129cf075e9
This change moves the RLPx protocol implementation into a separate package, p2p/rlpx. The new package can be used to establish RLPx connections for protocol testing purposes. Co-authored-by: Felix Lange <fjl@twurst.com>
407 lines
15 KiB
Go
407 lines
15 KiB
Go
// Copyright 2020 The go-ethereum Authors
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// This file is part of the go-ethereum library.
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//
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// The go-ethereum library is free software: you can redistribute it and/or modify
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// it under the terms of the GNU Lesser General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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//
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// The go-ethereum library is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU Lesser General Public License for more details.
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//
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// You should have received a copy of the GNU Lesser General Public License
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// along with the go-ethereum library. If not, see <http://www.gnu.org/licenses/>.
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package rlpx
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import (
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"bytes"
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"crypto/ecdsa"
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"encoding/hex"
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"fmt"
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"io"
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"net"
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"reflect"
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"strings"
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"testing"
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"github.com/davecgh/go-spew/spew"
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"github.com/ethereum/go-ethereum/crypto"
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"github.com/ethereum/go-ethereum/crypto/ecies"
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"github.com/ethereum/go-ethereum/rlp"
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"github.com/stretchr/testify/assert"
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)
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type message struct {
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code uint64
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data []byte
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err error
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}
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func TestHandshake(t *testing.T) {
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p1, p2 := createPeers(t)
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p1.Close()
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p2.Close()
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}
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// This test checks that messages can be sent and received through WriteMsg/ReadMsg.
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func TestReadWriteMsg(t *testing.T) {
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peer1, peer2 := createPeers(t)
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defer peer1.Close()
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defer peer2.Close()
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testCode := uint64(23)
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testData := []byte("test")
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checkMsgReadWrite(t, peer1, peer2, testCode, testData)
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t.Log("enabling snappy")
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peer1.SetSnappy(true)
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peer2.SetSnappy(true)
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checkMsgReadWrite(t, peer1, peer2, testCode, testData)
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}
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func checkMsgReadWrite(t *testing.T, p1, p2 *Conn, msgCode uint64, msgData []byte) {
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// Set up the reader.
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ch := make(chan message, 1)
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go func() {
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var msg message
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msg.code, msg.data, _, msg.err = p1.Read()
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ch <- msg
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}()
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// Write the message.
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_, err := p2.Write(msgCode, msgData)
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if err != nil {
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t.Fatal(err)
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}
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// Check it was received correctly.
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msg := <-ch
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assert.Equal(t, msgCode, msg.code, "wrong message code returned from ReadMsg")
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assert.Equal(t, msgData, msg.data, "wrong message data returned from ReadMsg")
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}
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func createPeers(t *testing.T) (peer1, peer2 *Conn) {
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conn1, conn2 := net.Pipe()
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key1, key2 := newkey(), newkey()
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peer1 = NewConn(conn1, &key2.PublicKey) // dialer
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peer2 = NewConn(conn2, nil) // listener
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doHandshake(t, peer1, peer2, key1, key2)
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return peer1, peer2
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}
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func doHandshake(t *testing.T, peer1, peer2 *Conn, key1, key2 *ecdsa.PrivateKey) {
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keyChan := make(chan *ecdsa.PublicKey, 1)
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go func() {
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pubKey, err := peer2.Handshake(key2)
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if err != nil {
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t.Errorf("peer2 could not do handshake: %v", err)
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}
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keyChan <- pubKey
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}()
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pubKey2, err := peer1.Handshake(key1)
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if err != nil {
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t.Errorf("peer1 could not do handshake: %v", err)
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}
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pubKey1 := <-keyChan
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// Confirm the handshake was successful.
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if !reflect.DeepEqual(pubKey1, &key1.PublicKey) || !reflect.DeepEqual(pubKey2, &key2.PublicKey) {
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t.Fatal("unsuccessful handshake")
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}
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}
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// This test checks the frame data of written messages.
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func TestFrameReadWrite(t *testing.T) {
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conn := NewConn(nil, nil)
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hash := fakeHash([]byte{1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1})
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conn.InitWithSecrets(Secrets{
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AES: crypto.Keccak256(),
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MAC: crypto.Keccak256(),
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IngressMAC: hash,
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EgressMAC: hash,
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})
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h := conn.handshake
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golden := unhex(`
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00828ddae471818bb0bfa6b551d1cb42
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01010101010101010101010101010101
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ba628a4ba590cb43f7848f41c4382885
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01010101010101010101010101010101
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`)
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msgCode := uint64(8)
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msg := []uint{1, 2, 3, 4}
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msgEnc, _ := rlp.EncodeToBytes(msg)
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// Check writeFrame. The frame that's written should be equal to the test vector.
