package chanfitness import ( "math/big" "testing" "time" "github.com/btcsuite/btcd/btcec" "github.com/btcsuite/btcd/chaincfg/chainhash" "github.com/btcsuite/btcd/wire" "github.com/lightningnetwork/lnd/channeldb" "github.com/lightningnetwork/lnd/channelnotifier" "github.com/lightningnetwork/lnd/clock" "github.com/lightningnetwork/lnd/peernotifier" "github.com/lightningnetwork/lnd/routing/route" "github.com/lightningnetwork/lnd/subscribe" "github.com/lightningnetwork/lnd/ticker" "github.com/stretchr/testify/require" ) // timeout is the amount of time we allow our blocking test calls. var timeout = time.Second // chanEventStoreTestCtx is a helper struct which can be used to test the // channel event store. type chanEventStoreTestCtx struct { t *testing.T store *ChannelEventStore channelSubscription *mockSubscription peerSubscription *mockSubscription // testVarIdx is an index which will be used to deterministically add // channels and public keys to our test context. We use a single value // for a single pubkey + channel combination because its actual value // does not matter. testVarIdx int // clock is the clock that our test store will use. clock *clock.TestClock // flapUpdates stores our most recent set of updates flap counts. flapUpdates peerFlapCountMap // flapCountUpdates is a channel which receives new flap counts. flapCountUpdates chan peerFlapCountMap // stopped is closed when our test context is fully shutdown. It is // used to prevent calling of functions which can only be called after // shutdown. stopped chan struct{} } // newChanEventStoreTestCtx creates a test context which can be used to test // the event store. func newChanEventStoreTestCtx(t *testing.T) *chanEventStoreTestCtx { testCtx := &chanEventStoreTestCtx{ t: t, channelSubscription: newMockSubscription(t), peerSubscription: newMockSubscription(t), clock: clock.NewTestClock(testNow), flapUpdates: make(peerFlapCountMap), flapCountUpdates: make(chan peerFlapCountMap), stopped: make(chan struct{}), } cfg := &Config{ Clock: testCtx.clock, SubscribeChannelEvents: func() (subscribe.Subscription, error) { return testCtx.channelSubscription, nil }, SubscribePeerEvents: func() (subscribe.Subscription, error) { return testCtx.peerSubscription, nil }, GetOpenChannels: func() ([]*channeldb.OpenChannel, error) { return nil, nil }, WriteFlapCount: func(updates map[route.Vertex]*channeldb.FlapCount) error { // Send our whole update map into the test context's // updates channel. The test will need to assert flap // count updated or this send will timeout. select { case testCtx.flapCountUpdates <- updates: case <-time.After(timeout): t.Fatalf("WriteFlapCount timeout") } return nil }, ReadFlapCount: func(peer route.Vertex) (*channeldb.FlapCount, error) { count, ok := testCtx.flapUpdates[peer] if !ok { return nil, channeldb.ErrNoPeerBucket } return count, nil }, FlapCountTicker: ticker.NewForce(FlapCountFlushRate), } testCtx.store = NewChannelEventStore(cfg) return testCtx } // start starts the test context's event store. func (c *chanEventStoreTestCtx) start() { require.NoError(c.t, c.store.Start()) } // stop stops the channel event store's subscribe servers and the store itself. func (c *chanEventStoreTestCtx) stop() { // On shutdown of our event store, we write flap counts to disk. In our // test context, this write function is blocked on asserting that the // update has occurred. We stop our store in a goroutine so that we // can shut it down and assert that it performs these on-shutdown // updates. The stopped channel is used to ensure that we do not finish // our test before this shutdown has completed. go func() { c.store.Stop() close(c.stopped) }() // We write our flap count to disk on shutdown, assert that the most // recent record that the server has is written on shutdown. Calling // this assert unblocks the stop function above. We don't check values // here, so that our tests don't all require providing an expected swap // count, but at least assert that the write occurred. c.assertFlapCountUpdated() <-c.stopped // Make sure that the cancel function was called for both of our // subscription mocks. c.channelSubscription.assertCancelled() c.peerSubscription.assertCancelled() } // newChannel creates a new, unique test channel. Note that this function // does not add it to the test event store, it just creates mocked values. func (c *chanEventStoreTestCtx) newChannel() (route.Vertex, *btcec.PublicKey, wire.OutPoint) { // Create a pubkey for our channel peer. pubKey := &btcec.PublicKey{ X: