package peer import ( "bytes" "testing" "time" "github.com/btcsuite/btcd/chaincfg" "github.com/btcsuite/btcd/txscript" "github.com/btcsuite/btcd/wire" "github.com/btcsuite/btcutil" "github.com/lightningnetwork/lnd/chainntnfs" "github.com/lightningnetwork/lnd/channeldb" "github.com/lightningnetwork/lnd/htlcswitch" "github.com/lightningnetwork/lnd/lntest/mock" "github.com/lightningnetwork/lnd/lnwallet/chancloser" "github.com/lightningnetwork/lnd/lnwire" "github.com/lightningnetwork/lnd/pool" "github.com/stretchr/testify/require" ) var ( // p2SHAddress is a valid pay to script hash address. p2SHAddress = "2NBFNJTktNa7GZusGbDbGKRZTxdK9VVez3n" // p2wshAddress is a valid pay to witness script hash address. p2wshAddress = "bc1qrp33g0q5c5txsp9arysrx4k6zdkfs4nce4xj0gdcccefvpysxf3qccfmv3" ) // TestPeerChannelClosureAcceptFeeResponder tests the shutdown responder's // behavior if we can agree on the fee immediately. func TestPeerChannelClosureAcceptFeeResponder(t *testing.T) { t.Parallel() notifier := &mock.ChainNotifier{ SpendChan: make(chan *chainntnfs.SpendDetail), EpochChan: make(chan *chainntnfs.BlockEpoch), ConfChan: make(chan *chainntnfs.TxConfirmation), } broadcastTxChan := make(chan *wire.MsgTx) alicePeer, bobChan, cleanUp, err := createTestPeer( notifier, broadcastTxChan, noUpdate, ) if err != nil { t.Fatalf("unable to create test channels: %v", err) } defer cleanUp() chanID := lnwire.NewChanIDFromOutPoint(bobChan.ChannelPoint()) // We send a shutdown request to Alice. She will now be the responding // node in this shutdown procedure. We first expect Alice to answer // this shutdown request with a Shutdown message. alicePeer.chanCloseMsgs <- &closeMsg{ cid: chanID, msg: lnwire.NewShutdown(chanID, dummyDeliveryScript), } var msg lnwire.Message select { case outMsg := <-alicePeer.outgoingQueue: msg = outMsg.msg case <-time.After(timeout): t.Fatalf("did not receive shutdown message") } shutdownMsg, ok := msg.(*lnwire.Shutdown) if !ok { t.Fatalf("expected Shutdown message, got %T", msg) } respDeliveryScript := shutdownMsg.Address // Alice will then send a ClosingSigned message, indicating her proposed // closing transaction fee. Alice sends the ClosingSigned message as she is // the initiator of the channel. select { case outMsg := <-alicePeer.outgoingQueue: msg = outMsg.msg case <-time.After(timeout): t.Fatalf("did not receive ClosingSigned message") } respClosingSigned, ok := msg.(*lnwire.ClosingSigned) if !ok { t.Fatalf("expected ClosingSigned message, got %T", msg) } // We accept the fee, and send a ClosingSigned with the same fee back, // so she knows we agreed. aliceFee := respClosingSigned.FeeSatoshis bobSig, _, _, err := bobChan.CreateCloseProposal( aliceFee, dummyDeliveryScript, respDeliveryScript, ) if err != nil { t.Fatalf("error creating close proposal: %v", err) } parsedSig, err := lnwire.NewSigFromSignature(bobSig) if err != nil { t.Fatalf("error parsing signature: %v", err) } closingSigned := lnwire.NewClosingSigned(chanID, aliceFee, parsedSig) alicePeer.chanCloseMsgs <- &closeMsg{ cid: chanID, msg: closingSigned, } // Alice should now see that we agreed on the fee, and should broadcast the // closing transaction. select { case <-broadcastTxChan: case <-time.After(timeout): t.Fatalf("closing tx not broadcast") } // Need to pull the remaining message off of Alice's outgoing queue. select { case outMsg := <-alicePeer.outgoingQueue: msg = outMsg.msg case <-time.After(timeout): t.Fatalf("did not receive ClosingSigned message") } if _, ok := msg.