mirror of
https://github.com/lightningnetwork/lnd.git
synced 2024-11-19 09:53:54 +01:00
ec93bf581d
This commit adds a test for the case where the ChannelArbitrator fails to broadcast its commitment during a force close because of ErrDoubleSpend. We test that in this case it will still wait for a commitment getting confirmed in-chain, then resolve.
430 lines
12 KiB
Go
430 lines
12 KiB
Go
package contractcourt
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import (
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"fmt"
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"testing"
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"time"
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"github.com/lightningnetwork/lnd/chainntnfs"
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"github.com/lightningnetwork/lnd/lnwallet"
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"github.com/lightningnetwork/lnd/lnwire"
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"github.com/roasbeef/btcd/chaincfg/chainhash"
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"github.com/roasbeef/btcd/wire"
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)
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type mockChainIO struct{}
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func (*mockChainIO) GetBestBlock() (*chainhash.Hash, int32, error) {
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return nil, 0, nil
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}
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func (*mockChainIO) GetUtxo(op *wire.OutPoint,
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heightHint uint32) (*wire.TxOut, error) {
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return nil, nil
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}
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func (*mockChainIO) GetBlockHash(blockHeight int64) (*chainhash.Hash, error) {
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return nil, nil
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}
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func (*mockChainIO) GetBlock(blockHash *chainhash.Hash) (*wire.MsgBlock, error) {
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return nil, nil
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}
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func createTestChannelArbitrator() (*ChannelArbitrator, chan struct{}, func(), error) {
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blockEpoch := &chainntnfs.BlockEpochEvent{
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Cancel: func() {},
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}
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chanPoint := wire.OutPoint{}
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shortChanID := lnwire.ShortChannelID{}
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chanEvents := &ChainEventSubscription{
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RemoteUnilateralClosure: make(chan *lnwallet.UnilateralCloseSummary, 1),
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LocalUnilateralClosure: make(chan *LocalUnilateralCloseInfo, 1),
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CooperativeClosure: make(chan struct{}, 1),
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ContractBreach: make(chan *lnwallet.BreachRetribution, 1),
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}
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chainIO := &mockChainIO{}
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chainArbCfg := ChainArbitratorConfig{
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ChainIO: chainIO,
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PublishTx: func(*wire.MsgTx) error {
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return nil
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},
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}
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// We'll use the resolvedChan to synchronize on call to
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// MarkChannelResolved.
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resolvedChan := make(chan struct{}, 1)
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// Next we'll create the matching configuration struct that contains
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// all interfaces and methods the arbitrator needs to do its job.
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arbCfg := ChannelArbitratorConfig{
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ChanPoint: chanPoint,
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ShortChanID: shortChanID,
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BlockEpochs: blockEpoch,
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MarkChannelResolved: func() error {
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resolvedChan <- struct{}{}
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return nil
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},
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ForceCloseChan: func() (*lnwallet.LocalForceCloseSummary, error) {
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summary := &lnwallet.LocalForceCloseSummary{
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CloseTx: &wire.MsgTx{},
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HtlcResolutions: &lnwallet.HtlcResolutions{},
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}
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return summary, nil
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},
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MarkCommitmentBroadcasted: func() error {
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return nil
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},
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ChainArbitratorConfig: chainArbCfg,
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ChainEvents: chanEvents,
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}
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testLog, cleanUp, err := newTestBoltArbLog(
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testChainHash, testChanPoint1,
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)
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if err != nil {
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return nil, nil, nil, fmt.Errorf("unable to create test log: %v",
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err)
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}
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return NewChannelArbitrator(arbCfg, nil, testLog),
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resolvedChan, cleanUp, nil
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}
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// assertState checks that the ChannelArbitrator is in the state we expect it
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// to be.
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func assertState(t *testing.T, c *ChannelArbitrator, expected ArbitratorState) {
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if c.state != expected {
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t.Fatalf("expected state %v, was %v", expected, c.state)
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}
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}
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// TestChannelArbitratorCooperativeClose tests that the ChannelArbitertor
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// correctly does nothing in case a cooperative close is confirmed.
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func TestChannelArbitratorCooperativeClose(t *testing.T) {
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chanArb, _, cleanUp, err := createTestChannelArbitrator()
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if err != nil {
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t.Fatalf("unable to create ChannelArbitrator: %v", err)
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}
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defer cleanUp()
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if err := chanArb.Start(); err != nil {
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t.Fatalf("unable to start ChannelArbitrator: %v", err)
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}
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defer chanArb.Stop()
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// It should start out in the default state.
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assertState(t, chanArb, StateDefault)
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// Cooperative close should do nothing.
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// TODO: this will change?
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chanArb.cfg.ChainEvents.CooperativeClosure <- struct{}{}
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assertState(t, chanArb, StateDefault)
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}
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// TestChannelArbitratorRemoteForceClose checks that the ChannelArbitrotor goes
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// through the expected states if a remote force close is observed in the
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// chain.
