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d1c26a20da
loop/client_test.go
carla d1c26a20da
multi: surface server swap initiation grpc error codes 
Formatting our error was stifling any grpc error returned by the
server. Instead, we bubble up our grpc error, setting an unknown
code if the server did not specifically return an error code.
2021-07-19 10:28:34 +02:00

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package loop
import (
"bytes"
"context"
"crypto/sha256"
"errors"
"testing"
"github.com/btcsuite/btcd/chaincfg"
"github.com/btcsuite/btcd/chaincfg/chainhash"
"github.com/btcsuite/btcutil"
"github.com/lightninglabs/lndclient"
"github.com/lightninglabs/loop/loopdb"
"github.com/lightninglabs/loop/swap"
"github.com/lightninglabs/loop/test"
"github.com/lightningnetwork/lnd/lnrpc"
"github.com/lightningnetwork/lnd/lntypes"
"github.com/stretchr/testify/require"
"google.golang.org/grpc/codes"
"google.golang.org/grpc/status"
)
var (
testAddr, _ = btcutil.NewAddressScriptHash(
[]byte{123}, &chaincfg.TestNet3Params,
)
testRequest = &OutRequest{
Amount: btcutil.Amount(50000),
DestAddr: testAddr,
MaxMinerFee: 50000,
HtlcConfirmations: defaultConfirmations,
SweepConfTarget: 2,
MaxSwapFee: 1050,
MaxPrepayAmount: 100,
MaxPrepayRoutingFee: 75000,
MaxSwapRoutingFee: 70000,
Initiator: "test",
}
swapInvoiceDesc = "swap"
prepayInvoiceDesc = "prepay"
defaultConfirmations = int32(loopdb.DefaultLoopOutHtlcConfirmations)
)
// TestSuccess tests the loop out happy flow, using a custom htlc confirmation
// target.
func TestSuccess(t *testing.T) {
defer test.Guard(t)()
ctx := createClientTestContext(t, nil)
req := *testRequest
req.HtlcConfirmations = 2
// Initiate loop out.
info, err := ctx.swapClient.LoopOut(context.Background(), &req)
if err != nil {
t.Fatal(err)
}
ctx.assertStored()
ctx.assertStatus(loopdb.StateInitiated)
signalSwapPaymentResult := ctx.AssertPaid(swapInvoiceDesc)
signalPrepaymentResult := ctx.AssertPaid(prepayInvoiceDesc)
// Expect client to register for conf.
confIntent := ctx.AssertRegisterConf(false, req.HtlcConfirmations)
testSuccess(ctx, testRequest.Amount, info.SwapHash,
signalPrepaymentResult, signalSwapPaymentResult, false,
confIntent, swap.HtlcV2,
)
}
// TestFailOffchain tests the handling of swap for which the server failed the
// payments.
func TestFailOffchain(t *testing.T) {
defer test.Guard(t)()
ctx := createClientTestContext(t, nil)
_, err := ctx.swapClient.LoopOut(context.Background(), testRequest)
if err != nil {
t.Fatal(err)
}
ctx.assertStored()
ctx.assertStatus(loopdb.StateInitiated)
signalSwapPaymentResult := ctx.AssertPaid(swapInvoiceDesc)
signalPrepaymentResult := ctx.AssertPaid(prepayInvoiceDesc)
ctx.AssertRegisterConf(false, defaultConfirmations)
signalSwapPaymentResult(
errors.New(lndclient.PaymentResultUnknownPaymentHash),
)
signalPrepaymentResult(
errors.New(lndclient.PaymentResultUnknownPaymentHash),
)
<-ctx.serverMock.cancelSwap
ctx.assertStatus(loopdb.StateFailOffchainPayments)
ctx.assertStoreFinished(loopdb.StateFailOffchainPayments)
ctx.finish()
}
// TestWrongAmount asserts that the client checks the server invoice amounts.
func TestFailWrongAmount(t *testing.T) {
defer test.Guard(t)()
test := func(t *testing.T, modifier func(*serverMock),
expectedErr error) {
ctx := createClientTestContext(t, nil)
// Modify mock for this subtest.