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buf := new(bytes.Buffer)
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if err := h.writeFrame(buf, msgCode, msgEnc); err != nil {
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t.Fatalf("WriteMsg error: %v", err)
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}
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if !bytes.Equal(buf.Bytes(), golden) {
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t.Fatalf("output mismatch:\n got: %x\n want: %x", buf.Bytes(), golden)
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}
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// Check readFrame on the test vector.
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content, err := h.readFrame(bytes.NewReader(golden))
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if err != nil {
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t.Fatalf("ReadMsg error: %v", err)
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}
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wantContent := unhex("08C401020304")
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if !bytes.Equal(content, wantContent) {
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t.Errorf("frame content mismatch:\ngot %x\nwant %x", content, wantContent)
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}
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}
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type fakeHash []byte
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func (fakeHash) Write(p []byte) (int, error) { return len(p), nil }
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func (fakeHash) Reset() {}
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func (fakeHash) BlockSize() int { return 0 }
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func (h fakeHash) Size() int { return len(h) }
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func (h fakeHash) Sum(b []byte) []byte { return append(b, h...) }
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type handshakeAuthTest struct {
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input string
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isPlain bool
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wantVersion uint
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wantRest []rlp.RawValue
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}
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var eip8HandshakeAuthTests = []handshakeAuthTest{
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// (Auth₁) RLPx v4 plain encoding
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{
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input: `
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048ca79ad18e4b0659fab4853fe5bc58eb83992980f4c9cc147d2aa31532efd29a3d3dc6a3d89eaf
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913150cfc777ce0ce4af2758bf4810235f6e6ceccfee1acc6b22c005e9e3a49d6448610a58e98744
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ba3ac0399e82692d67c1f58849050b3024e21a52c9d3b01d871ff5f210817912773e610443a9ef14
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2e91cdba0bd77b5fdf0769b05671fc35f83d83e4d3b0b000c6b2a1b1bba89e0fc51bf4e460df3105
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c444f14be226458940d6061c296350937ffd5e3acaceeaaefd3c6f74be8e23e0f45163cc7ebd7622
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0f0128410fd05250273156d548a414444ae2f7dea4dfca2d43c057adb701a715bf59f6fb66b2d1d2
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0f2c703f851cbf5ac47396d9ca65b6260bd141ac4d53e2de585a73d1750780db4c9ee4cd4d225173
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a4592ee77e2bd94d0be3691f3b406f9bba9b591fc63facc016bfa8
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`,
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isPlain: true,
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wantVersion: 4,
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},
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// (Auth₂) EIP-8 encoding
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{
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input: `
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01b304ab7578555167be8154d5cc456f567d5ba302662433674222360f08d5f1534499d3678b513b
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0fca474f3a514b18e75683032eb63fccb16c156dc6eb2c0b1593f0d84ac74f6e475f1b8d56116b84
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9634a8c458705bf83a626ea0384d4d7341aae591fae42ce6bd5c850bfe0b999a694a49bbbaf3ef6c
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da61110601d3b4c02ab6c30437257a6e0117792631a4b47c1d52fc0f8f89caadeb7d02770bf999cc
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147d2df3b62e1ffb2c9d8c125a3984865356266bca11ce7d3a688663a51d82defaa8aad69da39ab6
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d5470e81ec5f2a7a47fb865ff7cca21516f9299a07b1bc63ba56c7a1a892112841ca44b6e0034dee
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70c9adabc15d76a54f443593fafdc3b27af8059703f88928e199cb122362a4b35f62386da7caad09
