Split parsers file old-uncompressed - new-compressed

3 years ago · 644e740875
4 changed files with 147 additions and 131 deletions
--- a/parsers.go
+++ b/parsers.go
@ -72,31 +72,6 @@ func NewPointFromBytes(b []byte) (*Point, error) {
 	return DecompressPoint(pBytes)
 }
 // BytesUncompressed returns a byte array of length 64, with the X & Y
 // coordinates of the Point encoded in little-endian.  [ X (32 bytes) | Y (32
 // bytes)]
 func (p *Point) BytesUncompressed() []byte {
 	var b [64]byte
 	copy(b[:32], swapEndianness(p.X.Bytes()))
 	copy(b[32:], swapEndianness(p.Y.Bytes()))
 	return b[:]
 }
 // NewPointFromBytesUncompressed returns a new *Point from a given byte array
 // with length 64 which has encoded the point coordinates each one as 32 bytes
 // in little-endian.
 func NewPointFromBytesUncompressed(b []byte) (*Point, error) {
 	if len(b) != 64 { //nolint:gomnd
 		return nil, fmt.Errorf("Can not parse bytes to Point,"+
 			" expected byte array of length %d, current %d",
 			64, len(b))
 	}
 	p := &Point{}
 	p.X = new(big.Int).SetBytes(swapEndianness(b[:32]))
 	p.Y = new(big.Int).SetBytes(swapEndianness(b[32:]))
 	return p, nil
 }
 // MarshalJSON implements the json marshaler for the PublicKey
 func (pk PublicKey) MarshalJSON() ([]byte, error) {
 	return json.Marshal(pk.Point())
@ -131,25 +106,6 @@ func NewPublicKeyFromBytes(b []byte) (*PublicKey, error) {
 	return &pk, nil
 }
 // BytesUncompressed returns a byte array of length 64, with the X & Y
 // coordinates of the PublicKey encoded in little-endian.
 // [ X (32 bytes) | Y (32 bytes)]
 func (pk *PublicKey) BytesUncompressed() []byte {
 	return pk.Point().BytesUncompressed()
 }
 // NewPublicKeyFromBytesUncompressed returns a new *PublicKey from a given byte array with
 // length 64 which has encoded the public key coordinates each one as 32 bytes
 // in little-endian.
 func NewPublicKeyFromBytesUncompressed(b []byte) (*PublicKey, error) {
 	p, err := NewPointFromBytesUncompressed(b)
 	if err != nil {
 		return nil, err
 	}
 	pk := PublicKey(*p)
 	return &pk, nil
 }
 // NewPublicKeyFromECDSA returns a *PublicKey from a serialized/marshaled array
 // of bytes generated by the ethereum/standard ECDSA PubKey implementation.
 func NewPublicKeyFromECDSA(b []byte) (*PublicKey, error) {
@ -243,34 +199,3 @@ func NewSignatureFromBytes(b []byte) (*Signature, error) {
 		F: f,
 	}, nil
 }
 // BytesUncompressed returns a byte array of length 96, with the S, F.X and F.Y
 // coordinates of the Signature encoded in little-endian.
 // [ S (32 bytes | F.X (32 bytes) | F.Y (32 bytes)]
 func (sig *Signature) BytesUncompressed() []byte {
 	var b [96]byte
 	copy(b[:32], swapEndianness(sig.S.Bytes()))
 	copy(b[32:96], sig.F.BytesUncompressed())
 	return b[:]
 }
 // NewSignatureFromBytesUncompressed returns a new *Signature from a given byte array with
 // length 96 which has encoded S and the F point coordinates each one as 32
 // bytes in little-endian.
