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config.go
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package buildah
import (
"context"
"encoding/json"
"fmt"
"os"
"runtime"
"strings"
"time"
"github.com/containers/buildah/define"
"github.com/containers/buildah/docker"
internalUtil "github.com/containers/buildah/internal/util"
"github.com/containers/image/v5/manifest"
"github.com/containers/image/v5/pkg/compression"
"github.com/containers/image/v5/transports"
"github.com/containers/image/v5/types"
"github.com/containers/storage/pkg/stringid"
ociv1 "github.com/opencontainers/image-spec/specs-go/v1"
"github.com/sirupsen/logrus"
"golang.org/x/exp/maps"
"golang.org/x/exp/slices"
)
// unmarshalConvertedConfig obtains the config blob of img valid for the wantedManifestMIMEType format
// (either as it exists, or converting the image if necessary), and unmarshals it into dest.
// NOTE: The MIME type is of the _manifest_, not of the _config_ that is returned.
func unmarshalConvertedConfig(ctx context.Context, dest interface{}, img types.Image, wantedManifestMIMEType string) error {
_, actualManifestMIMEType, err := img.Manifest(ctx)
if err != nil {
return fmt.Errorf("getting manifest MIME type for %q: %w", transports.ImageName(img.Reference()), err)
}
if wantedManifestMIMEType != actualManifestMIMEType {
layerInfos := img.LayerInfos()
for i := range layerInfos { // force the "compression" to gzip, which is supported by all of the formats we care about
layerInfos[i].CompressionOperation = types.Compress
layerInfos[i].CompressionAlgorithm = &compression.Gzip
}
updatedImg, err := img.UpdatedImage(ctx, types.ManifestUpdateOptions{
LayerInfos: layerInfos,
})
if err != nil {
return fmt.Errorf("resetting recorded compression for %q: %w", transports.ImageName(img.Reference()), err)
}
secondUpdatedImg, err := updatedImg.UpdatedImage(ctx, types.ManifestUpdateOptions{
ManifestMIMEType: wantedManifestMIMEType,
})
if err != nil {
return fmt.Errorf("converting image %q from %q to %q: %w", transports.ImageName(img.Reference()), actualManifestMIMEType, wantedManifestMIMEType, err)
}
img = secondUpdatedImg
}
config, err := img.ConfigBlob(ctx)
if err != nil {
return fmt.Errorf("reading %s config from %q: %w", wantedManifestMIMEType, transports.ImageName(img.Reference()), err)
}
if err := json.Unmarshal(config, dest); err != nil {
return fmt.Errorf("parsing %s configuration %q from %q: %w", wantedManifestMIMEType, string(config), transports.ImageName(img.Reference()), err)
}
return nil
}
func (b *Builder) initConfig(ctx context.Context, sys *types.SystemContext, img types.Image, options *BuilderOptions) error {
if img != nil { // A pre-existing image, as opposed to a "FROM scratch" new one.
rawManifest, manifestMIMEType, err := img.Manifest(ctx)
if err != nil {
return fmt.Errorf("reading image manifest for %q: %w", transports.ImageName(img.Reference()), err)
}
rawConfig, err := img.ConfigBlob(ctx)
if err != nil {
return fmt.Errorf("reading image configuration for %q: %w", transports.ImageName(img.Reference()), err)
}
b.Manifest = rawManifest
b.Config = rawConfig
dimage := docker.V2Image{}
if err := unmarshalConvertedConfig(ctx, &dimage, img, manifest.DockerV2Schema2MediaType); err != nil {
return err
}
b.Docker = dimage
oimage := ociv1.Image{}
if err := unmarshalConvertedConfig(ctx, &oimage, img, ociv1.MediaTypeImageManifest); err != nil {
return err
}
b.OCIv1 = oimage
if manifestMIMEType == ociv1.MediaTypeImageManifest {
// Attempt to recover format-specific data from the manifest.
