package chanbackup import ( "fmt" "testing" "time" "github.com/btcsuite/btcd/wire" "github.com/lightningnetwork/lnd/keychain" ) type mockSwapper struct { fail bool swaps chan PackedMulti swapState *Multi keyChain keychain.KeyRing } func newMockSwapper(keychain keychain.KeyRing) *mockSwapper { return &mockSwapper{ swaps: make(chan PackedMulti, 1), keyChain: keychain, swapState: &Multi{}, } } func (m *mockSwapper) UpdateAndSwap(newBackup PackedMulti) error { if m.fail { return fmt.Errorf("fail") } swapState, err := newBackup.Unpack(m.keyChain) if err != nil { return fmt.Errorf("unable to decode on disk swaps: %v", err) } m.swapState = swapState m.swaps <- newBackup return nil } func (m *mockSwapper) ExtractMulti(keychain keychain.KeyRing) (*Multi, error) { return m.swapState, nil } type mockChannelNotifier struct { fail bool chanEvents chan ChannelEvent } func newMockChannelNotifier() *mockChannelNotifier { return &mockChannelNotifier{ chanEvents: make(chan ChannelEvent), } } func (m *mockChannelNotifier) SubscribeChans(chans map[wire.OutPoint]struct{}) ( *ChannelSubscription, error) { if m.fail { return nil, fmt.Errorf("fail") } return &ChannelSubscription{ ChanUpdates: m.chanEvents, Cancel: func() { }, }, nil } // TestNewSubSwapperSubscribeFail tests that if we're unable to obtain a // channel subscription, then the entire sub-swapper will fail to start. func TestNewSubSwapperSubscribeFail(t *testing.T) { t.Parallel() keyRing := &mockKeyRing{} var swapper mockSwapper chanNotifier := mockChannelNotifier{ fail: true, } _, err := NewSubSwapper(nil, &chanNotifier, keyRing, &swapper) if err == nil { t.Fatalf("expected fail due to lack of subscription") } } func assertExpectedBackupSwap(t *testing.T, swapper *mockSwapper, subSwapper *SubSwapper, keyRing keychain.KeyRing, expectedChanSet map[wire.OutPoint]Single) { t.Helper() select { case newPackedMulti := <-swapper.swaps: // If we unpack the new multi, then we should find all the old // channels, and also the new channel included and any deleted // channel omitted. newMulti, err := newPackedMulti.Unpack(keyRing) if err != nil { t.Fatalf("unable to unpack multi: %v", err) } // Ensure that once unpacked, the current backup has the // expected number of Singles. if len(newMulti.StaticBackups) != len(expectedChanSet) { t.Fatalf("new backup wasn't included: expected %v "+ "backups have %v", len(expectedChanSet), len(newMulti.StaticBackups)) } // We should also find all the old and new channels in this new // backup. for _, backup := range newMulti.StaticBackups { _, ok := expectedChanSet[backup.FundingOutpoint] if !ok { t.Fatalf("didn't find backup in original set: %v", backup.FundingOutpoint) } } // The same applies for our in-memory state, but it's also // possible for there to be items in the on-disk state that we // don't know of explicit. newChans := make(map[wire.OutPoint]Single) for _, newChan := range newMulti.StaticBackups { newChans[newChan.FundingOutpoint] = newChan } for _, backup := range subSwapper.backupState { _, ok := newChans[backup.FundingOutpoint] if !ok { t.Fatalf("didn't find backup in original set: %v", backup.FundingOutpoint) } } case <-time.After(time.Second * 5): t.Fatalf("update swapper didn't swap out multi") } } // TestSubSwapperIdempotentStartStop tests that calling the Start/Stop methods // multiple time is permitted. func TestSubSwapperIdempotentStartStop(t *testing.T) { t.Parallel() keyRing := &mockKeyRing{} var chanNotifier mockChannelNotifier swapper := newMockSwapper(keyRing) subSwapper, err := NewSubSwapper(nil, &chanNotifier, keyRing, swapper) if err != nil { t.Fatalf("unable to init subSwapper: %v", err) } if err := subSwapper.Start(); err != nil { t.Fatalf("unable to start swapper: %v", err) } // The swapper should write the initial channel state as soon as it's // active. backupSet := make(map[wire.OutPoint]Single) assertExpectedBackupSwap(t, swapper, subSwapper, keyRing, backupSet) subSwapper.Start() subSwapper.Stop() subSwapper.Stop() } // TestSubSwapperUpdater tests that the SubSwapper will properly swap out // new/old channels within the channel set, and notify the swapper to update // the master multi file backup. func TestSubSwapperUpdater(t *testing.T) { t.Parallel() keyRing := &mockKeyRing{} chanNotifier := newMockChannelNotifier() swapper := newMockSwapper(keyRing) // First, we'll start out by creating a channels set for the initial // set of channels known to the sub-swapper. const numStartingChans = 3 initialChanSet := make([]Single, 0, numStartingChans) backupSet := make(map[wire.OutPoint]Single) for i := 0; i < numStartingChans; i++ { channel, err := genRandomOpenChannelShell() if err != nil { t.Fatalf("unable to make test chan: %v", err) } single := NewSingle(channel, nil) backupSet[channel.FundingOutpoint] = single initialChanSet = append(initialChanSet, single) } // We'll also generate two additional channels which will already be // present on disk. However, these will at first only be known by the // on disk backup (the backup set). const numDiskChans = 2 for i := 0; i < numDiskChans; i++ { channel, err := genRandomOpenChannelShell() if err != nil { t.Fatalf("unable to make test chan: %v", err) } single := NewSingle(channel, nil) backupSet[channel.FundingOutpoint] = single swapper.swapState.StaticBackups = append( swapper.swapState.StaticBackups, single, ) } // With our channel set created, we'll make a fresh sub swapper // instance to begin our test. subSwapper, err := NewSubSwapper( initialChanSet, chanNotifier, keyRing, swapper, ) if err != nil { t.Fatalf("unable to make swapper: %v", err) } if err := subSwapper.Start(); err != nil { t.Fatalf("unable to start sub swapper: %v", err) } defer subSwapper.Stop() // The swapper should write the initial channel state as soon as it's // active. assertExpectedBackupSwap(t, swapper, subSwapper, keyRing, backupSet) // Now that the sub-swapper is active, we'll notify to add a brand new // channel to the channel state. newChannel, err := genRandomOpenChannelShell() if err != nil { t.Fatalf("unable to create new chan: %v", err) } // With the new channel created, we'll send a new update to the main // goroutine telling it about this new channel. select { case chanNotifier.chanEvents <- ChannelEvent{ NewChans: []ChannelWithAddrs{ { OpenChannel: newChannel, }, }, }: case <-time.After(time.Second * 5): t.Fatalf("update swapper didn't read new channel: %v", err) } backupSet[newChannel.FundingOutpoint] = NewSingle(newChannel, nil) // At this point, the sub-swapper should now have packed a new multi, // and then sent it to the swapper so the back up can be updated. assertExpectedBackupSwap(t, swapper, subSwapper, keyRing, backupSet) // We'll now trigger an update to remove an existing channel. chanToDelete := initialChanSet[0].FundingOutpoint select { case chanNotifier.chanEvents <- ChannelEvent{ ClosedChans: []wire.OutPoint{chanToDelete}, }: case <-time.After(time.Second * 5): t.Fatalf("update swapper didn't read new channel: %v", err) } delete(backupSet, chanToDelete) // Verify that the new set of backups, now has one less after the // sub-swapper switches the new set with the old. assertExpectedBackupSwap(t, swapper, subSwapper, keyRing, backupSet) }