(*lnwire.ClosingSigned); !ok { t.Fatalf("expected ClosingSigned message, got %T", msg) } // Alice should be waiting in a goroutine for a confirmation. notifier.ConfChan <- &chainntnfs.TxConfirmation{} } // TestPeerChannelClosureAcceptFeeInitiator tests the shutdown initiator's // behavior if we can agree on the fee immediately. func TestPeerChannelClosureAcceptFeeInitiator(t *testing.T) { t.Parallel() notifier := &mock.ChainNotifier{ SpendChan: make(chan *chainntnfs.SpendDetail), EpochChan: make(chan *chainntnfs.BlockEpoch), ConfChan: make(chan *chainntnfs.TxConfirmation), } broadcastTxChan := make(chan *wire.MsgTx) alicePeer, bobChan, cleanUp, err := createTestPeer( notifier, broadcastTxChan, noUpdate, ) if err != nil { t.Fatalf("unable to create test channels: %v", err) } defer cleanUp() // We make Alice send a shutdown request. updateChan := make(chan interface{}, 1) errChan := make(chan error, 1) closeCommand := &htlcswitch.ChanClose{ CloseType: htlcswitch.CloseRegular, ChanPoint: bobChan.ChannelPoint(), Updates: updateChan, TargetFeePerKw: 12500, Err: errChan, } alicePeer.localCloseChanReqs <- closeCommand // We can now pull a Shutdown message off of Alice's outgoingQueue. var msg lnwire.Message select { case outMsg := <-alicePeer.outgoingQueue: msg = outMsg.msg case <-time.After(timeout): t.Fatalf("did not receive shutdown request") } shutdownMsg, ok := msg.(*lnwire.Shutdown) if !ok { t.Fatalf("expected Shutdown message, got %T", msg) } aliceDeliveryScript := shutdownMsg.Address // Bob will respond with his own Shutdown message. chanID := shutdownMsg.ChannelID alicePeer.chanCloseMsgs <- &closeMsg{ cid: chanID, msg: lnwire.NewShutdown(chanID, dummyDeliveryScript), } // Alice will reply with a ClosingSigned here. select { case outMsg := <-alicePeer.outgoingQueue: msg = outMsg.msg case <-time.After(timeout): t.Fatalf("did not receive closing signed message") } closingSignedMsg, ok := msg.(*lnwire.ClosingSigned) if !ok { t.Fatalf("expected to receive closing signed message, got %T", msg) } // Bob should reply with the exact same fee in his next ClosingSigned // message. bobFee := closingSignedMsg.FeeSatoshis bobSig, _, _, err := bobChan.CreateCloseProposal( bobFee, dummyDeliveryScript, aliceDeliveryScript, ) if err != nil { t.Fatalf("unable to create close proposal: %v", err) } parsedSig, err := lnwire.NewSigFromSignature(bobSig) if err != nil { t.Fatalf("unable to parse signature: %v", err) } closingSigned := lnwire.NewClosingSigned(shutdownMsg.ChannelID, bobFee, parsedSig) alicePeer.chanCloseMsgs <- &closeMsg{ cid: chanID, msg: closingSigned, } // Alice should accept Bob's fee, broadcast the cooperative close tx, and // send a ClosingSigned message back to Bob. // Alice should now broadcast the closing transaction. select { case <-broadcastTxChan: case <-time.After(timeout): t.Fatalf("closing tx not broadcast") } // Alice should respond with the ClosingSigned they both agreed upon. select { case outMsg := <-alicePeer.outgoingQueue: msg = outMsg.msg case <-time.After(timeout): t.Fatalf("did not receive closing signed message") } closingSignedMsg, ok = msg.(*lnwire.ClosingSigned) if !ok { t.Fatalf("expected ClosingSigned message, got %T", msg) } if closingSignedMsg.FeeSatoshis != bobFee { t.Fatalf("expected ClosingSigned fee to be %v, instead got %v", bobFee, closingSignedMsg.FeeSatoshis) } // Alice should be waiting on a single confirmation for the coop close tx. notifier.ConfChan <- &chainntnfs.TxConfirmation{} } // TestPeerChannelClosureFeeNegotiationsResponder tests the shutdown // responder's behavior in the case where we must do several rounds of fee // negotiation before we agree on a fee. func TestPeerChannelClosureFeeNegotiationsResponder(t *testing.T) { t.Parallel() notifier := &mock.ChainNotifier{ SpendChan: make(chan *chainntnfs.SpendDetail), EpochChan: make(chan *chainntnfs.BlockEpoch), ConfChan: make(chan *chainntnfs.TxConfirmation), } broadcastTxChan := make(chan *wire.MsgTx) alicePeer, bobChan, cleanUp, err := createTestPeer( notifier, broadcastTxChan, noUpdate, ) if err != nil { t.Fatalf("unable to create test channels: %v", err) } defer cleanUp() chanID := lnwire.NewChanIDFromOutPoint(bobChan.ChannelPoint()) // Bob sends a shutdown request to Alice. She will now be the responding // node in this shutdown procedure. We first expect Alice to answer this // Shutdown request with a Shutdown message. alicePeer.chanCloseMsgs <- &closeMsg{ cid: chanID, msg: lnwire.NewShutdown(chanID, dummyDeliveryScript), } var msg lnwire.Message select { case outMsg := <-alicePeer.outgoingQueue: msg = outMsg.msg case <-time.After(timeout): t.Fatalf("did not receive shutdown message") } shutdownMsg, ok := msg.