v1Manifest := ociv1.Manifest{}
if err := json.Unmarshal(b.Manifest, &v1Manifest); err != nil {
return fmt.Errorf("parsing OCI manifest %q: %w", string(b.Manifest), err)
}
if len(v1Manifest.Annotations) > 0 {
if b.ImageAnnotations == nil {
b.ImageAnnotations = make(map[string]string, len(v1Manifest.Annotations))
}
for k, v := range v1Manifest.Annotations {
b.ImageAnnotations[k] = v
}
}
}
} else {
if options == nil || options.CompatScratchConfig != types.OptionalBoolTrue {
b.Docker = docker.V2Image{
V1Image: docker.V1Image{
Config: &docker.Config{
WorkingDir: "/",
},
},
}
b.OCIv1 = ociv1.Image{
Config: ociv1.ImageConfig{
WorkingDir: "/",
},
}
}
}
b.setupLogger()
b.fixupConfig(sys)
return nil
}
func (b *Builder) fixupConfig(sys *types.SystemContext) {
if b.Docker.Config != nil {
// Prefer image-level settings over those from the container it was built from.
b.Docker.ContainerConfig = *b.Docker.Config
}
b.Docker.Config = &b.Docker.ContainerConfig
b.Docker.DockerVersion = ""
now := time.Now().UTC()
if b.Docker.Created.IsZero() {
b.Docker.Created = now
}
if b.OCIv1.Created == nil || b.OCIv1.Created.IsZero() {
b.OCIv1.Created = &now
}
if b.OS() == "" {
if sys != nil && sys.OSChoice != "" {
b.SetOS(sys.OSChoice)
} else {
b.SetOS(runtime.GOOS)
}
}
if b.Architecture() == "" {
if sys != nil && sys.ArchitectureChoice != "" {
b.SetArchitecture(sys.ArchitectureChoice)
} else {
b.SetArchitecture(runtime.GOARCH)
}
// in case the arch string we started with was shorthand for a known arch+variant pair, normalize it
ps := internalUtil.NormalizePlatform(ociv1.Platform{OS: b.OS(), Architecture: b.Architecture(), Variant: b.Variant()})
b.SetArchitecture(ps.Architecture)
b.SetVariant(ps.Variant)
}
if b.Variant() == "" {
if sys != nil && sys.VariantChoice != "" {
b.SetVariant(sys.VariantChoice)
}
// in case the arch string we started with was shorthand for a known arch+variant pair, normalize it
ps := internalUtil.NormalizePlatform(ociv1.Platform{OS: b.OS(), Architecture: b.Architecture(), Variant: b.Variant()})
b.SetArchitecture(ps.Architecture)
b.SetVariant(ps.Variant)
}
if b.Format == define.Dockerv2ImageManifest && b.Hostname() == "" {
b.SetHostname(stringid.TruncateID(stringid.GenerateRandomID()))
}
}
func (b *Builder) setupLogger() {
if b.Logger == nil {
b.Logger = logrus.New()
b.Logger.SetOutput(os.Stderr)
b.Logger.SetLevel(logrus.GetLevel())
}
}
// Annotations returns a set of key-value pairs from the image's manifest.
func (b *Builder) Annotations() map[string]string {
return maps.Clone(b.ImageAnnotations)
}
// SetAnnotation adds or overwrites a key's value from the image's manifest.
// Note: this setting is not present in the Docker v2 image format, so it is
// discarded when writing images using Docker v2 formats.
func (b *Builder) SetAnnotation(key, value string) {
if b.ImageAnnotations == nil {
b.ImageAnnotations = map[string]string{}
}
b.ImageAnnotations[key] = value
}
// UnsetAnnotation removes a key and its value from the image's manifest, if
// it's present.
func (b *Builder) UnsetAnnotation(key string) {
delete(b.ImageAnnotations, key)
}
// ClearAnnotations removes all keys and their values from the image's
// manifest.
func (b *Builder) ClearAnnotations() {
b.ImageAnnotations = nil
}
// CreatedBy returns a description of how this image was built.
func (b *Builder) CreatedBy() string {
return b.ImageCreatedBy
}
// SetCreatedBy sets the description of how this image was built.
func (b *Builder) SetCreatedBy(how string) {
b.ImageCreatedBy = how
}
// OS returns a name of the OS on which the container, or a container built
// using an image built from this container, is intended to be run.
func (b *Builder) OS() string {
return b.OCIv1.OS
}
// SetOS sets the name of the OS on which the container, or a container built
// using an image built from this container, is intended to be run.
