moby/image/image.go

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package image // import "github.com/docker/docker/image"
import (
"encoding/json"
"errors"
"io"
"runtime"
"strings"
"time"
"github.com/distribution/reference"
"github.com/docker/docker/api/types/container"
"github.com/docker/docker/dockerversion"
"github.com/docker/docker/layer"
"github.com/opencontainers/go-digest"
ocispec "github.com/opencontainers/image-spec/specs-go/v1"
)
// ID is the content-addressable ID of an image.
type ID digest.Digest
func (id ID) String() string {
return id.Digest().String()
}
// Digest converts ID into a digest
func (id ID) Digest() digest.Digest {
return digest.Digest(id)
}
// V1Image stores the V1 image configuration.
type V1Image struct {
// ID is a unique 64 character identifier of the image
ID string `json:"id,omitempty"`
// Parent is the ID of the parent image.
//
// Depending on how the image was created, this field may be empty and
// is only set for images that were built/created locally. This field
// is empty if the image was pulled from an image registry.
Parent string `json:"parent,omitempty"`
// Comment is an optional message that can be set when committing or
// importing the image.
Comment string `json:"comment,omitempty"`
// Created is the timestamp at which the image was created
Created *time.Time `json:"created"`
// Container is the ID of the container that was used to create the image.
//
// Depending on how the image was created, this field may be empty.
Container string `json:"container,omitempty"`
// ContainerConfig is the configuration of the container that was committed
// into the image.
ContainerConfig container.Config `json:"container_config,omitempty"`
// DockerVersion is the version of Docker that was used to build the image.
//
// Depending on how the image was created, this field may be empty.
DockerVersion string `json:"docker_version,omitempty"`
// Author is the name of the author that was specified when committing the
// image, or as specified through MAINTAINER (deprecated) in the Dockerfile.
Author string `json:"author,omitempty"`
// Config is the configuration of the container received from the client.
Config *container.Config `json:"config,omitempty"`
// Architecture is the hardware CPU architecture that the image runs on.
Architecture string `json:"architecture,omitempty"`
// Variant is the CPU architecture variant (presently ARM-only).
Variant string `json:"variant,omitempty"`
// OS is the Operating System the image is built to run on.
OS string `json:"os,omitempty"`
// Size is the total size of the image including all layers it is composed of.
Size int64 `json:",omitempty"`
}
// Image stores the image configuration
type Image struct {
V1Image
// Parent is the ID of the parent image.
//
// Depending on how the image was created, this field may be empty and
// is only set for images that were built/created locally. This field
// is empty if the image was pulled from an image registry.
Parent ID `json:"parent,omitempty"` //nolint:govet
// RootFS contains information about the image's RootFS, including the
// layer IDs.
RootFS *RootFS `json:"rootfs,omitempty"`
History []History `json:"history,omitempty"`
// OsVersion is the version of the Operating System the image is built to
// run on (especially for Windows).
OSVersion string `json:"os.version,omitempty"`
OSFeatures []string `json:"os.features,omitempty"`
// rawJSON caches the immutable JSON associated with this image.
rawJSON []byte
// computedID is the ID computed from the hash of the image config.
// Not to be confused with the legacy V1 ID in V1Image.
computedID ID
// Details holds additional details about image
Details *Details `json:"-"`
}
// Details provides additional image data
type Details struct {
References []reference.Named
Size int64
Metadata map[string]string
Driver string
LastUpdated time.Time
}
// RawJSON returns the immutable JSON associated with the image.
func (img *Image) RawJSON() []byte {
return img.rawJSON
}
// ID returns the image's content-addressable ID.
func (img *Image) ID() ID {
return img.computedID
}
// ImageID stringifies ID.
func (img *Image) ImageID() string {
return img.ID().String()
}
// RunConfig returns the image's container config.
func (img *Image) RunConfig() *container.Config {
return img.Config
}
// BaseImgArch returns the image's architecture. If not populated, defaults to the host runtime arch.
func (img *Image) BaseImgArch() string {
arch := img.Architecture
if arch == "" {
arch = runtime.GOARCH
}
return arch
}
// BaseImgVariant returns the image's variant, whether populated or not.
