mirror of
https://github.com/lightningnetwork/lnd.git
synced 2024-11-19 01:43:16 +01:00
cd566eb097
Refactor fmt.Errorf usage to correctly wrap errors instead of using non-wrapping format verbs.
412 lines
12 KiB
Go
412 lines
12 KiB
Go
package htlcswitch_test
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import (
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"bytes"
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"fmt"
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"io"
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"testing"
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"github.com/btcsuite/btcd/btcutil"
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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/htlcswitch"
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"github.com/lightningnetwork/lnd/kvdb"
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"github.com/lightningnetwork/lnd/lnwire"
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"github.com/stretchr/testify/require"
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)
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var (
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// closedChannelBucket stores summarization information concerning
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// previously open, but now closed channels.
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closedChannelBucket = []byte("closed-chan-bucket")
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)
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// TestCircuitMapCleanClosedChannels checks that the circuits and keystones are
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// deleted for closed channels upon restart.
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func TestCircuitMapCleanClosedChannels(t *testing.T) {
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t.Parallel()
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var (
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// chanID0 is a zero value channel ID indicating a locally
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// initiated payment.
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chanID0 = lnwire.NewShortChanIDFromInt(uint64(0))
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chanID1 = lnwire.NewShortChanIDFromInt(uint64(1))
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chanID2 = lnwire.NewShortChanIDFromInt(uint64(2))
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inKey00 = htlcswitch.CircuitKey{ChanID: chanID0, HtlcID: 0}
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inKey10 = htlcswitch.CircuitKey{ChanID: chanID1, HtlcID: 0}
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inKey11 = htlcswitch.CircuitKey{ChanID: chanID1, HtlcID: 1}
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inKey20 = htlcswitch.CircuitKey{ChanID: chanID2, HtlcID: 0}
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inKey21 = htlcswitch.CircuitKey{ChanID: chanID2, HtlcID: 1}
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inKey22 = htlcswitch.CircuitKey{ChanID: chanID2, HtlcID: 2}
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outKey00 = htlcswitch.CircuitKey{ChanID: chanID0, HtlcID: 0}
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outKey10 = htlcswitch.CircuitKey{ChanID: chanID1, HtlcID: 0}
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outKey11 = htlcswitch.CircuitKey{ChanID: chanID1, HtlcID: 1}
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outKey20 = htlcswitch.CircuitKey{ChanID: chanID2, HtlcID: 0}
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outKey21 = htlcswitch.CircuitKey{ChanID: chanID2, HtlcID: 1}
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outKey22 = htlcswitch.CircuitKey{ChanID: chanID2, HtlcID: 2}
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)
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type closeChannelParams struct {
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chanID lnwire.ShortChannelID
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isPending bool
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}
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testParams := []struct {
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name string
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// keystones is used to create and open circuits. A keystone is
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// a pair of circuit keys, inKey and outKey, with the outKey
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// optionally being empty. If a keystone with an outKey is used,
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// a circuit will be created and opened, thus creating a circuit
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// and a keystone in the DB. Otherwise, only the circuit is
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// created.
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keystones []htlcswitch.Keystone
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chanParams []closeChannelParams
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deleted []htlcswitch.Keystone
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untouched []htlcswitch.Keystone
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// If resMsg is true, then closed channels will not delete
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// circuits if the channel was the keystone / outgoing key in
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// the open circuit.
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resMsg bool
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}{
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{
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name: "no deletion if there are no closed channels",
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keystones: []htlcswitch.Keystone{
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// Creates a circuit and a keystone
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{InKey: inKey10, OutKey: outKey10},
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},
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untouched: []htlcswitch.Keystone{
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{InKey: inKey10, OutKey: outKey10},
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},
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},
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{
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name: "no deletion if channel is pending close",
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chanParams: []closeChannelParams{
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// Creates a pending close channel.
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{chanID: chanID1, isPending: true},
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},
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keystones: []htlcswitch.Keystone{
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// Creates a circuit and a keystone
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{InKey: inKey10, OutKey: outKey10},
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},
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untouched: []htlcswitch.Keystone{
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{InKey: inKey10, OutKey: outKey10},
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},
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},
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{
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name: "no deletion if the chanID is zero value",
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chanParams: []closeChannelParams{
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// Creates a close channel with chanID0.
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{chanID: chanID0, isPending: false},
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},
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keystones: []htlcswitch.Keystone{
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// Creates a circuit and a keystone
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{InKey: inKey00, OutKey: outKey00},
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},
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untouched: []htlcswitch.Keystone{
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{InKey: inKey00, OutKey: outKey00},
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},
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},
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{
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name: "delete half circuits on inKey match",
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chanParams: []closeChannelParams{
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// Creates a close channel with chanID1.
