frostfs-sdk-go/crypto/ecdsa/public.go

package neofsecdsa

import (
	"crypto/ecdsa"
	"crypto/elliptic"
	"crypto/sha256"
	"crypto/sha512"
	"fmt"
	"math/big"

	"github.com/nspcc-dev/neo-go/pkg/crypto/keys"
)

// PublicKey implements neofscrypto.PublicKey based on ECDSA.
//
// Supported schemes:
//  - neofscrypto.ECDSA_SHA512 (default)
//  - neofscrypto.ECDSA_DETERMINISTIC_SHA256
type PublicKey struct {
	deterministic bool

	key ecdsa.PublicKey
}

// SetKey specifies ecdsa.PublicKey to be used for ECDSA signature verification.
func (x *PublicKey) SetKey(key ecdsa.PublicKey) {
	x.key = key
}

// MakeDeterministic makes PublicKey to use Deterministic ECDSA scheme
// (see neofscrypto.ECDSA_DETERMINISTIC_SHA256). By default,
// neofscrypto.ECDSA_SHA512 is used.
func (x *PublicKey) MakeDeterministic() {
	x.deterministic = true
}

// MaxEncodedSize returns size of the compressed ECDSA public key.
func (x PublicKey) MaxEncodedSize() int {
	return 33
}

// Encode encodes ECDSA public key in compressed form into buf.
// Uses exactly MaxEncodedSize bytes of the buf.
//
// Encode panics if buf length is less than MaxEncodedSize.
//
// See also Decode.
func (x PublicKey) Encode(buf []byte) int {
	if len(buf) < 33 {
		panic(fmt.Sprintf("too short buffer %d", len(buf)))
	}

	return copy(buf, (*keys.PublicKey)(&x.key).Bytes())
}

// Decode decodes compressed binary representation of the PublicKey.
//
// See also Encode.
func (x *PublicKey) Decode(data []byte) error {
	pub, err := keys.NewPublicKeyFromBytes(data, elliptic.P256())
	if err != nil {
		return err
	}

	x.key = (ecdsa.PublicKey)(*pub)

	return nil
}

// similar to elliptic.Unmarshal but without IsOnCurve check.
func unmarshalXY(data []byte) (x *big.Int, y *big.Int) {
	if len(data) != 65 {
		return
	} else if data[0] != 4 { // uncompressed form
		return
	}

	p := elliptic.P256().Params().P
	x = new(big.Int).SetBytes(data[1:33])
	y = new(big.Int).SetBytes(data[33:])

	if x.Cmp(p) >= 0 || y.Cmp(p) >= 0 {
		x, y = nil, nil
	}

	return
}

// Verify verifies data signature calculated by algorithm depending on
// PublicKey state:
//  - Deterministic ECDSA with SHA-256 hashing if MakeDeterministic called
//  - ECDSA with SHA-512 hashing, otherwise
func (x PublicKey) Verify(data, signature []byte) bool {
	if x.deterministic {
		h := sha256.Sum256(data)
		return (*keys.PublicKey)(&x.key).Verify(signature, h[:])
	}

	h := sha512.Sum512(data)
	r, s := unmarshalXY(signature)

	return r != nil && s != nil && ecdsa.Verify(&x.key, h[:], r, s)
}
[#190] Refactor cryptographic functionality Remove `signature` and `util/signature` packages. Re-implement their functionality in new `crypto` package. Generalize the approach of digital signature computation and verification by adding `Signer` and `PublicKey` primitives similar to standard `crypto` package. Support already exising in protocol signature schemes. Signed-off-by: Leonard Lyubich <leonard@nspcc.ru> 2022-04-05 11:13:34 +00:00			`package neofsecdsa`

			`import (`
			`"crypto/ecdsa"`
			`"crypto/elliptic"`
			`"crypto/sha256"`
			`"crypto/sha512"`
[#190] crypto: Replace public key encoding methods to `PublicKey` This make `neofscrypto.Signer` interface more similar to the one from standard `crypto` package. Signed-off-by: Leonard Lyubich <leonard@nspcc.ru> 2022-04-19 07:39:50 +00:00			`"fmt"`
[#190] Refactor cryptographic functionality Remove `signature` and `util/signature` packages. Re-implement their functionality in new `crypto` package. Generalize the approach of digital signature computation and verification by adding `Signer` and `PublicKey` primitives similar to standard `crypto` package. Support already exising in protocol signature schemes. Signed-off-by: Leonard Lyubich <leonard@nspcc.ru> 2022-04-05 11:13:34 +00:00			`"math/big"`

			`"github.com/nspcc-dev/neo-go/pkg/crypto/keys"`
			`)`

			`// PublicKey implements neofscrypto.PublicKey based on ECDSA.`
			`//`
			`// Supported schemes:`
			`// - neofscrypto.ECDSA_SHA512 (default)`
			`// - neofscrypto.ECDSA_DETERMINISTIC_SHA256`
			`type PublicKey struct {`
			`deterministic bool`

