lnd.xprv/htlcswitch/htlcnotifier.go

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package htlcswitch
import (
"fmt"
"strings"
"sync"
"time"
"github.com/lightningnetwork/lnd/channeldb"
"github.com/lightningnetwork/lnd/htlcswitch/hop"
"github.com/lightningnetwork/lnd/lnwire"
"github.com/lightningnetwork/lnd/subscribe"
)
// HtlcNotifier notifies clients of htlc forwards, failures and settles for
// htlcs that the switch handles. It takes subscriptions for its events and
// notifies them when htlc events occur. These are served on a best-effort
// basis; events are not persisted, delivery is not guaranteed (in the event
// of a crash in the switch, forward events may be lost) and some events may
// be replayed upon restart. Events consumed from this package should be
// de-duplicated by the htlc's unique combination of incoming+outgoing circuit
// and not relied upon for critical operations.
//
// The htlc notifier sends the following kinds of events:
// Forwarding Event:
// - Represents a htlc which is forwarded onward from our node.
// - Present for htlc forwards through our node and local sends.
//
// Link Failure Event:
// - Indicates that a htlc has failed on our incoming or outgoing link,
// with an incoming boolean which indicates where the failure occurred.
// - Incoming link failures are present for failed attempts to pay one of
// our invoices (insufficient amount or mpp timeout, for example) and for
// forwards that we cannot decode to forward onwards.
// - Outgoing link failures are present for forwards or local payments that
// do not meet our outgoing link's policy (insufficient fees, for example)
// and when we fail to forward the payment on (insufficient outgoing
// capacity, or an unknown outgoing link).
//
// Forwarding Failure Event:
// - Forwarding failures indicate that a htlc we forwarded has failed at
// another node down the route.
// - Present for local sends and htlc forwards which fail after they left
// our node.
//
// Settle event:
// - Settle events are present when a htlc which we added is settled through
// the release of a preimage.
// - Present for local receives, and successful local sends or forwards.
//
// Each htlc is identified by its incoming and outgoing circuit key. Htlcs,
// and their subsequent settles or fails, can be identified by the combination
// of incoming and outgoing circuits. Note that receives to our node will
// have a zero outgoing circuit key because the htlc terminates at our
// node, and sends from our node will have a zero incoming circuit key because
// the send originates at our node.
type HtlcNotifier struct {
started sync.Once
stopped sync.Once
// now returns the current time, it is set in the htlcnotifier to allow
// for timestamp mocking in tests.
now func() time.Time
ntfnServer *subscribe.Server
}
// NewHtlcNotifier creates a new HtlcNotifier which gets htlc forwarded,
// failed and settled events from links our node has established with peers
// and sends notifications to subscribing clients.
func NewHtlcNotifier(now func() time.Time) *HtlcNotifier {
return &HtlcNotifier{
now: now,
ntfnServer: subscribe.NewServer(),
}
}
// Start starts the HtlcNotifier and all goroutines it needs to consume
// events and provide subscriptions to clients.
func (h *HtlcNotifier) Start() error {
var err error
h.started.Do(func() {
log.Trace("HtlcNotifier starting")
err = h.ntfnServer.Start()
})
return err
}
// Stop signals the notifier for a graceful shutdown.
func (h *HtlcNotifier) Stop() {
h.stopped.Do(func() {
if err := h.ntfnServer.Stop(); err != nil {
log.Warnf("error stopping htlc notifier: %v", err)
}
})
}
// SubscribeHtlcEvents returns a subscribe.Client that will receive updates
// any time the server is made aware of a new event.
func (h *HtlcNotifier) SubscribeHtlcEvents() (*subscribe.Client, error) {
return h.ntfnServer.Subscribe()
}
// HtlcKey uniquely identifies the htlc.
type HtlcKey struct {
// IncomingCircuit is the channel an htlc id of the incoming htlc.
IncomingCircuit channeldb.CircuitKey
// OutgoingCircuit is the channel and htlc id of the outgoing htlc.
OutgoingCircuit channeldb.CircuitKey
}
// String returns a string representation of a htlc key.
func (k HtlcKey) String() string {
switch {
case k.IncomingCircuit.ChanID == hop.Source:
return k.OutgoingCircuit.String()
case k.OutgoingCircuit.ChanID == hop.Exit:
return k.IncomingCircuit.String()
default:
return fmt.Sprintf("%v -> %v", k.IncomingCircuit,
k.OutgoingCircuit)
}
}
// HtlcInfo provides the details of a htlc that our node has processed. For
// forwards, incoming and outgoing values are set, whereas sends and receives
// will only have outgoing or incoming details set.
type HtlcInfo struct {
// IncomingTimelock is the time lock of the htlc on our incoming
// channel.