func (b *Builder) SetOS(os string) {
b.OCIv1.OS = os
b.Docker.OS = os
}
// OSVersion returns a version of the OS on which the container, or a container
// built using an image built from this container, is intended to be run.
func (b *Builder) OSVersion() string {
return b.OCIv1.OSVersion
}
// SetOSVersion sets the version of the OS on which the container, or a
// container built using an image built from this container, is intended to be
// run.
func (b *Builder) SetOSVersion(version string) {
b.OCIv1.OSVersion = version
b.Docker.OSVersion = version
}
// OSFeatures returns a list of OS features which the container, or a container
// built using an image built from this container, depends on the OS supplying.
func (b *Builder) OSFeatures() []string {
return slices.Clone(b.OCIv1.OSFeatures)
}
// SetOSFeature adds a feature of the OS which the container, or a container
// built using an image built from this container, depends on the OS supplying.
func (b *Builder) SetOSFeature(feature string) {
if !slices.Contains(b.OCIv1.OSFeatures, feature) {
b.OCIv1.OSFeatures = append(b.OCIv1.OSFeatures, feature)
}
if !slices.Contains(b.Docker.OSFeatures, feature) {
b.Docker.OSFeatures = append(b.Docker.OSFeatures, feature)
}
}
// UnsetOSFeature removes a feature of the OS which the container, or a
// container built using an image built from this container, depends on the OS
// supplying.
func (b *Builder) UnsetOSFeature(feature string) {
if slices.Contains(b.OCIv1.OSFeatures, feature) {
features := make([]string, 0, len(b.OCIv1.OSFeatures))
for _, f := range b.OCIv1.OSFeatures {
if f != feature {
features = append(features, f)
}
}
b.OCIv1.OSFeatures = features
}
if slices.Contains(b.Docker.OSFeatures, feature) {
features := make([]string, 0, len(b.Docker.OSFeatures))
for _, f := range b.Docker.OSFeatures {
if f != feature {
features = append(features, f)
}
}
b.Docker.OSFeatures = features
}
}
// ClearOSFeatures clears the list of features of the OS which the container,
// or a container built using an image built from this container, depends on
// the OS supplying.
func (b *Builder) ClearOSFeatures() {
b.OCIv1.OSFeatures = []string{}
b.Docker.OSFeatures = []string{}
}
// Architecture returns a name of the architecture on which the container, or a
// container built using an image built from this container, is intended to be
// run.
func (b *Builder) Architecture() string {
return b.OCIv1.Architecture
}
// SetArchitecture sets the name of the architecture on which the container, or
// a container built using an image built from this container, is intended to
// be run.
func (b *Builder) SetArchitecture(arch string) {
b.OCIv1.Architecture = arch
b.Docker.Architecture = arch
}
// Variant returns a name of the architecture variant on which the container,
// or a container built using an image built from this container, is intended
// to be run.
func (b *Builder) Variant() string {
return b.OCIv1.Variant
}
// SetVariant sets the name of the architecture variant on which the container,
// or a container built using an image built from this container, is intended
// to be run.
func (b *Builder) SetVariant(variant string) {
b.Docker.Variant = variant
b.OCIv1.Variant = variant
}
// Maintainer returns contact information for the person who built the image.
func (b *Builder) Maintainer() string {
return b.OCIv1.Author
}
// SetMaintainer sets contact information for the person who built the image.
func (b *Builder) SetMaintainer(who string) {
b.OCIv1.Author = who
b.Docker.Author = who
}
// User returns information about the user as whom the container, or a
// container built using an image built from this container, should be run.
func (b *Builder) User() string {
return b.OCIv1.Config.User
}
// SetUser sets information about the user as whom the container, or a
// container built using an image built from this container, should be run.
// Acceptable forms are a user name or ID, optionally followed by a colon and a
// group name or ID.
func (b *Builder) SetUser(spec string) {
b.OCIv1.Config.User = spec
b.Docker.Config.User = spec
}
// OnBuild returns the OnBuild value from the container.
func (b *Builder) OnBuild() []string {
return slices.Clone(b.Docker.Config.OnBuild)
}
// ClearOnBuild removes all values from the OnBuild structure
func (b *Builder) ClearOnBuild() {
b.Docker.Config.OnBuild = []string{}
}
// SetOnBuild sets a trigger instruction to be executed when the image is used
// as the base of another image.
