peer-level integration test for crypto handshake
- add const length params for handshake messages - add length check to fail early - add debug logs to help interop testing (!ABSOLUTELY SHOULD BE DELETED LATER) - wrap connection read/writes in error check - add cryptoReady channel in peer to signal when secure session setup is finished - wait for cryptoReady or timeout in TestPeersHandshake
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20aade56c3
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@ -21,6 +21,8 @@ var (
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keyLen int = 32 // ECDSA
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msgLen int = 194 // sigLen + keyLen + pubLen + keyLen + 1 = 194
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resLen int = 97 // pubLen + keyLen + 1
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iHSLen int = 307 // size of the final ECIES payload sent as initiator's handshake
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rHSLen int = 210 // size of the final ECIES payload sent as receiver's handshake
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)
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// secretRW implements a message read writer with encryption and authentication
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@ -66,7 +68,8 @@ func newCryptoId(id ClientIdentity) (self *cryptoId, err error) {
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// for reuse, call wth ReadAt, no reset seek needed
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}
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self.pubKeyS = id.Pubkey()[1:]
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clogger.Debugf("crytoid starting for %v", hexkey(self.pubKeyS))
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clogger.Debugf("initialise crypto for NodeId %v", hexkey(self.pubKeyS))
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clogger.Debugf("private-key %v\npublic key %v", hexkey(prvKeyS), hexkey(self.pubKeyS))
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return
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}
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@ -92,22 +95,51 @@ Run(connection, remotePublicKey, sessionToken) is called when the peer connectio
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func (self *cryptoId) Run(conn io.ReadWriter, remotePubKeyS []byte, sessionToken []byte, initiator bool) (token []byte, rw *secretRW, err error) {
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var auth, initNonce, recNonce []byte
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var read int
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var randomPrivKey *ecdsa.PrivateKey
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var remoteRandomPubKey *ecdsa.PublicKey
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clogger.Debugf("attempting session with %v", hexkey(remotePubKeyS))
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if initiator {
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if auth, initNonce, randomPrivKey, _, err = self.startHandshake(remotePubKeyS, sessionToken); err != nil {
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return
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}
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conn.Write(auth)
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var response []byte
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conn.Read(response)
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clogger.Debugf("initiator-nonce: %v", hexkey(initNonce))
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clogger.Debugf("initiator-random-private-key: %v", hexkey(crypto.FromECDSA(randomPrivKey)))
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randomPublicKeyS, _ := ExportPublicKey(&randomPrivKey.PublicKey)
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clogger.Debugf("initiator-random-public-key: %v", hexkey(randomPublicKeyS))
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if _, err = conn.Write(auth); err != nil {
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return
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}
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clogger.Debugf("initiator handshake (sent to %v):\n%v", hexkey(remotePubKeyS), hexkey(auth))
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var response []byte = make([]byte, rHSLen)
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if read, err = conn.Read(response); err != nil || read == 0 {
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return
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}
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if read != rHSLen {
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err = fmt.Errorf("remote receiver's handshake has invalid length. expect %v, got %v", rHSLen, read)
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return
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}
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// write out auth message
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// wait for response, then call complete
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if recNonce, remoteRandomPubKey, _, err = self.completeHandshake(response); err != nil {
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return
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}
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clogger.Debugf("receiver-nonce: %v", hexkey(recNonce))
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remoteRandomPubKeyS, _ := ExportPublicKey(remoteRandomPubKey)
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clogger.Debugf("receiver-random-public-key: %v", hexkey(remoteRandomPubKeyS))
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} else {
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conn.Read(auth)
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auth = make([]byte, iHSLen)
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clogger.Debugf("waiting for initiator handshake (from %v)", hexkey(remotePubKeyS))
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if read, err = conn.Read(auth); err != nil {
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return
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}
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if read != iHSLen {
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err = fmt.Errorf("remote initiator's handshake has invalid length. expect %v, got %v", iHSLen, read)
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return
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}
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clogger.Debugf("received initiator handshake (from %v):\n%v", hexkey(remotePubKeyS), hexkey(auth))
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// we are listening connection. we are responders in the handshake.
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// Extract info from the authentication. The initiator starts by sending us a handshake that we need to respond to.