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c001edaeb5f8a06d2b26fb6cb93c52a9fca51853b68193916982358fe1e5369e249875bb8d0d0ec3
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6f917bc5e1eafd5896d46bd61ff23f1a863a8a8dcd54c7b109b771c8e61ec9c8908c733c0263440e
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2aa067241aaa433f0bb053c7b31a838504b148f570c0ad62837129e547678c5190341e4f1693956c
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3bf7678318e2d5b5340c9e488eefea198576344afbdf66db5f51204a6961a63ce072c8926c
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`,
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wantVersion: 4,
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wantRest: []rlp.RawValue{},
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},
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// (Auth₃) RLPx v4 EIP-8 encoding with version 56, additional list elements
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{
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input: `
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01b8044c6c312173685d1edd268aa95e1d495474c6959bcdd10067ba4c9013df9e40ff45f5bfd6f7
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2471f93a91b493f8e00abc4b80f682973de715d77ba3a005a242eb859f9a211d93a347fa64b597bf
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280a6b88e26299cf263b01b8dfdb712278464fd1c25840b995e84d367d743f66c0e54a586725b7bb
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f12acca27170ae3283c1073adda4b6d79f27656993aefccf16e0d0409fe07db2dc398a1b7e8ee93b
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cd181485fd332f381d6a050fba4c7641a5112ac1b0b61168d20f01b479e19adf7fdbfa0905f63352
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bfc7e23cf3357657455119d879c78d3cf8c8c06375f3f7d4861aa02a122467e069acaf513025ff19
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6641f6d2810ce493f51bee9c966b15c5043505350392b57645385a18c78f14669cc4d960446c1757
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1b7c5d725021babbcd786957f3d17089c084907bda22c2b2675b4378b114c601d858802a55345a15
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116bc61da4193996187ed70d16730e9ae6b3bb8787ebcaea1871d850997ddc08b4f4ea668fbf3740
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7ac044b55be0908ecb94d4ed172ece66fd31bfdadf2b97a8bc690163ee11f5b575a4b44e36e2bfb2
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f0fce91676fd64c7773bac6a003f481fddd0bae0a1f31aa27504e2a533af4cef3b623f4791b2cca6
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d490
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`,
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wantVersion: 56,
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wantRest: []rlp.RawValue{{0x01}, {0x02}, {0xC2, 0x04, 0x05}},
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},
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}
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type handshakeAckTest struct {
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input string
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wantVersion uint
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wantRest []rlp.RawValue
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}
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var eip8HandshakeRespTests = []handshakeAckTest{
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// (Ack₁) RLPx v4 plain encoding
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{
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input: `
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049f8abcfa9c0dc65b982e98af921bc0ba6e4243169348a236abe9df5f93aa69d99cadddaa387662
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b0ff2c08e9006d5a11a278b1b3331e5aaabf0a32f01281b6f4ede0e09a2d5f585b26513cb794d963
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5a57563921c04a9090b4f14ee42be1a5461049af4ea7a7f49bf4c97a352d39c8d02ee4acc416388c
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1c66cec761d2bc1c72da6ba143477f049c9d2dde846c252c111b904f630ac98e51609b3b1f58168d
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dca6505b7196532e5f85b259a20c45e1979491683fee108e9660edbf38f3add489ae73e3dda2c71b
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d1497113d5c755e942d1
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`,
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wantVersion: 4,
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},
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// (Ack₂) EIP-8 encoding
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{
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input: `
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01ea0451958701280a56482929d3b0757da8f7fbe5286784beead59d95089c217c9b917788989470
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b0e330cc6e4fb383c0340ed85fab836ec9fb8a49672712aeabbdfd1e837c1ff4cace34311cd7f4de
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05d59279e3524ab26ef753a0095637ac88f2b499b9914b5f64e143eae548a1066e14cd2f4bd7f814
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c4652f11b254f8a2d0191e2f5546fae6055694aed14d906df79ad3b407d94692694e259191cde171