// Note: this setting is not present in the OCIv1 image format, so it is
// discarded when writing images using OCIv1 formats.
func (b *Builder) SetOnBuild(onBuild string) {
if onBuild != "" && b.Format != define.Dockerv2ImageManifest {
b.Logger.Warnf("ONBUILD is not supported for OCI image format, %s will be ignored. Must use `docker` format", onBuild)
}
b.Docker.Config.OnBuild = append(b.Docker.Config.OnBuild, onBuild)
}
// WorkDir returns the default working directory for running commands in the
// container, or in a container built using an image built from this container.
func (b *Builder) WorkDir() string {
return b.OCIv1.Config.WorkingDir
}
// SetWorkDir sets the location of the default working directory for running
// commands in the container, or in a container built using an image built from
// this container.
func (b *Builder) SetWorkDir(there string) {
b.OCIv1.Config.WorkingDir = there
b.Docker.Config.WorkingDir = there
}
// Shell returns the default shell for running commands in the
// container, or in a container built using an image built from this container.
func (b *Builder) Shell() []string {
return slices.Clone(b.Docker.Config.Shell)
}
// SetShell sets the default shell for running
// commands in the container, or in a container built using an image built from
// this container.
// Note: this setting is not present in the OCIv1 image format, so it is
// discarded when writing images using OCIv1 formats.
func (b *Builder) SetShell(shell []string) {
if len(shell) > 0 && b.Format != define.Dockerv2ImageManifest {
b.Logger.Warnf("SHELL is not supported for OCI image format, %s will be ignored. Must use `docker` format", shell)
}
b.Docker.Config.Shell = slices.Clone(shell)
}
// Env returns a list of key-value pairs to be set when running commands in the
// container, or in a container built using an image built from this container.
func (b *Builder) Env() []string {
return slices.Clone(b.OCIv1.Config.Env)
}
// SetEnv adds or overwrites a value to the set of environment strings which
// should be set when running commands in the container, or in a container
// built using an image built from this container.
func (b *Builder) SetEnv(k string, v string) {
reset := func(s *[]string) {
n := []string{}
for i := range *s {
if !strings.HasPrefix((*s)[i], k+"=") {
n = append(n, (*s)[i])
}
}
n = append(n, k+"="+v)
*s = n
}
reset(&b.OCIv1.Config.Env)
reset(&b.Docker.Config.Env)
}
// UnsetEnv removes a value from the set of environment strings which should be
// set when running commands in this container, or in a container built using
// an image built from this container.
func (b *Builder) UnsetEnv(k string) {
unset := func(s *[]string) {
n := []string{}
for i := range *s {
if !strings.HasPrefix((*s)[i], k+"=") {
n = append(n, (*s)[i])
}
}
*s = n
}
unset(&b.OCIv1.Config.Env)
unset(&b.Docker.Config.Env)
}
// ClearEnv removes all values from the set of environment strings which should
// be set when running commands in this container, or in a container built
// using an image built from this container.
func (b *Builder) ClearEnv() {
b.OCIv1.Config.Env = []string{}
b.Docker.Config.Env = []string{}
}
// Cmd returns the default command, or command parameters if an Entrypoint is
// set, to use when running a container built from an image built from this
// container.
func (b *Builder) Cmd() []string {
return slices.Clone(b.OCIv1.Config.Cmd)
}
// SetCmd sets the default command, or command parameters if an Entrypoint is
// set, to use when running a container built from an image built from this
// container.
func (b *Builder) SetCmd(cmd []string) {
b.OCIv1.Config.Cmd = slices.Clone(cmd)
b.Docker.Config.Cmd = slices.Clone(cmd)
}
// Entrypoint returns the command to be run for containers built from images
// built from this container.
func (b *Builder) Entrypoint() []string {
if len(b.OCIv1.Config.Entrypoint) > 0 {
return slices.Clone(b.OCIv1.Config.Entrypoint)
}
return nil
}
// SetEntrypoint sets the command to be run for in containers built from images
// built from this container.
