the images? // FIXME: Launch the getRemoteImage() in goroutines for i := len(history) - 1; i >= 0; i-- { id := history[i] // ensure no two downloads of the same layer happen at the same time if c, err := srv.poolAdd("pull", "layer:"+id); err != nil { utils.Debugf("Image (id: %s) pull is already running, skipping: %v", id, err) <-c } defer srv.poolRemove("pull", "layer:"+id) if !srv.daemon.Graph().Exists(id) { out.Write(sf.FormatProgress(utils.TruncateID(id), "Pulling metadata", nil)) var ( imgJSON []byte imgSize int err error img *image.Image ) retries := 5 for j := 1; j <= retries; j++ { imgJSON, imgSize, err = r.GetRemoteImageJSON(id, endpoint, token) if err != nil && j == retries { out.Write(sf.FormatProgress(utils.TruncateID(id), "Error pulling dependent layers", nil)) return err } else if err != nil { time.Sleep(time.Duration(j) * 500 * time.Millisecond) continue } img, err = image.NewImgJSON(imgJSON) if err != nil && j == retries { out.Write(sf.FormatProgress(utils.TruncateID(id), "Error pulling dependent layers", nil)) return fmt.Errorf("Failed to parse json: %s", err) } else if err != nil { time.Sleep(time.Duration(j) * 500 * time.Millisecond) continue } else { break } } for j := 1; j <= retries; j++ { // Get the layer status := "Pulling fs layer" if j > 1 { status = fmt.Sprintf("Pulling fs layer [retries: %d]", j) } out.Write(sf.FormatProgress(utils.TruncateID(id), status, nil)) layer, err := r.GetRemoteImageLayer(img.ID, endpoint, token, int64(imgSize)) if uerr, ok := err.(*url.Error); ok { err = uerr.Err } if terr, ok := err.(net.Error); ok && terr.Timeout() && j < retries { time.Sleep(time.Duration(j) * 500 * time.Millisecond) continue } else if err != nil { out.Write(sf.FormatProgress(utils.TruncateID(id), "Error pulling dependent layers", nil)) return err } defer layer.Close() err = srv.daemon.Graph().Register(imgJSON, utils.ProgressReader(layer, imgSize, out, sf, false, utils.TruncateID(id), "Downloading"), img) if terr, ok := err.(net.Error); ok && terr.Timeout() && j < retries { time.Sleep(time.Duration(j) * 500 * time.Millisecond) continue } else if err != nil { out.Write(sf.FormatProgress(utils.TruncateID(id), "Error downloading dependent layers", nil)) return err } else { break } } } out.Write(sf.FormatProgress(utils.TruncateID(id), "Download complete", nil)) } return nil } func (srv *Server) pullRepository(r *registry.Registry, out io.Writer, localName, remoteName, askedTag string, sf *utils.StreamFormatter, parallel bool) error { out.Write(sf.FormatStatus("", "Pulling repository %s", localName)) repoData, err := r.GetRepositoryData(remoteName) if err != nil { return err } utils.Debugf("Retrieving the tag list") tagsList, err := r.GetRemoteTags(repoData.Endpoints, remoteName, repoData.Tokens) if err != nil { utils.Errorf("%v", err) return err } for tag, id := range tagsList { repoData.ImgList[id] = ®istry.ImgData{ ID: id, Tag: tag, Checksum: "", } } utils.Debugf("Registering tags") // If no tag has been specified, pull them all if askedTag == "" { for tag, id := range tagsList { repoData.ImgList[id].Tag = tag } } else { // Otherwise, check that the tag exists and use only that one id, exists := tagsList[askedTag] if !exists { return fmt.Errorf("Tag %s not found in repository %s", askedTag, localName) } repoData.ImgList[id].Tag = askedTag } errors := make(chan error) for _, image := range repoData.ImgList { downloadImage := func(img *registry.ImgData) { if askedTag != "" && img.Tag != askedTag { utils.Debugf("(%s) does not match %s (id: %s), skipping", img.Tag, askedTag, img.ID) if parallel { errors <- nil } return } if img.Tag == "" { utils.Debugf("Image (id: %s) present in this repository but untagged, skipping", img.ID) if parallel { errors <- nil } return } // ensure no two downloads of the same image happen at the same time if c, err := srv.poolAdd("pull", "img:"+img.ID); err != nil { if c != nil { out.Write(sf.FormatProgress(utils.TruncateID(img.ID), "Layer already being pulled by another client. Waiting.", nil)) <-c out.Write(sf.FormatProgress(utils.TruncateID(img.ID), "Download complete", nil)) } else { utils.Debugf("Image (id: %s) pull is already running, skipping: %v", img.ID, err) } if parallel { errors <- nil } return } defer srv.poolRemove("pull", "img:"+img.ID) out.Write(sf.FormatProgress(utils.TruncateID(img.ID), fmt.Sprintf("Pulling image (%s) from %s", img.Tag, localName), nil)) success := false var lastErr error for _, ep := range repoData.Endpoints { out.Write(sf.FormatProgress(utils.TruncateID(img.ID), fmt.Sprintf("Pulling image (%s) from %s, endpoint: %s", img.Tag, localName, ep), nil)) if err := srv.pullImage(r, out, img.ID, ep, repoData.Tokens, sf); err != nil { // It's not ideal that only the last error is returned, it would be better to concatenate the errors. // As the error is also given to the output stream the user will see the error. lastErr = err out.Write(sf.FormatProgress(utils.TruncateID(img.ID), fmt.Sprintf("Error pulling image (%s) from %s, endpoint: %s, %s", img.Tag, localName, ep, err), nil)) continue } success = true break } if !success { err := fmt.Errorf("Error pulling image (%s) from %s, %v", img.Tag, localName, lastErr) out.Write(sf.FormatProgress(utils.TruncateID(img.ID), err.Error(), nil)) if parallel { errors <- err return } } out.Write(sf.FormatProgress(utils.TruncateID(img.ID), "Download complete", nil)) if parallel { errors <- nil } } if parallel { go downloadImage(image) } else { downloadImage(image) } } if parallel { var lastError error for i := 0; i < len(repoData.ImgList); i++ { if err := <-errors; err != nil { lastError = err } } if lastError != nil { return lastError } } for tag, id := range tagsList { if askedTag != "" && tag != askedTag { continue } if err := srv.daemon.Repositories().Set(localName, tag, id, true); err != nil { return err } } return nil } func (srv *Server) poolAdd(kind, key string) (chan struct{}, error) { srv.Lock() defer srv.Unlock() if c, exists := srv.pullingPool[key]; exists { return c, fmt.Errorf("pull %s is already in progress", key) } if c, exists := srv.pushingPool[key]; exists { return c, fmt.Errorf("push %s is already in progress", key) } c := make(chan struct{}) switch kind { case "pull": srv.pullingPool[key] = c case "push": srv.pushingPool[key] = c default: return nil, fmt.Errorf("Unknown pool type") } return c, nil } func (srv *Server) poolRemove(kind, key string) error { srv.Lock() defer srv.Unlock() switch kind { case "pull": if c, exists := srv.pullingPool[key]; exists { close(c) delete(srv.pullingPool, key) } case "push": if c, exists := srv.pushingPool[key]; exists { close(c) delete(srv.pushingPool, key) } default: return fmt.Errorf("Unknown pool type") } return nil } func (srv *Server) ImagePull(job *engine.Job) engine.Status { if n := len(job.Args); n != 1 && n != 2 { return job.Errorf("Usage: %s IMAGE [TAG]", job.Name) } var ( localName = job.Args[0] tag string sf = utils.NewStreamFormatter(job.GetenvBool("json")) authConfig = ®istry.AuthConfig{} metaHeaders map[string][]string ) if len(job.Args) > 1 { tag = job.Args[1] } job.GetenvJson("authConfig", authConfig) job.GetenvJson("metaHeaders", &metaHeaders) c, err := srv.poolAdd("pull", localName+":"+tag) if err != nil { if c != nil { // Another pull of the same repository is already taking place; just wait for it to finish job.Stdout.Write(sf.FormatStatus("", "Repository %s already being pulled by another client. Waiting.", localName)) <-c return engine.StatusOK } return job.Error(err) } defer srv.poolRemove("pull", localName+":"+tag) // Resolve the Repository name from fqn to endpoint + name hostname, remoteName, err := registry.ResolveRepositoryName(localName) if err != nil { return job.Error(err) } endpoint, err := registry.ExpandAndVerifyRegistryUrl(hostname) if err != nil { return job.Error(err) } r, err := registry.NewRegistry(authConfig, registry.HTTPRequestFactory(metaHeaders), endpoint, true) if err != nil { return job.Error(err) } if endpoint == registry.IndexServerAddress() { // If pull "index.docker.io/foo/bar", it's stored locally under "foo/bar" localName = remoteName } if err = srv.pullRepository(r, job.Stdout, localName, remoteName, tag, sf, job.GetenvBool("parallel")); err != nil { return job.Error(err) } return engine.StatusOK } // Retrieve the all the images to be uploaded in the correct order func (srv *Server) getImageList(localRepo map[string]string, requestedTag string) ([]string, map[string][]string, error) { var ( imageList []string imagesSeen map[string]bool = make(map[string]bool) tagsByImage map[string][]string = make(map[string][]string) ) for tag, id := range localRepo { if requestedTag != "" && requestedTag != tag { continue } var imageListForThisTag []string tagsByImage[id] = append(tagsByImage[id], tag) for img, err := srv.daemon.Graph().Get(id); img != nil; img, err = img.GetParent() { if err != nil { return nil, nil, err } if imagesSeen[img.ID] { // This image is already on the list, we can ignore it and all its parents break } imagesSeen[img.ID] = true imageListForThisTag = append(imageListForThisTag, img.ID) } // reverse the image list for this tag (so the "most"-parent image is first) for i, j := 