internal/test/environment/protect.go - third_party/github.com/moby/moby - Git at Google

 package environment // import "github.com/docker/docker/internal/test/environment"

 import (
 	"context"

 	"github.com/docker/docker/api/types"
 	"github.com/docker/docker/api/types/filters"
 	dclient "github.com/docker/docker/client"
 	"github.com/stretchr/testify/require"
 )

 var frozenImages = []string{"busybox:1.27-glibc", "hello-world:frozen", "debian:jessie"}

 type protectedElements struct {
 	containers map[string]struct{}
 	images     map[string]struct{}
 	networks   map[string]struct{}
 	plugins    map[string]struct{}
 	volumes    map[string]struct{}
 }

 func newProtectedElements() protectedElements {
 	return protectedElements{
 		containers: map[string]struct{}{},
 		images:     map[string]struct{}{},
 		networks:   map[string]struct{}{},
 		plugins:    map[string]struct{}{},
 		volumes:    map[string]struct{}{},
 	}
 }

 // ProtectAll protects the existing environment (containers, images, networks,
 // volumes, and, on Linux, plugins) from being cleaned up at the end of test
 // runs
 func ProtectAll(t testingT, testEnv *Execution) {
 	ProtectContainers(t, testEnv)
 	ProtectImages(t, testEnv)
 	ProtectNetworks(t, testEnv)
 	ProtectVolumes(t, testEnv)
 	if testEnv.OSType == "linux" {
 		ProtectPlugins(t, testEnv)
 	}
 }

 // ProtectContainer adds the specified container(s) to be protected in case of
 // clean
 func (e *Execution) ProtectContainer(t testingT, containers ...string) {
 	for _, container := range containers {
 		e.protectedElements.containers[container] = struct{}{}
 	}
 }

 // ProtectContainers protects existing containers from being cleaned up at the
 // end of test runs
 func ProtectContainers(t testingT, testEnv *Execution) {
 	containers := getExistingContainers(t, testEnv)
 	testEnv.ProtectContainer(t, containers...)
 }

 func getExistingContainers(t require.TestingT, testEnv *Execution) []string {
 	client := testEnv.APIClient()
 	containerList, err := client.ContainerList(context.Background(), types.ContainerListOptions{
 		All: true,
 	})
 	require.NoError(t, err, "failed to list containers")

 	containers := []string{}
 	for _, container := range containerList {
 		containers = append(containers, container.ID)
 	}
 	return containers
 }

 // ProtectImage adds the specified image(s) to be protected in case of clean
 func (e *Execution) ProtectImage(t testingT, images ...string) {
 	for _, image := range images {
 		e.protectedElements.images[image] = struct{}{}
 	}
 }

 // ProtectImages protects existing images and on linux frozen images from being
 // cleaned up at the end of test runs
 func ProtectImages(t testingT, testEnv *Execution) {
 	images := getExistingImages(t, testEnv)

 	if testEnv.OSType == "linux" {
 		images = append(images, frozenImages...)
 	}
 	testEnv.ProtectImage(t, images...)
 }

 func getExistingImages(t require.TestingT, testEnv *Execution) []string {
 	client := testEnv.APIClient()
 	filter := filters.NewArgs()
 	filter.Add("dangling", "false")
 	imageList, err := client.ImageList(context.Background(), types.ImageListOptions{
 		All:     true,
 		Filters: filter,
 	})
 	require.NoError(t, err, "failed to list images")

 	images := []string{}
 	for _, image := range imageList {
 		images = append(images, tagsFromImageSummary(image)...)
 	}
 	return images
 }

 func tagsFromImageSummary(image types.ImageSummary) []string {
 	result := []string{}
 	for _, tag := range image.RepoTags {
 		if tag != "<none>:<none>" {
 			result = append(result, tag)
 		}
 	}
 	for _, digest := range image.RepoDigests {
 		if digest != "<none>@<none>" {
 			result = append(result, digest)
 		}
 	}
 	return result
 }

 // ProtectNetwork adds the specified network(s) to be protected in case of
 // clean
 func (e *Execution) ProtectNetwork(t testingT, networks ...string) {
 	for _, network := range networks {
 		e.protectedElements.networks[network] = struct{}{}
 	}
 }

