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package main
import (
"reflect"
"strings"
"github.com/containers/libpod/cmd/podman/cliconfig"
"github.com/containers/libpod/cmd/podman/formats"
"github.com/containers/libpod/cmd/podman/libpodruntime"
"github.com/containers/libpod/libpod"
"github.com/pkg/errors"
"github.com/spf13/cobra"
)
// volumeOptions is the "ls" command options
type volumeLsOptions struct {
Format string
Quiet bool
}
// volumeLsTemplateParams is the template parameters to list the volumes
type volumeLsTemplateParams struct {
Name string
Labels string
MountPoint string
Driver string
Options string
Scope string
}
// volumeLsJSONParams is the JSON parameters to list the volumes
type volumeLsJSONParams struct {
Name string `json:"name"`
Labels map[string]string `json:"labels"`
MountPoint string `json:"mountPoint"`
Driver string `json:"driver"`
Options map[string]string `json:"options"`
Scope string `json:"scope"`
}
var (
volumeLsCommand cliconfig.VolumeLsValues
volumeLsDescription = `
podman volume ls
List all available volumes. The output of the volumes can be filtered
and the output format can be changed to JSON or a user specified Go template.
`
_volumeLsCommand = &cobra.Command{
Use: "ls",
Aliases: []string{"list"},
Short: "List volumes",
Long: volumeLsDescription,
RunE: func(cmd *cobra.Command, args []string) error {
volumeLsCommand.InputArgs = args
volumeLsCommand.GlobalFlags = MainGlobalOpts
return volumeLsCmd(&volumeLsCommand)
},
}
)
func init() {
volumeLsCommand.Command = _volumeLsCommand
flags := volumeLsCommand.Flags()
flags.StringVarP(&volumeLsCommand.Filter, "filter", "f", "", "Filter volume output")
flags.StringVar(&volumeLsCommand.Format, "format", "table {{.Driver}}\t{{.Name}}", "Format volume output using Go template")
flags.BoolVarP(&volumeLsCommand.Quiet, "quiet", "q", false, "Print volume output in quiet mode")
}
func volumeLsCmd(c *cliconfig.VolumeLsValues) error {
runtime, err := libpodruntime.GetRuntime(&c.PodmanCommand)
if err != nil {
return errors.Wrapf(err, "error creating libpod runtime")
}
defer runtime.Shutdown(false)
if len(c.InputArgs) > 0 {
return errors.Errorf("too many arguments, ls takes no arguments")
}
opts := volumeLsOptions{
Quiet: c.Quiet,
}
opts.Format = genVolLsFormat(c)
// Get the filter functions based on any filters set
var filterFuncs []libpod.VolumeFilter
if c.Filter != "" {
filters := strings.Split(c.Filter, ",")
for _, f := range filters {
filterSplit := strings.Split(f, "=")
if len(filterSplit) < 2 {
return errors.Errorf("filter input must be in the form of filter=value: %s is invalid", f)
}
generatedFunc, err := generateVolumeFilterFuncs(filterSplit[0], filterSplit[1], runtime)
if err != nil {
return errors.Wrapf(err, "invalid filter")
}
filterFuncs = append(filterFuncs, generatedFunc)
}
}
volumes, err := runtime.GetAllVolumes()
if err != nil {
return err
}
// Get the volumes that match the filter
volsFiltered := make([]*libpod.Volume, 0, len(volumes))
for _, vol := range volumes {
include := true
for _, filter := range filterFuncs {
include = include && filter(vol)
}
if include {
volsFiltered = append(volsFiltered, vol)
}
}
return generateVolLsOutput(volsFiltered, opts, runtime)
}
// generate the template based on conditions given
func genVolLsFormat(c *cliconfig.VolumeLsValues) string {
var format string
if c.Format != "" {
// "\t" from the command line is not being recognized as a tab
// replacing the string "\t" to a tab character if the user passes in "\t"
format = strings.Replace(c.Format, `\t`, "\t", -1)
}
if c.Quiet {
format = "{{.Name}}"
}
return format
}
// Convert output to genericParams for printing
func volLsToGeneric(templParams []volumeLsTemplateParams, JSONParams []volumeLsJSONParams) (genericParams []interface{}) {
if len(templParams) > 0 {
for _, v := range templParams {
genericParams = append(genericParams, interface{}(v))
}
return
}
for _, v := range JSONParams {
genericParams = append(genericParams, interface{}(v))
}
return
