ce2796257e
This refactor-only change makes the GetChanPointFundingTxid helper function available from sub-systems outside of the root lnd package.
414 lines
13 KiB
Go
414 lines
13 KiB
Go
package itest
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import (
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"context"
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"time"
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"github.com/btcsuite/btcd/wire"
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"github.com/btcsuite/btcutil"
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"github.com/lightningnetwork/lnd/chainreg"
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"github.com/lightningnetwork/lnd/lnrpc"
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"github.com/lightningnetwork/lnd/lnrpc/routerrpc"
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"github.com/lightningnetwork/lnd/lntest"
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)
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func testMultiHopPayments(net *lntest.NetworkHarness, t *harnessTest) {
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ctxb := context.Background()
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const chanAmt = btcutil.Amount(100000)
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var networkChans []*lnrpc.ChannelPoint
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// Open a channel with 100k satoshis between Alice and Bob with Alice
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// being the sole funder of the channel.
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ctxt, _ := context.WithTimeout(ctxb, channelOpenTimeout)
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chanPointAlice := openChannelAndAssert(
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ctxt, t, net, net.Alice, net.Bob,
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lntest.OpenChannelParams{
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Amt: chanAmt,
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},
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)
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networkChans = append(networkChans, chanPointAlice)
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aliceChanTXID, err := lnrpc.GetChanPointFundingTxid(chanPointAlice)
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if err != nil {
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t.Fatalf("unable to get txid: %v", err)
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}
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aliceFundPoint := wire.OutPoint{
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Hash: *aliceChanTXID,
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Index: chanPointAlice.OutputIndex,
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}
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// As preliminary setup, we'll create two new nodes: Carol and Dave,
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// such that we now have a 4 node, 3 channel topology. Dave will make a
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// channel with Alice, and Carol with Dave. After this setup, the
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// network topology should now look like:
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// Carol -> Dave -> Alice -> Bob
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//
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// First, we'll create Dave and establish a channel to Alice. Dave will
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// be running an older node that requires the legacy onion payload.
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daveArgs := []string{"--protocol.legacy.onion"}
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dave, err := net.NewNode("Dave", daveArgs)
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if err != nil {
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t.Fatalf("unable to create new nodes: %v", err)
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}
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defer shutdownAndAssert(net, t, dave)
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ctxt, _ = context.WithTimeout(ctxb, defaultTimeout)
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if err := net.ConnectNodes(ctxt, dave, net.Alice); err != nil {
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t.Fatalf("unable to connect dave to alice: %v", err)
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}
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ctxt, _ = context.WithTimeout(ctxb, defaultTimeout)
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err = net.SendCoins(ctxt, btcutil.SatoshiPerBitcoin, dave)
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if err != nil {
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t.Fatalf("unable to send coins to dave: %v", err)
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}
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ctxt, _ = context.WithTimeout(ctxb, channelOpenTimeout)
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chanPointDave := openChannelAndAssert(
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ctxt, t, net, dave, net.Alice,
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lntest.OpenChannelParams{
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Amt: chanAmt,
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},
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)
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networkChans = append(networkChans, chanPointDave)
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daveChanTXID, err := lnrpc.GetChanPointFundingTxid(chanPointDave)
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if err != nil {
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t.Fatalf("unable to get txid: %v", err)
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}
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daveFundPoint := wire.OutPoint{
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Hash: *daveChanTXID,
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Index: chanPointDave.OutputIndex,
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}
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// Next, we'll create Carol and establish a channel to from her to
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// Dave.
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carol, err := net.NewNode("Carol", nil)
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if err != nil {
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t.Fatalf("unable to create new nodes: %v", err)
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}
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defer shutdownAndAssert(net, t, carol)
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ctxt, _ = context.WithTimeout(ctxb, defaultTimeout)
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if err := net.ConnectNodes(ctxt, carol, dave); err != nil {
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t.Fatalf("unable to connect carol to dave: %v", err)
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}
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ctxt, _ = context.WithTimeout(ctxb, defaultTimeout)
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err = net.SendCoins(ctxt, btcutil.SatoshiPerBitcoin, carol)
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if err != nil {
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t.Fatalf("unable to send coins to carol: %v", err)
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}
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ctxt, _ = context.WithTimeout(ctxb, channelOpenTimeout)
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chanPointCarol := openChannelAndAssert(
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ctxt, t, net, carol, dave,
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lntest.OpenChannelParams{
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Amt: chanAmt,
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},
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)
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networkChans = append(networkChans, chanPointCarol)
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carolChanTXID, err := lnrpc.GetChanPointFundingTxid(chanPointCarol)
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if err != nil {
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t.Fatalf("unable to get txid: %v", err)
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}
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carolFundPoint := wire.OutPoint{
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Hash: *carolChanTXID,
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Index: chanPointCarol.OutputIndex,
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}
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// Wait for all nodes to have seen all channels.
