forked from cerc-io/plugeth
add crypto auth logic to p2p
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d227f6184e
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174
p2p/crypto.go
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174
p2p/crypto.go
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package p2p
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import (
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"bytes"
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"crypto/ecdsa"
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"crypto/rand"
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"fmt"
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"io"
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"github.com/ethereum/go-ethereum/crypto"
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"github.com/obscuren/ecies"
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"github.com/obscuren/secp256k1-go"
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)
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var (
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skLen int = 32 // ecies.MaxSharedKeyLength(pubKey) / 2
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sigLen int = 32 // elliptic S256
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pubKeyLen int = 32 // ECDSA
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msgLen int = sigLen + 1 + pubKeyLen + skLen // 97
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)
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//, aesSecret, macSecret, egressMac, ingress
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type secretRW struct {
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aesSecret, macSecret, egressMac, ingressMac []byte
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}
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type cryptoId struct {
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prvKey *ecdsa.PrivateKey
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pubKey *ecdsa.PublicKey
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pubKeyR io.ReaderAt
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}
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func newCryptoId(id ClientIdentity) (self *cryptoId, err error) {
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// will be at server init
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var prvKeyDER []byte = id.PrivKey()
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if prvKeyDER == nil {
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err = fmt.Errorf("no private key for client")
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return
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}
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// initialise ecies private key via importing DER encoded keys (known via our own clientIdentity)
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var prvKey = crypto.ToECDSA(prvKeyDER)
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if prvKey == nil {
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err = fmt.Errorf("invalid private key for client")
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return
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}
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self = &cryptoId{
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prvKey: prvKey,
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// initialise public key from the imported private key
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pubKey: &prvKey.PublicKey,
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// to be created at server init shared between peers and sessions
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// for reuse, call wth ReadAt, no reset seek needed
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}
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self.pubKeyR = bytes.NewReader(id.Pubkey())
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return
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}
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//
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func (self *cryptoId) setupAuth(remotePubKeyDER, sessionToken []byte) (auth []byte, nonce []byte, sharedKnowledge []byte, err error) {
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// session init, common to both parties
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var remotePubKey = crypto.ToECDSAPub(remotePubKeyDER)
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if remotePubKey == nil {
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err = fmt.Errorf("invalid remote public key")
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return
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}
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var sharedSecret []byte
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// generate shared key from prv and remote pubkey
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sharedSecret, err = ecies.ImportECDSA(self.prvKey).GenerateShared(ecies.ImportECDSAPublic(remotePubKey), skLen, skLen)
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if err != nil {
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return
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}
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// check previous session token
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if sessionToken == nil {
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err = fmt.Errorf("no session token for peer")
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return
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}
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// allocate msgLen long message
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var msg []byte = make([]byte, msgLen)
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// generate skLen long nonce at the end
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nonce = msg[msgLen-skLen:]
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if _, err = rand.Read(nonce); err != nil {
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return
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}
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// create known message
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// should use
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// cipher.xorBytes from crypto/cipher/xor.go for fast xor
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sharedKnowledge = Xor(sharedSecret, sessionToken)
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var signedMsg = Xor(sharedKnowledge, nonce)
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// generate random keypair to use for signing
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var ecdsaRandomPrvKey *ecdsa.PrivateKey
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if ecdsaRandomPrvKey, err = crypto.GenerateKey(); err != nil {
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return
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}
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// var ecdsaRandomPubKey *ecdsa.PublicKey
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// ecdsaRandomPubKey= &ecdsaRandomPrvKey.PublicKey
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// message known to both parties ecdh-shared-secret^nonce^token
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var signature []byte
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// signature = sign(ecdhe-random, ecdh-shared-secret^nonce^token)
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// uses secp256k1.Sign
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if signature, err = crypto.Sign(signedMsg, ecdsaRandomPrvKey); err != nil {
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return
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}
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// msg = signature || 0x80 || pubk || nonce
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copy(msg, signature)
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msg[sigLen] = 0x80
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self.pubKeyR.ReadAt(msg[sigLen+1:], int64(pubKeyLen)) // gives pubKeyLen, io.EOF (since we dont read onto the nonce)
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// auth = eciesEncrypt(remote-pubk, msg)
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if auth, err = crypto.Encrypt(remotePubKey, msg); err != nil {
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return
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}
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return
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}
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func (self *cryptoId) verifyAuth(auth, nonce, sharedKnowledge []byte) (sessionToken []byte, rw *secretRW, err error) {
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var msg []byte
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// they prove that msg is meant for me,
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// I prove I possess private key if i can read it
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if msg, err = crypto.Decrypt(self.prvKey, auth); err != nil {
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return
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}
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var remoteNonce []byte = msg[msgLen-skLen:]
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// I prove that i possess prv key (to derive shared secret, and read nonce off encrypted msg) and that I posessed the earlier one , our shared history
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// they prove they possess their private key to derive the same shared secret, plus the same shared history (previous session token)
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var signedMsg = Xor(sharedKnowledge, remoteNonce)
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var remoteRandomPubKeyDER []byte
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if remoteRandomPubKeyDER, err = secp256k1.RecoverPubkey(signedMsg, msg[:32]); err != nil {
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return
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}
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var remoteRandomPubKey = crypto.ToECDSAPub(remoteRandomPubKeyDER)
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if remoteRandomPubKey == nil {
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err = fmt.Errorf("invalid remote public key")
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return
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}
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// 3) Now we can trust ecdhe-random-pubk to derive keys
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//ecdhe-shared-secret = ecdh.agree(ecdhe-random, remote-ecdhe-random-pubk)
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var dhSharedSecret []byte
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dhSharedSecret, err = ecies.ImportECDSA(self.prvKey).GenerateShared(ecies.ImportECDSAPublic(remoteRandomPubKey), skLen, skLen)
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if err != nil {
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return
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}
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// shared-secret = crypto.Sha3(ecdhe-shared-secret || crypto.Sha3(nonce || initiator-nonce))
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var sharedSecret []byte = crypto.Sha3(append(dhSharedSecret, crypto.Sha3(append(nonce, remoteNonce...))...))
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// token = crypto.Sha3(shared-secret)
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sessionToken = crypto.Sha3(sharedSecret)
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// aes-secret = crypto.Sha3(ecdhe-shared-secret || shared-secret)
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var aesSecret = crypto.Sha3(append(dhSharedSecret, sharedSecret...))
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// # destroy shared-secret
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// mac-secret = crypto.Sha3(ecdhe-shared-secret || aes-secret)
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var macSecret = crypto.Sha3(append(dhSharedSecret, aesSecret...))
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// # destroy ecdhe-shared-secret
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// egress-mac = crypto.Sha3(mac-secret^nonce || auth)
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var egressMac = crypto.Sha3(append(Xor(macSecret, nonce), auth...))
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// # destroy nonce
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// ingress-mac = crypto.Sha3(mac-secret^initiator-nonce || auth),
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var ingressMac = crypto.Sha3(append(Xor(macSecret, remoteNonce), auth...))
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// # destroy remote-nonce
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rw = &secretRW{
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aesSecret: aesSecret,
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macSecret: macSecret,
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egressMac: egressMac,
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ingressMac: ingressMac,
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}
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return
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}
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func Xor(one, other []byte) (xor []byte) {
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for i := 0; i < len(one); i++ {
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xor[i] = one[i] ^ other[i]
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}
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return
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}
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