a550ca3d64
Since we will use peer flap rate to determine how we rate limit, we store this value on disk per peer per channel. This allows us to restart with memory of our peers past behaviour, so we don't give badly behaving peers have a fresh start on restart. Last flap timestamp is stored with our flap count so that we can degrade this all time flap count over time for peers that have not recently flapped.
307 lines
9.3 KiB
Go
307 lines
9.3 KiB
Go
package chanfitness
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import (
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"math/big"
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"testing"
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"time"
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"github.com/btcsuite/btcd/btcec"
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"github.com/btcsuite/btcd/chaincfg/chainhash"
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"github.com/btcsuite/btcd/wire"
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"github.com/lightningnetwork/lnd/channeldb"
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"github.com/lightningnetwork/lnd/channelnotifier"
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"github.com/lightningnetwork/lnd/clock"
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"github.com/lightningnetwork/lnd/peernotifier"
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"github.com/lightningnetwork/lnd/routing/route"
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"github.com/lightningnetwork/lnd/subscribe"
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"github.com/lightningnetwork/lnd/ticker"
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"github.com/stretchr/testify/require"
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)
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// timeout is the amount of time we allow our blocking test calls.
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var timeout = time.Second
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// chanEventStoreTestCtx is a helper struct which can be used to test the
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// channel event store.
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type chanEventStoreTestCtx struct {
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t *testing.T
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store *ChannelEventStore
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channelSubscription *mockSubscription
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peerSubscription *mockSubscription
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// testVarIdx is an index which will be used to deterministically add
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// channels and public keys to our test context. We use a single value
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// for a single pubkey + channel combination because its actual value
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// does not matter.
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testVarIdx int
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// clock is the clock that our test store will use.
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clock *clock.TestClock
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// flapUpdates stores our most recent set of updates flap counts.
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flapUpdates peerFlapCountMap
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// flapCountUpdates is a channel which receives new flap counts.
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flapCountUpdates chan peerFlapCountMap
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// stopped is closed when our test context is fully shutdown. It is
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// used to prevent calling of functions which can only be called after
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// shutdown.
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stopped chan struct{}
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}
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// newChanEventStoreTestCtx creates a test context which can be used to test
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// the event store.
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func newChanEventStoreTestCtx(t *testing.T) *chanEventStoreTestCtx {
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testCtx := &chanEventStoreTestCtx{
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t: t,
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channelSubscription: newMockSubscription(t),
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peerSubscription: newMockSubscription(t),
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clock: clock.NewTestClock(testNow),
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flapUpdates: make(peerFlapCountMap),
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flapCountUpdates: make(chan peerFlapCountMap),
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stopped: make(chan struct{}),
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}
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cfg := &Config{
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Clock: testCtx.clock,
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SubscribeChannelEvents: func() (subscribe.Subscription, error) {
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return testCtx.channelSubscription, nil
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},
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SubscribePeerEvents: func() (subscribe.Subscription, error) {
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return testCtx.peerSubscription, nil
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},
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GetOpenChannels: func() ([]*channeldb.OpenChannel, error) {
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return nil, nil
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},
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WriteFlapCount: func(updates map[route.Vertex]*channeldb.FlapCount) error {
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// Send our whole update map into the test context's
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// updates channel. The test will need to assert flap
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// count updated or this send will timeout.
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select {
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case testCtx.flapCountUpdates <- updates:
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case <-time.After(timeout):
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t.Fatalf("WriteFlapCount timeout")
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}
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return nil
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},
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ReadFlapCount: func(peer route.Vertex) (*channeldb.FlapCount, error) {
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count, ok := testCtx.flapUpdates[peer]
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if !ok {
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return nil, channeldb.ErrNoPeerBucket
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}
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return count, nil
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},
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FlapCountTicker: ticker.NewForce(FlapCountFlushRate),
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}
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testCtx.store = NewChannelEventStore(cfg)
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return testCtx
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}
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// start starts the test context's event store.
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func (c *chanEventStoreTestCtx) start() {
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require.NoError(c.t, c.store.Start())
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}
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// stop stops the channel event store's subscribe servers and the store itself.
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func (c *chanEventStoreTestCtx) stop() {
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// On shutdown of our event store, we write flap counts to disk. In our
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// test context, this write function is blocked on asserting that the
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// update has occurred. We stop our store in a goroutine so that we
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// can shut it down and assert that it performs these on-shutdown
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// updates. The stopped channel is used to ensure that we do not finish
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// our test before this shutdown has completed.
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go func() {
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c.store.Stop()
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close(c.stopped)
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}()
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// We write our flap count to disk on shutdown, assert that the most
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// recent record that the server has is written on shutdown. Calling
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// this assert unblocks the stop function above. We don't check values
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// here, so that our tests don't all require providing an expected swap
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// count, but at least assert that the write occurred.
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c.assertFlapCountUpdated()
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<-c.stopped
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// Make sure that the cancel function was called for both of our
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// subscription mocks.
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c.channelSubscription.assertCancelled()
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c.peerSubscription.assertCancelled()
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}
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// newChannel creates a new, unique test channel. Note that this function
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// does not add it to the test event store, it just creates mocked values.
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func (c *chanEventStoreTestCtx) newChannel() (route.Vertex, *btcec.PublicKey,
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wire.OutPoint) {
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// Create a pubkey for our channel peer.
