buildx/vendor/github.com/containerd/containerd/reference/docker/reference.go

/*
   Copyright The containerd Authors.

   Licensed under the Apache License, Version 2.0 (the "License");
   you may not use this file except in compliance with the License.
   You may obtain a copy of the License at

       http://www.apache.org/licenses/LICENSE-2.0

   Unless required by applicable law or agreed to in writing, software
   distributed under the License is distributed on an "AS IS" BASIS,
   WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
   See the License for the specific language governing permissions and
   limitations under the License.
*/

// Package docker provides a general type to represent any way of referencing images within the registry.
// Its main purpose is to abstract tags and digests (content-addressable hash).
//
// Grammar
//
//	reference                       := name [ ":" tag ] [ "@" digest ]
//	name                            := [domain '/'] path-component ['/' path-component]*
//	domain                          := host [':' port-number]
//	host                            := domain-name | IPv4address | \[ IPv6address \]	; rfc3986 appendix-A
//	domain-name                     := domain-component ['.' domain-component]*
//	domain-component                := /([a-zA-Z0-9]|[a-zA-Z0-9][a-zA-Z0-9-]*[a-zA-Z0-9])/
//	port-number                     := /[0-9]+/
//	path-component                  := alpha-numeric [separator alpha-numeric]*
//	alpha-numeric                   := /[a-z0-9]+/
//	separator                       := /[_.]|__|[-]*/
//
//	tag                             := /[\w][\w.-]{0,127}/
//
//	digest                          := digest-algorithm ":" digest-hex
//	digest-algorithm                := digest-algorithm-component [ digest-algorithm-separator digest-algorithm-component ]*
//	digest-algorithm-separator      := /[+.-_]/
//	digest-algorithm-component      := /[A-Za-z][A-Za-z0-9]*/
//	digest-hex                      := /[0-9a-fA-F]{32,}/ ; At least 128 bit digest value
//
//	identifier                      := /[a-f0-9]{64}/
//	short-identifier                := /[a-f0-9]{6,64}/
package docker

import (
	"errors"
	"fmt"
	"strings"

	"github.com/opencontainers/go-digest"
)

const (
	// NameTotalLengthMax is the maximum total number of characters in a repository name.
	NameTotalLengthMax = 255
)

var (
	// ErrReferenceInvalidFormat represents an error while trying to parse a string as a reference.
	ErrReferenceInvalidFormat = errors.New("invalid reference format")

	// ErrTagInvalidFormat represents an error while trying to parse a string as a tag.
	ErrTagInvalidFormat = errors.New("invalid tag format")

	// ErrDigestInvalidFormat represents an error while trying to parse a string as a tag.
	ErrDigestInvalidFormat = errors.New("invalid digest format")

	// ErrNameContainsUppercase is returned for invalid repository names that contain uppercase characters.
	ErrNameContainsUppercase = errors.New("repository name must be lowercase")

	// ErrNameEmpty is returned for empty, invalid repository names.
	ErrNameEmpty = errors.New("repository name must have at least one component")

	// ErrNameTooLong is returned when a repository name is longer than NameTotalLengthMax.
	ErrNameTooLong = fmt.Errorf("repository name must not be more than %v characters", NameTotalLengthMax)

	// ErrNameNotCanonical is returned when a name is not canonical.
	ErrNameNotCanonical = errors.New("repository name must be canonical")
)

// Reference is an opaque object reference identifier that may include
// modifiers such as a hostname, name, tag, and digest.
type Reference interface {
	// String returns the full reference
	String() string
}

// Field provides a wrapper type for resolving correct reference types when
// working with encoding.
type Field struct {
	reference Reference
}

// AsField wraps a reference in a Field for encoding.
func AsField(reference Reference) Field {
	return Field{reference}
}

// Reference unwraps the reference type from the field to
// return the Reference object. This object should be
// of the appropriate type to further check for different
// reference types.
func (f Field) Reference() Reference {
	return f.reference
}

// MarshalText serializes the field to byte text which
// is the string of the reference.
func (f Field) MarshalText() (p []byte, err error) {
	return []byte(f.reference.String()), nil
}

