wireguard-go/device/noise_test.go
Jason A. Donenfeld 28c4d04304 device: use atomic access for unlocked keypair.next
Go's GC semantics might not always guarantee the safety of this, and the
race detector gets upset too, so instead we wrap this all in atomic
accessors.

Reported-by: David Anderson <danderson@tailscale.com>
Signed-off-by: Jason A. Donenfeld <Jason@zx2c4.com>
2020-05-02 01:56:48 -06:00

145 lines
2.7 KiB
Go

/* SPDX-License-Identifier: MIT
*
* Copyright (C) 2017-2019 WireGuard LLC. All Rights Reserved.
*/
package device
import (
"bytes"
"encoding/binary"
"testing"
)
func TestCurveWrappers(t *testing.T) {
sk1, err := newPrivateKey()
assertNil(t, err)
sk2, err := newPrivateKey()
assertNil(t, err)
pk1 := sk1.publicKey()
pk2 := sk2.publicKey()
ss1 := sk1.sharedSecret(pk2)
ss2 := sk2.sharedSecret(pk1)
if ss1 != ss2 {
t.Fatal("Failed to compute shared secet")
}
}
func TestNoiseHandshake(t *testing.T) {
dev1 := randDevice(t)
dev2 := randDevice(t)
defer dev1.Close()
defer dev2.Close()
peer1, _ := dev2.NewPeer(dev1.staticIdentity.privateKey.publicKey())
peer2, _ := dev1.NewPeer(dev2.staticIdentity.privateKey.publicKey())
assertEqual(
t,
peer1.handshake.precomputedStaticStatic[:],
peer2.handshake.precomputedStaticStatic[:],
)
/* simulate handshake */
// initiation message
t.Log("exchange initiation message")
msg1, err := dev1.CreateMessageInitiation(peer2)
assertNil(t, err)
packet := make([]byte, 0, 256)
writer := bytes.NewBuffer(packet)
err = binary.Write(writer, binary.LittleEndian, msg1)
assertNil(t, err)
peer := dev2.ConsumeMessageInitiation(msg1)
if peer == nil {
t.Fatal("handshake failed at initiation message")
}
assertEqual(
t,
peer1.handshake.chainKey[:],
peer2.handshake.chainKey[:],
)
assertEqual(
t,
peer1.handshake.hash[:],
peer2.handshake.hash[:],
)
// response message
t.Log("exchange response message")
msg2, err := dev2.CreateMessageResponse(peer1)
assertNil(t, err)
peer = dev1.ConsumeMessageResponse(msg2)
if peer == nil {
t.Fatal("handshake failed at response message")
}
assertEqual(
t,
peer1.handshake.chainKey[:],
peer2.handshake.chainKey[:],
)
assertEqual(
t,
peer1.handshake.hash[:],
peer2.handshake.hash[:],
)
// key pairs
t.Log("deriving keys")
err = peer1.BeginSymmetricSession()
if err != nil {
t.Fatal("failed to derive keypair for peer 1", err)
}
err = peer2.BeginSymmetricSession()
if err != nil {
t.Fatal("failed to derive keypair for peer 2", err)
}
key1 := peer1.keypairs.loadNext()
key2 := peer2.keypairs.current
// encrypting / decryption test
t.Log("test key pairs")
func() {
testMsg := []byte("wireguard test message 1")
var err error
var out []byte
var nonce [12]byte
out = key1.send.Seal(out, nonce[:], testMsg, nil)
out, err = key2.receive.Open(out[:0], nonce[:], out, nil)
assertNil(t, err)
assertEqual(t, out, testMsg)
}()
func() {
testMsg := []byte("wireguard test message 2")
var err error
var out []byte
var nonce [12]byte
out = key2.send.Seal(out, nonce[:], testMsg, nil)
out, err = key1.receive.Open(out[:0], nonce[:], out, nil)
assertNil(t, err)
assertEqual(t, out, testMsg)
}()
}