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func TestChannelArbitratorRemoteForceClose(t *testing.T) {
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chanArb, resolved, cleanUp, err := createTestChannelArbitrator()
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if err != nil {
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t.Fatalf("unable to create ChannelArbitrator: %v", err)
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}
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defer cleanUp()
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if err := chanArb.Start(); err != nil {
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t.Fatalf("unable to start ChannelArbitrator: %v", err)
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}
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defer chanArb.Stop()
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// It should start out in the default state.
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assertState(t, chanArb, StateDefault)
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// Send a remote force close event.
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commitSpend := &chainntnfs.SpendDetail{
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SpenderTxHash: &chainhash.Hash{},
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}
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uniClose := &lnwallet.UnilateralCloseSummary{
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SpendDetail: commitSpend,
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HtlcResolutions: &lnwallet.HtlcResolutions{},
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}
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chanArb.cfg.ChainEvents.RemoteUnilateralClosure <- uniClose
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// It should mark the channel as resolved.
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select {
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case <-resolved:
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// Expected.
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case <-time.After(5 * time.Second):
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t.Fatalf("contract was not resolved")
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}
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// TODO: intermediate states.
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// We expect the ChannelArbitrator to end up in the the resolved state.
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assertState(t, chanArb, StateFullyResolved)
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}
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// TestChannelArbitratorLocalForceClose tests that the ChannelArbitrator goes
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// through the expected states in case we request it to force close the channel,
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// and the local force close event is observed in chain.
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func TestChannelArbitratorLocalForceClose(t *testing.T) {
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chanArb, resolved, cleanUp, err := createTestChannelArbitrator()
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if err != nil {
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t.Fatalf("unable to create ChannelArbitrator: %v", err)
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}
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defer cleanUp()
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if err := chanArb.Start(); err != nil {
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t.Fatalf("unable to start ChannelArbitrator: %v", err)
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}
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defer chanArb.Stop()
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// It should start out in the default state.
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assertState(t, chanArb, StateDefault)
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// We create a channel we can use to pause the ChannelArbitrator at the
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// point where it broadcasts the close tx, and check its state.
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stateChan := make(chan ArbitratorState)
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chanArb.cfg.PublishTx = func(*wire.MsgTx) error {
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// When the force close tx is being broadcasted, check that the
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// state is correct at that point.
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select {
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case stateChan <- chanArb.state:
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case <-chanArb.quit:
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return fmt.Errorf("exiting")
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}
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return nil
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}
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errChan := make(chan error, 1)
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respChan := make(chan *wire.MsgTx, 1)
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// With the channel found, and the request crafted, we'll send over a
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// force close request to the arbitrator that watches this channel.
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chanArb.forceCloseReqs <- &forceCloseReq{
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errResp: errChan,
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closeTx: respChan,
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}
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// When it is broadcasting the force close, its state should be
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// StateBroadcastCommit.
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select {
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case state := <-stateChan:
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if state != StateBroadcastCommit {
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t.Fatalf("state during PublishTx was %v", state)
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}
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case <-time.After(15 * time.Second):
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t.Fatalf("did not get state update")
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}
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select {
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case <-respChan:
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case err := <-errChan:
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t.Fatalf("error force closing channel: %v", err)
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case <-time.After(15 * time.Second):
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t.Fatalf("did not receive reponse")
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}
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// After broadcasting the close tx, it should be in state
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// StateCommitmentBroadcasted.
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assertState(t, chanArb, StateCommitmentBroadcasted)
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// Now notify about the local force close getting confirmed.
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chanArb.cfg.ChainEvents.LocalUnilateralClosure <- &LocalUnilateralCloseInfo{
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&chainntnfs.SpendDetail{},
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&lnwallet.LocalForceCloseSummary{
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CloseTx: &wire.MsgTx{},
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HtlcResolutions: &lnwallet.HtlcResolutions{},
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},
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}
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// It should mark the channel as resolved.
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select {
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case <-resolved:
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// Expected.
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case <-time.After(5 * time.Second):
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t.Fatalf("contract was not resolved")
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}
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// And end up in the StateFullyResolved state.
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// TODO: intermediate states as well.
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assertState(t, chanArb, StateFullyResolved)
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}
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// TestChannelArbitratorLocalForceCloseRemoteConfiremd tests that the
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// ChannelArbitrator behaves as expected in the case where we request a local
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// force close, but a remote commitment ends up being confirmed in chain.
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func TestChannelArbitratorLocalForceCloseRemoteConfirmed(t *testing.T) {
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chanArb, resolved, cleanUp, err := createTestChannelArbitrator()
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if err != nil {
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t.Fatalf("unable to create ChannelArbitrator: %v", err)
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}
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defer cleanUp()
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if err := chanArb.Start(); err != nil {
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t.Fatalf("unable to start ChannelArbitrator: %v", err)
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}
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defer chanArb.Stop()
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// It should start out in the default state.
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assertState(t, chanArb, StateDefault)
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// Create a channel we can use to assert the state when it publishes
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// the close tx.