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nodes := []*lntest.HarnessNode{net.Alice, net.Bob, carol, dave}
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nodeNames := []string{"Alice", "Bob", "Carol", "Dave"}
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for _, chanPoint := range networkChans {
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for i, node := range nodes {
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txid, err := lnrpc.GetChanPointFundingTxid(chanPoint)
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if err != nil {
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t.Fatalf("unable to get txid: %v", err)
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}
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point := wire.OutPoint{
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Hash: *txid,
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Index: chanPoint.OutputIndex,
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}
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ctxt, _ = context.WithTimeout(ctxb, defaultTimeout)
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err = node.WaitForNetworkChannelOpen(ctxt, chanPoint)
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if err != nil {
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t.Fatalf("%s(%d): timeout waiting for "+
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"channel(%s) open: %v", nodeNames[i],
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node.NodeID, point, err)
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}
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}
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}
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// Create 5 invoices for Bob, which expect a payment from Carol for 1k
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// satoshis with a different preimage each time.
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const numPayments = 5
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const paymentAmt = 1000
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payReqs, _, _, err := createPayReqs(
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net.Bob, paymentAmt, numPayments,
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)
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if err != nil {
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t.Fatalf("unable to create pay reqs: %v", err)
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}
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// We'll wait for all parties to recognize the new channels within the
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// network.
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ctxt, _ = context.WithTimeout(ctxb, defaultTimeout)
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err = dave.WaitForNetworkChannelOpen(ctxt, chanPointDave)
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if err != nil {
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t.Fatalf("dave didn't advertise his channel: %v", err)
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}
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ctxt, _ = context.WithTimeout(ctxb, defaultTimeout)
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err = carol.WaitForNetworkChannelOpen(ctxt, chanPointCarol)
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if err != nil {
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t.Fatalf("carol didn't advertise her channel in time: %v",
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err)
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}
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time.Sleep(time.Millisecond * 50)
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// Set the fee policies of the Alice -> Bob and the Dave -> Alice
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// channel edges to relatively large non default values. This makes it
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// possible to pick up more subtle fee calculation errors.
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maxHtlc := calculateMaxHtlc(chanAmt)
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const aliceBaseFeeSat = 1
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const aliceFeeRatePPM = 100000
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updateChannelPolicy(
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t, net.Alice, chanPointAlice, aliceBaseFeeSat*1000,
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aliceFeeRatePPM, chainreg.DefaultBitcoinTimeLockDelta, maxHtlc,
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carol,
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)
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const daveBaseFeeSat = 5
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const daveFeeRatePPM = 150000
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updateChannelPolicy(
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t, dave, chanPointDave, daveBaseFeeSat*1000, daveFeeRatePPM,
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chainreg.DefaultBitcoinTimeLockDelta, maxHtlc, carol,
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)
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// Before we start sending payments, subscribe to htlc events for each
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// node.
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ctxt, cancel := context.WithTimeout(ctxb, defaultTimeout)
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defer cancel()
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aliceEvents, err := net.Alice.RouterClient.SubscribeHtlcEvents(
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ctxt, &routerrpc.SubscribeHtlcEventsRequest{},
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)
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if err != nil {
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t.Fatalf("could not subscribe events: %v", err)
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}
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bobEvents, err := net.Bob.RouterClient.SubscribeHtlcEvents(
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ctxt, &routerrpc.SubscribeHtlcEventsRequest{},
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)
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if err != nil {
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t.Fatalf("could not subscribe events: %v", err)
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}
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carolEvents, err := carol.RouterClient.SubscribeHtlcEvents(
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ctxt, &routerrpc.SubscribeHtlcEventsRequest{},
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)
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if err != nil {
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t.Fatalf("could not subscribe events: %v", err)
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}
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daveEvents, err := dave.RouterClient.SubscribeHtlcEvents(
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ctxt, &routerrpc.SubscribeHtlcEventsRequest{},
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)
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if err != nil {
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t.Fatalf("could not subscribe events: %v", err)
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}
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// Using Carol as the source, pay to the 5 invoices from Bob created
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// above.
