c0614c0478
This commit adds a basic test for cooperative channel closure. The current test ensures correctness of the cooperative closure procedure initiated by either the channel initiator, or the channel responder.
409 lines
12 KiB
Go
409 lines
12 KiB
Go
package main
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import (
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"encoding/hex"
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"fmt"
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"sync"
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"sync/atomic"
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"time"
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"github.com/lightningnetwork/lnd/channeldb"
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"github.com/lightningnetwork/lnd/lnwire"
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"github.com/roasbeef/btcd/wire"
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"github.com/roasbeef/btcutil"
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)
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const (
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// htlcQueueSize...
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// buffer bloat ;)
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htlcQueueSize = 50
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)
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// link represents a an active channel capable of forwarding HTLC's. Each
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// active channel registered with the htlc switch creates a new link which will
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// be used for forwarding outgoing HTLC's. The link also has additional
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// meta-data such as the current available bandwidth of the link (in satoshis)
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// which aide the switch in optimally forwarding HTLC's.
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type link struct {
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capacity btcutil.Amount
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availableBandwidth btcutil.Amount
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linkChan chan *htlcPacket
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peer *peer
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chanPoint *wire.OutPoint
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}
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// htlcPacket is a wrapper around an lnwire message which adds, times out, or
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// settles an active HTLC. The dest field denotes the name of the interface to
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// forward this htlcPacket on.
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type htlcPacket struct {
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src wire.ShaHash
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dest wire.ShaHash
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msg lnwire.Message
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amt btcutil.Amount
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err chan error
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}
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// HtlcSwitch is a central messaging bus for all incoming/outgoing HTLC's.
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// Connected peers with active channels are treated as named interfaces which
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// refer to active channels as links. A link is the switche's message
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// communication point with the goroutine that manages an active channel. New
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// links are registered each time a channel is created, and unregistered once
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// the channel is closed. The switch manages the hand-off process for multi-hop
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// HTLC's, forwarding HTLC's initiated from within the daemon, and additionally
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// splitting up incoming/outgoing HTLC's to a particular interface amongst many
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// links (payment fragmentation).
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type htlcSwitch struct {
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started int32 // atomic
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shutdown int32 // atomic
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chanIndex map[wire.OutPoint]*link
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interfaces map[wire.ShaHash][]*link
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// TODO(roasbeef): msgs for dynamic link quality
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linkControl chan interface{}
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outgoingPayments chan *htlcPacket
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htlcPlex chan *htlcPacket
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// TODO(roasbeef): messaging chan to/from upper layer (routing - L3)
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// TODO(roasbeef): sampler to log sat/sec and tx/sec
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wg sync.WaitGroup
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quit chan struct{}
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}
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// newHtlcSwitch creates a new htlcSwitch.
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func newHtlcSwitch() *htlcSwitch {
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return &htlcSwitch{
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chanIndex: make(map[wire.OutPoint]*link),
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interfaces: make(map[wire.ShaHash][]*link),
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linkControl: make(chan interface{}),
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htlcPlex: make(chan *htlcPacket, htlcQueueSize),
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outgoingPayments: make(chan *htlcPacket, htlcQueueSize),
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}
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}
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// Start starts all helper goroutines required for the operation of the switch.
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func (h *htlcSwitch) Start() error {
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if !atomic.CompareAndSwapInt32(&h.started, 0, 1) {
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return nil
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}
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h.wg.Add(2)
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go h.networkAdmin()
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go h.htlcForwarder()
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return nil
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}
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// Stop gracefully stops all active helper goroutines, then waits until they've
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// exited.
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func (h *htlcSwitch) Stop() error {
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if !atomic.CompareAndSwapInt32(&h.shutdown, 0, 1) {
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return nil
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}
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close(h.quit)
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h.wg.Wait()
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return nil
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}
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// SendHTLC queues a HTLC packet for forwarding over the designated interface.
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// In the event that the interface has insufficient capacity for the payment,
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// an error is returned. Additionally, if the interface cannot be found, an
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// alternative error is returned.
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func (h *htlcSwitch) SendHTLC(htlcPkt *htlcPacket) error {
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htlcPkt.err = make(chan error, 1)
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h.outgoingPayments <- htlcPkt
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return <-htlcPkt.err
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}
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// htlcForwarder is responsible for optimally forwarding (and possibly
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// fragmenting) incoming/outgoing HTLC's amongst all active interfaces and
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// their links. The duties of the forwarder are similar to that of a network
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// switch, in that it facilitates multi-hop payments by acting as a central
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// messaging bus. Each active channel is modeled as networked device with
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// meta-data such as the available payment bandwidth, and total link capacity.