 func NewSignatureFromBytesUncompressed(b []byte) (*Signature, error) {
 	if len(b) != 96 { //nolint:gomnd
 		return nil,
 			fmt.Errorf("Can not parse bytes to Signature,"+
 				" expected byte array of length %d, current %d",
 				96, len(b))
 	}
 	s := new(big.Int).SetBytes(swapEndianness(b[:32]))
 	f, err := NewPointFromBytesUncompressed(b[32:96])
 	if err != nil {
 		return nil, err
 	}
 	return &Signature{
 		S: s,
 		F: f,
 	}, nil
 }
--- a/parsers_test.go
+++ b/parsers_test.go
@ -108,62 +108,6 @@ func TestBytes(t *testing.T) {
 	assert.Equal(t, &sig, sig2)
 }
 func TestBytesUncompressed(t *testing.T) {
 	// Point
 	p := &Point{
 		X: big.NewInt(3),
 		Y: big.NewInt(3),
 	}
 	b := p.BytesUncompressed()
 	assert.Equal(t, "03000000000000000000000000000000000000000000000000000000000000000300000000000000000000000000000000000000000000000000000000000000", hex.EncodeToString(b)) //nolint:lll
 	p2, err := NewPointFromBytesUncompressed(b)
 	assert.Nil(t, err)
 	assert.Equal(t, p, p2)
 	p = G.Mul(big.NewInt(1234))
 	b = p.BytesUncompressed()
 	assert.Equal(t, "f258163f65f65865a79a4279e2ebabb5a57b85501dd4b381d1dc605c434876e34c308bd3f18f062d5cc07f34948ced82f9a76f9c3e65ae64f158412da8e92e6d", hex.EncodeToString(b)) //nolint:lll
 	p2, err = NewPointFromBytesUncompressed(b)
 	assert.Nil(t, err)
 	assert.Equal(t, p, p2)
 	// PublicKey
 	pk := PublicKey(*p)
 	b = pk.BytesUncompressed()
 	assert.Equal(t, "f258163f65f65865a79a4279e2ebabb5a57b85501dd4b381d1dc605c434876e34c308bd3f18f062d5cc07f34948ced82f9a76f9c3e65ae64f158412da8e92e6d", hex.EncodeToString(b)) //nolint:lll
 	pk2, err := NewPublicKeyFromBytesUncompressed(b)
 	assert.Nil(t, err)
 	assert.Equal(t, &pk, pk2)
 	// Signature
 	sig := Signature{
 		S: big.NewInt(9876),
 		F: p,
 	}
 	b = sig.BytesUncompressed()
 	assert.Equal(t, "9426000000000000000000000000000000000000000000000000000000000000f258163f65f65865a79a4279e2ebabb5a57b85501dd4b381d1dc605c434876e34c308bd3f18f062d5cc07f34948ced82f9a76f9c3e65ae64f158412da8e92e6d", hex.EncodeToString(b)) //nolint:lll
 	sig2, err := NewSignatureFromBytesUncompressed(b)
 	assert.Nil(t, err)
 	assert.Equal(t, &sig, sig2)
 	// Signature with bigger values
 	s, ok := new(big.Int).SetString("43744879514016998261043792362491545206150700367692876136431010903034023684055", 10) //nolint:lll
 	require.True(t, ok)
 	x, ok := new(big.Int).SetString("56183217574518331862027285308947626162625485037257226169003339923450551228164", 10) //nolint:lll
 	require.True(t, ok)
 	y, ok := new(big.Int).SetString("62825693913681695979055350889339417157462875026935818721506450621762231021976", 10) //nolint:lll
 	require.True(t, ok)
 	sig = Signature{
 		S: s,
 		F: &Point{X: x, Y: y},
 	}
 	b = sig.BytesUncompressed()
 	assert.Equal(t, "d7a75050259cc06415f19bde5460a58325e3050806ba949d9ac9728b71b9b6600457ba001981781ed31acafed3d1e82c2ad53d08e3f293eab2f199ed0193367c98311f1894598c91f10fe415ba4a6d04e1351d07430631c7decdbbdb2615e68a", hex.EncodeToString(b)) //nolint:lll
 	sig2, err = NewSignatureFromBytesUncompressed(b)
 	assert.Nil(t, err)
 	assert.Equal(t, &sig, sig2)
 }
 func TestImportECDSApubKey(t *testing.T) {
 	// Generate an ECDSA key
 	k, err := crypto.GenerateKey()
--- a/uncompressed.go
+++ b/uncompressed.go
@ -0,0 +1,81 @@
 package blindsecp256k1
 import (
 	"fmt"
 	"math/big"
 )
 // BytesUncompressed returns a byte array of length 64, with the X & Y
 // coordinates of the Point encoded in little-endian.  [ X (32 bytes) | Y (32
 // bytes)]
 func (p *Point) BytesUncompressed() []byte {
 	var b [64]byte
 	copy(b[:32], swapEndianness(p.X.Bytes()))
 	copy(b[32:], swapEndianness(p.Y.Bytes()))
 	return b[:]
 }
 // NewPointFromBytesUncompressed returns a new *Point from a given byte array
 // with length 64 which has encoded the point coordinates each one as 32 bytes
 // in little-endian.
 func NewPointFromBytesUncompressed(b []byte) (*Point, error) {
 	if len(b) != 64 { //nolint:gomnd
 		return nil, fmt.Errorf("Can not parse bytes to Point,"+
 			" expected byte array of length %d, current %d",
 			64, len(b))
 	}
 	p := &Point{}
 	p.X = new(big.Int).SetBytes(swapEndianness(b[:32]))
 	p.Y = new(big.Int).SetBytes(swapEndianness(b[32:]))
 	return p, nil
 }
 // BytesUncompressed returns a byte array of length 64, with the X & Y
 // coordinates of the PublicKey encoded in little-endian.
 // [ X (32 bytes) | Y (32 bytes)]
 func (pk *PublicKey) BytesUncompressed() []byte {
 	return pk.Point().BytesUncompressed()
 }
 // NewPublicKeyFromBytesUncompressed returns a new *PublicKey from a given byte array with
 // length 64 which has encoded the public key coordinates each one as 32 bytes
 // in little-endian.
 func NewPublicKeyFromBytesUncompressed(b []byte) (*PublicKey, error) {
 	p, err := NewPointFromBytesUncompressed(b)
 	if err != nil {
 		return nil, err
 	}
 	pk := PublicKey(*p)
 	return &pk, nil
 }
 // BytesUncompressed returns a byte array of length 96, with the S, F.X and F.Y
 // coordinates of the Signature encoded in little-endian.