// This avoids creating an inconsistency where the stored image variant
// is "greater than" (i.e. v8 vs v6) the actual image variant.
func (img *Image) BaseImgVariant() string {
return img.Variant
}
// OperatingSystem returns the image's operating system. If not populated, defaults to the host runtime OS.
func (img *Image) OperatingSystem() string {
os := img.OS
if os == "" {
os = runtime.GOOS
}
return os
}
// Platform generates an OCI platform from the image
func (img *Image) Platform() ocispec.Platform {
return ocispec.Platform{
Architecture: img.Architecture,
OS: img.OS,
OSVersion: img.OSVersion,
OSFeatures: img.OSFeatures,
Variant: img.Variant,
}
}
// MarshalJSON serializes the image to JSON. It sorts the top-level keys so
// that JSON that's been manipulated by a push/pull cycle with a legacy
// registry won't end up with a different key order.
func (img *Image) MarshalJSON() ([]byte, error) {
type MarshalImage Image
pass1, err := json.Marshal(MarshalImage(*img))
if err != nil {
return nil, err
}
var c map[string]*json.RawMessage
if err := json.Unmarshal(pass1, &c); err != nil {
return nil, err
}
return json.Marshal(c)
}
// ChildConfig is the configuration to apply to an Image to create a new
// Child image. Other properties of the image are copied from the parent.
type ChildConfig struct {
ContainerID string
Author string
Comment string
DiffID layer.DiffID
ContainerConfig *container.Config
Config *container.Config
}
// NewImage creates a new image with the given ID
func NewImage(id ID) *Image {
return &Image{
computedID: id,
}
}
// NewChildImage creates a new Image as a child of this image.
Windows: (WCOW) Generate OCI spec that remote runtime can escape Signed-off-by: John Howard <jhoward@microsoft.com> Also fixes https://github.com/moby/moby/issues/22874 This commit is a pre-requisite to moving moby/moby on Windows to using Containerd for its runtime. The reason for this is that the interface between moby and containerd for the runtime is an OCI spec which must be unambigious. It is the responsibility of the runtime (runhcs in the case of containerd on Windows) to ensure that arguments are escaped prior to calling into HCS and onwards to the Win32 CreateProcess call. Previously, the builder was always escaping arguments which has led to several bugs in moby. Because the local runtime in libcontainerd had context of whether or not arguments were escaped, it was possible to hack around in daemon/oci_windows.go with knowledge of the context of the call (from builder or not). With a remote runtime, this is not possible as there's rightly no context of the caller passed across in the OCI spec. Put another way, as I put above, the OCI spec must be unambigious. The other previous limitation (which leads to various subtle bugs) is that moby is coded entirely from a Linux-centric point of view. Unfortunately, Windows != Linux. Windows CreateProcess uses a command line, not an array of arguments. And it has very specific rules about how to escape a command line. Some interesting reading links about this are: https://blogs.msdn.microsoft.com/twistylittlepassagesallalike/2011/04/23/everyone-quotes-command-line-arguments-the-wrong-way/ https://stackoverflow.com/questions/31838469/how-do-i-convert-argv-to-lpcommandline-parameter-of-createprocess https://docs.microsoft.com/en-us/cpp/cpp/parsing-cpp-command-line-arguments?view=vs-2017 For this reason, the OCI spec has recently been updated to cater for more natural syntax by including a CommandLine option in Process. What does this commit do? Primary objective is to ensure that the built OCI spec is unambigious. It changes the builder so that `ArgsEscaped` as commited in a layer is only controlled by the use of CMD or ENTRYPOINT. Subsequently, when calling in to create a container from the builder, if follows a different path to both `docker run` and `docker create` using the added `ContainerCreateIgnoreImagesArgsEscaped`. This allows a RUN from the builder to control how to escape in the OCI spec. It changes the builder so that when shell form is used for RUN, CMD or ENTRYPOINT, it builds (for WCOW) a more natural command line using the original as put by the user in the dockerfile, not the parsed version as a set of args which loses fidelity. This command line is put into args[0] and `ArgsEscaped` is set to true for CMD or ENTRYPOINT. A RUN statement does not commit `ArgsEscaped` to the commited layer regardless or whether shell or exec form were used.