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stateChan := make(chan ArbitratorState)
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chanArb.cfg.PublishTx = func(*wire.MsgTx) error {
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// When the force close tx is being broadcasted, check that the
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// state is correct at that point.
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select {
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case stateChan <- chanArb.state:
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case <-chanArb.quit:
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return fmt.Errorf("exiting")
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}
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return nil
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}
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errChan := make(chan error, 1)
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respChan := make(chan *wire.MsgTx, 1)
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// With the channel found, and the request crafted, we'll send over a
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// force close request to the arbitrator that watches this channel.
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chanArb.forceCloseReqs <- &forceCloseReq{
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errResp: errChan,
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closeTx: respChan,
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}
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// We expect it to be in state StateBroadcastCommit when publishing
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// the force close.
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select {
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case state := <-stateChan:
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if state != StateBroadcastCommit {
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t.Fatalf("state during PublishTx was %v", state)
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}
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case <-time.After(15 * time.Second):
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t.Fatalf("no state update received")
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}
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// Wait for a response to the force close.
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select {
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case <-respChan:
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case err := <-errChan:
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t.Fatalf("error force closing channel: %v", err)
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case <-time.After(15 * time.Second):
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t.Fatalf("no response received")
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}
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// The state should be StateCommitmentBroadcasted.
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assertState(t, chanArb, StateCommitmentBroadcasted)
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// Now notify about the _REMOTE_ commitment getting confirmed.
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commitSpend := &chainntnfs.SpendDetail{
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SpenderTxHash: &chainhash.Hash{},
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}
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uniClose := &lnwallet.UnilateralCloseSummary{
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SpendDetail: commitSpend,
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HtlcResolutions: &lnwallet.HtlcResolutions{},
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}
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chanArb.cfg.ChainEvents.RemoteUnilateralClosure <- uniClose
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// It should resolve.
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select {
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case <-resolved:
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// Expected.
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case <-time.After(15 * time.Second):
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t.Fatalf("contract was not resolved")
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}
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// And we expect it to end up in StateFullyResolved.
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// TODO: intermediate states as well.
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assertState(t, chanArb, StateFullyResolved)
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}
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// TestChannelArbitratorLocalForceCloseDoubleSpend tests that the
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// ChannelArbitrator behaves as expected in the case where we request a local
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// force close, but we fail broadcasting our commitment because a remote
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// commitment has already been published.
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func TestChannelArbitratorLocalForceDoubleSpend(t *testing.T) {
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chanArb, resolved, cleanUp, err := createTestChannelArbitrator()
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if err != nil {
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t.Fatalf("unable to create ChannelArbitrator: %v", err)
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}
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defer cleanUp()
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if err := chanArb.Start(); err != nil {
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t.Fatalf("unable to start ChannelArbitrator: %v", err)
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}
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defer chanArb.Stop()
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// It should start out in the default state.
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assertState(t, chanArb, StateDefault)
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// Return ErrDoubleSpend when attempting to publish the tx.
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stateChan := make(chan ArbitratorState)
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chanArb.cfg.PublishTx = func(*wire.MsgTx) error {
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// When the force close tx is being broadcasted, check that the
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// state is correct at that point.
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select {
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case stateChan <- chanArb.state:
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case <-chanArb.quit:
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return fmt.Errorf("exiting")
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}
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return lnwallet.ErrDoubleSpend
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}
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errChan := make(chan error, 1)
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respChan := make(chan *wire.MsgTx, 1)
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// With the channel found, and the request crafted, we'll send over a
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// force close request to the arbitrator that watches this channel.
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chanArb.forceCloseReqs <- &forceCloseReq{
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errResp: errChan,
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closeTx: respChan,
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}
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// We expect it to be in state StateBroadcastCommit when publishing
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// the force close.
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select {
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case state := <-stateChan:
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if state != StateBroadcastCommit {
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t.Fatalf("state during PublishTx was %v", state)
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}
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case <-time.After(15 * time.Second):
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t.Fatalf("no state update received")
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}
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// Wait for a response to the force close.
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select {
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case <-respChan:
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case err := <-errChan:
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t.Fatalf("error force closing channel: %v", err)
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case <-time.After(15 * time.Second):
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t.Fatalf("no response received")
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}
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// The state should be StateCommitmentBroadcasted.
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assertState(t, chanArb, StateCommitmentBroadcasted)
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// Now notify about the _REMOTE_ commitment getting confirmed.
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commitSpend := &chainntnfs.SpendDetail{
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SpenderTxHash: &chainhash.Hash{},
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}
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uniClose := &lnwallet.UnilateralCloseSummary{
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SpendDetail: commitSpend,
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HtlcResolutions: &lnwallet.HtlcResolutions{},
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}
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chanArb.cfg.ChainEvents.RemoteUnilateralClosure <- uniClose
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// It should resolve.
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select {
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case <-resolved:
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// Expected.
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case <-time.After(15 * time.Second):
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t.Fatalf("contract was not resolved")
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}
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// And we expect it to end up in StateFullyResolved.
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// TODO: intermediate states as well.
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assertState(t, chanArb, StateFullyResolved)
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}
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