 // [ S (32 bytes | F.X (32 bytes) | F.Y (32 bytes)]
 func (sig *Signature) BytesUncompressed() []byte {
 	var b [96]byte
 	copy(b[:32], swapEndianness(sig.S.Bytes()))
 	copy(b[32:96], sig.F.BytesUncompressed())
 	return b[:]
 }
 // NewSignatureFromBytesUncompressed returns a new *Signature from a given byte array with
 // length 96 which has encoded S and the F point coordinates each one as 32
 // bytes in little-endian.
 func NewSignatureFromBytesUncompressed(b []byte) (*Signature, error) {
 	if len(b) != 96 { //nolint:gomnd
 		return nil,
 			fmt.Errorf("Can not parse bytes to Signature,"+
 				" expected byte array of length %d, current %d",
 				96, len(b))
 	}
 	s := new(big.Int).SetBytes(swapEndianness(b[:32]))
 	f, err := NewPointFromBytesUncompressed(b[32:96])
 	if err != nil {
 		return nil, err
 	}
 	return &Signature{
 		S: s,
 		F: f,
 	}, nil
 }
--- a/uncompressed_test.go
+++ b/uncompressed_test.go
@ -0,0 +1,66 @@
 package blindsecp256k1
 import (
 	"encoding/hex"
 	"math/big"
 	"testing"
 	"github.com/stretchr/testify/assert"
 	"github.com/stretchr/testify/require"
 )
 func TestBytesUncompressed(t *testing.T) {
 	// Point
 	p := &Point{
 		X: big.NewInt(3),
 		Y: big.NewInt(3),
 	}
 	b := p.BytesUncompressed()
 	assert.Equal(t, "03000000000000000000000000000000000000000000000000000000000000000300000000000000000000000000000000000000000000000000000000000000", hex.EncodeToString(b)) //nolint:lll
 	p2, err := NewPointFromBytesUncompressed(b)
 	assert.Nil(t, err)
 	assert.Equal(t, p, p2)
 	p = G.Mul(big.NewInt(1234))
 	b = p.BytesUncompressed()
 	assert.Equal(t, "f258163f65f65865a79a4279e2ebabb5a57b85501dd4b381d1dc605c434876e34c308bd3f18f062d5cc07f34948ced82f9a76f9c3e65ae64f158412da8e92e6d", hex.EncodeToString(b)) //nolint:lll
 	p2, err = NewPointFromBytesUncompressed(b)
 	assert.Nil(t, err)
 	assert.Equal(t, p, p2)
 	// PublicKey
 	pk := PublicKey(*p)
 	b = pk.BytesUncompressed()
 	assert.Equal(t, "f258163f65f65865a79a4279e2ebabb5a57b85501dd4b381d1dc605c434876e34c308bd3f18f062d5cc07f34948ced82f9a76f9c3e65ae64f158412da8e92e6d", hex.EncodeToString(b)) //nolint:lll
 	pk2, err := NewPublicKeyFromBytesUncompressed(b)
 	assert.Nil(t, err)
 	assert.Equal(t, &pk, pk2)
 	// Signature
 	sig := Signature{
 		S: big.NewInt(9876),
 		F: p,
 	}
 	b = sig.BytesUncompressed()
 	assert.Equal(t, "9426000000000000000000000000000000000000000000000000000000000000f258163f65f65865a79a4279e2ebabb5a57b85501dd4b381d1dc605c434876e34c308bd3f18f062d5cc07f34948ced82f9a76f9c3e65ae64f158412da8e92e6d", hex.EncodeToString(b)) //nolint:lll
 	sig2, err := NewSignatureFromBytesUncompressed(b)
 	assert.Nil(t, err)
 	assert.Equal(t, &sig, sig2)
 	// Signature with bigger values
 	s, ok := new(big.Int).SetString("43744879514016998261043792362491545206150700367692876136431010903034023684055", 10) //nolint:lll
 	require.True(t, ok)
 	x, ok := new(big.Int).SetString("56183217574518331862027285308947626162625485037257226169003339923450551228164", 10) //nolint:lll
 	require.True(t, ok)
 	y, ok := new(big.Int).SetString("62825693913681695979055350889339417157462875026935818721506450621762231021976", 10) //nolint:lll
 	require.True(t, ok)
 	sig = Signature{
 		S: s,
 		F: &Point{X: x, Y: y},
 	}
 	b = sig.BytesUncompressed()
 	assert.Equal(t, "d7a75050259cc06415f19bde5460a58325e3050806ba949d9ac9728b71b9b6600457ba001981781ed31acafed3d1e82c2ad53d08e3f293eab2f199ed0193367c98311f1894598c91f10fe415ba4a6d04e1351d07430631c7decdbbdb2615e68a", hex.EncodeToString(b)) //nolint:lll
 	sig2, err = NewSignatureFromBytesUncompressed(b)
 	assert.Nil(t, err)
 	assert.Equal(t, &sig, sig2)
 }