package system import ( "fmt" "os" "strings" "time" "github.com/containers/common/pkg/completion" "github.com/containers/common/pkg/report" "github.com/containers/podman/v3/cmd/podman/registry" "github.com/containers/podman/v3/cmd/podman/validate" "github.com/containers/podman/v3/pkg/domain/entities" "github.com/docker/go-units" "github.com/spf13/cobra" ) var ( dfSystemDescription = ` podman system df Show podman disk usage ` dfSystemCommand = &cobra.Command{ Use: "df [options]", Args: validate.NoArgs, Short: "Show podman disk usage", Long: dfSystemDescription, RunE: df, ValidArgsFunction: completion.AutocompleteNone, } ) var ( dfOptions entities.SystemDfOptions ) func init() { registry.Commands = append(registry.Commands, registry.CliCommand{ Command: dfSystemCommand, Parent: systemCmd, }) flags := dfSystemCommand.Flags() flags.BoolVarP(&dfOptions.Verbose, "verbose", "v", false, "Show detailed information on disk usage") formatFlagName := "format" flags.StringVar(&dfOptions.Format, formatFlagName, "", "Pretty-print images using a Go template") _ = dfSystemCommand.RegisterFlagCompletionFunc(formatFlagName, completion.AutocompleteNone) } func df(cmd *cobra.Command, args []string) error { reports, err := registry.ContainerEngine().SystemDf(registry.Context(), dfOptions) if err != nil { return err } if dfOptions.Verbose { return printVerbose(cmd, reports) } return printSummary(cmd, reports) } func printSummary(cmd *cobra.Command, reports *entities.SystemDfReport) error { var ( dfSummaries []*dfSummary active int size, reclaimable int64 ) for _, i := range reports.Images { if i.Containers > 0 { active++ } size += i.Size if i.Containers < 1 { reclaimable += i.Size } } imageSummary := dfSummary{ Type: "Images", Total: len(reports.Images), Active: active, size: size, reclaimable: reclaimable, } dfSummaries = append(dfSummaries, &imageSummary) // Containers var ( conActive int conSize, conReclaimable int64 ) for _, c := range reports.Containers { if c.Status == "running" { conActive++ } else { conReclaimable += c.RWSize } conSize += c.RWSize } containerSummary := dfSummary{ Type: "Containers", Total: len(reports.Containers), Active: conActive, size: conSize, reclaimable: conReclaimable, } dfSummaries = append(dfSummaries, &containerSummary) // Volumes var ( activeVolumes int volumesSize, volumesReclaimable int64 ) for _, v := range reports.Volumes { activeVolumes += v.Links volumesSize += v.Size volumesReclaimable += v.ReclaimableSize } volumeSummary := dfSummary{ Type: "Local Volumes", Total: len(reports.Volumes), Active: activeVolumes, size: volumesSize, reclaimable: volumesReclaimable, } dfSummaries = append(dfSummaries, &volumeSummary) // need to give un-exported fields hdrs := report.Headers(dfSummary{}, map[string]string{ "Size": "SIZE", "Reclaimable": "RECLAIMABLE", }) rpt := report.New(os.Stdout, cmd.Name()) defer rpt.Flush() var err error if cmd.Flags().Changed("format") { rpt, err = rpt.Parse(report.OriginUser, dfOptions.Format) } else { row := "{{range . }}{{.Type}}\t{{.Total}}\t{{.Active}}\t{{.Size}}\t{{.Reclaimable}}\n{{end -}}" rpt, err = rpt.Parse(report.OriginPodman, row) } if err != nil { return err } return writeTemplate(rpt, hdrs, dfSummaries) } func printVerbose(cmd *cobra.Command, reports *entities.SystemDfReport) error { // nolint:interfacer rpt := report.New(os.Stdout, cmd.Name()) defer rpt.Flush() fmt.Fprint(rpt.Writer(), "Images space usage:\n\n") // convert to dfImage for output dfImages := make([]*dfImage, 0, len(reports.Images)) for _, d := range reports.Images { dfImages = append(dfImages, &dfImage{SystemDfImageReport: d}) } hdrs := report.Headers(entities.SystemDfImageReport{}, map[string]string{ "ImageID": "IMAGE ID", "SharedSize": "SHARED SIZE", "UniqueSize": "UNIQUE SIZE", }) imageRow := "{{range .