2019-01-18 00:03:29 +00:00
func NewChildImage(img *Image, child ChildConfig, os string) *Image {
isEmptyLayer := layer.IsEmpty(child.DiffID)
var rootFS *RootFS
if img.RootFS != nil {
rootFS = img.RootFS.Clone()
} else {
rootFS = NewRootFS()
}
if !isEmptyLayer {
rootFS.Append(child.DiffID)
}
imgHistory := NewHistory(
child.Author,
child.Comment,
strings.Join(child.ContainerConfig.Cmd, " "),
isEmptyLayer)
return &Image{
V1Image: V1Image{
DockerVersion: dockerversion.Version,
Config: child.Config,
Architecture: img.BaseImgArch(),
Variant: img.BaseImgVariant(),
Windows: (WCOW) Generate OCI spec that remote runtime can escape Signed-off-by: John Howard <jhoward@microsoft.com> Also fixes https://github.com/moby/moby/issues/22874 This commit is a pre-requisite to moving moby/moby on Windows to using Containerd for its runtime. The reason for this is that the interface between moby and containerd for the runtime is an OCI spec which must be unambigious. It is the responsibility of the runtime (runhcs in the case of containerd on Windows) to ensure that arguments are escaped prior to calling into HCS and onwards to the Win32 CreateProcess call. Previously, the builder was always escaping arguments which has led to several bugs in moby. Because the local runtime in libcontainerd had context of whether or not arguments were escaped, it was possible to hack around in daemon/oci_windows.go with knowledge of the context of the call (from builder or not). With a remote runtime, this is not possible as there's rightly no context of the caller passed across in the OCI spec. Put another way, as I put above, the OCI spec must be unambigious. The other previous limitation (which leads to various subtle bugs) is that moby is coded entirely from a Linux-centric point of view. Unfortunately, Windows != Linux. Windows CreateProcess uses a command line, not an array of arguments. And it has very specific rules about how to escape a command line. Some interesting reading links about this are: https://blogs.msdn.microsoft.com/twistylittlepassagesallalike/2011/04/23/everyone-quotes-command-line-arguments-the-wrong-way/ https://stackoverflow.com/questions/31838469/how-do-i-convert-argv-to-lpcommandline-parameter-of-createprocess https://docs.microsoft.com/en-us/cpp/cpp/parsing-cpp-command-line-arguments?view=vs-2017 For this reason, the OCI spec has recently been updated to cater for more natural syntax by including a CommandLine option in Process. What does this commit do? Primary objective is to ensure that the built OCI spec is unambigious. It changes the builder so that `ArgsEscaped` as commited in a layer is only controlled by the use of CMD or ENTRYPOINT. Subsequently, when calling in to create a container from the builder, if follows a different path to both `docker run` and `docker create` using the added `ContainerCreateIgnoreImagesArgsEscaped`. This allows a RUN from the builder to control how to escape in the OCI spec. It changes the builder so that when shell form is used for RUN, CMD or ENTRYPOINT, it builds (for WCOW) a more natural command line using the original as put by the user in the dockerfile, not the parsed version as a set of args which loses fidelity. This command line is put into args[0] and `ArgsEscaped` is set to true for CMD or ENTRYPOINT. A RUN statement does not commit `ArgsEscaped` to the commited layer regardless or whether shell or exec form were used.
2019-01-18 00:03:29 +00:00
OS: os,
Container: child.ContainerID,
ContainerConfig: *child.ContainerConfig,
Author: child.Author,
Created: imgHistory.Created,
},
RootFS: rootFS,
History: append(img.History, imgHistory),
OSFeatures: img.OSFeatures,
OSVersion: img.OSVersion,
}
}
// Clone clones an image and changes ID.
func Clone(base *Image, id ID) *Image {
img := *base
img.RootFS = img.RootFS.Clone()
img.V1Image.ID = id.String()
img.computedID = id
return &img
}
// History stores build commands that were used to create an image
type History = ocispec.History
// NewHistory creates a new history struct from arguments, and sets the created
// time to the current time in UTC
func NewHistory(author, comment, createdBy string, isEmptyLayer bool) History {
now := time.Now().UTC()
return History{
Author: author,
Created: &now,
CreatedBy: createdBy,
Comment: comment,
EmptyLayer: isEmptyLayer,
}
}
// Exporter provides interface for loading and saving images
type Exporter interface {
Load(io.ReadCloser, io.Writer, bool) error
// TODO: Load(net.Context, io.ReadCloser, <- chan StatusMessage) error
Save([]string, io.Writer) error
}
// NewFromJSON creates an Image configuration from json.
func NewFromJSON(src []byte) (*Image, error) {
img := &Image{}
if err := json.Unmarshal(src, img); err != nil {
return nil, err
}
if img.RootFS == nil {
return nil, errors.New("invalid image JSON, no RootFS key")
}
img.rawJSON = src
return img, nil
}