// UnmarshalText parses text bytes by invoking the
// reference parser to ensure the appropriately
// typed reference object is wrapped by field.
func (f *Field) UnmarshalText(p []byte) error {
	r, err := Parse(string(p))
	if err != nil {
		return err
	}

	f.reference = r
	return nil
}

// Named is an object with a full name
type Named interface {
	Reference
	Name() string
}

// Tagged is an object which has a tag
type Tagged interface {
	Reference
	Tag() string
}

// NamedTagged is an object including a name and tag.
type NamedTagged interface {
	Named
	Tag() string
}

// Digested is an object which has a digest
// in which it can be referenced by
type Digested interface {
	Reference
	Digest() digest.Digest
}

// Canonical reference is an object with a fully unique
// name including a name with domain and digest
type Canonical interface {
	Named
	Digest() digest.Digest
}

// namedRepository is a reference to a repository with a name.
// A namedRepository has both domain and path components.
type namedRepository interface {
	Named
	Domain() string
	Path() string
}

// Domain returns the domain part of the Named reference
func Domain(named Named) string {
	if r, ok := named.(namedRepository); ok {
		return r.Domain()
	}
	domain, _ := splitDomain(named.Name())
	return domain
}

// Path returns the name without the domain part of the Named reference
func Path(named Named) (name string) {
	if r, ok := named.(namedRepository); ok {
		return r.Path()
	}
	_, path := splitDomain(named.Name())
	return path
}

func splitDomain(name string) (string, string) {
	match := anchoredNameRegexp.FindStringSubmatch(name)
	if len(match) != 3 {
		return "", name
	}
	return match[1], match[2]
}

// SplitHostname splits a named reference into a
// hostname and name string. If no valid hostname is
// found, the hostname is empty and the full value
// is returned as name
// DEPRECATED: Use Domain or Path
func SplitHostname(named Named) (string, string) {
	if r, ok := named.(namedRepository); ok {
		return r.Domain(), r.Path()
	}
	return splitDomain(named.Name())
}

// Parse parses s and returns a syntactically valid Reference.
// If an error was encountered it is returned, along with a nil Reference.
// NOTE: Parse will not handle short digests.
func Parse(s string) (Reference, error) {
	matches := ReferenceRegexp.FindStringSubmatch(s)
	if matches == nil {
		if s == "" {
			return nil, ErrNameEmpty
		}
		if ReferenceRegexp.FindStringSubmatch(strings.ToLower(s)) != nil {
			return nil, ErrNameContainsUppercase
		}
		return nil, ErrReferenceInvalidFormat
	}

	if len(matches[1]) > NameTotalLengthMax {
		return nil, ErrNameTooLong
	}

	var repo repository

	nameMatch := anchoredNameRegexp.FindStringSubmatch(matches[1])
	if len(nameMatch) == 3 {
		repo.domain = nameMatch[1]
		repo.path = nameMatch[2]
	} else {
		repo.domain = ""
		repo.path = matches[1]
	}

	ref := reference{
		namedRepository: repo,
		tag:             matches[2],
	}
	if matches[3] != "" {
		var err error
		ref.digest, err = digest.Parse(matches[3])
		if err != nil {
			return nil, err
		}
	}

	r := getBestReferenceType(ref)
	if r == nil {
		return nil, ErrNameEmpty
	}

	return r, nil
}

// ParseNamed parses s and returns a syntactically valid reference implementing
// the Named interface. The reference must have a name and be in the canonical
// form, otherwise an error is returned.
// If an error was encountered it is returned, along with a nil Reference.
// NOTE: ParseNamed will not handle short digests.
func ParseNamed(s string) (Named, error) {
	named, err := ParseNormalizedNamed(s)
	if err != nil {
		return nil, err
	}
	if named.String() != s {
		return nil, ErrNameNotCanonical
	}
	return named, nil
}