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ctxt, _ = context.WithTimeout(ctxb, defaultTimeout)
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err = completePaymentRequests(
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ctxt, carol, carol.RouterClient, payReqs, true,
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)
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if err != nil {
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t.Fatalf("unable to send payments: %v", err)
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}
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// At this point all the channels within our proto network should be
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// shifted by 5k satoshis in the direction of Bob, the sink within the
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// payment flow generated above. The order of asserts corresponds to
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// increasing of time is needed to embed the HTLC in commitment
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// transaction, in channel Carol->David->Alice->Bob, order is Bob,
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// Alice, David, Carol.
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// The final node bob expects to get paid five times 1000 sat.
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expectedAmountPaidAtoB := int64(numPayments * paymentAmt)
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assertAmountPaid(t, "Alice(local) => Bob(remote)", net.Bob,
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aliceFundPoint, int64(0), expectedAmountPaidAtoB)
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assertAmountPaid(t, "Alice(local) => Bob(remote)", net.Alice,
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aliceFundPoint, expectedAmountPaidAtoB, int64(0))
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// To forward a payment of 1000 sat, Alice is charging a fee of
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// 1 sat + 10% = 101 sat.
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const aliceFeePerPayment = aliceBaseFeeSat +
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(paymentAmt * aliceFeeRatePPM / 1_000_000)
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const expectedFeeAlice = numPayments * aliceFeePerPayment
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// Dave needs to pay what Alice pays plus Alice's fee.
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expectedAmountPaidDtoA := expectedAmountPaidAtoB + expectedFeeAlice
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assertAmountPaid(t, "Dave(local) => Alice(remote)", net.Alice,
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daveFundPoint, int64(0), expectedAmountPaidDtoA)
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assertAmountPaid(t, "Dave(local) => Alice(remote)", dave,
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daveFundPoint, expectedAmountPaidDtoA, int64(0))
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// To forward a payment of 1101 sat, Dave is charging a fee of
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// 5 sat + 15% = 170.15 sat. This is rounded down in rpcserver to 170.
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const davePaymentAmt = paymentAmt + aliceFeePerPayment
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const daveFeePerPayment = daveBaseFeeSat +
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(davePaymentAmt * daveFeeRatePPM / 1_000_000)
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const expectedFeeDave = numPayments * daveFeePerPayment
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// Carol needs to pay what Dave pays plus Dave's fee.
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expectedAmountPaidCtoD := expectedAmountPaidDtoA + expectedFeeDave
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assertAmountPaid(t, "Carol(local) => Dave(remote)", dave,
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carolFundPoint, int64(0), expectedAmountPaidCtoD)
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assertAmountPaid(t, "Carol(local) => Dave(remote)", carol,
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carolFundPoint, expectedAmountPaidCtoD, int64(0))
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// Now that we know all the balances have been settled out properly,
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// we'll ensure that our internal record keeping for completed circuits
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// was properly updated.
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// First, check that the FeeReport response shows the proper fees
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// accrued over each time range. Dave should've earned 170 satoshi for
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// each of the forwarded payments.
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ctxt, _ = context.WithTimeout(ctxb, defaultTimeout)
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feeReport, err := dave.FeeReport(ctxt, &lnrpc.FeeReportRequest{})
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if err != nil {
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t.Fatalf("unable to query for fee report: %v", err)
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}
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if feeReport.DayFeeSum != uint64(expectedFeeDave) {
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t.Fatalf("fee mismatch: expected %v, got %v", expectedFeeDave,
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feeReport.DayFeeSum)
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}
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if feeReport.WeekFeeSum != uint64(expectedFeeDave) {
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t.Fatalf("fee mismatch: expected %v, got %v", expectedFeeDave,
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feeReport.WeekFeeSum)
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}
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if feeReport.MonthFeeSum != uint64(expectedFeeDave) {
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t.Fatalf("fee mismatch: expected %v, got %v", expectedFeeDave,
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feeReport.MonthFeeSum)
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}
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// Next, ensure that if we issue the vanilla query for the forwarding
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// history, it returns 5 values, and each entry is formatted properly.