			`key ecdsa.PublicKey`
			`}`

[#190] crypto: Replace public key encoding methods to `PublicKey` This make `neofscrypto.Signer` interface more similar to the one from standard `crypto` package. Signed-off-by: Leonard Lyubich <leonard@nspcc.ru> 2022-04-19 07:39:50 +00:00			`// SetKey specifies ecdsa.PublicKey to be used for ECDSA signature verification.`
			`func (x *PublicKey) SetKey(key ecdsa.PublicKey) {`
			`x.key = key`
			`}`

[#190] Refactor cryptographic functionality Remove `signature` and `util/signature` packages. Re-implement their functionality in new `crypto` package. Generalize the approach of digital signature computation and verification by adding `Signer` and `PublicKey` primitives similar to standard `crypto` package. Support already exising in protocol signature schemes. Signed-off-by: Leonard Lyubich <leonard@nspcc.ru> 2022-04-05 11:13:34 +00:00			`// MakeDeterministic makes PublicKey to use Deterministic ECDSA scheme`
			`// (see neofscrypto.ECDSA_DETERMINISTIC_SHA256). By default,`
			`// neofscrypto.ECDSA_SHA512 is used.`
			`func (x *PublicKey) MakeDeterministic() {`
			`x.deterministic = true`
			`}`

[#190] crypto: Replace public key encoding methods to `PublicKey` This make `neofscrypto.Signer` interface more similar to the one from standard `crypto` package. Signed-off-by: Leonard Lyubich <leonard@nspcc.ru> 2022-04-19 07:39:50 +00:00			`// MaxEncodedSize returns size of the compressed ECDSA public key.`
			`func (x PublicKey) MaxEncodedSize() int {`
			`return 33`
			`}`

			`// Encode encodes ECDSA public key in compressed form into buf.`
			`// Uses exactly MaxEncodedSize bytes of the buf.`
			`//`
			`// Encode panics if buf length is less than MaxEncodedSize.`
			`//`
			`// See also Decode.`
			`func (x PublicKey) Encode(buf []byte) int {`
			`if len(buf) < 33 {`
			`panic(fmt.Sprintf("too short buffer %d", len(buf)))`
			`}`

			`return copy(buf, (*keys.PublicKey)(&x.key).Bytes())`
			`}`

[#190] Refactor cryptographic functionality Remove `signature` and `util/signature` packages. Re-implement their functionality in new `crypto` package. Generalize the approach of digital signature computation and verification by adding `Signer` and `PublicKey` primitives similar to standard `crypto` package. Support already exising in protocol signature schemes. Signed-off-by: Leonard Lyubich <leonard@nspcc.ru> 2022-04-05 11:13:34 +00:00			`// Decode decodes compressed binary representation of the PublicKey.`
			`//`
[#190] crypto: Replace public key encoding methods to `PublicKey` This make `neofscrypto.Signer` interface more similar to the one from standard `crypto` package. Signed-off-by: Leonard Lyubich <leonard@nspcc.ru> 2022-04-19 07:39:50 +00:00			`// See also Encode.`
[#190] Refactor cryptographic functionality Remove `signature` and `util/signature` packages. Re-implement their functionality in new `crypto` package. Generalize the approach of digital signature computation and verification by adding `Signer` and `PublicKey` primitives similar to standard `crypto` package. Support already exising in protocol signature schemes. Signed-off-by: Leonard Lyubich <leonard@nspcc.ru> 2022-04-05 11:13:34 +00:00			`func (x *PublicKey) Decode(data []byte) error {`
			`pub, err := keys.NewPublicKeyFromBytes(data, elliptic.P256())`
			`if err != nil {`
			`return err`
			`}`

			`x.key = (ecdsa.PublicKey)(*pub)`

			`return nil`
			`}`

			`// similar to elliptic.Unmarshal but without IsOnCurve check.`
			`func unmarshalXY(data []byte) (x big.Int, y big.Int) {`
			`if len(data) != 65 {`
			`return`
			`} else if data[0] != 4 { // uncompressed form`
			`return`
			`}`

			`p := elliptic.P256().Params().P`
			`x = new(big.Int).SetBytes(data[1:33])`
			`y = new(big.Int).SetBytes(data[33:])`

			`if x.Cmp(p) >= 0 \|\| y.Cmp(p) >= 0 {`
			`x, y = nil, nil`
			`}`

			`return`
			`}`

			`// Verify verifies data signature calculated by algorithm depending on`
			`// PublicKey state:`
			`// - Deterministic ECDSA with SHA-256 hashing if MakeDeterministic called`
			`// - ECDSA with SHA-512 hashing, otherwise`
			`func (x PublicKey) Verify(data, signature []byte) bool {`
			`if x.deterministic {`
			`h := sha256.Sum256(data)`
			`return (*keys.PublicKey)(&x.key).Verify(signature, h[:])`
			`}`

			`h := sha512.Sum512(data)`
			`r, s := unmarshalXY(signature)`

			`return r != nil && s != nil && ecdsa.Verify(&x.key, h[:], r, s)`
			`}`