unum/vendor/github.com/opencontainers/go-digest/digest.go - voltha - Gitiles

 package digest

 import (
 	"fmt"
 	"hash"
 	"io"
 	"regexp"
 	"strings"
 )

 // Digest allows simple protection of hex formatted digest strings, prefixed
 // by their algorithm. Strings of type Digest have some guarantee of being in
 // the correct format and it provides quick access to the components of a
 // digest string.
 //
 // The following is an example of the contents of Digest types:
 //
 // 	sha256:7173b809ca12ec5dee4506cd86be934c4596dd234ee82c0662eac04a8c2c71dc
 //
 // This allows to abstract the digest behind this type and work only in those
 // terms.
 type Digest string

 // NewDigest returns a Digest from alg and a hash.Hash object.
 func NewDigest(alg Algorithm, h hash.Hash) Digest {
 	return NewDigestFromBytes(alg, h.Sum(nil))
 }

 // NewDigestFromBytes returns a new digest from the byte contents of p.
 // Typically, this can come from hash.Hash.Sum(...) or xxx.SumXXX(...)
 // functions. This is also useful for rebuilding digests from binary
 // serializations.
 func NewDigestFromBytes(alg Algorithm, p []byte) Digest {
 	return Digest(fmt.Sprintf("%s:%x", alg, p))
 }

 // NewDigestFromHex returns a Digest from alg and a the hex encoded digest.
 func NewDigestFromHex(alg, hex string) Digest {
 	return Digest(fmt.Sprintf("%s:%s", alg, hex))
 }

 // DigestRegexp matches valid digest types.
 var DigestRegexp = regexp.MustCompile(`[a-zA-Z0-9-_+.]+:[a-fA-F0-9]+`)

 // DigestRegexpAnchored matches valid digest types, anchored to the start and end of the match.
 var DigestRegexpAnchored = regexp.MustCompile(`^` + DigestRegexp.String() + `$`)

 var (
 	// ErrDigestInvalidFormat returned when digest format invalid.
 	ErrDigestInvalidFormat = fmt.Errorf("invalid checksum digest format")

 	// ErrDigestInvalidLength returned when digest has invalid length.
 	ErrDigestInvalidLength = fmt.Errorf("invalid checksum digest length")

 	// ErrDigestUnsupported returned when the digest algorithm is unsupported.
 	ErrDigestUnsupported = fmt.Errorf("unsupported digest algorithm")
 )

 // Parse parses s and returns the validated digest object. An error will
 // be returned if the format is invalid.
 func Parse(s string) (Digest, error) {
 	d := Digest(s)
 	return d, d.Validate()
 }

 // FromReader consumes the content of rd until io.EOF, returning canonical digest.
 func FromReader(rd io.Reader) (Digest, error) {
 	return Canonical.FromReader(rd)
 }

 // FromBytes digests the input and returns a Digest.
 func FromBytes(p []byte) Digest {
 	return Canonical.FromBytes(p)
 }

 // FromString digests the input and returns a Digest.
 func FromString(s string) Digest {
 	return Canonical.FromString(s)
 }

 // Validate checks that the contents of d is a valid digest, returning an
 // error if not.
 func (d Digest) Validate() error {
 	s := string(d)

 	i := strings.Index(s, ":")

 	// validate i then run through regexp
 	if i < 0 || i+1 == len(s) || !DigestRegexpAnchored.MatchString(s) {
 		return ErrDigestInvalidFormat
 	}

 	algorithm := Algorithm(s[:i])
 	if !algorithm.Available() {
 		return ErrDigestUnsupported
 	}

 	// Digests much always be hex-encoded, ensuring that their hex portion will
 	// always be size*2
 	if algorithm.Size()*2 != len(s[i+1:]) {
 		return ErrDigestInvalidLength
 	}

 	return nil
 }

 // Algorithm returns the algorithm portion of the digest. This will panic if
 // the underlying digest is not in a valid format.
 func (d Digest) Algorithm() Algorithm {
 	return Algorithm(d[:d.sepIndex()])
 }

 // Verifier returns a writer object that can be used to verify a stream of
 // content against the digest. If the digest is invalid, the method will panic.
 func (d Digest) Verifier() Verifier {
 	return hashVerifier{
 		hash:   d.Algorithm().Hash(),
 		digest: d,
 	}
 }

 // Hex returns the hex digest portion of the digest. This will panic if the
 // underlying digest is not in a valid format.
 func (d Digest) Hex() string {
 	return string(d[d.sepIndex()+1:])
 }

 func (d Digest) String() string {
 	return string(d)
 }

 func (d Digest) sepIndex() int {
 	i := strings.Index(string(d), ":")

 	if i < 0 {
 		panic(fmt.Sprintf("no ':' separator in digest %q", d))
 	}

 	return i
 }
	package digest

	import (
	"fmt"
	"hash"
	"io"
	"regexp"
	"strings"
	)