 // ProtectNetworks protects existing networks from being cleaned up at the end
 // of test runs
 func ProtectNetworks(t testingT, testEnv *Execution) {
 	networks := getExistingNetworks(t, testEnv)
 	testEnv.ProtectNetwork(t, networks...)
 }

 func getExistingNetworks(t require.TestingT, testEnv *Execution) []string {
 	client := testEnv.APIClient()
 	networkList, err := client.NetworkList(context.Background(), types.NetworkListOptions{})
 	require.NoError(t, err, "failed to list networks")

 	networks := []string{}
 	for _, network := range networkList {
 		networks = append(networks, network.ID)
 	}
 	return networks
 }

 // ProtectPlugin adds the specified plugin(s) to be protected in case of clean
 func (e *Execution) ProtectPlugin(t testingT, plugins ...string) {
 	for _, plugin := range plugins {
 		e.protectedElements.plugins[plugin] = struct{}{}
 	}
 }

 // ProtectPlugins protects existing plugins from being cleaned up at the end of
 // test runs
 func ProtectPlugins(t testingT, testEnv *Execution) {
 	plugins := getExistingPlugins(t, testEnv)
 	testEnv.ProtectPlugin(t, plugins...)
 }

 func getExistingPlugins(t require.TestingT, testEnv *Execution) []string {
 	client := testEnv.APIClient()
 	pluginList, err := client.PluginList(context.Background(), filters.Args{})
 	// Docker EE does not allow cluster-wide plugin management.
 	if dclient.IsErrNotImplemented(err) {
 		return []string{}
 	}
 	require.NoError(t, err, "failed to list plugins")

 	plugins := []string{}
 	for _, plugin := range pluginList {
 		plugins = append(plugins, plugin.Name)
 	}
 	return plugins
 }

 // ProtectVolume adds the specified volume(s) to be protected in case of clean
 func (e *Execution) ProtectVolume(t testingT, volumes ...string) {
 	for _, volume := range volumes {
 		e.protectedElements.volumes[volume] = struct{}{}
 	}
 }

 // ProtectVolumes protects existing volumes from being cleaned up at the end of
 // test runs
 func ProtectVolumes(t testingT, testEnv *Execution) {
 	volumes := getExistingVolumes(t, testEnv)
 	testEnv.ProtectVolume(t, volumes...)
 }

 func getExistingVolumes(t require.TestingT, testEnv *Execution) []string {
 	client := testEnv.APIClient()
 	volumeList, err := client.VolumeList(context.Background(), filters.Args{})
 	require.NoError(t, err, "failed to list volumes")

 	volumes := []string{}
 	for _, volume := range volumeList.Volumes {
 		volumes = append(volumes, volume.Name)
 	}
 	return volumes
 }
	package environment // import "github.com/docker/docker/internal/test/environment"

	import (
	"context"

	"github.com/docker/docker/api/types"
	"github.com/docker/docker/api/types/filters"
	dclient "github.com/docker/docker/client"
	"github.com/stretchr/testify/require"
	)

	var frozenImages = []string{"busybox:1.27-glibc", "hello-world:frozen", "debian:jessie"}

	type protectedElements struct {
	containers map[string]struct{}
	images map[string]struct{}
	networks map[string]struct{}
	plugins map[string]struct{}
	volumes map[string]struct{}
	}

	func newProtectedElements() protectedElements {
	return protectedElements{
	containers: map[string]struct{}{},
	images: map[string]struct{}{},
	networks: map[string]struct{}{},
	plugins: map[string]struct{}{},
	volumes: map[string]struct{}{},
	}
	}

	// ProtectAll protects the existing environment (containers, images, networks,
	// volumes, and, on Linux, plugins) from being cleaned up at the end of test
	// runs
	func ProtectAll(t testingT, testEnv *Execution) {
	ProtectContainers(t, testEnv)
	ProtectImages(t, testEnv)
	ProtectNetworks(t, testEnv)
	ProtectVolumes(t, testEnv)
	if testEnv.OSType == "linux" {
	ProtectPlugins(t, testEnv)
	}
	}

	// ProtectContainer adds the specified container(s) to be protected in case of
	// clean
	func (e *Execution) ProtectContainer(t testingT, containers ...string) {
	for _, container := range containers {
	e.protectedElements.containers[container] = struct{}{}
	}
	}

	// ProtectContainers protects existing containers from being cleaned up at the
	// end of test runs
	func ProtectContainers(t testingT, testEnv *Execution) {
	containers := getExistingContainers(t, testEnv)
	testEnv.ProtectContainer(t, containers...)
	}

	func getExistingContainers(t require.TestingT, testEnv *Execution) []string {
	client := testEnv.APIClient()
	containerList, err := client.ContainerList(context.Background(), types.ContainerListOptions{
	All: true,
	})
	require.NoError(t, err, "failed to list containers")

	containers := []string{}
	for _, container := range containerList {
	containers = append(containers, container.ID)
	}
	return containers
	}