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pubKey := &btcec.PublicKey{
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X: big.NewInt(int64(c.testVarIdx)),
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Y: big.NewInt(int64(c.testVarIdx)),
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Curve: btcec.S256(),
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}
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// Create vertex from our pubkey.
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vertex, err := route.NewVertexFromBytes(pubKey.SerializeCompressed())
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require.NoError(c.t, err)
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// Create a channel point using our channel index, then increment it.
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chanPoint := wire.OutPoint{
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Hash: [chainhash.HashSize]byte{1, 2, 3},
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Index: uint32(c.testVarIdx),
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}
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// Increment the index we use so that the next channel and pubkey we
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// create will be unique.
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c.testVarIdx++
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return vertex, pubKey, chanPoint
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}
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// createChannel creates a new channel, notifies the event store that it has
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// been created and returns the peer vertex, pubkey and channel point.
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func (c *chanEventStoreTestCtx) createChannel() (route.Vertex, *btcec.PublicKey,
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wire.OutPoint) {
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vertex, pubKey, chanPoint := c.newChannel()
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c.sendChannelOpenedUpdate(pubKey, chanPoint)
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return vertex, pubKey, chanPoint
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}
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// closeChannel sends a close channel event to our subscribe server.
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func (c *chanEventStoreTestCtx) closeChannel(channel wire.OutPoint,
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peer *btcec.PublicKey) {
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update := channelnotifier.ClosedChannelEvent{
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CloseSummary: &channeldb.ChannelCloseSummary{
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ChanPoint: channel,
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RemotePub: peer,
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},
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}
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c.channelSubscription.sendUpdate(update)
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}
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// tickFlapCount forces a tick for our flap count ticker with the current time.
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func (c *chanEventStoreTestCtx) tickFlapCount() {
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testTicker := c.store.cfg.FlapCountTicker.(*ticker.Force)
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select {
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case testTicker.Force <- c.store.cfg.Clock.Now():
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case <-time.After(timeout):
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c.t.Fatalf("could not tick flap count ticker")
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}
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}
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// peerEvent sends a peer online or offline event to the store for the peer
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// provided.
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func (c *chanEventStoreTestCtx) peerEvent(peer route.Vertex, online bool) {
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var update interface{}
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if online {
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update = peernotifier.PeerOnlineEvent{PubKey: peer}
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} else {
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update = peernotifier.PeerOfflineEvent{PubKey: peer}
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}
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c.peerSubscription.sendUpdate(update)
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}
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// sendChannelOpenedUpdate notifies the test event store that a channel has
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// been opened.
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func (c *chanEventStoreTestCtx) sendChannelOpenedUpdate(pubkey *btcec.PublicKey,
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channel wire.OutPoint) {
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update := channelnotifier.OpenChannelEvent{
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Channel: &channeldb.OpenChannel{
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FundingOutpoint: channel,
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IdentityPub: pubkey,
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},
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}
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c.channelSubscription.sendUpdate(update)
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}
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// assertFlapCountUpdated asserts that our store has made an attempt to write
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// our current set of flap counts to disk and sets this value in our test ctx.
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// Note that it does not check the values of the update.
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func (c *chanEventStoreTestCtx) assertFlapCountUpdated() {
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select {
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case c.flapUpdates = <-c.flapCountUpdates:
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case <-time.After(timeout):
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c.t.Fatalf("assertFlapCountUpdated timeout")
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}
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}
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// assertFlapCountUpdates asserts that out current record of flap counts is
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// as expected.
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func (c *chanEventStoreTestCtx) assertFlapCountUpdates(expected peerFlapCountMap) {
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require.Equal(c.t, expected, c.flapUpdates)
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}
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// mockSubscription is a mock subscription client that blocks on sends into the
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// updates channel. We use this mock rather than an actual subscribe client
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// because they do not block, which makes tests race (because we have no way
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// to guarantee that the test client consumes the update before shutdown).
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type mockSubscription struct {
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t *testing.T
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updates chan interface{}
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// Embed the subscription interface in this mock so that we satisfy it.
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subscribe.Subscription
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}
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// newMockSubscription creates a mock subscription.
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func newMockSubscription(t *testing.T) *mockSubscription {
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return &mockSubscription{
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t: t,
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updates: make(chan interface{}),
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}
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}
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// sendUpdate sends an update into our updates channel, mocking the dispatch of
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// an update from a subscription server. This call will fail the test if the
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// update is not consumed within our timeout.
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func (m *mockSubscription) sendUpdate(update interface{}) {
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select {
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case m.updates <- update:
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case <-time.After(timeout):
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m.t.Fatalf("update: %v timeout", update)
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}
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}
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// Updates returns the updates channel for the mock.
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func (m *mockSubscription) Updates() <-chan interface{} {
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return m.updates
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}
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// Cancel should be called in case the client no longer wants to subscribe for
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// updates from the server.
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func (m *mockSubscription) Cancel() {
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close(m.updates)
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}
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// assertCancelled asserts that the cancel function has been called for this
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// mock.
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func (m *mockSubscription) assertCancelled() {
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select {
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case _, open := <-m.updates:
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require.False(m.t, open, "subscription not cancelled")
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case <-time.After(timeout):
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m.t.Fatalf("assert cancelled timeout")
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}
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}
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