func (b *Builder) SetEntrypoint(ep []string) {
b.OCIv1.Config.Entrypoint = slices.Clone(ep)
b.Docker.Config.Entrypoint = slices.Clone(ep)
}
// Labels returns a set of key-value pairs from the image's runtime
// configuration.
func (b *Builder) Labels() map[string]string {
return maps.Clone(b.OCIv1.Config.Labels)
}
// SetLabel adds or overwrites a key's value from the image's runtime
// configuration.
func (b *Builder) SetLabel(k string, v string) {
if b.OCIv1.Config.Labels == nil {
b.OCIv1.Config.Labels = map[string]string{}
}
b.OCIv1.Config.Labels[k] = v
if b.Docker.Config.Labels == nil {
b.Docker.Config.Labels = map[string]string{}
}
b.Docker.Config.Labels[k] = v
}
// UnsetLabel removes a key and its value from the image's runtime
// configuration, if it's present.
func (b *Builder) UnsetLabel(k string) {
delete(b.OCIv1.Config.Labels, k)
delete(b.Docker.Config.Labels, k)
}
// ClearLabels removes all keys and their values from the image's runtime
// configuration.
func (b *Builder) ClearLabels() {
b.OCIv1.Config.Labels = map[string]string{}
b.Docker.Config.Labels = map[string]string{}
}
// Ports returns the set of ports which should be exposed when a container
// based on an image built from this container is run.
func (b *Builder) Ports() []string {
p := []string{}
for k := range b.OCIv1.Config.ExposedPorts {
p = append(p, k)
}
return p
}
// SetPort adds or overwrites an exported port in the set of ports which should
// be exposed when a container based on an image built from this container is
// run.
func (b *Builder) SetPort(p string) {
if b.OCIv1.Config.ExposedPorts == nil {
b.OCIv1.Config.ExposedPorts = map[string]struct{}{}
}
b.OCIv1.Config.ExposedPorts[p] = struct{}{}
if b.Docker.Config.ExposedPorts == nil {
b.Docker.Config.ExposedPorts = make(docker.PortSet)
}
b.Docker.Config.ExposedPorts[docker.Port(p)] = struct{}{}
}
// UnsetPort removes an exposed port from the set of ports which should be
// exposed when a container based on an image built from this container is run.
func (b *Builder) UnsetPort(p string) {
delete(b.OCIv1.Config.ExposedPorts, p)
delete(b.Docker.Config.ExposedPorts, docker.Port(p))
}
// ClearPorts empties the set of ports which should be exposed when a container
// based on an image built from this container is run.
func (b *Builder) ClearPorts() {
b.OCIv1.Config.ExposedPorts = map[string]struct{}{}
b.Docker.Config.ExposedPorts = docker.PortSet{}
}
// Volumes returns a list of filesystem locations which should be mounted from
// outside of the container when a container built from an image built from
// this container is run.
func (b *Builder) Volumes() []string {
v := []string{}
for k := range b.OCIv1.Config.Volumes {
v = append(v, k)
}
if len(v) > 0 {
return v
}
return nil
}
// CheckVolume returns True if the location exists in the image's list of locations
// which should be mounted from outside of the container when a container
// based on an image built from this container is run
func (b *Builder) CheckVolume(v string) bool {
_, OCIv1Volume := b.OCIv1.Config.Volumes[v]
_, DockerVolume := b.Docker.Config.Volumes[v]
return OCIv1Volume || DockerVolume
}
// AddVolume adds a location to the image's list of locations which should be
// mounted from outside of the container when a container based on an image
// built from this container is run.
func (b *Builder) AddVolume(v string) {
if b.OCIv1.Config.Volumes == nil {
b.OCIv1.Config.Volumes = map[string]struct{}{}
}
b.OCIv1.Config.Volumes[v] = struct{}{}
if b.Docker.Config.Volumes == nil {
b.Docker.Config.Volumes = map[string]struct{}{}
}
b.Docker.Config.Volumes[v] = struct{}{}
}
// RemoveVolume removes a location from the list of locations which should be
// mounted from outside of the container when a container based on an image
// built from this container is run.
func (b *Builder) RemoveVolume(v string) {
delete(b.OCIv1.Config.Volumes, v)
delete(b.Docker.Config.Volumes, v)
}
// ClearVolumes removes all locations from the image's list of locations which
// should be mounted from outside of the container when a container based on an
// image built from this container is run.
func (b *Builder) ClearVolumes() {
b.OCIv1.Config.Volumes = map[string]struct{}{}
b.Docker.Config.Volumes = map[string]struct{}{}
}
// Hostname returns the hostname which will be set in the container and in
// containers built using images built from the container.
func (b *Builder) Hostname() string {
return b.Docker.Config.Hostname
}
// SetHostname sets the hostname which will be set in the container and in
// containers built using images built from the container.