0, len(imageListForThisTag)-1; i < j; i, j = i+1, j-1 { imageListForThisTag[i], imageListForThisTag[j] = imageListForThisTag[j], imageListForThisTag[i] } // append to main image list imageList = append(imageList, imageListForThisTag...) } if len(imageList) == 0 { return nil, nil, fmt.Errorf("No images found for the requested repository / tag") } utils.Debugf("Image list: %v", imageList) utils.Debugf("Tags by image: %v", tagsByImage) return imageList, tagsByImage, nil } func (srv *Server) pushRepository(r *registry.Registry, out io.Writer, localName, remoteName string, localRepo map[string]string, tag string, sf *utils.StreamFormatter) error { out = utils.NewWriteFlusher(out) utils.Debugf("Local repo: %s", localRepo) imgList, tagsByImage, err := srv.getImageList(localRepo, tag) if err != nil { return err } out.Write(sf.FormatStatus("", "Sending image list")) var ( repoData *registry.RepositoryData imageIndex []*registry.ImgData ) for _, imgId := range imgList { if tags, exists := tagsByImage[imgId]; exists { // If an image has tags you must add an entry in the image index // for each tag for _, tag := range tags { imageIndex = append(imageIndex, ®istry.ImgData{ ID: imgId, Tag: tag, }) } } else { // If the image does not have a tag it still needs to be sent to the // registry with an empty tag so that it is accociated with the repository imageIndex = append(imageIndex, ®istry.ImgData{ ID: imgId, Tag: "", }) } } utils.Debugf("Preparing to push %s with the following images and tags\n", localRepo) for _, data := range imageIndex { utils.Debugf("Pushing ID: %s with Tag: %s\n", data.ID, data.Tag) } // Register all the images in a repository with the registry // If an image is not in this list it will not be associated with the repository repoData, err = r.PushImageJSONIndex(remoteName, imageIndex, false, nil) if err != nil { return err } nTag := 1 if tag == "" { nTag = len(localRepo) } for _, ep := range repoData.Endpoints { out.Write(sf.FormatStatus("", "Pushing repository %s (%d tags)", localName, nTag)) for _, imgId := range imgList { if r.LookupRemoteImage(imgId, ep, repoData.Tokens) { out.Write(sf.FormatStatus("", "Image %s already pushed, skipping", utils.TruncateID(imgId))) } else { if _, err := srv.pushImage(r, out, remoteName, imgId, ep, repoData.Tokens, sf); err != nil { // FIXME: Continue on error? return err } } for _, tag := range tagsByImage[imgId] { out.Write(sf.FormatStatus("", "Pushing tag for rev [%s] on {%s}", utils.TruncateID(imgId), ep+"repositories/"+remoteName+"/tags/"+tag)) if err := r.PushRegistryTag(remoteName, imgId, tag, ep, repoData.Tokens); err != nil { return err } } } } if _, err := r.PushImageJSONIndex(remoteName, imageIndex, true, repoData.Endpoints); err != nil { return err } return nil } func (srv *Server) pushImage(r *registry.Registry, out io.Writer, remote, imgID, ep string, token []string, sf *utils.StreamFormatter) (checksum string, err error) { out = utils.NewWriteFlusher(out) jsonRaw, err := ioutil.ReadFile(path.Join(srv.daemon.Graph().Root, imgID, "json")) if err != nil { return "", fmt.Errorf("Cannot retrieve the path for {%s}: %s", imgID, err) } out.Write(sf.FormatProgress(utils.TruncateID(imgID), "Pushing", nil)) imgData := ®istry.ImgData{ ID: imgID, } // Send the json if err := r.PushImageJSONRegistry(imgData, jsonRaw, ep, token); err != nil { if err == registry.ErrAlreadyExists { out.Write(sf.FormatProgress(utils.TruncateID(imgData.ID), "Image already pushed, skipping", nil)) return "", nil } return "", err } layerData, err := srv.daemon.Graph().TempLayerArchive(imgID, archive.Uncompressed, sf, out) if err != nil { return "", fmt.Errorf("Failed to generate layer archive: %s", err) } defer os.RemoveAll(layerData.Name()) // Send the layer utils.Debugf("rendered layer for %s of [%d] size", imgData.ID, layerData.Size) checksum, checksumPayload, err := r.PushImageLayerRegistry(imgData.ID, utils.ProgressReader(layerData, int(layerData.Size), out, sf, false, utils.TruncateID(imgData.ID), "Pushing"), ep, token, jsonRaw) if err != nil { return "", err } imgData.Checksum = checksum imgData.ChecksumPayload = checksumPayload // Send the checksum if err := r.PushImageChecksumRegistry(imgData, ep, token); err != nil { return "", err } out.Write(sf.FormatProgress(utils.TruncateID(imgData.ID), "Image successfully pushed", nil)) return imgData.Checksum, nil } // FIXME: Allow to interrupt current push when new push of same image is done. func (srv *Server) ImagePush(job *engine.Job) engine.Status { if n := len(job.Args); n != 1 { return job.Errorf("Usage: %s IMAGE", job.Name) } var ( localName = job.Args[0] sf = utils.NewStreamFormatter(job.GetenvBool("json")) authConfig = ®istry.AuthConfig{} metaHeaders map[string][]string ) tag := job.Getenv("tag") job.GetenvJson("authConfig", authConfig) job.GetenvJson("metaHeaders", &metaHeaders) if _, err := srv.poolAdd("push", localName); err != nil { return job.Error(err) } defer srv.poolRemove("push", localName) // Resolve the Repository name from fqn to endpoint + name hostname, remoteName, err := registry.ResolveRepositoryName(localName) if err != nil { return job.Error(err) } endpoint, err := registry.ExpandAndVerifyRegistryUrl(hostname) if err != nil { return job.Error(err) } img, err := srv.daemon.Graph().Get(localName) r, err2 := registry.NewRegistry(authConfig, registry.HTTPRequestFactory(metaHeaders), endpoint, false) if err2 != nil { return job.Error(err2) } if err != nil { reposLen := 1 if tag == "" { reposLen = len(srv.daemon.Repositories().Repositories[localName]) } job.Stdout.Write(sf.FormatStatus("", "The push refers to a repository [%s] (len: %d)", localName, reposLen)) // If it fails, try to get the repository if localRepo, exists := srv.daemon.Repositories().Repositories[localName]; exists { if err := srv.pushRepository(r, job.Stdout, localName, remoteName, localRepo, tag, sf); err != nil { return job.Error(err) } return engine.StatusOK } return job.Error(err) } var token []string job.Stdout.Write(sf.FormatStatus("", "The push refers to an image: [%s]", localName)) if _, err := srv.pushImage(r, job.Stdout, remoteName, img.ID, endpoint, token, sf); err != nil { return job.Error(err) } return engine.StatusOK } func (srv *Server) ImageImport(job *engine.Job) engine.Status { if n := len(job.Args); n != 2 && n != 3 { return job.Errorf("Usage: %s SRC REPO [TAG]", job.Name) } var ( src = job.Args[0] repo = job.Args[1] tag string sf = utils.NewStreamFormatter(job.GetenvBool("json")) archive archive.ArchiveReader resp *http.Response ) if len(job.Args) > 2 { tag = job.Args[2] } if src == "-" { archive = job.Stdin } else { u, err := url.Parse(src) if err != nil { return job.Error(err) } if u.Scheme == "" { u.Scheme = "http" u.Host = src u.Path = "" } job.Stdout.Write(sf.FormatStatus("", "Downloading from %s", u)) // Download with curl (pretty progress bar) // If curl is not available, fallback to http.Get() resp, err = utils.Download(u.String()) if err != nil { return job.Error(err) } progressReader := utils.ProgressReader(resp.Body, int(resp.ContentLength), job.Stdout, sf, true, "", "Importing") defer progressReader.Close() archive = progressReader } img, err := srv.daemon.Graph().Create(archive, "", "", "Imported from "+src, "", nil, nil) if err != nil { return job.Error(err) } // Optionally register the image at REPO/TAG if repo != "" { if err := srv.daemon.Repositories().Set(repo, tag, img.ID, true); err != nil { return job.Error(err) } } job.Stdout.Write(sf.FormatStatus("", img.ID)) return engine.StatusOK } func (srv *Server) ContainerCreate(job *engine.Job) engine.Status { var name string if len(job.Args) == 1 { name = job.Args[0] } else if len(job.Args) > 1 { return job.Errorf("Usage: %s", job.Name) } config := runconfig.ContainerConfigFromJob(job) if config.Memory != 0 && config.Memory < 524288 { return job.Errorf("Minimum memory limit allowed is 512k") } if config.Memory > 0 && !srv.daemon.SystemConfig().MemoryLimit { job.Errorf("Your kernel does not support memory limit capabilities. Limitation discarded.\n") config.Memory = 0 } if config.Memory > 0 && !srv.daemon.SystemConfig().SwapLimit { job.Errorf("Your kernel does not support swap limit capabilities. Limitation discarded.\n") config.MemorySwap = -1 } container, buildWarnings, err := srv.daemon.Create(config, name) if err != nil { if srv.daemon.Graph().IsNotExist(err) { _, tag := utils.ParseRepositoryTag(config.Image) if tag == "" { tag = graph.DEFAULTTAG } return job.Errorf("No such image: %s (tag: %s)", config.Image, tag) } return job.Error(err) } if !container.Config.NetworkDisabled && srv.daemon.SystemConfig().IPv4ForwardingDisabled { job.Errorf("IPv4 forwarding is disabled.