}}{{.Repository}}\t{{.Tag}}\t{{.ImageID}}\t{{.Created}}\t{{.Size}}\t{{.SharedSize}}\t{{.UniqueSize}}\t{{.Containers}}\n{{end -}}" rpt, err := rpt.Parse(report.OriginPodman, imageRow) if err != nil { return err } if err := writeTemplate(rpt, hdrs, dfImages); err != nil { return nil } fmt.Fprint(rpt.Writer(), "\nContainers space usage:\n\n") // convert to dfContainers for output dfContainers := make([]*dfContainer, 0, len(reports.Containers)) for _, d := range reports.Containers { dfContainers = append(dfContainers, &dfContainer{SystemDfContainerReport: d}) } hdrs = report.Headers(entities.SystemDfContainerReport{}, map[string]string{ "ContainerID": "CONTAINER ID", "LocalVolumes": "LOCAL VOLUMES", "RWSize": "SIZE", }) containerRow := "{{range .}}{{.ContainerID}}\t{{.Image}}\t{{.Command}}\t{{.LocalVolumes}}\t{{.RWSize}}\t{{.Created}}\t{{.Status}}\t{{.Names}}\n{{end -}}" rpt, err = rpt.Parse(report.OriginPodman, containerRow) if err != nil { return err } if err := writeTemplate(rpt, hdrs, dfContainers); err != nil { return nil } fmt.Fprint(rpt.Writer(), "\nLocal Volumes space usage:\n\n") dfVolumes := make([]*dfVolume, 0, len(reports.Volumes)) // convert to dfVolume for output for _, d := range reports.Volumes { dfVolumes = append(dfVolumes, &dfVolume{SystemDfVolumeReport: d}) } hdrs = report.Headers(entities.SystemDfVolumeReport{}, map[string]string{ "VolumeName": "VOLUME NAME", }) volumeRow := "{{range .}}{{.VolumeName}}\t{{.Links}}\t{{.Size}}\n{{end -}}" rpt, err = rpt.Parse(report.OriginPodman, volumeRow) if err != nil { return err } return writeTemplate(rpt, hdrs, dfVolumes) } func writeTemplate(rpt *report.Formatter, hdrs []map[string]string, output interface{}) error { if rpt.RenderHeaders { if err := rpt.Execute(hdrs); err != nil { return err } } return rpt.Execute(output) } type dfImage struct { *entities.SystemDfImageReport } func (d *dfImage) ImageID() string { return d.SystemDfImageReport.ImageID[0:12] } func (d *dfImage) Created() string { return units.HumanDuration(time.Since(d.SystemDfImageReport.Created)) } func (d *dfImage) Size() string { return units.HumanSize(float64(d.SystemDfImageReport.Size)) } func (d *dfImage) SharedSize() string { return units.HumanSize(float64(d.SystemDfImageReport.SharedSize)) } func (d *dfImage) UniqueSize() string { return units.HumanSize(float64(d.SystemDfImageReport.UniqueSize)) } type dfContainer struct { *entities.SystemDfContainerReport } func (d *dfContainer) ContainerID() string { return d.SystemDfContainerReport.ContainerID[0:12] } func (d *dfContainer) Image() string { return d.SystemDfContainerReport.Image[0:12] } func (d *dfContainer) Command() string { return strings.Join(d.SystemDfContainerReport.Command, " ") } func (d *dfContainer) RWSize() string { return units.HumanSize(float64(d.SystemDfContainerReport.RWSize)) } func (d *dfContainer) Created() string { return units.HumanDuration(time.Since(d.SystemDfContainerReport.Created)) } type dfVolume struct { *entities.SystemDfVolumeReport } func (d *dfVolume) Size() string { return units.HumanSize(float64(d.SystemDfVolumeReport.Size)) } type dfSummary struct { Type string Total int Active int size int64 reclaimable int64 } func (d *dfSummary) Size() string { return units.HumanSize(float64(d.size)) } func (d *dfSummary) Reclaimable() string { percent := int(float64(d.reclaimable)/float64(d.size)) * 100 return fmt.Sprintf("%s (%d%%)", units.HumanSize(float64(d.reclaimable)), percent) }