(*lnwire.Shutdown) if !ok { t.Fatalf("expected Shutdown message, got %T", msg) } aliceDeliveryScript := shutdownMsg.Address // As Alice is the channel initiator, she will send her ClosingSigned // message. select { case outMsg := <-alicePeer.outgoingQueue: msg = outMsg.msg case <-time.After(timeout): t.Fatalf("did not receive closing signed message") } aliceClosingSigned, ok := msg.(*lnwire.ClosingSigned) if !ok { t.Fatalf("expected ClosingSigned message, got %T", msg) } // Bob doesn't agree with the fee and will send one back that's 2.5x. preferredRespFee := aliceClosingSigned.FeeSatoshis increasedFee := btcutil.Amount(float64(preferredRespFee) * 2.5) bobSig, _, _, err := bobChan.CreateCloseProposal( increasedFee, dummyDeliveryScript, aliceDeliveryScript, ) if err != nil { t.Fatalf("error creating close proposal: %v", err) } parsedSig, err := lnwire.NewSigFromSignature(bobSig) if err != nil { t.Fatalf("error parsing signature: %v", err) } closingSigned := lnwire.NewClosingSigned(chanID, increasedFee, parsedSig) alicePeer.chanCloseMsgs <- &closeMsg{ cid: chanID, msg: closingSigned, } // Alice will now see the new fee we propose, but with current settings it // won't accept it immediately as it differs too much by its ideal fee. We // should get a new proposal back, which should have the average fee rate // proposed. select { case outMsg := <-alicePeer.outgoingQueue: msg = outMsg.msg case <-time.After(timeout): t.Fatalf("did not receive closing signed message") } aliceClosingSigned, ok = msg.(*lnwire.ClosingSigned) if !ok { t.Fatalf("expected ClosingSigned message, got %T", msg) } // The fee sent by Alice should be less than the fee Bob just sent as Alice // should attempt to compromise. aliceFee := aliceClosingSigned.FeeSatoshis if aliceFee > increasedFee { t.Fatalf("new fee should be less than our fee: new=%v, "+ "prior=%v", aliceFee, increasedFee) } lastFeeResponder := aliceFee // We try negotiating a 2.1x fee, which should also be rejected. increasedFee = btcutil.Amount(float64(preferredRespFee) * 2.1) bobSig, _, _, err = bobChan.CreateCloseProposal( increasedFee, dummyDeliveryScript, aliceDeliveryScript, ) if err != nil { t.Fatalf("error creating close proposal: %v", err) } parsedSig, err = lnwire.NewSigFromSignature(bobSig) if err != nil { t.Fatalf("error parsing signature: %v", err) } closingSigned = lnwire.NewClosingSigned(chanID, increasedFee, parsedSig) alicePeer.chanCloseMsgs <- &closeMsg{ cid: chanID, msg: closingSigned, } // Bob's latest proposal still won't be accepted and Alice should send over // a new ClosingSigned message. It should be the average of what Bob and // Alice each proposed last time. select { case outMsg := <-alicePeer.outgoingQueue: msg = outMsg.msg case <-time.After(timeout): t.Fatalf("did not receive closing signed message") } aliceClosingSigned, ok = msg.