modifier(ctx.serverMock)
_, err := ctx.swapClient.LoopOut(
context.Background(), testRequest,
)
if err != expectedErr {
t.Fatalf("Expected %v, but got %v", expectedErr, err)
}
ctx.finish()
}
t.Run("swap fee too high", func(t *testing.T) {
test(t, func(m *serverMock) {
m.swapInvoiceAmt += 10
}, ErrSwapFeeTooHigh)
})
t.Run("prepay amount too high", func(t *testing.T) {
test(t, func(m *serverMock) {
// Keep total swap fee unchanged, but increase prepaid
// portion.
m.swapInvoiceAmt -= 10
m.prepayInvoiceAmt += 10
}, ErrPrepayAmountTooHigh)
})
}
// TestResume tests that swaps in various states are properly resumed after a
// restart.
func TestResume(t *testing.T) {
defer test.Guard(t)()
defaultConfs := loopdb.DefaultLoopOutHtlcConfirmations
storedVersion := []loopdb.ProtocolVersion{
loopdb.ProtocolVersionUnrecorded,
loopdb.ProtocolVersionHtlcV2,
}
for _, version := range storedVersion {
version := version
t.Run(version.String(), func(t *testing.T) {
t.Run("not expired", func(t *testing.T) {
testResume(
t, defaultConfs, false, false, true,
version,
)
})
t.Run("not expired, custom confirmations",
func(t *testing.T) {
testResume(
t, 3, false, false, true,
version,
)
})
t.Run("expired not revealed", func(t *testing.T) {
testResume(
t, defaultConfs, true, false, false,
version,
)
})
t.Run("expired revealed", func(t *testing.T) {
testResume(
t, defaultConfs, true, true, true,
version,
)
})
})
}
}
func testResume(t *testing.T, confs uint32, expired, preimageRevealed,
expectSuccess bool, protocolVersion loopdb.ProtocolVersion) {
defer test.Guard(t)()
preimage := testPreimage
hash := sha256.Sum256(preimage[:])
dest := test.GetDestAddr(t, 0)
amt := btcutil.Amount(50000)
swapPayReq, err := getInvoice(hash, amt, swapInvoiceDesc)
if err != nil {
t.Fatal(err)
}
prePayReq, err := getInvoice(hash, 100, prepayInvoiceDesc)
if err != nil {
t.Fatal(err)
}
_, senderPubKey := test.CreateKey(1)
var senderKey [33]byte
copy(senderKey[:], senderPubKey.SerializeCompressed())
_, receiverPubKey := test.CreateKey(2)
var receiverKey [33]byte
copy(receiverKey[:], receiverPubKey.SerializeCompressed())
update := loopdb.LoopEvent{
SwapStateData: loopdb.SwapStateData{
State: loopdb.StateInitiated,
},
}
if preimageRevealed {
update.State = loopdb.StatePreimageRevealed
update.HtlcTxHash = &chainhash.Hash{1, 2, 6}
}
// Create a pending swap with our custom number of confirmations.
pendingSwap := &loopdb.LoopOut{
Contract: &loopdb.LoopOutContract{
DestAddr: dest,
SwapInvoice: swapPayReq,
SweepConfTarget: 2,
HtlcConfirmations: confs,
MaxSwapRoutingFee: 70000,
PrepayInvoice: prePayReq,
SwapContract: loopdb.SwapContract{
Preimage: preimage,
AmountRequested: amt,
CltvExpiry: 744,
ReceiverKey: receiverKey,
SenderKey: senderKey,
MaxSwapFee: 60000,
MaxMinerFee: 50000,
ProtocolVersion: protocolVersion,
},
},
Loop: loopdb.Loop{
Events: []*loopdb.LoopEvent{&update},
Hash: hash,
},
}
if expired {
// Set cltv expiry so that it has already expired at the test
// block height.
pendingSwap.Contract.CltvExpiry = 610
}
ctx := createClientTestContext(t, []*loopdb.LoopOut{pendingSwap})
if preimageRevealed {
ctx.assertStatus(loopdb.StatePreimageRevealed)
} else {
ctx.assertStatus(loopdb.StateInitiated)
}
signalSwapPaymentResult := ctx.AssertPaid(swapInvoiceDesc)
signalPrepaymentResult := ctx.AssertPaid(prepayInvoiceDesc)
// Expect client to register for our expected number of confirmations.