\n") } srv.LogEvent("create", container.ID, srv.daemon.Repositories().ImageName(container.Image)) // FIXME: this is necessary because daemon.Create might return a nil container // with a non-nil error. This should not happen! Once it's fixed we // can remove this workaround. if container != nil { job.Printf("%s\n", container.ID) } for _, warning := range buildWarnings { job.Errorf("%s\n", warning) } return engine.StatusOK } func (srv *Server) ContainerRestart(job *engine.Job) engine.Status { if len(job.Args) != 1 { return job.Errorf("Usage: %s CONTAINER\n", job.Name) } var ( name = job.Args[0] t = 10 ) if job.EnvExists("t") { t = job.GetenvInt("t") } if container := srv.daemon.Get(name); container != nil { if err := container.Restart(int(t)); err != nil { return job.Errorf("Cannot restart container %s: %s\n", name, err) } srv.LogEvent("restart", container.ID, srv.daemon.Repositories().ImageName(container.Image)) } else { return job.Errorf("No such container: %s\n", name) } return engine.StatusOK } func (srv *Server) ContainerDestroy(job *engine.Job) engine.Status { if len(job.Args) != 1 { return job.Errorf("Not enough arguments. Usage: %s CONTAINER\n", job.Name) } name := job.Args[0] removeVolume := job.GetenvBool("removeVolume") removeLink := job.GetenvBool("removeLink") forceRemove := job.GetenvBool("forceRemove") container := srv.daemon.Get(name) if removeLink { if container == nil { return job.Errorf("No such link: %s", name) } name, err := daemon.GetFullContainerName(name) if err != nil { job.Error(err) } parent, n := path.Split(name) if parent == "/" { return job.Errorf("Conflict, cannot remove the default name of the container") } pe := srv.daemon.ContainerGraph().Get(parent) if pe == nil { return job.Errorf("Cannot get parent %s for name %s", parent, name) } parentContainer := srv.daemon.Get(pe.ID()) if parentContainer != nil { parentContainer.DisableLink(n) } if err := srv.daemon.ContainerGraph().Delete(name); err != nil { return job.Error(err) } return engine.StatusOK } if container != nil { if container.State.IsRunning() { if forceRemove { if err := container.Stop(5); err != nil { return job.Errorf("Could not stop running container, cannot remove - %v", err) } } else { return job.Errorf("Impossible to remove a running container, please stop it first or use -f") } } if err := srv.daemon.Destroy(container); err != nil { return job.Errorf("Cannot destroy container %s: %s", name, err) } srv.LogEvent("destroy", container.ID, srv.daemon.Repositories().ImageName(container.Image)) if removeVolume { var ( volumes = make(map[string]struct{}) binds = make(map[string]struct{}) usedVolumes = make(map[string]*daemon.Container) ) // the volume id is always the base of the path getVolumeId := func(p string) string { return filepath.Base(strings.TrimSuffix(p, "/layer")) } // populate bind map so that they can be skipped and not removed for _, bind := range container.HostConfig().Binds { source := strings.Split(bind, ":")[0] // TODO: refactor all volume stuff, all of it // it is very important that we eval the link or comparing the keys to container.Volumes will not work // // eval symlink can fail, ref #5244 if we receive an is not exist error we can ignore it p, err := filepath.EvalSymlinks(source) if err != nil && !os.IsNotExist(err) { return job.Error(err) } if p != "" { source = p } binds[source] = struct{}{} } // Store all the deleted containers volumes for _, volumeId := range container.Volumes { // Skip the volumes mounted from external // bind mounts here will will be evaluated for a symlink if _, exists := binds[volumeId]; exists { continue } volumeId = getVolumeId(volumeId) volumes[volumeId] = struct{}{} } // Retrieve all volumes from all remaining containers for _, container := range srv.daemon.List() { for _, containerVolumeId := range container.Volumes { containerVolumeId = getVolumeId(containerVolumeId) usedVolumes[containerVolumeId] = container } } for volumeId := range volumes { // If the requested volu if c, exists := usedVolumes[volumeId]; exists { log.Printf("The volume %s is used by the container %s. Impossible to remove it. Skipping.\n", volumeId, c.ID) continue } if err := srv.daemon.Volumes().Delete(volumeId); err != nil { return job.Errorf("Error calling volumes.Delete(%q): %v", volumeId, err) } } } } else { return job.Errorf("No such container: %s", name) } return engine.StatusOK } func (srv *Server) DeleteImage(name string, imgs *engine.Table, first, force, noprune bool) error { var ( repoName, tag string tags = []string{} tagDeleted bool ) repoName, tag = utils.ParseRepositoryTag(name) if tag == "" { tag = graph.DEFAULTTAG } img, err := srv.daemon.Repositories().LookupImage(name) if err != nil { if r, _ := srv.daemon.Repositories().Get(repoName); r != nil { return fmt.Errorf("No such image: %s:%s", repoName, tag) } return fmt.Errorf("No such image: %s", name) } if strings.Contains(img.ID, name) { repoName = "" tag = "" } byParents, err := srv.daemon.Graph().ByParent() if err != nil { return err } //If delete by id, see if the id belong only to one repository if repoName == "" { for _, repoAndTag := range srv.daemon.Repositories().ByID()[img.ID] { parsedRepo, parsedTag := utils.ParseRepositoryTag(repoAndTag) if repoName == "" || repoName == parsedRepo { repoName = parsedRepo if parsedTag != "" { tags = append(tags, parsedTag) } } else if repoName != parsedRepo && !force { // the id belongs to multiple repos, like base:latest and user:test, // in that case return conflict return fmt.Errorf("Conflict, cannot delete image %s because it is tagged in multiple repositories, use -f to force", name) } } } else { tags = append(tags, tag) } if !first && len(tags) > 0 { return nil } //Untag the current image for _, tag := range tags { tagDeleted, err = srv.daemon.Repositories().Delete(repoName, tag) if err != nil { return err } if tagDeleted { out := &engine.Env{} out.Set("Untagged", repoName+":"+tag) imgs.Add(out) srv.LogEvent("untag", img.ID, "") } } tags = srv.daemon.Repositories().ByID()[img.ID] if (len(tags) <= 1 && repoName == "") || len(tags) == 0 { if len(byParents[img.ID]) == 0 { if err := srv.canDeleteImage(img.ID, force, tagDeleted); err != nil { return err } if err := srv.daemon.Repositories().DeleteAll(img.ID); err != nil { return err } if err := srv.daemon.Graph().Delete(img.ID); err != nil { return err } out := &engine.Env{} out.Set("Deleted", img.ID) imgs.Add(out) srv.LogEvent("delete", img.ID, "") if img.Parent != "" && !noprune { err := srv.DeleteImage(img.Parent, imgs, false, force, noprune) if first { return err } } } } return nil } func (srv *Server) ImageDelete(job *engine.Job) engine.Status { if n := len(job.Args); n != 1 { return job.Errorf("Usage: %s IMAGE", job.Name) } imgs := engine.NewTable("", 0) if err := srv.DeleteImage(job.Args[0], imgs, true, job.GetenvBool("force"), job.GetenvBool("noprune")); err != nil { return job.Error(err) } if len(imgs.Data) == 0 { return job.Errorf("Conflict, %s wasn't deleted", job.Args[0]) } if _, err := imgs.WriteListTo(job.Stdout); err != nil { return job.Error(err) } return engine.StatusOK } func (srv *Server) canDeleteImage(imgID string, force, untagged bool) error { var message string if untagged { message = " (docker untagged the image)" } for _, container := range srv.daemon.List() { parent, err := srv.daemon.Repositories().LookupImage(container.Image) if err != nil { return err } if err := parent.WalkHistory(func(p *image.Image) error { if imgID == p.ID { if container.State.IsRunning() { if force { return fmt.Errorf("Conflict, cannot force delete %s because the running container %s is using it%s, stop it and retry", utils.TruncateID(imgID), utils.TruncateID(container.ID), message) } return fmt.Errorf("Conflict, cannot delete %s because the running container %s is using it%s, stop it and use -f to force", utils.TruncateID(imgID), utils.TruncateID(container.ID), message) } else if !force { return fmt.Errorf("Conflict, cannot delete %s because the container %s is using it%s, use -f to force", utils.TruncateID(imgID), utils.TruncateID(container.ID), message) } } return nil }); err != nil { return err } } return nil } func (srv *Server) ImageGetCached(imgID string, config *runconfig.Config) (*image.Image, error) { // Retrieve all images images, err := srv.daemon.Graph().Map() if err != nil { return nil, err } // Store the tree in a map of map (map[parentId][childId]) imageMap := make(map[string]map[string]struct{}) for _, img := range images { if _, exists := imageMap[img.Parent]; !exists { imageMap[img.Parent] = make(map[string]struct{}) } imageMap[img.Parent][img.ID] = struct{}{} } // Loop on the children of the given image and check the config var match *image.Image for elem := range imageMap[imgID] { img, err := srv.daemon.Graph().Get(elem) if err != nil { return nil, err } if runconfig.Compare(&img.ContainerConfig, config) { if match == nil || match.Created.Before(img.Created) { match = img } } } return match, nil } func (srv *Server) ContainerStart(job *engine.Job) engine.Status { if len(job.Args) < 1 { return job.Errorf("Usage: %s container_id", job.Name) } var ( name = job.Args[0] daemon = srv.daemon container = daemon.Get(name) ) if container == nil { return job.Errorf("No such container: %s", name) } if container.State.IsRunning() { return job.Errorf("Container already started") } // If no environment was set, then no hostconfig was passed. if len(job.Environ()) > 0 { hostConfig := runconfig.ContainerHostConfigFromJob(job) // Validate the HostConfig binds. Make sure that: // the source exists for _, bind := range hostConfig.Binds { splitBind := strings.Split(bind, ":") source := splitBind[0] // ensure the source