// Note: this setting is not present in the OCIv1 image format, so it is
// discarded when writing images using OCIv1 formats.
func (b *Builder) SetHostname(name string) {
b.Docker.Config.Hostname = name
}
// Domainname returns the domainname which will be set in the container and in
// containers built using images built from the container.
func (b *Builder) Domainname() string {
return b.Docker.Config.Domainname
}
// SetDomainname sets the domainname which will be set in the container and in
// containers built using images built from the container.
// Note: this setting is not present in the OCIv1 image format, so it is
// discarded when writing images using OCIv1 formats.
func (b *Builder) SetDomainname(name string) {
if name != "" && b.Format != define.Dockerv2ImageManifest {
b.Logger.Warnf("DOMAINNAME is not supported for OCI image format, domainname %s will be ignored. Must use `docker` format", name)
}
b.Docker.Config.Domainname = name
}
// SetDefaultMountsFilePath sets the mounts file path for testing purposes
func (b *Builder) SetDefaultMountsFilePath(path string) {
b.DefaultMountsFilePath = path
}
// Comment returns the comment which will be set in the container and in
// containers built using images built from the container
func (b *Builder) Comment() string {
return b.Docker.Comment
}
// SetComment sets the comment which will be set in the container and in
// containers built using images built from the container.
// Note: this setting is not present in the OCIv1 image format, so it is
// discarded when writing images using OCIv1 formats.
func (b *Builder) SetComment(comment string) {
if comment != "" && b.Format != define.Dockerv2ImageManifest {
logrus.Warnf("COMMENT is not supported for OCI image format, comment %s will be ignored. Must use `docker` format", comment)
}
b.Docker.Comment = comment
}
// HistoryComment returns the comment which will be used in the history item
// which will describe the latest layer when we commit an image.
func (b *Builder) HistoryComment() string {
return b.ImageHistoryComment
}
// SetHistoryComment sets the comment which will be used in the history item
// which will describe the latest layer when we commit an image.
func (b *Builder) SetHistoryComment(comment string) {
b.ImageHistoryComment = comment
}
// StopSignal returns the signal which will be set in the container and in
// containers built using images built from the container
func (b *Builder) StopSignal() string {
return b.Docker.Config.StopSignal
}
// SetStopSignal sets the signal which will be set in the container and in
// containers built using images built from the container.
func (b *Builder) SetStopSignal(stopSignal string) {
b.OCIv1.Config.StopSignal = stopSignal
b.Docker.Config.StopSignal = stopSignal
}
// Healthcheck returns information that recommends how a container engine
// should check if a running container is "healthy".
func (b *Builder) Healthcheck() *docker.HealthConfig {
if b.Docker.Config.Healthcheck == nil {
return nil
}
return &docker.HealthConfig{
Test: slices.Clone(b.Docker.Config.Healthcheck.Test),
Interval: b.Docker.Config.Healthcheck.Interval,
Timeout: b.Docker.Config.Healthcheck.Timeout,
StartPeriod: b.Docker.Config.Healthcheck.StartPeriod,
StartInterval: b.Docker.Config.Healthcheck.StartInterval,
Retries: b.Docker.Config.Healthcheck.Retries,
}
}
// SetHealthcheck sets recommended commands to run in order to verify that a
// running container based on this image is "healthy", along with information
// specifying how often that test should be run, and how many times the test
// should fail before the container should be considered unhealthy.