(*lnwire.ClosingSigned) if !ok { t.Fatalf("expected ClosingSigned message, got %T", msg) } // Alice should inch towards Bob's fee, in order to compromise. // Additionally, this fee should be less than the fee Bob sent before. aliceFee = aliceClosingSigned.FeeSatoshis if aliceFee < lastFeeResponder { t.Fatalf("new fee should be greater than prior: new=%v, "+ "prior=%v", aliceFee, lastFeeResponder) } if aliceFee > increasedFee { t.Fatalf("new fee should be less than Bob's fee: new=%v, "+ "prior=%v", aliceFee, increasedFee) } // Finally, Bob will accept the fee by echoing back the same fee that Alice // just sent over. bobSig, _, _, err = bobChan.CreateCloseProposal( aliceFee, dummyDeliveryScript, aliceDeliveryScript, ) if err != nil { t.Fatalf("error creating close proposal: %v", err) } parsedSig, err = lnwire.NewSigFromSignature(bobSig) if err != nil { t.Fatalf("error parsing signature: %v", err) } closingSigned = lnwire.NewClosingSigned(chanID, aliceFee, parsedSig) alicePeer.chanCloseMsgs <- &closeMsg{ cid: chanID, msg: closingSigned, } // Alice will now see that Bob agreed on the fee, and broadcast the coop // close transaction. select { case <-broadcastTxChan: case <-time.After(timeout): t.Fatalf("closing tx not broadcast") } // Alice should respond with the ClosingSigned they both agreed upon. select { case outMsg := <-alicePeer.outgoingQueue: msg = outMsg.msg case <-time.After(timeout): t.Fatalf("did not receive closing signed message") } if _, ok := msg.(*lnwire.ClosingSigned); !ok { t.Fatalf("expected to receive closing signed message, got %T", msg) } // Alice should be waiting on a single confirmation for the coop close tx. notifier.ConfChan <- &chainntnfs.TxConfirmation{} } // TestPeerChannelClosureFeeNegotiationsInitiator tests the shutdown // initiator's behavior in the case where we must do several rounds of fee // negotiation before we agree on a fee. func TestPeerChannelClosureFeeNegotiationsInitiator(t *testing.T) { t.Parallel() notifier := &mock.ChainNotifier{ SpendChan: make(chan *chainntnfs.SpendDetail), EpochChan: make(chan *chainntnfs.BlockEpoch), ConfChan: make(chan *chainntnfs.TxConfirmation), } broadcastTxChan := make(chan *wire.MsgTx) alicePeer, bobChan, cleanUp, err := createTestPeer( notifier, broadcastTxChan, noUpdate, ) if err != nil { t.Fatalf("unable to create test channels: %v", err) } defer cleanUp() // We make the initiator send a shutdown request. updateChan := make(chan interface{}, 1) errChan := make(chan error, 1) closeCommand := &htlcswitch.ChanClose{ CloseType: htlcswitch.CloseRegular, ChanPoint: bobChan.ChannelPoint(), Updates: updateChan, TargetFeePerKw: 12500, Err: errChan, } alicePeer.localCloseChanReqs <- closeCommand // Alice should now send a Shutdown request to Bob. var msg lnwire.Message select { case outMsg := <-alicePeer.outgoingQueue: msg = outMsg.msg case <-time.After(timeout): t.Fatalf("did not receive shutdown request") } shutdownMsg, ok := msg.(*lnwire.Shutdown) if !ok { t.Fatalf("expected Shutdown message, got %T", msg) } aliceDeliveryScript := shutdownMsg.Address // Bob will answer the Shutdown message with his own Shutdown. chanID := lnwire.NewChanIDFromOutPoint(bobChan.ChannelPoint()) respShutdown := lnwire.NewShutdown(chanID, dummyDeliveryScript) alicePeer.chanCloseMsgs <- &closeMsg{ cid: chanID, msg: respShutdown, } // Alice should now respond with a ClosingSigned message with her ideal // fee rate. select { case outMsg := <-alicePeer.outgoingQueue: msg = outMsg.msg case <-time.After(timeout): t.Fatalf("did not receive closing signed") } closingSignedMsg, ok := msg.(*lnwire.ClosingSigned) if !ok { t.Fatalf("expected ClosingSigned message, got %T", msg) } idealFeeRate := closingSignedMsg.FeeSatoshis lastReceivedFee := idealFeeRate increasedFee := btcutil.Amount(float64(idealFeeRate) * 2.1) lastSentFee := increasedFee bobSig, _, _, err := bobChan.CreateCloseProposal( increasedFee, dummyDeliveryScript, aliceDeliveryScript, ) if err != nil { t.Fatalf("error creating close proposal: %v", err) } parsedSig, err := lnwire.NewSigFromSignature(bobSig) if err != nil { t.Fatalf("unable to parse signature: %v", err) } closingSigned := lnwire.NewClosingSigned(chanID, increasedFee, parsedSig) alicePeer.chanCloseMsgs <- &closeMsg{ cid: chanID, msg: closingSigned, } // It still won't be accepted, and we should get a new proposal, the // average of what we proposed, and what they proposed last time. select { case outMsg := <-alicePeer.outgoingQueue: msg = outMsg.msg case <-time.After(timeout): t.Fatalf("did not receive closing signed") } closingSignedMsg, ok = msg.