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func (h *htlcSwitch) htlcForwarder() {
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// TODO(roasbeef): track pending payments here instead of within each peer?
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// Examine settles/timeouts from htl cplex. Add src to htlcPacket, key by
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// (src, htlcKey).
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// TODO(roasbeef): cleared vs settled distinction
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var numUpdates uint64
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var satSent, satRecv btcutil.Amount
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logTicker := time.NewTicker(10 * time.Second)
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out:
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for {
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select {
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case htlcPkt := <-h.outgoingPayments:
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dest := htlcPkt.dest
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chanInterface, ok := h.interfaces[dest]
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if !ok {
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err := fmt.Errorf("Unable to locate link %x", dest)
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hswcLog.Errorf(err.Error())
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htlcPkt.err <- err
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continue
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}
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wireMsg := htlcPkt.msg.(*lnwire.HTLCAddRequest)
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amt := btcutil.Amount(wireMsg.Amount)
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// Handle this send request in a distinct goroutine in
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// order to avoid a possible deadlock between the htlc
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// switch and channel's htlc manager.
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var sent bool
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for _, link := range chanInterface {
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// TODO(roasbeef): implement HTLC fragmentation
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// * avoid full channel depletion at higher
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// level (here) instead of within state
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// machine?
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if link.availableBandwidth < amt {
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continue
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}
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hswcLog.Tracef("Sending %v to %x", amt, dest[:])
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// TODO(roasbeef): peer downstream should set chanPoint
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wireMsg.ChannelPoint = link.chanPoint
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go func() {
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link.linkChan <- htlcPkt
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}()
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// TODO(roasbeef): update link info on
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// timeout/settle
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link.availableBandwidth -= amt
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sent = true
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}
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if sent {
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continue
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}
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hswcLog.Errorf("Unable to send payment, insufficient capacity")
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htlcPkt.err <- fmt.Errorf("Insufficient capacity")
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case pkt := <-h.htlcPlex:
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numUpdates += 1
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// TODO(roasbeef): properly account with cleared vs settled
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switch pkt.msg.(type) {
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case *lnwire.HTLCAddRequest:
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satRecv += pkt.amt
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case *lnwire.HTLCSettleRequest:
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satSent += pkt.amt
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}
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// TODO(roasbeef): parse dest/src, forward on outgoing
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// link to complete multi-hop payments.
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case <-logTicker.C:
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if numUpdates == 0 {
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continue
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}
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hswcLog.Infof("Sent %v satoshis, received %v satoshi in "+
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"the last 10 seconds (%v tx/sec)",
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satSent.ToUnit(btcutil.AmountSatoshi),
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satRecv.ToUnit(btcutil.AmountSatoshi),
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float64(numUpdates)/10)
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satSent = 0
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satRecv = 0
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numUpdates = 0
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case <-h.quit:
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break out
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}
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}
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h.wg.Done()
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}
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// networkAdmin is responsible for handline requests to register, unregister,
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// and close any link. In the event that a unregister requests leaves an
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// interface with no active links, that interface is garbage collected.
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func (h *htlcSwitch) networkAdmin() {
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out:
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for {
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select {
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case msg := <-h.linkControl:
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switch req := msg.(type) {
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case *closeLinkReq:
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h.handleCloseLink(req)
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case *registerLinkMsg:
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h.handleRegisterLink(req)
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case *unregisterLinkMsg:
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h.handleUnregisterLink(req)
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}
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case <-h.quit:
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break out
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}
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}
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h.wg.Done()
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}
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// handleRegisterLink registers a new link within the channel index, and also
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// adds the link to the existing set of links for the target interface.
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func (h *htlcSwitch) handleRegisterLink(req *registerLinkMsg) {
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chanPoint := req.linkInfo.ChannelPoint
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newLink := &link{
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capacity: req.linkInfo.Capacity,
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availableBandwidth: req.linkInfo.LocalBalance,
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linkChan: req.linkChan,
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peer: req.peer,
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chanPoint: chanPoint,
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}
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h.chanIndex[*chanPoint] = newLink
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interfaceID := req.peer.lightningID
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h.interfaces[interfaceID] = append(h.interfaces[interfaceID], newLink)
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hswcLog.Infof("registering new link, interface=%v, chan_point=%v, capacity=%v",
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hex.EncodeToString(interfaceID[:]), chanPoint, newLink.capacity)
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if req.done != nil {
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req.done <- struct{}{}
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}
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}
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// handleUnregisterLink unregisters a currently active link. If the deletion of
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// this link leaves the interface empty, then the interface entry itself is
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// also deleted.