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ad542fc588fa2b7333313d82a9f887332f1dfc36cea03f831cb9a23fea05b33deb999e85489e645f
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6aab1872475d488d7bd6c7c120caf28dbfc5d6833888155ed69d34dbdc39c1f299be1057810f34fb
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e754d021bfca14dc989753d61c413d261934e1a9c67ee060a25eefb54e81a4d14baff922180c395d
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3f998d70f46f6b58306f969627ae364497e73fc27f6d17ae45a413d322cb8814276be6ddd13b885b
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201b943213656cde498fa0e9ddc8e0b8f8a53824fbd82254f3e2c17e8eaea009c38b4aa0a3f306e8
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797db43c25d68e86f262e564086f59a2fc60511c42abfb3057c247a8a8fe4fb3ccbadde17514b7ac
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8000cdb6a912778426260c47f38919a91f25f4b5ffb455d6aaaf150f7e5529c100ce62d6d92826a7
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1778d809bdf60232ae21ce8a437eca8223f45ac37f6487452ce626f549b3b5fdee26afd2072e4bc7
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5833c2464c805246155289f4
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`,
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wantVersion: 4,
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wantRest: []rlp.RawValue{},
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},
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// (Ack₃) EIP-8 encoding with version 57, additional list elements
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{
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input: `
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01f004076e58aae772bb101ab1a8e64e01ee96e64857ce82b1113817c6cdd52c09d26f7b90981cd7
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ae835aeac72e1573b8a0225dd56d157a010846d888dac7464baf53f2ad4e3d584531fa203658fab0
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3a06c9fd5e35737e417bc28c1cbf5e5dfc666de7090f69c3b29754725f84f75382891c561040ea1d
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dc0d8f381ed1b9d0d4ad2a0ec021421d847820d6fa0ba66eaf58175f1b235e851c7e2124069fbc20
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2888ddb3ac4d56bcbd1b9b7eab59e78f2e2d400905050f4a92dec1c4bdf797b3fc9b2f8e84a482f3
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d800386186712dae00d5c386ec9387a5e9c9a1aca5a573ca91082c7d68421f388e79127a5177d4f8
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590237364fd348c9611fa39f78dcdceee3f390f07991b7b47e1daa3ebcb6ccc9607811cb17ce51f1
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c8c2c5098dbdd28fca547b3f58c01a424ac05f869f49c6a34672ea2cbbc558428aa1fe48bbfd6115
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8b1b735a65d99f21e70dbc020bfdface9f724a0d1fb5895db971cc81aa7608baa0920abb0a565c9c
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436e2fd13323428296c86385f2384e408a31e104670df0791d93e743a3a5194ee6b076fb6323ca59
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3011b7348c16cf58f66b9633906ba54a2ee803187344b394f75dd2e663a57b956cb830dd7a908d4f
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39a2336a61ef9fda549180d4ccde21514d117b6c6fd07a9102b5efe710a32af4eeacae2cb3b1dec0
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35b9593b48b9d3ca4c13d245d5f04169b0b1
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`,
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wantVersion: 57,
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wantRest: []rlp.RawValue{{0x06}, {0xC2, 0x07, 0x08}, {0x81, 0xFA}},
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},
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}
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func TestHandshakeForwardCompatibility(t *testing.T) {
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var (
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keyA, _ = crypto.HexToECDSA("49a7b37aa6f6645917e7b807e9d1c00d4fa71f18343b0d4122a4d2df64dd6fee")
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keyB, _ = crypto.HexToECDSA("b71c71a67e1177ad4e901695e1b4b9ee17ae16c6668d313eac2f96dbcda3f291")
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pubA = crypto.FromECDSAPub(&keyA.PublicKey)[1:]
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pubB = crypto.FromECDSAPub(&keyB.PublicKey)[1:]
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ephA, _ = crypto.HexToECDSA("869d6ecf5211f1cc60418a13b9d870b22959d0c16f02bec714c960dd2298a32d")
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ephB, _ = crypto.HexToECDSA("e238eb8e04fee6511ab04c6dd3c89ce097b11f25d584863ac2b6d5b35b1847e4")
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ephPubA = crypto.FromECDSAPub(&ephA.PublicKey)[1:]
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ephPubB = crypto.FromECDSAPub(&ephB.PublicKey)[1:]
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nonceA = unhex("7e968bba13b6c50e2c4cd7f241cc0d64d1ac25c7f5952df231ac6a2bda8ee5d6")
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nonceB = unhex("559aead08264d5795d3909718cdd05abd49572e84fe55590eef31a88a08fdffd")
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_, _, _, _ = pubA, pubB, ephPubA, ephPubB