}
// generate the accurate header based on template given
func (vol *volumeLsTemplateParams) volHeaderMap() map[string]string {
v := reflect.Indirect(reflect.ValueOf(vol))
values := make(map[string]string)
for i := 0; i < v.NumField(); i++ {
key := v.Type().Field(i).Name
value := key
if value == "Name" {
value = "Volume" + value
}
values[key] = strings.ToUpper(splitCamelCase(value))
}
return values
}
// getVolTemplateOutput returns all the volumes in the volumeLsTemplateParams format
func getVolTemplateOutput(lsParams []volumeLsJSONParams, opts volumeLsOptions) ([]volumeLsTemplateParams, error) {
var lsOutput []volumeLsTemplateParams
for _, lsParam := range lsParams {
var (
labels string
options string
)
for k, v := range lsParam.Labels {
label := k
if v != "" {
label += "=" + v
}
labels += label
}
for k, v := range lsParam.Options {
option := k
if v != "" {
option += "=" + v
}
options += option
}
params := volumeLsTemplateParams{
Name: lsParam.Name,
Driver: lsParam.Driver,
MountPoint: lsParam.MountPoint,
Scope: lsParam.Scope,
Labels: labels,
Options: options,
}
lsOutput = append(lsOutput, params)
}
return lsOutput, nil
}
// getVolJSONParams returns the volumes in JSON format
func getVolJSONParams(volumes []*libpod.Volume, opts volumeLsOptions, runtime *libpod.Runtime) ([]volumeLsJSONParams, error) {
var lsOutput []volumeLsJSONParams
for _, volume := range volumes {
params := volumeLsJSONParams{
Name: volume.Name(),
Labels: volume.Labels(),
MountPoint: volume.MountPoint(),
Driver: volume.Driver(),
Options: volume.Options(),
Scope: volume.Scope(),
}
lsOutput = append(lsOutput, params)
}
return lsOutput, nil
}
// generateVolLsOutput generates the output based on the format, JSON or Go Template, and prints it out
func generateVolLsOutput(volumes []*libpod.Volume, opts volumeLsOptions, runtime *libpod.Runtime) error {
if len(volumes) == 0 && opts.Format != formats.JSONString {
return nil
}
lsOutput, err := getVolJSONParams(volumes, opts, runtime)
if err != nil {
return err
}
var out formats.Writer
switch opts.Format {
case formats.JSONString:
if err != nil {
return errors.Wrapf(err, "unable to create JSON for volume output")
}
out = formats.JSONStructArray{Output: volLsToGeneric([]volumeLsTemplateParams{}, lsOutput)}
default:
lsOutput, err := getVolTemplateOutput(lsOutput, opts)
if err != nil {
return errors.Wrapf(err, "unable to create volume output")
}
out = formats.StdoutTemplateArray{Output: volLsToGeneric(lsOutput, []volumeLsJSONParams{}), Template: opts.Format, Fields: lsOutput[0].volHeaderMap()}
}
return formats.Writer(out).Out()
}
// generateVolumeFilterFuncs returns the true if the volume matches the filter set, otherwise it returns false.
func generateVolumeFilterFuncs(filter, filterValue string, runtime *libpod.Runtime) (func(volume *libpod.Volume) bool, error) {
switch filter {
case "name":
return func(v *libpod.Volume) bool {
return strings.Contains(v.Name(), filterValue)
}, nil
case "driver":
return func(v *libpod.Volume) bool {
return v.Driver() == filterValue
}, nil
case "scope":
return func(v *libpod.Volume) bool {
return v.Scope() == filterValue
}, nil
case "label":
filterArray := strings.SplitN(filterValue, "=", 2)
filterKey := filterArray[0]
if len(filterArray) > 1 {
filterValue = filterArray[1]
} else {
filterValue = ""
}
return func(v *libpod.Volume) bool {
for labelKey, labelValue := range v.Labels() {
if labelKey == filterKey && ("" == filterValue || labelValue == filterValue) {
return true
}
}
return false
}, nil
case "opt":
filterArray := strings.SplitN(filterValue, "=", 2)
filterKey := filterArray[0]
if len(filterArray) > 1 {
filterValue = filterArray[1]
} else {
filterValue = ""
}
return func(v *libpod.Volume) bool {
for labelKey, labelValue := range v.Options() {
if labelKey == filterKey && ("" == filterValue || labelValue == filterValue) {
return true
}
}
return false
}, nil
}
return nil, errors.Errorf("%s is an invalid filter", filter)
}
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