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crypto.go
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crypto.go
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// Copyright 2020 The go-ethereum Authors
// This file is part of the go-ethereum library.
//
// The go-ethereum library is free software: you can redistribute it and/or modify
// it under the terms of the GNU Lesser General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// The go-ethereum library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public License
// along with the go-ethereum library. If not, see <http://www.gnu.org/licenses/>.
package v5wire
import (
"crypto/aes"
"crypto/cipher"
"crypto/ecdsa"
"crypto/elliptic"
"errors"
"fmt"
"hash"
"github.com/slingshot-finance/op-geth/common/math"
"github.com/slingshot-finance/op-geth/crypto"
"github.com/slingshot-finance/op-geth/p2p/enode"
"golang.org/x/crypto/hkdf"
)
const (
// Encryption/authentication parameters.
aesKeySize = 16
gcmNonceSize = 12
)
// Nonce represents a nonce used for AES/GCM.
type Nonce [gcmNonceSize]byte
// EncodePubkey encodes a public key.
func EncodePubkey(key *ecdsa.PublicKey) []byte {
switch key.Curve {
case crypto.S256():
return crypto.CompressPubkey(key)
default:
panic("unsupported curve " + key.Curve.Params().Name + " in EncodePubkey")
}
}
// DecodePubkey decodes a public key in compressed format.
func DecodePubkey(curve elliptic.Curve, e []byte) (*ecdsa.PublicKey, error) {
switch curve {
case crypto.S256():
if len(e) != 33 {
return nil, errors.New("wrong size public key data")
}
return crypto.DecompressPubkey(e)
default:
return nil, fmt.Errorf("unsupported curve %s in DecodePubkey", curve.Params().Name)
}
}
// idNonceHash computes the ID signature hash used in the handshake.
func idNonceHash(h hash.Hash, challenge, ephkey []byte, destID enode.ID) []byte {
h.Reset()
h.Write([]byte("discovery v5 identity proof"))
h.Write(challenge)
h.Write(ephkey)
h.Write(destID[:])
return h.Sum(nil)
}
// makeIDSignature creates the ID nonce signature.
func makeIDSignature(hash hash.Hash, key *ecdsa.PrivateKey, challenge, ephkey []byte, destID enode.ID) ([]byte, error) {
input := idNonceHash(hash, challenge, ephkey, destID)
switch key.Curve {
case crypto.S256():
idsig, err := crypto.Sign(input, key)
if err != nil {
return nil, err
}
return idsig[:len(idsig)-1], nil // remove recovery ID
default:
return nil, fmt.Errorf("unsupported curve %s", key.Curve.Params().Name)
}
}
// s256raw is an unparsed secp256k1 public key ENR entry.
type s256raw []byte
func (s256raw) ENRKey() string { return "secp256k1" }
// verifyIDSignature checks that signature over idnonce was made by the given node.
func verifyIDSignature(hash hash.Hash, sig []byte, n *enode.Node, challenge, ephkey []byte, destID enode.ID) error {
switch idscheme := n.Record().IdentityScheme(); idscheme {
case "v4":
var pubkey s256raw
if n.Load(&pubkey) != nil {
return errors.New("no secp256k1 public key in record")
}
input := idNonceHash(hash, challenge, ephkey, destID)
if !crypto.VerifySignature(pubkey, input, sig) {
return errInvalidNonceSig
}
return nil
default:
return fmt.Errorf("can't verify ID nonce signature against scheme %q", idscheme)
}
}
type hashFn func() hash.Hash
// deriveKeys creates the session keys.
func deriveKeys(hash hashFn, priv *ecdsa.PrivateKey, pub *ecdsa.PublicKey, n1, n2 enode.ID, challenge []byte) *session {
const text = "discovery v5 key agreement"
var info = make([]byte, 0, len(text)+len(n1)+len(n2))
info = append(info, text...)
info = append(info, n1[:]...)
info = append(info, n2[:]...)
eph := ecdh(priv, pub)
if eph == nil {
return nil
}
kdf := hkdf.New(hash, eph, challenge, info)
sec := session{writeKey: make([]byte, aesKeySize), readKey: make([]byte, aesKeySize)}
kdf.Read(sec.writeKey)
kdf.Read(sec.readKey)
for i := range eph {
eph[i] = 0
}
return &sec
}
// ecdh creates a shared secret.
func ecdh(privkey *ecdsa.PrivateKey, pubkey *ecdsa.PublicKey) []byte {
secX, secY := pubkey.ScalarMult(pubkey.X, pubkey.Y, privkey.D.Bytes())
if secX == nil {
return nil
}
sec := make([]byte, 33)
sec[0] = 0x02 | byte(secY.Bit(0))
math.ReadBits(secX, sec[1:])
return sec
}
// encryptGCM encrypts pt using AES-GCM with the given key and nonce. The ciphertext is
// appended to dest, which must not overlap with plaintext. The resulting ciphertext is 16
// bytes longer than plaintext because it contains an authentication tag.
func encryptGCM(dest, key, nonce, plaintext, authData []byte) ([]byte, error) {
block, err := aes.NewCipher(key)
if err != nil {
panic(fmt.Errorf("can't create block cipher: %v", err))
}
aesgcm, err := cipher.NewGCMWithNonceSize(block, gcmNonceSize)
if err != nil {
panic(fmt.Errorf("can't create GCM: %v", err))
}
return aesgcm.Seal(dest, nonce, plaintext, authData), nil
}
// decryptGCM decrypts ct using AES-GCM with the given key and nonce.
func decryptGCM(key, nonce, ct, authData []byte) ([]byte, error) {
block, err := aes.NewCipher(key)
if err != nil {
return nil, fmt.Errorf("can't create block cipher: %v", err)
}
if len(nonce) != gcmNonceSize {
return nil, fmt.Errorf("invalid GCM nonce size: %d", len(nonce))
}
aesgcm, err := cipher.NewGCMWithNonceSize(block, gcmNonceSize)
if err != nil {
return nil, fmt.Errorf("can't create GCM: %v", err)
}
pt := make([]byte, 0, len(ct))
return aesgcm.Open(pt, nonce, ct, authData)
}