(*lnwire.ClosingSigned) if !ok { t.Fatalf("expected ClosingSigned message, got %T", msg) } aliceFee := closingSignedMsg.FeeSatoshis if aliceFee < lastReceivedFee { t.Fatalf("new fee should be greater than prior: new=%v, old=%v", aliceFee, lastReceivedFee) } if aliceFee > lastSentFee { t.Fatalf("new fee should be less than our fee: new=%v, old=%v", aliceFee, lastSentFee) } lastReceivedFee = aliceFee // We'll try negotiating a 1.5x fee, which should also be rejected. increasedFee = btcutil.Amount(float64(idealFeeRate) * 1.5) lastSentFee = increasedFee bobSig, _, _, err = bobChan.CreateCloseProposal( increasedFee, dummyDeliveryScript, aliceDeliveryScript, ) if err != nil { t.Fatalf("error creating close proposal: %v", err) } parsedSig, err = lnwire.NewSigFromSignature(bobSig) if err != nil { t.Fatalf("error parsing signature: %v", err) } closingSigned = lnwire.NewClosingSigned(chanID, increasedFee, parsedSig) alicePeer.chanCloseMsgs <- &closeMsg{ cid: chanID, msg: closingSigned, } // Alice won't accept Bob's new proposal, and Bob should receive a new // proposal which is the average of what Bob proposed and Alice proposed // last time. select { case outMsg := <-alicePeer.outgoingQueue: msg = outMsg.msg case <-time.After(timeout): t.Fatalf("did not receive closing signed") } closingSignedMsg, ok = msg.(*lnwire.ClosingSigned) if !ok { t.Fatalf("expected ClosingSigned message, got %T", msg) } aliceFee = closingSignedMsg.FeeSatoshis if aliceFee < lastReceivedFee { t.Fatalf("new fee should be greater than prior: new=%v, old=%v", aliceFee, lastReceivedFee) } if aliceFee > lastSentFee { t.Fatalf("new fee should be less than Bob's fee: new=%v, old=%v", aliceFee, lastSentFee) } // Bob will now accept their fee by sending back a ClosingSigned message // with an identical fee. bobSig, _, _, err = bobChan.CreateCloseProposal( aliceFee, dummyDeliveryScript, aliceDeliveryScript, ) if err != nil { t.Fatalf("error creating close proposal: %v", err) } parsedSig, err = lnwire.NewSigFromSignature(bobSig) if err != nil { t.Fatalf("error parsing signature: %v", err) } closingSigned = lnwire.NewClosingSigned(chanID, aliceFee, parsedSig) alicePeer.chanCloseMsgs <- &closeMsg{ cid: chanID, msg: closingSigned, } // Wait for closing tx to be broadcasted. select { case <-broadcastTxChan: case <-time.After(timeout): t.Fatalf("closing tx not broadcast") } // Alice should respond with the ClosingSigned they both agreed upon. select { case outMsg := <-alicePeer.outgoingQueue: msg = outMsg.msg case <-time.After(timeout): t.Fatalf("did not receive closing signed message") } if _, ok := msg.(*lnwire.ClosingSigned); !ok { t.Fatalf("expected to receive closing signed message, got %T", msg) } // Alice should be waiting on a single confirmation for the coop close tx. notifier.ConfChan <- &chainntnfs.TxConfirmation{} } // TestChooseDeliveryScript tests that chooseDeliveryScript correctly errors // when upfront and user set scripts that do not match are provided, allows // matching values and returns appropriate values in the case where one or none // are set. func TestChooseDeliveryScript(t *testing.T) { // generate non-zero scripts for testing. script1 := genScript(t, p2SHAddress) script2 := genScript(t, p2wshAddress) tests := []struct { name string userScript lnwire.DeliveryAddress shutdownScript lnwire.DeliveryAddress expectedScript lnwire.DeliveryAddress expectedError error }{ { name: "Neither set", userScript: nil, shutdownScript: nil, expectedScript: nil, expectedError: nil, }, { name: "Both set and equal", userScript: script1, shutdownScript: script1, expectedScript: script1, expectedError: nil, }, { name: "Both set and not equal", userScript: script1, shutdownScript: script2, expectedScript: nil, expectedError: chancloser.ErrUpfrontShutdownScriptMismatch, }, { name: "Only upfront script", userScript: nil, shutdownScript: script1, expectedScript: script1, expectedError: nil, }, { name: "Only user script", userScript: script2, shutdownScript: nil, expectedScript: script2, expectedError: nil, }, } for _, test := range tests { test := test t.Run(test.name, func(t *testing.T) { script, err := chooseDeliveryScript( test.shutdownScript, test.userScript, ) if err != test.expectedError { t.Fatalf("Expected: %v, got: %v", test.expectedError, err) } if !bytes.Equal(script, test.expectedScript) { t.Fatalf("Expected: %x, got: %x", test.expectedScript, script) } }) } } // TestCustomShutdownScript tests that the delivery script of a shutdown // message can be set to a specified address. It checks that setting a close // script fails for channels which have an upfront shutdown script already set. func TestCustomShutdownScript(t *testing.T) { script := genScript(t, p2SHAddress) // setShutdown is a function which sets the upfront shutdown address for // the local channel. setShutdown := func(a, b *channeldb.OpenChannel) { a.LocalShutdownScript = script b.RemoteShutdownScript = script } tests := []struct { name string // update is a function used to set values on the channel set up for the // test. It is used to set values for upfront shutdown addresses. update func(a, b *channeldb.OpenChannel) // userCloseScript is the address specified by the user. userCloseScript lnwire.DeliveryAddress // expectedScript is the address we expect to be set on the shutdown // message. expectedScript lnwire.DeliveryAddress // expectedError is the error we expect, if any. expectedError error }{ { name: "User set script", update: noUpdate, userCloseScript: script, expectedScript: script, }, { name: "No user set script", update: noUpdate, }, { name: "Shutdown set, no user script", update: setShutdown, expectedScript: script, }, { name: "Shutdown set, user script matches", update: setShutdown, userCloseScript: script, expectedScript: script, }, { name: "Shutdown set, user script different", update: setShutdown, userCloseScript: []byte("different addr"), expectedError: chancloser.ErrUpfrontShutdownScriptMismatch, }, } for _, test := range tests { test := test t.Run(test.name, func(t *testing.T) { notifier := &mock.ChainNotifier{ SpendChan: make(chan *chainntnfs.SpendDetail), EpochChan: make(chan *chainntnfs.BlockEpoch), ConfChan: make(chan *chainntnfs.TxConfirmation), } broadcastTxChan := make(chan *wire.MsgTx) // Open a channel. alicePeer, bobChan, cleanUp, err := createTestPeer( notifier, broadcastTxChan, test.update, ) if err != nil { t.Fatalf("unable to create test channels: %v", err) } defer cleanUp() // Request initiator to cooperatively close the channel, with // a specified delivery address. updateChan := make(chan interface{}, 1) errChan := make(chan error, 1) chanPoint := bobChan.ChannelPoint() closeCommand := htlcswitch.ChanClose{ CloseType: htlcswitch.CloseRegular, ChanPoint: chanPoint, Updates: updateChan, TargetFeePerKw: 12500, DeliveryScript: test.userCloseScript, Err: errChan, } // Send the close command for the correct channel and check that a // shutdown message is sent. alicePeer.localCloseChanReqs <- &closeCommand var msg lnwire.Message select { case outMsg := <-alicePeer.outgoingQueue: msg = outMsg.msg case <-time.After(timeout): t.Fatalf("did not receive shutdown message") case err := <-errChan: // Fail if we do not expect an error. if err != test.expectedError { t.Fatalf("error closing channel: %v", err) } // Terminate the test early if have received an error, no // further action is expected. return } // Check that we have received a shutdown message. shutdownMsg, ok := msg.