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ctxt, _ = context.WithTimeout(ctxb, defaultTimeout)
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fwdingHistory, err := dave.ForwardingHistory(
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ctxt, &lnrpc.ForwardingHistoryRequest{},
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)
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if err != nil {
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t.Fatalf("unable to query for fee report: %v", err)
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}
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if len(fwdingHistory.ForwardingEvents) != numPayments {
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t.Fatalf("wrong number of forwarding event: expected %v, "+
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"got %v", numPayments,
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len(fwdingHistory.ForwardingEvents))
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}
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expectedForwardingFee := uint64(expectedFeeDave / numPayments)
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for _, event := range fwdingHistory.ForwardingEvents {
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// Each event should show a fee of 170 satoshi.
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if event.Fee != expectedForwardingFee {
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t.Fatalf("fee mismatch: expected %v, got %v",
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expectedForwardingFee, event.Fee)
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}
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}
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// We expect Carol to have successful forwards and settles for
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// her sends.
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assertHtlcEvents(
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t, numPayments, 0, numPayments, routerrpc.HtlcEvent_SEND,
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carolEvents,
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)
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// Dave and Alice should both have forwards and settles for
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// their role as forwarding nodes.
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assertHtlcEvents(
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t, numPayments, 0, numPayments, routerrpc.HtlcEvent_FORWARD,
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daveEvents,
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)
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assertHtlcEvents(
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t, numPayments, 0, numPayments, routerrpc.HtlcEvent_FORWARD,
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aliceEvents,
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)
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// Bob should only have settle events for his receives.
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assertHtlcEvents(
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t, 0, 0, numPayments, routerrpc.HtlcEvent_RECEIVE, bobEvents,
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)
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ctxt, _ = context.WithTimeout(ctxb, channelCloseTimeout)
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closeChannelAndAssert(ctxt, t, net, net.Alice, chanPointAlice, false)
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ctxt, _ = context.WithTimeout(ctxb, channelCloseTimeout)
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closeChannelAndAssert(ctxt, t, net, dave, chanPointDave, false)
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ctxt, _ = context.WithTimeout(ctxb, channelCloseTimeout)
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closeChannelAndAssert(ctxt, t, net, carol, chanPointCarol, false)
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}
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// assertHtlcEvents consumes events from a client and ensures that they are of
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// the expected type and contain the expected number of forwards, forward
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// failures and settles.
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func assertHtlcEvents(t *harnessTest, fwdCount, fwdFailCount, settleCount int,
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userType routerrpc.HtlcEvent_EventType,
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client routerrpc.Router_SubscribeHtlcEventsClient) {
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var forwards, forwardFails, settles int
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numEvents := fwdCount + fwdFailCount + settleCount
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for i := 0; i < numEvents; i++ {
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event := assertEventAndType(t, userType, client)
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switch event.Event.(type) {
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case *routerrpc.HtlcEvent_ForwardEvent:
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forwards++
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case *routerrpc.HtlcEvent_ForwardFailEvent:
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forwardFails++
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case *routerrpc.HtlcEvent_SettleEvent:
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settles++
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default:
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t.Fatalf("unexpected event: %T", event.Event)
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}
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}
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if forwards != fwdCount {
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t.Fatalf("expected: %v forwards, got: %v", fwdCount, forwards)
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}
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if forwardFails != fwdFailCount {
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t.Fatalf("expected: %v forward fails, got: %v", fwdFailCount,
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forwardFails)
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}
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if settles != settleCount {
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t.Fatalf("expected: %v settles, got: %v", settleCount, settles)
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}
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}
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// assertEventAndType reads an event from the stream provided and ensures that
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// it is associated with the correct user related type - a user initiated send,
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// a receive to our node or a forward through our node. Note that this event
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// type is different from the htlc event type (forward, link failure etc).
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func assertEventAndType(t *harnessTest, eventType routerrpc.HtlcEvent_EventType,
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client routerrpc.Router_SubscribeHtlcEventsClient) *routerrpc.HtlcEvent {
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event, err := client.Recv()
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if err != nil {
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t.Fatalf("could not get event")
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}
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if event.EventType != eventType {
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t.Fatalf("expected: %v, got: %v", eventType,
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event.EventType)
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}
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return event
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}
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