IncomingTimeLock uint32
// OutgoingTimelock is the time lock the htlc on our outgoing channel.
OutgoingTimeLock uint32
// IncomingAmt is the amount of the htlc on our incoming channel.
IncomingAmt lnwire.MilliSatoshi
// OutgoingAmt is the amount of the htlc on our outgoing channel.
OutgoingAmt lnwire.MilliSatoshi
}
// String returns a string representation of a htlc.
func (h HtlcInfo) String() string {
var details []string
// If the incoming information is not zero, as is the case for a send,
// we include the incoming amount and timelock.
if h.IncomingAmt != 0 || h.IncomingTimeLock != 0 {
str := fmt.Sprintf("incoming amount: %v, "+
"incoming timelock: %v", h.IncomingAmt,
h.IncomingTimeLock)
details = append(details, str)
}
// If the outgoing information is not zero, as is the case for a
// receive, we include the outgoing amount and timelock.
if h.OutgoingAmt != 0 || h.OutgoingTimeLock != 0 {
str := fmt.Sprintf("outgoing amount: %v, "+
"outgoing timelock: %v", h.OutgoingAmt,
h.OutgoingTimeLock)
details = append(details, str)
}
return strings.Join(details, ", ")
}
// HtlcEventType represents the type of event that a htlc was part of.
type HtlcEventType int
const (
// HtlcEventTypeSend represents a htlc that was part of a send from
// our node.
HtlcEventTypeSend HtlcEventType = iota
// HtlcEventTypeReceive represents a htlc that was part of a receive
// to our node.
HtlcEventTypeReceive
// HtlcEventTypeForward represents a htlc that was forwarded through
// our node.
HtlcEventTypeForward
)
// String returns a string representation of a htlc event type.
func (h HtlcEventType) String() string {
switch h {
case HtlcEventTypeSend:
return "send"
case HtlcEventTypeReceive:
return "receive"
case HtlcEventTypeForward:
return "forward"
default:
return "unknown"
}
}
// ForwardingEvent represents a htlc that was forwarded onwards from our node.
// Sends which originate from our node will report forward events with zero
// incoming circuits in their htlc key.
type ForwardingEvent struct {
// HtlcKey uniquely identifies the htlc, and can be used to match the
// forwarding event with subsequent settle/fail events.
HtlcKey
// HtlcInfo contains details about the htlc.
HtlcInfo
// HtlcEventType classifies the event as part of a local send or
// receive, or as part of a forward.
HtlcEventType
// Timestamp is the time when this htlc was forwarded.
Timestamp time.Time
}
// LinkFailEvent describes a htlc that failed on our incoming or outgoing
// link. The incoming bool is true for failures on incoming links, and false
// for failures on outgoing links. The failure reason is provided by a lnwire
// failure message which is enriched with a failure detail in the cases where
// the wire failure message does not contain full information about the
// failure.
type LinkFailEvent struct {
// HtlcKey uniquely identifies the htlc.
HtlcKey
// HtlcInfo contains details about the htlc.
HtlcInfo
// HtlcEventType classifies the event as part of a local send or
// receive, or as part of a forward.
HtlcEventType
// LinkError is the reason that we failed the htlc.
LinkError *LinkError
// Incoming is true if the htlc was failed on an incoming link.
// If it failed on the outgoing link, it is false.
Incoming bool
// Timestamp is the time when the link failure occurred.
Timestamp time.Time
}
// ForwardingFailEvent represents a htlc failure which occurred down the line
// after we forwarded a htlc onwards. An error is not included in this event
// because errors returned down the route are encrypted. HtlcInfo is not
// reliably available for forwarding failures, so it is omitted. These events
// should be matched with their corresponding forward event to obtain this
// information.
type ForwardingFailEvent struct {
// HtlcKey uniquely identifies the htlc, and can be used to match the
// htlc with its corresponding forwarding event.
HtlcKey
// HtlcEventType classifies the event as part of a local send or
// receive, or as part of a forward.
HtlcEventType
// Timestamp is the time when the forwarding failure was received.
Timestamp time.Time
}
// SettleEvent represents a htlc that was settled. HtlcInfo is not reliably
// available for forwarding failures, so it is omitted. These events should
// be matched with corresponding forward events or invoices (for receives)
// to obtain additional information about the htlc.
type SettleEvent struct {
// HtlcKey uniquely identifies the htlc, and can be used to match
// forwards with their corresponding forwarding event.
HtlcKey
// HtlcEventType classifies the event as part of a local send or
// receive, or as part of a forward.
HtlcEventType
// Timestamp is the time when this htlc was settled.
