containerd/reference/reference.go

package reference

import (
	"errors"
	"fmt"
	"net/url"
	"path"
	"regexp"
	"strings"

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

var (
	ErrInvalid          = errors.New("invalid reference")
	ErrObjectRequired   = errors.New("object required")
	ErrHostnameRequired = errors.New("hostname required")
)

// Spec defines the main components of a reference specification.
//
// A reference specification is a schema-less URI parsed into common
// components. The two main components, locator and object, are required to be
// supported by remotes. It represents a superset of the naming define in
// docker's reference schema. It aims to be compatible but not prescriptive.
//
// While the interpretation of the components, locator and object, are up to
// the remote, we define a few common parts, accessible via helper methods.
//
// The first is the hostname, which is part of the locator. This doesn't need
// to map to a physical resource, but it must parse as a hostname. We refer to
// this as the namespace.
//
// The other component made accessible by helper method is the digest. This is
// part of the object identifier, always prefixed with an '@'. If present, the
// remote may use the digest portion directly or resolve it against a prefix.
// If the object does not include the `@` symbol, the return value for `Digest`
// will be empty.
type Spec struct {
	// Locator is the host and path portion of the specification. The host
	// portion may refer to an actual host or just a namespace of related
	// images.
	//
	// Typically, the locator may used to resolve the remote to fetch specific
	// resources.
	Locator string

	// Object contains the identifier for the remote resource. Classically,
	// this is a tag but can refer to anything in a remote. By convention, any
	// portion that may be a partial or whole digest will be preceeded by an
	// `@`. Anything preceeding the `@` will be referred to as the "tag".
	//
	// In practice, we will see this broken down into the following formats:
	//
	// 1. <tag>
	// 2. <tag>@<digest spec>
	// 3. @<digest spec>
	//
	// We define the tag to be anything except '@' and ':'. <digest spec> may
	// be a full valid digest or shortened version, possibly with elided
	// algorithm.
	Object string
}

var splitRe = regexp.MustCompile(`[:@]`)

// Parse parses the string into a structured ref.
func Parse(s string) (Spec, error) {
	u, err := url.Parse("dummy://" + s)
	if err != nil {
		return Spec{}, err
	}

	if u.Scheme != "dummy" {
		return Spec{}, ErrInvalid
	}

	if u.Host == "" {
		return Spec{}, ErrHostnameRequired
	}

	parts := splitRe.Split(u.Path, 2)
	if len(parts) < 2 {
		return Spec{}, ErrObjectRequired
	}

	// This allows us to retain the @ to signify digests or shortend digests in
	// the object.
	object := u.Path[len(parts[0]):]
	if object[:1] == ":" {
		object = object[1:]
	}

	return Spec{
		Locator: path.Join(u.Host, parts[0]),
		Object:  object,
	}, nil
}

// Hostname returns the hostname portion of the locator.
//
// Remotes are not required to directly access the resources at this host. This
// method is provided for convenience.
func (r Spec) Hostname() string {
	i := strings.Index(r.Locator, "/")

	if i < 0 {
		i = len(r.Locator) + 1
	}
	return r.Locator[:i]
}

// Digest returns the digest portion of the reference spec. This may be a
// partial or invalid digest, which may be used to lookup a complete digest.
func (r Spec) Digest() digest.Digest {
	_, dgst := SplitObject(r.Object)
	return dgst
}

// String returns the normalized string for the ref.
func (r Spec) String() string {
	if r.Object[:1] == "@" {
		return fmt.Sprintf("%v%v", r.Locator, r.Object)
	}

	return fmt.Sprintf("%v:%v", r.Locator, r.Object)
}

// SplitObject provides two parts of the object spec, delimiited by an `@`
// symbol.
//
// Either may be empty and it is the callers job to validate them
// appropriately.
func SplitObject(obj string) (tag string, dgst digest.Digest) {
	parts := strings.SplitAfterN(obj, "@", 2)
	if len(parts) < 2 {
		return parts[0], ""
	} else {
		return parts[0], digest.Digest(parts[1])
	}
}