lnwallet: add redemption+spend tests for the second-level HTLC txns

This commit is contained in:
Olaoluwa Osuntokun 2017-07-29 18:32:04 -07:00
parent 1a9ada4897
commit c4866723d1
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GPG Key ID: 9CC5B105D03521A2

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@ -573,6 +573,226 @@ func TestHTLCReceiverSpendValidation(t *testing.T) {
}
}
// TestSecondLevelHtlcSpends tests all the possible redemption clauses from the
// HTLC success and timeout covenant transactions.
func TestSecondLevelHtlcSpends(t *testing.T) {
t.Parallel()
// We'll start be creating a creating a 2BTC HTLC.
const htlcAmt = btcutil.Amount(2 * 10e8)
// In all of our scenarios, the CSV timeout to claim a self output will
// be 5 blocks.
const claimDelay = 5
// First we'll set up some initial key state for Alice and Bob that
// will be used in the scripts we created below.
aliceKeyPriv, aliceKeyPub := btcec.PrivKeyFromBytes(btcec.S256(),
testWalletPrivKey)
bobKeyPriv, bobKeyPub := btcec.PrivKeyFromBytes(btcec.S256(),
bobsPrivKey)
revokePreimage := testHdSeed.CloneBytes()
commitSecret, commitPoint := btcec.PrivKeyFromBytes(
btcec.S256(), revokePreimage)
// As we're modeling this as Bob sweeping the HTLC on-chain from his
// commitment transaction after a period of time, we'll be using a
// revocation key derived from Alice's base point and his secret.
revocationKey := DeriveRevocationPubkey(aliceKeyPub, commitPoint)
// Next, craft a fake HTLC outpoint that we'll use to generate the
// sweeping transaction using.
txid, err := chainhash.NewHash(testHdSeed.CloneBytes())
if err != nil {
t.Fatalf("unable to create txid: %v", err)
}
htlcOutPoint := &wire.OutPoint{
Hash: *txid,
Index: 0,
}
sweepTx := wire.NewMsgTx(2)
sweepTx.AddTxIn(wire.NewTxIn(htlcOutPoint, nil, nil))
sweepTx.AddTxOut(
&wire.TxOut{
PkScript: []byte("doesn't matter"),
Value: 1 * 10e8,
},
)
sweepTxSigHashes := txscript.NewTxSigHashes(sweepTx)
// The delay key will be crafted using Bob's public key as the output
// we created will be spending from Alice's commitment transaction.
delayKey := TweakPubKey(bobKeyPub, commitPoint)
// The commit tweak will be required in order for Bob to derive the
// proper key need to spend the output.
commitTweak := SingleTweakBytes(commitPoint, bobKeyPub)
// Finally we'll generate the HTLC script itself that we'll be spending
// from. The revocation clause can be claimed by Alice, while Bob can
// sweep the output after a particular delay.
htlcWitnessScript, err := secondLevelHtlcScript(revocationKey,
delayKey, claimDelay)
if err != nil {
t.Fatalf("unable to create htlc script: %v", err)
}
htlcPkScript, err := witnessScriptHash(htlcWitnessScript)
if err != nil {
t.Fatalf("unable to create htlc output: %v", err)
}
htlcOutput := &wire.TxOut{
PkScript: htlcPkScript,
Value: int64(htlcAmt),
}
// TODO(roasbeef): make actually use timeout/sucess txns?
// Finally, we'll create mock signers for both of them based on their
// private keys. This test simplifies a bit and uses the same key as
// the base point for all scripts and derivations.
bobSigner := &mockSigner{bobKeyPriv}
aliceSigner := &mockSigner{aliceKeyPriv}
testCases := []struct {
witness func() wire.TxWitness
valid bool
}{
{
// Sender of the HTLC attempts to activate the
// revocation clause, but uses the wrong key (fails to
// use the double tweak in this case).