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{chanID: chanID1, isPending: false},
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},
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keystones: []htlcswitch.Keystone{
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// Creates a circuit, no keystone created
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{InKey: inKey10},
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// Creates a circuit, no keystone created
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{InKey: inKey11},
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// Creates a circuit and a keystone
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{InKey: inKey20, OutKey: outKey20},
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},
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deleted: []htlcswitch.Keystone{
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{InKey: inKey10}, {InKey: inKey11},
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},
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untouched: []htlcswitch.Keystone{
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{InKey: inKey20, OutKey: outKey20},
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},
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},
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{
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name: "delete half circuits on outKey match",
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chanParams: []closeChannelParams{
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// Creates a close channel with chanID1.
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{chanID: chanID1, isPending: false},
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},
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keystones: []htlcswitch.Keystone{
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// Creates a circuit and a keystone
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{InKey: inKey20, OutKey: outKey10},
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// Creates a circuit and a keystone
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{InKey: inKey21, OutKey: outKey11},
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// Creates a circuit and a keystone
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{InKey: inKey22, OutKey: outKey21},
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},
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deleted: []htlcswitch.Keystone{
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{InKey: inKey20, OutKey: outKey10},
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{InKey: inKey21, OutKey: outKey11},
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},
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untouched: []htlcswitch.Keystone{
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{InKey: inKey22, OutKey: outKey21},
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},
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},
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{
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name: "delete full circuits on inKey match",
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chanParams: []closeChannelParams{
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// Creates a close channel with chanID1.
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{chanID: chanID1, isPending: false},
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},
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keystones: []htlcswitch.Keystone{
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// Creates a circuit and a keystone
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{InKey: inKey10, OutKey: outKey20},
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// Creates a circuit and a keystone
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{InKey: inKey11, OutKey: outKey21},
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// Creates a circuit and a keystone
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{InKey: inKey20, OutKey: outKey22},
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},
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deleted: []htlcswitch.Keystone{
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{InKey: inKey10, OutKey: outKey20},
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{InKey: inKey11, OutKey: outKey21},
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},
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untouched: []htlcswitch.Keystone{
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{InKey: inKey20, OutKey: outKey22},
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},
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},
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{
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name: "delete full circuits on outKey match",
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chanParams: []closeChannelParams{
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// Creates a close channel with chanID1.
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{chanID: chanID1, isPending: false},
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},
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keystones: []htlcswitch.Keystone{
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// Creates a circuit and a keystone
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{InKey: inKey20, OutKey: outKey10},
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// Creates a circuit and a keystone
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{InKey: inKey21, OutKey: outKey11},
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// Creates a circuit and a keystone
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{InKey: inKey22, OutKey: outKey20},
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},
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deleted: []htlcswitch.Keystone{
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{InKey: inKey20, OutKey: outKey10},
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{InKey: inKey21, OutKey: outKey11},
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},
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untouched: []htlcswitch.Keystone{
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{InKey: inKey22, OutKey: outKey20},
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},
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},
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{
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name: "delete all circuits",
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chanParams: []closeChannelParams{
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// Creates a close channel with chanID1.
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{chanID: chanID1, isPending: false},
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// Creates a close channel with chanID2.
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{chanID: chanID2, isPending: false},
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},
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keystones: []htlcswitch.Keystone{
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// Creates a circuit and a keystone
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{InKey: inKey20, OutKey: outKey10},
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// Creates a circuit and a keystone
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{InKey: inKey21, OutKey: outKey11},
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// Creates a circuit and a keystone
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{InKey: inKey22, OutKey: outKey20},
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},
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deleted: []htlcswitch.Keystone{
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{InKey: inKey20, OutKey: outKey10},
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{InKey: inKey21, OutKey: outKey11},
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{InKey: inKey22, OutKey: outKey20},
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},
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},
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{
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name: "don't delete circuits for outgoing",
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chanParams: []closeChannelParams{
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// Creates a close channel with chanID1.
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{chanID: chanID1, isPending: false},
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},
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keystones: []htlcswitch.Keystone{
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// Creates a circuit and a keystone
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{InKey: inKey10, OutKey: outKey10},
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// Creates a circuit and a keystone
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{InKey: inKey11, OutKey: outKey20},
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// Creates a circuit and a keystone
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{InKey: inKey00, OutKey: outKey11},
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},
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deleted: []htlcswitch.Keystone{
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{InKey: inKey10, OutKey: outKey10},
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{InKey: inKey11, OutKey: outKey20},
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},
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resMsg: true,
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},
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}
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for _, tt := range testParams {
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test := tt
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t.Run(test.name, func(t *testing.T) {
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cfg, circuitMap := newCircuitMap(t, test.resMsg)
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// create test circuits
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for _, ks := range test.keystones {
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err := createTestCircuit(ks, circuitMap)
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require.NoError(
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t, err,
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"failed to create test circuit",
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)
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}
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// create close channels
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err := kvdb.Update(cfg.DB, func(tx kvdb.RwTx) error {
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for _, channel := range test.chanParams {
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if err := createTestCloseChannelSummery(
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tx, channel.isPending,
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channel.chanID,
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); err != nil {
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return err
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}
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}
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return nil
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}, func() {})
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require.NoError(
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t, err,
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"failed to create close channel summery",
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)
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// Now, restart the circuit map, and check that the
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// circuits and keystones of closed channels are
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// deleted in DB.