	// Digest allows simple protection of hex formatted digest strings, prefixed
	// by their algorithm. Strings of type Digest have some guarantee of being in
	// the correct format and it provides quick access to the components of a
	// digest string.
	//
	// The following is an example of the contents of Digest types:
	//
	// sha256:7173b809ca12ec5dee4506cd86be934c4596dd234ee82c0662eac04a8c2c71dc
	//
	// This allows to abstract the digest behind this type and work only in those
	// terms.
	type Digest string

	// NewDigest returns a Digest from alg and a hash.Hash object.
	func NewDigest(alg Algorithm, h hash.Hash) Digest {
	return NewDigestFromBytes(alg, h.Sum(nil))
	}

	// NewDigestFromBytes returns a new digest from the byte contents of p.
	// Typically, this can come from hash.Hash.Sum(...) or xxx.SumXXX(...)
	// functions. This is also useful for rebuilding digests from binary
	// serializations.
	func NewDigestFromBytes(alg Algorithm, p []byte) Digest {
	return Digest(fmt.Sprintf("%s:%x", alg, p))
	}

	// NewDigestFromHex returns a Digest from alg and a the hex encoded digest.
	func NewDigestFromHex(alg, hex string) Digest {
	return Digest(fmt.Sprintf("%s:%s", alg, hex))
	}

	// DigestRegexp matches valid digest types.
	var DigestRegexp = regexp.MustCompile(`[a-zA-Z0-9-_+.]+:[a-fA-F0-9]+`)

	// DigestRegexpAnchored matches valid digest types, anchored to the start and end of the match.
	var DigestRegexpAnchored = regexp.MustCompile(`^` + DigestRegexp.String() + `$`)

	var (
	// ErrDigestInvalidFormat returned when digest format invalid.
	ErrDigestInvalidFormat = fmt.Errorf("invalid checksum digest format")

	// ErrDigestInvalidLength returned when digest has invalid length.
	ErrDigestInvalidLength = fmt.Errorf("invalid checksum digest length")

	// ErrDigestUnsupported returned when the digest algorithm is unsupported.
	ErrDigestUnsupported = fmt.Errorf("unsupported digest algorithm")
	)

	// Parse parses s and returns the validated digest object. An error will
	// be returned if the format is invalid.
	func Parse(s string) (Digest, error) {
	d := Digest(s)
	return d, d.Validate()
	}

	// FromReader consumes the content of rd until io.EOF, returning canonical digest.
	func FromReader(rd io.Reader) (Digest, error) {
	return Canonical.FromReader(rd)
	}

	// FromBytes digests the input and returns a Digest.
	func FromBytes(p []byte) Digest {
	return Canonical.FromBytes(p)
	}

	// FromString digests the input and returns a Digest.
	func FromString(s string) Digest {
	return Canonical.FromString(s)
	}

	// Validate checks that the contents of d is a valid digest, returning an
	// error if not.
	func (d Digest) Validate() error {
	s := string(d)

	i := strings.Index(s, ":")

	// validate i then run through regexp
	if i < 0 \|\| i+1 == len(s) \|\| !DigestRegexpAnchored.MatchString(s) {
	return ErrDigestInvalidFormat
	}

	algorithm := Algorithm(s[:i])
	if !algorithm.Available() {
	return ErrDigestUnsupported
	}

	// Digests much always be hex-encoded, ensuring that their hex portion will
	// always be size*2
	if algorithm.Size()*2 != len(s[i+1:]) {
	return ErrDigestInvalidLength
	}

	return nil
	}

	// Algorithm returns the algorithm portion of the digest. This will panic if
	// the underlying digest is not in a valid format.
	func (d Digest) Algorithm() Algorithm {
	return Algorithm(d[:d.sepIndex()])
	}

	// Verifier returns a writer object that can be used to verify a stream of
	// content against the digest. If the digest is invalid, the method will panic.
	func (d Digest) Verifier() Verifier {
	return hashVerifier{
	hash: d.Algorithm().Hash(),
	digest: d,
	}
	}

	// Hex returns the hex digest portion of the digest. This will panic if the
	// underlying digest is not in a valid format.
	func (d Digest) Hex() string {
	return string(d[d.sepIndex()+1:])
	}

	func (d Digest) String() string {
	return string(d)
	}

	func (d Digest) sepIndex() int {
	i := strings.Index(string(d), ":")

	if i < 0 {
	panic(fmt.Sprintf("no ':' separator in digest %q", d))
	}

	return i
	}