Timestamp time.Time
}
// NotifyForwardingEvent notifies the HtlcNotifier than a htlc has been
// forwarded.
//
// Note this is part of the htlcNotifier interface.
func (h *HtlcNotifier) NotifyForwardingEvent(key HtlcKey, info HtlcInfo,
eventType HtlcEventType) {
event := &ForwardingEvent{
HtlcKey: key,
HtlcInfo: info,
HtlcEventType: eventType,
Timestamp: h.now(),
}
log.Tracef("Notifying forward event: %v over %v, %v", eventType, key,
info)
if err := h.ntfnServer.SendUpdate(event); err != nil {
log.Warnf("Unable to send forwarding event: %v", err)
}
}
// NotifyLinkFailEvent notifies that a htlc has failed on our incoming
// or outgoing link.
//
// Note this is part of the htlcNotifier interface.
func (h *HtlcNotifier) NotifyLinkFailEvent(key HtlcKey, info HtlcInfo,
eventType HtlcEventType, linkErr *LinkError, incoming bool) {
event := &LinkFailEvent{
HtlcKey: key,
HtlcInfo: info,
HtlcEventType: eventType,
LinkError: linkErr,
Incoming: incoming,
Timestamp: h.now(),
}
log.Tracef("Notifying link failure event: %v over %v, %v", eventType,
key, info)
if err := h.ntfnServer.SendUpdate(event); err != nil {
log.Warnf("Unable to send link fail event: %v", err)
}
}
// NotifyForwardingFailEvent notifies the HtlcNotifier that a htlc we
// forwarded has failed down the line.
//
// Note this is part of the htlcNotifier interface.
func (h *HtlcNotifier) NotifyForwardingFailEvent(key HtlcKey,
eventType HtlcEventType) {
event := &ForwardingFailEvent{
HtlcKey: key,
HtlcEventType: eventType,
Timestamp: h.now(),
}
log.Tracef("Notifying forwarding failure event: %v over %v", eventType,
key)
if err := h.ntfnServer.SendUpdate(event); err != nil {
log.Warnf("Unable to send forwarding fail event: %v", err)
}
}
// NotifySettleEvent notifies the HtlcNotifier that a htlc that we committed
// to as part of a forward or a receive to our node has been settled.
//
// Note this is part of the htlcNotifier interface.
func (h *HtlcNotifier) NotifySettleEvent(key HtlcKey, eventType HtlcEventType) {
event := &SettleEvent{
HtlcKey: key,
HtlcEventType: eventType,
Timestamp: h.now(),
}
log.Tracef("Notifying settle event: %v over %v", eventType, key)
if err := h.ntfnServer.SendUpdate(event); err != nil {
log.Warnf("Unable to send settle event: %v", err)
}
}
// newHtlc key returns a htlc key for the packet provided. If the packet
// has a zero incoming channel ID, the packet is for one of our own sends,
// which has the payment id stashed in the incoming htlc id. If this is the
// case, we replace the incoming htlc id with zero so that the notifier
// consistently reports zero circuit keys for events that terminate or
// originate at our node.
func newHtlcKey(pkt *htlcPacket) HtlcKey {
htlcKey := HtlcKey{
IncomingCircuit: channeldb.CircuitKey{
ChanID: pkt.incomingChanID,
HtlcID: pkt.incomingHTLCID,
},
OutgoingCircuit: CircuitKey{
ChanID: pkt.outgoingChanID,
HtlcID: pkt.outgoingHTLCID,
},
}
// If the packet has a zero incoming channel ID, it is a send that was
// initiated at our node. If this is the case, our internal pid is in
// the incoming htlc ID, so we overwrite it with 0 for notification
// purposes.
if pkt.incomingChanID == hop.Source {
htlcKey.IncomingCircuit.HtlcID = 0
}
return htlcKey
}
// newHtlcInfo returns HtlcInfo for the packet provided.
func newHtlcInfo(pkt *htlcPacket) HtlcInfo {
return HtlcInfo{
IncomingTimeLock: pkt.incomingTimeout,
OutgoingTimeLock: pkt.outgoingTimeout,
IncomingAmt: pkt.incomingAmount,
OutgoingAmt: pkt.amount,
}
}
// getEventType returns the htlc type based on the fields set in the htlc
// packet. Sends that originate at our node have the source (zero) incoming
// channel ID. Receives to our node have the exit (zero) outgoing channel ID
// and forwards have both fields set.
func getEventType(pkt *htlcPacket) HtlcEventType {
switch {
case pkt.incomingChanID == hop.Source:
return HtlcEventTypeSend
case pkt.outgoingChanID == hop.Exit:
return HtlcEventTypeReceive
default:
return HtlcEventTypeForward
}
}