// WithName returns a named object representing the given string. If the input
// is invalid ErrReferenceInvalidFormat will be returned.
func WithName(name string) (Named, error) {
	if len(name) > NameTotalLengthMax {
		return nil, ErrNameTooLong
	}

	match := anchoredNameRegexp.FindStringSubmatch(name)
	if match == nil || len(match) != 3 {
		return nil, ErrReferenceInvalidFormat
	}
	return repository{
		domain: match[1],
		path:   match[2],
	}, nil
}

// WithTag combines the name from "name" and the tag from "tag" to form a
// reference incorporating both the name and the tag.
func WithTag(name Named, tag string) (NamedTagged, error) {
	if !anchoredTagRegexp.MatchString(tag) {
		return nil, ErrTagInvalidFormat
	}
	var repo repository
	if r, ok := name.(namedRepository); ok {
		repo.domain = r.Domain()
		repo.path = r.Path()
	} else {
		repo.path = name.Name()
	}
	if canonical, ok := name.(Canonical); ok {
		return reference{
			namedRepository: repo,
			tag:             tag,
			digest:          canonical.Digest(),
		}, nil
	}
	return taggedReference{
		namedRepository: repo,
		tag:             tag,
	}, nil
}

// WithDigest combines the name from "name" and the digest from "digest" to form
// a reference incorporating both the name and the digest.
func WithDigest(name Named, digest digest.Digest) (Canonical, error) {
	if !anchoredDigestRegexp.MatchString(digest.String()) {
		return nil, ErrDigestInvalidFormat
	}
	var repo repository
	if r, ok := name.(namedRepository); ok {
		repo.domain = r.Domain()
		repo.path = r.Path()
	} else {
		repo.path = name.Name()
	}
	if tagged, ok := name.(Tagged); ok {
		return reference{
			namedRepository: repo,
			tag:             tagged.Tag(),
			digest:          digest,
		}, nil
	}
	return canonicalReference{
		namedRepository: repo,
		digest:          digest,
	}, nil
}

// TrimNamed removes any tag or digest from the named reference.
func TrimNamed(ref Named) Named {
	repo := repository{}
	if r, ok := ref.(namedRepository); ok {
		repo.domain, repo.path = r.Domain(), r.Path()
	} else {
		repo.domain, repo.path = splitDomain(ref.Name())
	}
	return repo
}

func getBestReferenceType(ref reference) Reference {
	if ref.Name() == "" {
		// Allow digest only references
		if ref.digest != "" {
			return digestReference(ref.digest)
		}
		return nil
	}
	if ref.tag == "" {
		if ref.digest != "" {
			return canonicalReference{
				namedRepository: ref.namedRepository,
				digest:          ref.digest,
			}
		}
		return ref.namedRepository
	}
	if ref.digest == "" {
		return taggedReference{
			namedRepository: ref.namedRepository,
			tag:             ref.tag,
		}
	}

	return ref
}

type reference struct {
	namedRepository
	tag    string
	digest digest.Digest
}

func (r reference) String() string {
	return r.Name() + ":" + r.tag + "@" + r.digest.String()
}

func (r reference) Tag() string {
	return r.tag
}

func (r reference) Digest() digest.Digest {
	return r.digest
}

type repository struct {
	domain string
	path   string
}

func (r repository) String() string {
	return r.Name()
}

func (r repository) Name() string {
	if r.domain == "" {
		return r.path
	}
	return r.domain + "/" + r.path
}

func (r repository) Domain() string {
	return r.domain
}

func (r repository) Path() string {
	return r.path
}

type digestReference digest.Digest

func (d digestReference) String() string {
	return digest.Digest(d).String()
}

func (d digestReference) Digest() digest.Digest {
	return digest.Digest(d)
}

type taggedReference struct {
	namedRepository
	tag string
}

func (t taggedReference) String() string {
	return t.Name() + ":" + t.tag
}

func (t taggedReference) Tag() string {
	return t.tag
}

type canonicalReference struct {
	namedRepository
	digest digest.Digest
}

func (c canonicalReference) String() string {
	return c.Name() + "@" + c.digest.String()
}

func (c canonicalReference) Digest() digest.Digest {
	return c.digest
}