exists on the host _, err := os.Stat(source) if err != nil && os.IsNotExist(err) { err = os.MkdirAll(source, 0755) if err != nil { return job.Errorf("Could not create local directory '%s' for bind mount: %s!", source, err.Error()) } } } // Register any links from the host config before starting the container if err := srv.daemon.RegisterLinks(container, hostConfig); err != nil { return job.Error(err) } container.SetHostConfig(hostConfig) container.ToDisk() } if err := container.Start(); err != nil { return job.Errorf("Cannot start container %s: %s", name, err) } srv.LogEvent("start", container.ID, daemon.Repositories().ImageName(container.Image)) return engine.StatusOK } func (srv *Server) ContainerStop(job *engine.Job) engine.Status { if len(job.Args) != 1 { return job.Errorf("Usage: %s CONTAINER\n", job.Name) } var ( name = job.Args[0] t = 10 ) if job.EnvExists("t") { t = job.GetenvInt("t") } if container := srv.daemon.Get(name); container != nil { if !container.State.IsRunning() { return job.Errorf("Container already stopped") } if err := container.Stop(int(t)); err != nil { return job.Errorf("Cannot stop container %s: %s\n", name, err) } srv.LogEvent("stop", container.ID, srv.daemon.Repositories().ImageName(container.Image)) } else { return job.Errorf("No such container: %s\n", name) } return engine.StatusOK } func (srv *Server) ContainerWait(job *engine.Job) engine.Status { if len(job.Args) != 1 { return job.Errorf("Usage: %s", job.Name) } name := job.Args[0] if container := srv.daemon.Get(name); container != nil { status, _ := container.State.WaitStop(-1 * time.Second) job.Printf("%d\n", status) return engine.StatusOK } return job.Errorf("%s: no such container: %s", job.Name, name) } func (srv *Server) ContainerResize(job *engine.Job) engine.Status { if len(job.Args) != 3 { return job.Errorf("Not enough arguments. Usage: %s CONTAINER HEIGHT WIDTH\n", job.Name) } name := job.Args[0] height, err := strconv.Atoi(job.Args[1]) if err != nil { return job.Error(err) } width, err := strconv.Atoi(job.Args[2]) if err != nil { return job.Error(err) } if container := srv.daemon.Get(name); container != nil { if err := container.Resize(height, width); err != nil { return job.Error(err) } return engine.StatusOK } return job.Errorf("No such container: %s", name) } func (srv *Server) ContainerLogs(job *engine.Job) engine.Status { if len(job.Args) != 1 { return job.Errorf("Usage: %s CONTAINER\n", job.Name) } var ( name = job.Args[0] stdout = job.GetenvBool("stdout") stderr = job.GetenvBool("stderr") tail = job.Getenv("tail") follow = job.GetenvBool("follow") times = job.GetenvBool("timestamps") lines = -1 format string ) if !(stdout || stderr) { return job.Errorf("You must choose at least one stream") } if times { format = time.StampMilli } if tail == "" { tail = "all" } container := srv.daemon.Get(name) if container == nil { return job.Errorf("No such container: %s", name) } cLog, err := container.ReadLog("json") if err != nil && os.IsNotExist(err) { // Legacy logs utils.Debugf("Old logs format") if stdout { cLog, err := container.ReadLog("stdout") if err != nil { utils.Errorf("Error reading logs (stdout): %s", err) } else if _, err := io.Copy(job.Stdout, cLog); err != nil { utils.Errorf("Error streaming logs (stdout): %s", err) } } if stderr { cLog, err := container.ReadLog("stderr") if err != nil { utils.Errorf("Error reading logs (stderr): %s", err) } else if _, err := io.Copy(job.Stderr, cLog); err != nil { utils.Errorf("Error streaming logs (stderr): %s", err) } } } else if err != nil { utils.Errorf("Error reading logs (json): %s", err) } else { if tail != "all" { var err error lines, err = strconv.Atoi(tail) if err != nil { utils.Errorf("Failed to parse tail %s, error: %v, show all logs", err) lines = -1 } } if lines != 0 { if lines > 0 { f := cLog.(*os.File) ls, err := tailfile.TailFile(f, lines) if err != nil { return job.Error(err) } tmp := bytes.NewBuffer([]byte{}) for _, l := range ls { fmt.Fprintf(tmp, "%s\n", l) } cLog = tmp } dec := json.NewDecoder(cLog) for { l := &utils.JSONLog{} if err := dec.Decode(l); err == io.EOF { break } else if err != nil { utils.Errorf("Error streaming logs: %s", err) break } logLine := l.Log if times { logLine = fmt.Sprintf("[%s] %s", l.Created.Format(format), logLine) } if l.Stream == "stdout" && stdout { fmt.Fprintf(job.Stdout, "%s", logLine) } if l.Stream == "stderr" && stderr { fmt.Fprintf(job.Stderr, "%s", logLine) } } } } if follow { errors := make(chan error, 2) if stdout { stdoutPipe := container.StdoutLogPipe() go func() { errors <- utils.WriteLog(stdoutPipe, job.Stdout, format) }() } if