forked from cerc-io/plugeth
crypto: fix golint warnings (#16710)
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eab6e5a317
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@ -35,8 +35,8 @@ import (
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)
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var (
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secp256k1_N, _ = new(big.Int).SetString("fffffffffffffffffffffffffffffffebaaedce6af48a03bbfd25e8cd0364141", 16)
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secp256k1_halfN = new(big.Int).Div(secp256k1_N, big.NewInt(2))
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secp256k1N, _ = new(big.Int).SetString("fffffffffffffffffffffffffffffffebaaedce6af48a03bbfd25e8cd0364141", 16)
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secp256k1halfN = new(big.Int).Div(secp256k1N, big.NewInt(2))
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)
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// Keccak256 calculates and returns the Keccak256 hash of the input data.
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@ -68,7 +68,7 @@ func Keccak512(data ...[]byte) []byte {
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return d.Sum(nil)
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}
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// Creates an ethereum address given the bytes and the nonce
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// CreateAddress creates an ethereum address given the bytes and the nonce
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func CreateAddress(b common.Address, nonce uint64) common.Address {
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data, _ := rlp.EncodeToBytes([]interface{}{b, nonce})
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return common.BytesToAddress(Keccak256(data)[12:])
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@ -99,7 +99,7 @@ func toECDSA(d []byte, strict bool) (*ecdsa.PrivateKey, error) {
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priv.D = new(big.Int).SetBytes(d)
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// The priv.D must < N
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if priv.D.Cmp(secp256k1_N) >= 0 {
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if priv.D.Cmp(secp256k1N) >= 0 {
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return nil, fmt.Errorf("invalid private key, >=N")
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}
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// The priv.D must not be zero or negative.
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@ -184,11 +184,11 @@ func ValidateSignatureValues(v byte, r, s *big.Int, homestead bool) bool {
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}
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// reject upper range of s values (ECDSA malleability)
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// see discussion in secp256k1/libsecp256k1/include/secp256k1.h
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if homestead && s.Cmp(secp256k1_halfN) > 0 {
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if homestead && s.Cmp(secp256k1halfN) > 0 {
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return false
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}
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// Frontier: allow s to be in full N range
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return r.Cmp(secp256k1_N) < 0 && s.Cmp(secp256k1_N) < 0 && (v == 0 || v == 1)
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return r.Cmp(secp256k1N) < 0 && s.Cmp(secp256k1N) < 0 && (v == 0 || v == 1)
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}
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func PubkeyToAddress(p ecdsa.PublicKey) common.Address {
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@ -154,7 +154,7 @@ func TestValidateSignatureValues(t *testing.T) {
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minusOne := big.NewInt(-1)
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one := common.Big1
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zero := common.Big0
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secp256k1nMinus1 := new(big.Int).Sub(secp256k1_N, common.Big1)
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secp256k1nMinus1 := new(big.Int).Sub(secp256k1N, common.Big1)
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// correct v,r,s
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check(true, 0, one, one)
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@ -181,9 +181,9 @@ func TestValidateSignatureValues(t *testing.T) {
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// correct sig with max r,s
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check(true, 0, secp256k1nMinus1, secp256k1nMinus1)
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// correct v, combinations of incorrect r,s at upper limit
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check(false, 0, secp256k1_N, secp256k1nMinus1)
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check(false, 0, secp256k1nMinus1, secp256k1_N)
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check(false, 0, secp256k1_N, secp256k1_N)
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check(false, 0, secp256k1N, secp256k1nMinus1)
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check(false, 0, secp256k1nMinus1, secp256k1N)
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check(false, 0, secp256k1N, secp256k1N)
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// current callers ensures r,s cannot be negative, but let's test for that too
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// as crypto package could be used stand-alone
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@ -77,7 +77,7 @@ func (BitCurve *BitCurve) Params() *elliptic.CurveParams {
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}
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}
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// IsOnBitCurve returns true if the given (x,y) lies on the BitCurve.
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// IsOnCurve returns true if the given (x,y) lies on the BitCurve.
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func (BitCurve *BitCurve) IsOnCurve(x, y *big.Int) bool {
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// y² = x³ + b
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y2 := new(big.Int).Mul(y, y) //y²
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@ -49,7 +49,7 @@ func randSig() []byte {
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// tests for malleability
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// highest bit of signature ECDSA s value must be 0, in the 33th byte
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func compactSigCheck(t *testing.T, sig []byte) {
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var b int = int(sig[32])
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var b = int(sig[32])
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if b < 0 {
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t.Errorf("highest bit is negative: %d", b)
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}
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@ -88,7 +88,7 @@ func VerifySignature(pubkey, hash, signature []byte) bool {
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return false
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}
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// Reject malleable signatures. libsecp256k1 does this check but btcec doesn't.
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if sig.S.Cmp(secp256k1_halfN) > 0 {
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if sig.S.Cmp(secp256k1halfN) > 0 {
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return false
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}
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return sig.Verify(hash, key)
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