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// so we read auth message first, then respond
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@ -115,7 +147,12 @@ func (self *cryptoId) Run(conn io.ReadWriter, remotePubKeyS []byte, sessionToken
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if response, recNonce, initNonce, randomPrivKey, remoteRandomPubKey, err = self.respondToHandshake(auth, remotePubKeyS, sessionToken); err != nil {
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return
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}
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conn.Write(response)
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clogger.Debugf("receiver-nonce: %v", hexkey(recNonce))
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clogger.Debugf("receiver-random-priv-key: %v", hexkey(crypto.FromECDSA(randomPrivKey)))
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if _, err = conn.Write(response); err != nil {
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return
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}
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clogger.Debugf("receiver handshake (sent to %v):\n%v", hexkey(remotePubKeyS), hexkey(response))
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}
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return self.newSession(initNonce, recNonce, auth, randomPrivKey, remoteRandomPubKey)
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}
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@ -354,6 +391,10 @@ func (self *cryptoId) newSession(initNonce, respNonce, auth []byte, privKey *ecd
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egressMac: egressMac,
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ingressMac: ingressMac,
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}
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clogger.Debugf("aes-secret: %v", hexkey(aesSecret))
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clogger.Debugf("mac-secret: %v", hexkey(macSecret))
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clogger.Debugf("egress-mac: %v", hexkey(egressMac))
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clogger.Debugf("ingress-mac: %v", hexkey(ingressMac))
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return
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}
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@ -8,6 +8,7 @@ import (
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"fmt"
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"net"
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"testing"
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"time"
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"github.com/ethereum/go-ethereum/crypto"
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"github.com/obscuren/ecies"
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@ -184,7 +185,17 @@ func TestPeersHandshake(t *testing.T) {
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_, err := receiver.loop()
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errc1 <- err
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}()
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ready := make(chan bool)
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go func() {
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<-initiator.cryptoReady
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<-receiver.cryptoReady
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close(ready)
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}()
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timeout := time.After(1 * time.Second)
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select {
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case <-ready:
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case <-timeout:
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t.Errorf("crypto handshake hanging for too long")
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case err = <-errc0:
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t.Errorf("peer 0 quit with error: %v", err)
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case err = <-errc1:
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22
p2p/peer.go
22
p2p/peer.go
@ -71,6 +71,7 @@ type Peer struct {
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protocols []Protocol
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runBaseProtocol bool // for testing
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cryptoHandshake bool // for testing
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cryptoReady chan struct{}
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runlock sync.RWMutex // protects running
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running map[string]*proto
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@ -120,15 +121,16 @@ func newServerPeer(server *Server, conn net.Conn, dialAddr *peerAddr) *Peer {
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func newPeer(conn net.Conn, protocols []Protocol, dialAddr *peerAddr) *Peer {
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p := &Peer{
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Logger: logger.NewLogger("P2P " + conn.RemoteAddr().String()),
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conn: conn,
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dialAddr: dialAddr,
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bufconn: bufio.NewReadWriter(bufio.NewReader(conn), bufio.NewWriter(conn)),
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protocols: protocols,
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running: make(map[string]*proto),
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disc: make(chan DiscReason),
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protoErr: make(chan error),
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closed: make(chan struct{}),
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Logger: logger.NewLogger("P2P " + conn.RemoteAddr().String()),
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conn: conn,
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dialAddr: dialAddr,
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bufconn: bufio.NewReadWriter(bufio.NewReader(conn), bufio.NewWriter(conn)),
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protocols: protocols,
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running: make(map[string]*proto),
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disc: make(chan DiscReason),
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protoErr: make(chan error),
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closed: make(chan struct{}),
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cryptoReady: make(chan struct{}),
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}
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return p
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}
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@ -240,6 +242,7 @@ func (p *Peer) loop() (reason DiscReason, err error) {
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go readLoop(readMsg, readErr, readNext)
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readNext <- true
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close(p.cryptoReady)
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if p.runBaseProtocol {
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p.startBaseProtocol()
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}
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@ -353,6 +356,7 @@ func (p *Peer) handleCryptoHandshake() (loop readLoop, err error) {
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// this bit handles the handshake and creates a secure communications channel with
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// var rw *secretRW
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if sessionToken, _, err = crypto.Run(p.conn, p.Pubkey(), sessionToken, initiator); err != nil {
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p.Debugf("unable to setup secure session: %v", err)
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return
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}
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loop = func(msg chan<- Msg, err chan<- error, next <-chan bool) {
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