	// ProtectImage adds the specified image(s) to be protected in case of clean
	func (e *Execution) ProtectImage(t testingT, images ...string) {
	for _, image := range images {
	e.protectedElements.images[image] = struct{}{}
	}
	}

	// ProtectImages protects existing images and on linux frozen images from being
	// cleaned up at the end of test runs
	func ProtectImages(t testingT, testEnv *Execution) {
	images := getExistingImages(t, testEnv)

	if testEnv.OSType == "linux" {
	images = append(images, frozenImages...)
	}
	testEnv.ProtectImage(t, images...)
	}

	func getExistingImages(t require.TestingT, testEnv *Execution) []string {
	client := testEnv.APIClient()
	filter := filters.NewArgs()
	filter.Add("dangling", "false")
	imageList, err := client.ImageList(context.Background(), types.ImageListOptions{
	All: true,
	Filters: filter,
	})
	require.NoError(t, err, "failed to list images")

	images := []string{}
	for _, image := range imageList {
	images = append(images, tagsFromImageSummary(image)...)
	}
	return images
	}

	func tagsFromImageSummary(image types.ImageSummary) []string {
	result := []string{}
	for _, tag := range image.RepoTags {
	if tag != "<none>:<none>" {
	result = append(result, tag)
	}
	}
	for _, digest := range image.RepoDigests {
	if digest != "<none>@<none>" {
	result = append(result, digest)
	}
	}
	return result
	}

	// ProtectNetwork adds the specified network(s) to be protected in case of
	// clean
	func (e *Execution) ProtectNetwork(t testingT, networks ...string) {
	for _, network := range networks {
	e.protectedElements.networks[network] = struct{}{}
	}
	}

	// ProtectNetworks protects existing networks from being cleaned up at the end
	// of test runs
	func ProtectNetworks(t testingT, testEnv *Execution) {
	networks := getExistingNetworks(t, testEnv)
	testEnv.ProtectNetwork(t, networks...)
	}

	func getExistingNetworks(t require.TestingT, testEnv *Execution) []string {
	client := testEnv.APIClient()
	networkList, err := client.NetworkList(context.Background(), types.NetworkListOptions{})
	require.NoError(t, err, "failed to list networks")

	networks := []string{}
	for _, network := range networkList {
	networks = append(networks, network.ID)
	}
	return networks
	}

	// ProtectPlugin adds the specified plugin(s) to be protected in case of clean
	func (e *Execution) ProtectPlugin(t testingT, plugins ...string) {
	for _, plugin := range plugins {
	e.protectedElements.plugins[plugin] = struct{}{}
	}
	}

	// ProtectPlugins protects existing plugins from being cleaned up at the end of
	// test runs
	func ProtectPlugins(t testingT, testEnv *Execution) {
	plugins := getExistingPlugins(t, testEnv)
	testEnv.ProtectPlugin(t, plugins...)
	}

	func getExistingPlugins(t require.TestingT, testEnv *Execution) []string {
	client := testEnv.APIClient()
	pluginList, err := client.PluginList(context.Background(), filters.Args{})
	// Docker EE does not allow cluster-wide plugin management.
	if dclient.IsErrNotImplemented(err) {
	return []string{}
	}
	require.NoError(t, err, "failed to list plugins")

	plugins := []string{}
	for _, plugin := range pluginList {
	plugins = append(plugins, plugin.Name)
	}
	return plugins
	}

	// ProtectVolume adds the specified volume(s) to be protected in case of clean
	func (e *Execution) ProtectVolume(t testingT, volumes ...string) {
	for _, volume := range volumes {
	e.protectedElements.volumes[volume] = struct{}{}
	}
	}

	// ProtectVolumes protects existing volumes from being cleaned up at the end of
	// test runs
	func ProtectVolumes(t testingT, testEnv *Execution) {
	volumes := getExistingVolumes(t, testEnv)
	testEnv.ProtectVolume(t, volumes...)
	}

	func getExistingVolumes(t require.TestingT, testEnv *Execution) []string {
	client := testEnv.APIClient()
	volumeList, err := client.VolumeList(context.Background(), filters.Args{})
	require.NoError(t, err, "failed to list volumes")

	volumes := []string{}
	for _, volume := range volumeList.Volumes {
	volumes = append(volumes, volume.Name)
	}
	return volumes
	}