confIntent := ctx.AssertRegisterConf(preimageRevealed, int32(confs))
// Assert that the loopout htlc equals to the expected one.
scriptVersion := GetHtlcScriptVersion(protocolVersion)
htlc, err := swap.NewHtlc(
scriptVersion, pendingSwap.Contract.CltvExpiry, senderKey,
receiverKey, hash, swap.HtlcP2WSH, &chaincfg.TestNet3Params,
)
require.NoError(t, err)
require.Equal(t, htlc.PkScript, confIntent.PkScript)
signalSwapPaymentResult(nil)
signalPrepaymentResult(nil)
if !expectSuccess {
ctx.assertStatus(loopdb.StateFailTimeout)
ctx.assertStoreFinished(loopdb.StateFailTimeout)
ctx.finish()
return
}
// Because there is no reliable payment yet, an invoice is assumed to be
// paid after resume.
testSuccess(ctx, amt, hash,
func(r error) {},
func(r error) {},
preimageRevealed,
confIntent, scriptVersion,
)
}
func testSuccess(ctx *testContext, amt btcutil.Amount, hash lntypes.Hash,
signalPrepaymentResult, signalSwapPaymentResult func(error),
preimageRevealed bool, confIntent *test.ConfRegistration,
scriptVersion swap.ScriptVersion) {
htlcOutpoint := ctx.publishHtlc(confIntent.PkScript, amt)
signalPrepaymentResult(nil)
ctx.AssertRegisterSpendNtfn(confIntent.PkScript)
// Assert that a call to track payment was sent, and respond with status
// in flight so that our swap will push its preimage to the server.
ctx.trackPayment(lnrpc.Payment_IN_FLIGHT)
// Publish tick.
ctx.expiryChan <- testTime
// Expect a signing request.
<-ctx.Lnd.SignOutputRawChannel
if !preimageRevealed {
ctx.assertStatus(loopdb.StatePreimageRevealed)
ctx.assertStorePreimageReveal()
}
// Expect client on-chain sweep of HTLC.
sweepTx := ctx.ReceiveTx()
if !bytes.Equal(sweepTx.TxIn[0].PreviousOutPoint.Hash[:],
htlcOutpoint.Hash[:]) {
ctx.T.Fatalf("client not sweeping from htlc tx")
}
preImageIndex := 1
if scriptVersion == swap.HtlcV2 {
preImageIndex = 0
}
// Check preimage.
clientPreImage := sweepTx.TxIn[0].Witness[preImageIndex]
clientPreImageHash := sha256.Sum256(clientPreImage)
if clientPreImageHash != hash {
ctx.T.Fatalf("incorrect preimage")
}
// Since we successfully published our sweep, we expect the preimage to
// have been pushed to our mock server.
preimage, err := lntypes.MakePreimage(clientPreImage)
require.NoError(ctx.T, err)
ctx.assertPreimagePush(preimage)
// Simulate server pulling payment.
signalSwapPaymentResult(nil)
ctx.NotifySpend(sweepTx, 0)
ctx.assertStatus(loopdb.StateSuccess)
ctx.assertStoreFinished(loopdb.StateSuccess)
ctx.finish()
}
// TestWrapGrpcError tests grpc error wrapping in the case where a grpc error
// code is present, and when it is absent.
func TestWrapGrpcError(t *testing.T) {
tests := []struct {
name string
original error
expectedCode codes.Code
}{
{
name: "out of range error",
original: status.Error(
codes.OutOfRange, "err string",
),
expectedCode: codes.OutOfRange,
},
{
name: "no grpc code",
original: errors.New("no error code"),
expectedCode: codes.Unknown,
},
}
for _, testCase := range tests {
testCase := testCase
t.Run(testCase.name, func(t *testing.T) {
err := wrapGrpcError("", testCase.original)
require.Error(t, err, "test only expects errors")
status, ok := status.FromError(err)
require.True(t, ok, "test expects grpc code")
require.Equal(t, testCase.expectedCode, status.Code())
})
}
}
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