makeWitnessTestCase(t, func() (wire.TxWitness, error) {
signDesc := &SignDescriptor{
PubKey: aliceKeyPub,
WitnessScript: htlcWitnessScript,
Output: htlcOutput,
HashType: txscript.SigHashAll,
SigHashes: sweepTxSigHashes,
InputIndex: 0,
}
return htlcSpendRevoke(aliceSigner, signDesc,
sweepTx)
}),
false,
},
{
// Sender of HTLC activates the revocation clause.
makeWitnessTestCase(t, func() (wire.TxWitness, error) {
signDesc := &SignDescriptor{
PubKey: aliceKeyPub,
DoubleTweak: commitSecret,
WitnessScript: htlcWitnessScript,
Output: htlcOutput,
HashType: txscript.SigHashAll,
SigHashes: sweepTxSigHashes,
InputIndex: 0,
}
return htlcSpendRevoke(aliceSigner, signDesc,
sweepTx)
}),
true,
},
{
// Receiver of the HTLC attempts to sweep, but tries to
// do so pre-maturely with a smaller CSV delay (2
// blocks instead of 5 blocks).
makeWitnessTestCase(t, func() (wire.TxWitness, error) {
signDesc := &SignDescriptor{
PubKey: bobKeyPub,
SingleTweak: commitTweak,
WitnessScript: htlcWitnessScript,
Output: htlcOutput,
HashType: txscript.SigHashAll,
SigHashes: sweepTxSigHashes,
InputIndex: 0,
}
return htlcSpendSuccess(bobSigner, signDesc,
sweepTx, claimDelay-3)
}),
false,
},
{
// Receiver of the HTLC sweeps with the proper CSV
// delay, but uses the wrong key (leaves off the single
// tweak).
makeWitnessTestCase(t, func() (wire.TxWitness, error) {
signDesc := &SignDescriptor{
PubKey: bobKeyPub,
WitnessScript: htlcWitnessScript,
Output: htlcOutput,
HashType: txscript.SigHashAll,
SigHashes: sweepTxSigHashes,
InputIndex: 0,
}
return htlcSpendSuccess(bobSigner, signDesc,
sweepTx, claimDelay)
}),
false,
},
{
// Receiver of the HTLC sweeps with the proper CSV
// delay, and the correct key.
makeWitnessTestCase(t, func() (wire.TxWitness, error) {
signDesc := &SignDescriptor{
PubKey: bobKeyPub,
SingleTweak: commitTweak,
WitnessScript: htlcWitnessScript,
Output: htlcOutput,
HashType: txscript.SigHashAll,
SigHashes: sweepTxSigHashes,
InputIndex: 0,
}
return htlcSpendSuccess(bobSigner, signDesc,
sweepTx, claimDelay)
}),
true,
},
}
for i, testCase := range testCases {
sweepTx.TxIn[0].Witness = testCase.witness()
vm, err := txscript.NewEngine(htlcPkScript,
sweepTx, 0, txscript.StandardVerifyFlags, nil,
nil, int64(htlcAmt))
if err != nil {
t.Fatalf("unable to create engine: %v", err)
}
// This buffer will trace execution of the Script, only dumping
// out to stdout in the case that a test fails.
var debugBuf bytes.Buffer
done := false
for !done {
dis, err := vm.DisasmPC()
if err != nil {
t.Fatalf("stepping (%v)\n", err)
}
debugBuf.WriteString(fmt.Sprintf("stepping %v\n", dis))
done, err = vm.Step()
if err != nil && testCase.valid {
fmt.Println(debugBuf.String())
t.Fatalf("spend test case #%v failed, spend "+
"should be valid: %v", i, err)
} else if err == nil && !testCase.valid && done {
fmt.Println(debugBuf.String())
t.Fatalf("spend test case #%v succeed, spend "+
"should be invalid: %v", i, err)
}
debugBuf.WriteString(fmt.Sprintf("Stack: %v", vm.GetStack()))
debugBuf.WriteString(fmt.Sprintf("AltStack: %v", vm.GetAltStack()))
}
}
}
func TestCommitTxStateHint(t *testing.T) {