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_, circuitMap = restartCircuitMap(t, cfg)
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// Check that items are deleted. LookupCircuit and
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// LookupOpenCircuit will check the cached circuits,
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// which are loaded on restart from the DB.
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for _, ks := range test.deleted {
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assertKeystoneDeleted(t, circuitMap, ks)
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}
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// We also check we are not deleting wanted circuits.
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for _, ks := range test.untouched {
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assertKeystoneNotDeleted(t, circuitMap, ks)
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}
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})
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}
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}
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// createTestCircuit creates a circuit for testing with its incoming key being
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// the keystone's InKey. If the keystone has an OutKey, the circuit will be
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// opened, which causes a Keystone to be created in DB.
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func createTestCircuit(ks htlcswitch.Keystone, cm htlcswitch.CircuitMap) error {
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circuit := &htlcswitch.PaymentCircuit{
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Incoming: ks.InKey,
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ErrorEncrypter: testExtracter,
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}
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// First we will try to add an new circuit to the circuit map, this
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// should succeed.
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_, err := cm.CommitCircuits(circuit)
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if err != nil {
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return fmt.Errorf("failed to commit circuits: %w", err)
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}
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// If the keystone has no outgoing key, we won't open it.
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if ks.OutKey == htlcswitch.EmptyCircuitKey {
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return nil
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}
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// Open the circuit, implicitly creates a keystone on disk.
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err = cm.OpenCircuits(ks)
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if err != nil {
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return fmt.Errorf("failed to open circuits: %w", err)
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}
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return nil
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}
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// assertKeystoneDeleted checks that a given keystone is deleted from the
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// circuit map.
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func assertKeystoneDeleted(t *testing.T,
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cm htlcswitch.CircuitLookup, ks htlcswitch.Keystone) {
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c := cm.LookupCircuit(ks.InKey)
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require.Nil(t, c, "no circuit should be found using InKey")
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if ks.OutKey != htlcswitch.EmptyCircuitKey {
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c = cm.LookupOpenCircuit(ks.OutKey)
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require.Nil(t, c, "no circuit should be found using OutKey")
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}
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}
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// assertKeystoneDeleted checks that a given keystone is not deleted from the
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// circuit map.
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func assertKeystoneNotDeleted(t *testing.T,
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cm htlcswitch.CircuitLookup, ks htlcswitch.Keystone) {
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c := cm.LookupCircuit(ks.InKey)
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require.NotNil(t, c, "expecting circuit found using InKey")
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if ks.OutKey != htlcswitch.EmptyCircuitKey {
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c = cm.LookupOpenCircuit(ks.OutKey)
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require.NotNil(t, c, "expecting circuit found using OutKey")
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}
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}
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// createTestCloseChannelSummery creates a CloseChannelSummery for testing.
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func createTestCloseChannelSummery(tx kvdb.RwTx, isPending bool,
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chanID lnwire.ShortChannelID) error {
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closedChanBucket, err := tx.CreateTopLevelBucket(closedChannelBucket)
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if err != nil {
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return err
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}
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outputPoint := wire.OutPoint{Hash: hash1, Index: 1}
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ccs := &channeldb.ChannelCloseSummary{
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ChanPoint: outputPoint,
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ShortChanID: chanID,
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ChainHash: hash1,
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ClosingTXID: hash2,
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CloseHeight: 100,
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RemotePub: testEphemeralKey,
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Capacity: btcutil.Amount(10000),
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SettledBalance: btcutil.Amount(50000),
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CloseType: channeldb.RemoteForceClose,
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IsPending: isPending,
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}
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var b bytes.Buffer
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if err := serializeChannelCloseSummary(&b, ccs); err != nil {
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return err
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}
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var chanPointBuf bytes.Buffer
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if err := lnwire.WriteOutPoint(&chanPointBuf, outputPoint); err != nil {
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return err
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}
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return closedChanBucket.Put(chanPointBuf.Bytes(), b.Bytes())
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}
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func serializeChannelCloseSummary(
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w io.Writer,
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cs *channeldb.ChannelCloseSummary) error {
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err := channeldb.WriteElements(
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w,
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cs.ChanPoint, cs.ShortChanID, cs.ChainHash, cs.ClosingTXID,
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cs.CloseHeight, cs.RemotePub, cs.Capacity, cs.SettledBalance,
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cs.TimeLockedBalance, cs.CloseType, cs.IsPending,
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)
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if err != nil {
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return err
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}
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// If this is a close channel summary created before the addition of
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// the new fields, then we can exit here.
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if cs.RemoteCurrentRevocation == nil {
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return channeldb.WriteElements(w, false)
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}
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return nil
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}
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