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authSignature = unhex("299ca6acfd35e3d72d8ba3d1e2b60b5561d5af5218eb5bc182045769eb4226910a301acae3b369fffc4a4899d6b02531e89fd4fe36a2cf0d93607ba470b50f7800")
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_ = authSignature
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)
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makeAuth := func(test handshakeAuthTest) *authMsgV4 {
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msg := &authMsgV4{Version: test.wantVersion, Rest: test.wantRest, gotPlain: test.isPlain}
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copy(msg.Signature[:], authSignature)
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copy(msg.InitiatorPubkey[:], pubA)
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copy(msg.Nonce[:], nonceA)
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return msg
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}
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makeAck := func(test handshakeAckTest) *authRespV4 {
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msg := &authRespV4{Version: test.wantVersion, Rest: test.wantRest}
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copy(msg.RandomPubkey[:], ephPubB)
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copy(msg.Nonce[:], nonceB)
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return msg
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}
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// check auth msg parsing
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for _, test := range eip8HandshakeAuthTests {
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r := bytes.NewReader(unhex(test.input))
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msg := new(authMsgV4)
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ciphertext, err := readHandshakeMsg(msg, encAuthMsgLen, keyB, r)
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if err != nil {
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t.Errorf("error for input %x:\n %v", unhex(test.input), err)
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continue
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}
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if !bytes.Equal(ciphertext, unhex(test.input)) {
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t.Errorf("wrong ciphertext for input %x:\n %x", unhex(test.input), ciphertext)
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}
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want := makeAuth(test)
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if !reflect.DeepEqual(msg, want) {
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t.Errorf("wrong msg for input %x:\ngot %s\nwant %s", unhex(test.input), spew.Sdump(msg), spew.Sdump(want))
|
|
}
|
|
}
|
|
|
|
// check auth resp parsing
|
|
for _, test := range eip8HandshakeRespTests {
|
|
input := unhex(test.input)
|
|
r := bytes.NewReader(input)
|
|
msg := new(authRespV4)
|
|
ciphertext, err := readHandshakeMsg(msg, encAuthRespLen, keyA, r)
|
|
if err != nil {
|
|
t.Errorf("error for input %x:\n %v", input, err)
|
|
continue
|
|
}
|
|
if !bytes.Equal(ciphertext, input) {
|
|
t.Errorf("wrong ciphertext for input %x:\n %x", input, err)
|
|
}
|
|
want := makeAck(test)
|
|
if !reflect.DeepEqual(msg, want) {
|
|
t.Errorf("wrong msg for input %x:\ngot %s\nwant %s", input, spew.Sdump(msg), spew.Sdump(want))
|
|
}
|
|
}
|
|
|
|
// check derivation for (Auth₂, Ack₂) on recipient side
|
|
var (
|
|
hs = &encHandshake{
|
|
initiator: false,
|
|
respNonce: nonceB,
|
|
randomPrivKey: ecies.ImportECDSA(ephB),
|
|
}
|
|
authCiphertext = unhex(eip8HandshakeAuthTests[1].input)
|
|
authRespCiphertext = unhex(eip8HandshakeRespTests[1].input)
|
|
authMsg = makeAuth(eip8HandshakeAuthTests[1])
|
|
wantAES = unhex("80e8632c05fed6fc2a13b0f8d31a3cf645366239170ea067065aba8e28bac487")
|
|
wantMAC = unhex("2ea74ec5dae199227dff1af715362700e989d889d7a493cb0639691efb8e5f98")
|
|
wantFooIngressHash = unhex("0c7ec6340062cc46f5e9f1e3cf86f8c8c403c5a0964f5df0ebd34a75ddc86db5")
|
|
)
|
|
if err := hs.handleAuthMsg(authMsg, keyB); err != nil {
|
|
t.Fatalf("handleAuthMsg: %v", err)
|
|
}
|
|
derived, err := hs.secrets(authCiphertext, authRespCiphertext)
|
|
if err != nil {
|
|
t.Fatalf("secrets: %v", err)
|
|
}
|
|
if !bytes.Equal(derived.AES, wantAES) {
|
|
t.Errorf("aes-secret mismatch:\ngot %x\nwant %x", derived.AES, wantAES)
|
|
}
|
|
if !bytes.Equal(derived.MAC, wantMAC) {
|
|
t.Errorf("mac-secret mismatch:\ngot %x\nwant %x", derived.MAC, wantMAC)
|
|
}
|
|
io.WriteString(derived.IngressMAC, "foo")
|
|
fooIngressHash := derived.IngressMAC.Sum(nil)
|
|
if !bytes.Equal(fooIngressHash, wantFooIngressHash) {
|
|
t.Errorf("ingress-mac('foo') mismatch:\ngot %x\nwant %x", fooIngressHash, wantFooIngressHash)
|
|
}
|
|
}
|
|
|
|
func unhex(str string) []byte {
|
|
r := strings.NewReplacer("\t", "", " ", "", "\n", "")
|
|
b, err := hex.DecodeString(r.Replace(str))
|
|
if err != nil {
|
|
panic(fmt.Sprintf("invalid hex string: %q", str))
|
|
}
|
|
return b
|
|
}
|
|
|
|
func newkey() *ecdsa.PrivateKey {
|
|
key, err := crypto.GenerateKey()
|
|
if err != nil {
|
|
panic("couldn't generate key: " + err.Error())
|
|
}
|
|
return key
|
|
}
|