stderr { stderrPipe := container.StderrLogPipe() go func() { errors <- utils.WriteLog(stderrPipe, job.Stderr, format) }() } err := <-errors if err != nil { utils.Errorf("%s", err) } } return engine.StatusOK } func (srv *Server) ContainerAttach(job *engine.Job) engine.Status { if len(job.Args) != 1 { return job.Errorf("Usage: %s CONTAINER\n", job.Name) } var ( name = job.Args[0] logs = job.GetenvBool("logs") stream = job.GetenvBool("stream") stdin = job.GetenvBool("stdin") stdout = job.GetenvBool("stdout") stderr = job.GetenvBool("stderr") ) container := srv.daemon.Get(name) if container == nil { return job.Errorf("No such container: %s", name) } //logs if logs { cLog, err := container.ReadLog("json") if err != nil && os.IsNotExist(err) { // Legacy logs utils.Debugf("Old logs format") if stdout { cLog, err := container.ReadLog("stdout") if err != nil { utils.Errorf("Error reading logs (stdout): %s", err) } else if _, err := io.Copy(job.Stdout, cLog); err != nil { utils.Errorf("Error streaming logs (stdout): %s", err) } } if stderr { cLog, err := container.ReadLog("stderr") if err != nil { utils.Errorf("Error reading logs (stderr): %s", err) } else if _, err := io.Copy(job.Stderr, cLog); err != nil { utils.Errorf("Error streaming logs (stderr): %s", err) } } } else if err != nil { utils.Errorf("Error reading logs (json): %s", err) } else { dec := json.NewDecoder(cLog) for { l := &utils.JSONLog{} if err := dec.Decode(l); err == io.EOF { break } else if err != nil { utils.Errorf("Error streaming logs: %s", err) break } if l.Stream == "stdout" && stdout { fmt.Fprintf(job.Stdout, "%s", l.Log) } if l.Stream == "stderr" && stderr { fmt.Fprintf(job.Stderr, "%s", l.Log) } } } } //stream if stream { var ( cStdin io.ReadCloser cStdout, cStderr io.Writer cStdinCloser io.Closer ) if stdin { r, w := io.Pipe() go func() { defer w.Close() defer utils.Debugf("Closing buffered stdin pipe") io.Copy(w, job.Stdin) }() cStdin = r cStdinCloser = job.Stdin } if stdout { cStdout = job.Stdout } if stderr { cStderr = job.Stderr } <-srv.daemon.Attach(container, cStdin, cStdinCloser, cStdout, cStderr) // If we are in stdinonce mode, wait for the process to end // otherwise, simply return if container.Config.StdinOnce && !container.Config.Tty { container.State.WaitStop(-1 * time.Second) } } return engine.StatusOK } func (srv *Server) ContainerCopy(job *engine.Job) engine.Status { if len(job.Args) != 2 { return job.Errorf("Usage: %s CONTAINER RESOURCE\n", job.Name) } var ( name = job.Args[0] resource = job.Args[1] ) if container := srv.daemon.Get(name); container != nil { data, err := container.Copy(resource) if err != nil { return job.Error(err) } defer data.Close() if _, err := io.Copy(job.Stdout, data); err != nil { return job.Error(err) } return engine.StatusOK } return job.Errorf("No such container: %s", name) } func NewServer(eng *engine.Engine, config *daemonconfig.Config) (*Server, error) { daemon, err := daemon.NewDaemon(config, eng) if err != nil { return nil, err } srv := &Server{ Eng: eng, daemon: daemon, pullingPool: make(map[string]chan struct{}), pushingPool: make(map[string]chan struct{}), events: make([]utils.JSONMessage, 0, 64), //only keeps the 64 last events eventPublisher: utils.NewJSONMessagePublisher(), } daemon.SetServer(srv) return srv, nil } func (srv *Server) LogEvent(action, id, from string) *utils.JSONMessage { now := time.Now().UTC().Unix() jm := utils.JSONMessage{Status: action, ID: id, From: from, Time: now} srv.AddEvent(jm) srv.eventPublisher.Publish(jm) return &jm } func (srv *Server) AddEvent(jm utils.JSONMessage) { srv.Lock() defer srv.Unlock() srv.events = append(srv.events, jm) } func (srv *Server) GetEvents() []utils.JSONMessage { srv.RLock() defer srv.RUnlock() return srv.events } func (srv *Server) SetRunning(status bool) { srv.Lock() defer srv.Unlock() srv.running = status } func (srv *Server) IsRunning() bool { srv.RLock() defer srv.RUnlock() return srv.running } func (srv *Server) Close() error { if srv == nil { return nil } srv.SetRunning(false) done := make(chan struct{}) go func() { srv.tasks.Wait() close(done) }() select { // Waiting server jobs for 15 seconds, shutdown immediately after that time case <-time.After(time.Second * 15): case <-done: } if srv.daemon == nil { return nil } return srv.daemon.Close() } type Server struct { sync.RWMutex daemon *daemon.Daemon pullingPool map[string]chan struct{} pushingPool map[string]chan struct{} events []utils.JSONMessage eventPublisher *utils.JSONMessagePublisher Eng *engine.Engine running bool tasks sync.WaitGroup }