// Note: this setting is not present in the OCIv1 image format, so it is
// discarded when writing images using OCIv1 formats.
func (b *Builder) SetHealthcheck(config *docker.HealthConfig) {
b.Docker.Config.Healthcheck = nil
if config != nil {
if b.Format != define.Dockerv2ImageManifest {
b.Logger.Warnf("HEALTHCHECK is not supported for OCI image format and will be ignored. Must use `docker` format")
}
b.Docker.Config.Healthcheck = &docker.HealthConfig{
Test: slices.Clone(config.Test),
Interval: config.Interval,
Timeout: config.Timeout,
StartPeriod: config.StartPeriod,
StartInterval: config.StartInterval,
Retries: config.Retries,
}
}
}
// AddPrependedEmptyLayer adds an item to the history that we'll create when
// committing the image, after any history we inherit from the base image, but
// before the history item that we'll use to describe the new layer that we're
// adding.
func (b *Builder) AddPrependedEmptyLayer(created *time.Time, createdBy, author, comment string) {
if created != nil {
copiedTimestamp := *created
created = &copiedTimestamp
}
b.PrependedEmptyLayers = append(b.PrependedEmptyLayers, ociv1.History{
Created: created,
CreatedBy: createdBy,
Author: author,
Comment: comment,
EmptyLayer: true,
})
}
// ClearPrependedEmptyLayers clears the list of history entries that we'll add
// to the committed image before the entry for the layer that we're adding.
func (b *Builder) ClearPrependedEmptyLayers() {
b.PrependedEmptyLayers = nil
}
// AddAppendedEmptyLayer adds an item to the history that we'll create when
// committing the image, after the history item that we'll use to describe the
// new layer that we're adding.
func (b *Builder) AddAppendedEmptyLayer(created *time.Time, createdBy, author, comment string) {
if created != nil {
copiedTimestamp := *created
created = &copiedTimestamp
}
b.AppendedEmptyLayers = append(b.AppendedEmptyLayers, ociv1.History{
Created: created,
CreatedBy: createdBy,
Author: author,
Comment: comment,
EmptyLayer: true,
})
}
// ClearAppendedEmptyLayers clears the list of history entries that we'll add
// to the committed image after the entry for the layer that we're adding.
func (b *Builder) ClearAppendedEmptyLayers() {
b.AppendedEmptyLayers = nil
}
// AddPrependedLinkedLayer adds an item to the history that we'll create when
// committing the image, optionally with a layer, after any history we inherit
// from the base image, but before the history item that we'll use to describe
// the new layer that we're adding.
// The blobPath can be either the location of an uncompressed archive, or a
// directory whose contents will be archived to use as a layer blob. Leaving
// blobPath empty is functionally similar to calling AddPrependedEmptyLayer().
func (b *Builder) AddPrependedLinkedLayer(created *time.Time, createdBy, author, comment, blobPath string) {
if created != nil {
copiedTimestamp := *created
created = &copiedTimestamp
}
b.PrependedLinkedLayers = append(b.PrependedLinkedLayers, LinkedLayer{
BlobPath: blobPath,
History: ociv1.History{
Created: created,
CreatedBy: createdBy,
Author: author,
Comment: comment,
EmptyLayer: blobPath == "",
},
})
}
// ClearPrependedLinkedLayers clears the list of history entries that we'll add
// the committed image before the layer that we're adding (if we're adding it).
func (b *Builder) ClearPrependedLinkedLayers() {
b.PrependedLinkedLayers = nil
}
// AddAppendedLinkedLayer adds an item to the history that we'll create when
// committing the image, optionally with a layer, after the history item that
// we'll use to describe the new layer that we're adding.
// The blobPath can be either the location of an uncompressed archive, or a
// directory whose contents will be archived to use as a layer blob. Leaving
// blobPath empty is functionally similar to calling AddAppendedEmptyLayer().
func (b *Builder) AddAppendedLinkedLayer(created *time.Time, createdBy, author, comment, blobPath string) {
if created != nil {
copiedTimestamp := *created
created = &copiedTimestamp
}
b.AppendedLinkedLayers = append(b.AppendedLinkedLayers, LinkedLayer{
BlobPath: blobPath,
History: ociv1.History{
Created: created,
CreatedBy: createdBy,
Author: author,
Comment: comment,
EmptyLayer: blobPath == "",
},
})
}
// ClearAppendedLinkedLayers clears the list of linked layers that we'll add to
// the committed image after the layer that we're adding (if we're adding it).
func (b *Builder) ClearAppendedLinkedLayers() {
b.AppendedLinkedLayers = nil
}