package container import ( "fmt" "io" "strings" "sync" "time" "golang.org/x/net/context" "github.com/docker/docker/api/types" "github.com/docker/docker/api/types/events" "github.com/docker/docker/api/types/filters" "github.com/docker/docker/cli" "github.com/docker/docker/cli/command" "github.com/docker/docker/cli/command/formatter" "github.com/spf13/cobra" ) type statsOptions struct { all bool noStream bool format string containers []string } // NewStatsCommand creates a new cobra.Command for `docker stats` func NewStatsCommand(dockerCli *command.DockerCli) *cobra.Command { var opts statsOptions cmd := &cobra.Command{ Use: "stats [OPTIONS] [CONTAINER...]", Short: "Display a live stream of container(s) resource usage statistics", Args: cli.RequiresMinArgs(0), RunE: func(cmd *cobra.Command, args []string) error { opts.containers = args return runStats(dockerCli, &opts) }, } flags := cmd.Flags() flags.BoolVarP(&opts.all, "all", "a", false, "Show all containers (default shows just running)") flags.BoolVar(&opts.noStream, "no-stream", false, "Disable streaming stats and only pull the first result") flags.StringVar(&opts.format, "format", "", "Pretty-print images using a Go template") return cmd } // runStats displays a live stream of resource usage statistics for one or more containers. // This shows real-time information on CPU usage, memory usage, and network I/O. func runStats(dockerCli *command.DockerCli, opts *statsOptions) error { showAll := len(opts.containers) == 0 closeChan := make(chan error) ctx := context.Background() // monitorContainerEvents watches for container creation and removal (only // used when calling `docker stats` without arguments). monitorContainerEvents := func(started chan<- struct{}, c chan events.Message) { f := filters.NewArgs() f.Add("type", "container") options := types.EventsOptions{ Filters: f, } eventq, errq := dockerCli.Client().Events(ctx, options) // Whether we successfully subscribed to eventq or not, we can now // unblock the main goroutine. close(started) for { select { case event := <-eventq: c <- event case err := <-errq: closeChan <- err return } } } // waitFirst is a WaitGroup to wait first stat data's reach for each container waitFirst := &sync.WaitGroup{} cStats := stats{} // getContainerList simulates creation event for all previously existing // containers (only used when calling `docker stats` without arguments). getContainerList := func() { options := types.ContainerListOptions{ All: opts.all, } cs, err := dockerCli.Client().ContainerList(ctx, options) if err != nil { closeChan <- err } for _, container := range cs { s := formatter.NewContainerStats(container.ID[:12], daemonOSType) if cStats.add(s) { waitFirst.Add(1) go collect(s, ctx, dockerCli.Client(), !opts.noStream, waitFirst) } } } if showAll { // If no names were specified, start a long running goroutine which // monitors container events. We make sure we're subscribed before // retrieving the list of running containers to avoid a race where we // would "miss" a creation. started := make(chan struct{}) eh := command.InitEventHandler() eh.Handle("create", func(e events.Message) { if opts.all { s := formatter.NewContainerStats(e.ID[:12], daemonOSType) if cStats.add(s) { waitFirst.Add(1) go collect(s, ctx, dockerCli.Client(), !opts.noStream, waitFirst) } } }) eh.Handle("start", func(e events.Message) { s := formatter.NewContainerStats(e.ID[:12], daemonOSType) if cStats.add(s) { waitFirst.Add(1) go collect(s, ctx, dockerCli.Client(), !opts.noStream, waitFirst) } }) eh.Handle("die", func(e events.Message) { if !opts.all { cStats.remove(e.ID[:12]) } }) eventChan := make(chan events.Message) go eh.Watch(eventChan) go monitorContainerEvents(started, eventChan) defer close(eventChan) <-started // Start a short-lived goroutine to retrieve the initial list of // containers. getContainerList() } else { // Artificially send creation events for the containers we were asked to // monitor (same code path than we use when monitoring all containers). for _, name := range opts.containers { s := formatter.NewContainerStats(name, daemonOSType) if cStats.add(s) { waitFirst.Add(1) go collect(s, ctx, dockerCli.Client(), !opts.noStream, waitFirst) } } // We don't expect any asynchronous errors: closeChan can be closed. close(closeChan) // Do a quick pause to detect any error with the provided list of // container names. time.Sleep(1500 * time.Millisecond) var errs []string cStats.mu.Lock() for _, c := range cStats.cs { cErr := c.GetError() if cErr != nil { errs = append(errs, fmt.Sprintf("%s: %v", c.Name, cErr)) } } cStats.mu.Unlock() if len(errs) > 0 { return fmt.Errorf("%s", strings.Join(errs, ", ")) } } // before print to screen, make sure each container get at least one valid stat data waitFirst.Wait() f := "table" if len(opts.format) > 0 { f = opts.format } statsCtx := formatter.Context{ Output: dockerCli.Out(), Format: formatter.NewStatsFormat(f, daemonOSType), } cleanScreen := func() { if !opts.noStream { fmt.Fprint(dockerCli.Out(), "\033[2J") fmt.Fprint(dockerCli.Out(), "\033[H") } } var err error for range time.Tick(500 * time.Millisecond) { cleanScreen() ccstats := []formatter.StatsEntry{} cStats.mu.Lock() for _, c := range cStats.cs { ccstats = append(ccstats, c.GetStatistics()) } cStats.mu.Unlock() if err = formatter.ContainerStatsWrite(statsCtx, ccstats); err != nil { break } if len(cStats.cs) == 0 && !showAll { break } if opts.noStream { break } select { case err, ok := <-closeChan: if ok { if err != nil { // this is suppressing "unexpected EOF" in the cli when the // daemon restarts so it shutdowns cleanly if err == io.ErrUnexpectedEOF { return nil } return err } } default: // just skip } } return err }