big.NewInt(int64(c.testVarIdx)), Y: big.NewInt(int64(c.testVarIdx)), Curve: btcec.S256(), } // Create vertex from our pubkey. vertex, err := route.NewVertexFromBytes(pubKey.SerializeCompressed()) require.NoError(c.t, err) // Create a channel point using our channel index, then increment it. chanPoint := wire.OutPoint{ Hash: [chainhash.HashSize]byte{1, 2, 3}, Index: uint32(c.testVarIdx), } // Increment the index we use so that the next channel and pubkey we // create will be unique. c.testVarIdx++ return vertex, pubKey, chanPoint } // createChannel creates a new channel, notifies the event store that it has // been created and returns the peer vertex, pubkey and channel point. func (c *chanEventStoreTestCtx) createChannel() (route.Vertex, *btcec.PublicKey, wire.OutPoint) { vertex, pubKey, chanPoint := c.newChannel() c.sendChannelOpenedUpdate(pubKey, chanPoint) return vertex, pubKey, chanPoint } // closeChannel sends a close channel event to our subscribe server. func (c *chanEventStoreTestCtx) closeChannel(channel wire.OutPoint, peer *btcec.PublicKey) { update := channelnotifier.ClosedChannelEvent{ CloseSummary: &channeldb.ChannelCloseSummary{ ChanPoint: channel, RemotePub: peer, }, } c.channelSubscription.sendUpdate(update) } // tickFlapCount forces a tick for our flap count ticker with the current time. func (c *chanEventStoreTestCtx) tickFlapCount() { testTicker := c.store.cfg.FlapCountTicker.(*ticker.Force) select { case testTicker.Force <- c.store.cfg.Clock.Now(): case <-time.After(timeout): c.t.Fatalf("could not tick flap count ticker") } } // peerEvent sends a peer online or offline event to the store for the peer // provided. func (c *chanEventStoreTestCtx) peerEvent(peer route.Vertex, online bool) { var update interface{} if online { update = peernotifier.PeerOnlineEvent{PubKey: peer} } else { update = peernotifier.PeerOfflineEvent{PubKey: peer} } c.peerSubscription.sendUpdate(update) } // sendChannelOpenedUpdate notifies the test event store that a channel has // been opened. func (c *chanEventStoreTestCtx) sendChannelOpenedUpdate(pubkey *btcec.PublicKey, channel wire.OutPoint) { update := channelnotifier.OpenChannelEvent{ Channel: &channeldb.OpenChannel{ FundingOutpoint: channel, IdentityPub: pubkey, }, } c.channelSubscription.sendUpdate(update) } // assertFlapCountUpdated asserts that our store has made an attempt to write // our current set of flap counts to disk and sets this value in our test ctx. // Note that it does not check the values of the update. func (c *chanEventStoreTestCtx) assertFlapCountUpdated() { select { case c.flapUpdates = <-c.flapCountUpdates: case <-time.After(timeout): c.t.Fatalf("assertFlapCountUpdated timeout") } } // assertFlapCountUpdates asserts that out current record of flap counts is // as expected. func (c *chanEventStoreTestCtx) assertFlapCountUpdates(expected peerFlapCountMap) { require.Equal(c.t, expected, c.flapUpdates) } // mockSubscription is a mock subscription client that blocks on sends into the // updates channel. We use this mock rather than an actual subscribe client // because they do not block, which makes tests race (because we have no way // to guarantee that the test client consumes the update before shutdown). type mockSubscription struct { t *testing.T updates chan interface{} // Embed the subscription interface in this mock so that we satisfy it. subscribe.Subscription } // newMockSubscription creates a mock subscription. func newMockSubscription(t *testing.T) *mockSubscription { return &mockSubscription{ t: t, updates: make(chan interface{}), } } // sendUpdate sends an update into our updates channel, mocking the dispatch of // an update from a subscription server. This call will fail the test if the // update is not consumed within our timeout. func (m *mockSubscription) sendUpdate(update interface{}) { select { case m.updates <- update: case <-time.After(timeout): m.t.Fatalf("update: %v timeout", update) } } // Updates returns the updates channel for the mock. func (m *mockSubscription) Updates() <-chan interface{} { return m.updates } // Cancel should be called in case the client no longer wants to subscribe for // updates from the server. func (m *mockSubscription) Cancel() { close(m.updates) } // assertCancelled asserts that the cancel function has been called for this // mock. func (m *mockSubscription) assertCancelled() { select { case _, open := <-m.updates: require.False(m.t, open, "subscription not cancelled") case <-time.After(timeout): m.t.Fatalf("assert cancelled timeout") } }