(*lnwire.Shutdown) if !ok { t.Fatalf("expected shutdown message, got %T", msg) } // If the test has not specified an expected address, do not check // whether the shutdown address matches. This covers the case where // we epect shutdown to a random address and cannot match it. if len(test.expectedScript) == 0 { return } // Check that the Shutdown message includes the expected delivery // script. if !bytes.Equal(test.expectedScript, shutdownMsg.Address) { t.Fatalf("expected delivery script: %x, got: %x", test.expectedScript, shutdownMsg.Address) } }) } } // TestStaticRemoteDowngrade tests that we downgrade our static remote feature // bit to optional if we have legacy channels with a peer. This ensures that // we can stay connected to peers that don't support the feature bit that we // have channels with. func TestStaticRemoteDowngrade(t *testing.T) { t.Parallel() var ( // We set the same legacy feature bits for all tests, since // these are not relevant to our test scenario rawLegacy = lnwire.NewRawFeatureVector( lnwire.UpfrontShutdownScriptOptional, ) legacy = lnwire.NewFeatureVector(rawLegacy, nil) legacyCombinedOptional = lnwire.NewRawFeatureVector( lnwire.UpfrontShutdownScriptOptional, lnwire.StaticRemoteKeyOptional, ) rawFeatureOptional = lnwire.NewRawFeatureVector( lnwire.StaticRemoteKeyOptional, ) featureOptional = lnwire.NewFeatureVector( rawFeatureOptional, nil, ) rawFeatureRequired = lnwire.NewRawFeatureVector( lnwire.StaticRemoteKeyRequired, ) featureRequired = lnwire.NewFeatureVector( rawFeatureRequired, nil, ) ) tests := []struct { name string legacy bool features *lnwire.FeatureVector expectedInit *lnwire.Init }{ { name: "no legacy channel, static optional", legacy: false, features: featureOptional, expectedInit: &lnwire.Init{ GlobalFeatures: rawLegacy, Features: rawFeatureOptional, }, }, { name: "legacy channel, static optional", legacy: true, features: featureOptional, expectedInit: &lnwire.Init{ GlobalFeatures: rawLegacy, Features: rawFeatureOptional, }, }, { name: "no legacy channel, static required", legacy: false, features: featureRequired, expectedInit: &lnwire.Init{ GlobalFeatures: rawLegacy, Features: rawFeatureRequired, }, }, // In this case we need to flip our required bit to optional, // this should also propagate to the legacy set of feature bits // so we have proper consistency: a bit isn't set to optional // in one field and required in the other. { name: "legacy channel, static required", legacy: true, features: featureRequired, expectedInit: &lnwire.Init{ GlobalFeatures: legacyCombinedOptional, Features: rawFeatureOptional, }, }, } for _, test := range tests { test := test t.Run(test.name, func(t *testing.T) { writeBufferPool := pool.NewWriteBuffer( pool.DefaultWriteBufferGCInterval, pool.DefaultWriteBufferExpiryInterval, ) writePool := pool.NewWrite( writeBufferPool, 1, timeout, ) require.NoError(t, writePool.Start()) mockConn := newMockConn(t, 1) p := Brontide{ cfg: Config{ LegacyFeatures: legacy, Features: test.features, Conn: mockConn, WritePool: writePool, }, } var b bytes.Buffer _, err := lnwire.WriteMessage(&b, test.expectedInit, 0) require.NoError(t, err) // Send our init message, assert that we write our expected message // and shutdown our write pool. require.NoError(t, p.sendInitMsg(test.legacy)) mockConn.assertWrite(b.Bytes()) require.NoError(t, writePool.Stop()) }) } } // genScript creates a script paying out to the address provided, which must // be a valid address. func genScript(t *testing.T, address string) lnwire.DeliveryAddress { // Generate an address which can be used for testing. deliveryAddr, err := btcutil.DecodeAddress( address, &chaincfg.TestNet3Params, ) if err != nil { t.Fatalf("invalid delivery address: %v", err) } script, err := txscript.PayToAddrScript(deliveryAddr) if err != nil { t.Fatalf("cannot create script: %v", err) } return script }