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func (h *htlcSwitch) handleUnregisterLink(req *unregisterLinkMsg) {
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hswcLog.Infof("unregistering active link, interface=%v, chan_point=%v",
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hex.EncodeToString(req.chanInterface[:]), req.chanPoint)
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chanInterface := req.chanInterface
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links := h.interfaces[chanInterface]
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// A request with a nil channel point indicates that all the current
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// links for this channel should be cleared.
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if req.chanPoint == nil {
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hswcLog.Infof("purging all active links for interface %v",
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hex.EncodeToString(chanInterface[:]))
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for _, link := range links {
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delete(h.chanIndex, *link.chanPoint)
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}
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links = nil
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} else {
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delete(h.chanIndex, *req.chanPoint)
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for i := 0; i < len(links); i++ {
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chanLink := links[i]
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if chanLink.chanPoint == req.chanPoint {
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copy(links[i:], links[i+1:])
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links[len(links)-1] = nil
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links = links[:len(links)-1]
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break
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}
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}
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}
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if len(links) == 0 {
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hswcLog.Infof("interface %v has no active links, destroying",
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hex.EncodeToString(chanInterface[:]))
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delete(h.interfaces, chanInterface)
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}
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if req.done != nil {
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req.done <- struct{}{}
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}
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}
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// handleCloseLink sends a message to the peer responsible for the target
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// channel point, instructing it to initiate a cooperative channel closure.
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func (h *htlcSwitch) handleCloseLink(req *closeLinkReq) {
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targetLink, ok := h.chanIndex[*req.chanPoint]
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if !ok {
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req.resp <- nil
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req.err <- fmt.Errorf("channel point %v not found", req.chanPoint)
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return
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}
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hswcLog.Infof("requesting interface %v to close link %v",
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hex.EncodeToString(targetLink.peer.lightningID[:]), req.chanPoint)
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targetLink.peer.localCloseChanReqs <- req
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}
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// registerLinkMsg is message which requests a new link to be registered.
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type registerLinkMsg struct {
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peer *peer
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linkInfo *channeldb.ChannelSnapshot
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linkChan chan *htlcPacket
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done chan struct{}
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}
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// RegisterLink requests the htlcSwitch to register a new active link. The new
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// link encapsulates an active channel. The htlc plex channel is returned. The
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// plex channel allows the switch to properly de-multiplex incoming/outgoing
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// HTLC messages forwarding them to their proper destination in the multi-hop
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// settings.
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func (h *htlcSwitch) RegisterLink(p *peer, linkInfo *channeldb.ChannelSnapshot,
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linkChan chan *htlcPacket) chan *htlcPacket {
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done := make(chan struct{}, 1)
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req := ®isterLinkMsg{p, linkInfo, linkChan, done}
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h.linkControl <- req
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<-done
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return h.htlcPlex
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}
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// unregisterLinkMsg is a message which requests the active ink be unregistered.
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type unregisterLinkMsg struct {
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chanInterface [32]byte
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chanPoint *wire.OutPoint
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done chan struct{}
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}
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// UnregisterLink requets the htlcSwitch to unregiser the new active link. An
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// unregistered link will no longer be considered a candidate to forward
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// HTLC's.
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func (h *htlcSwitch) UnregisterLink(chanInterface [32]byte, chanPoint *wire.OutPoint) {
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done := make(chan struct{}, 1)
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h.linkControl <- &unregisterLinkMsg{chanInterface, chanPoint, done}
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<-done
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}
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// closeChanReq represents a request to close a particular channel specified
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// by its outpoint.
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type closeLinkReq struct {
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chanPoint *wire.OutPoint
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resp chan *closeLinkResp
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err chan error
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}
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// closeChanResp is the response to a closeChanReq is simply houses a boolean
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// value indicating if the channel coopertive channel closure was succesful or not.
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type closeLinkResp struct {
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txid *wire.ShaHash
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success bool
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}
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// CloseLink closes an active link targetted by it's channel point. Closing the
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// link initiates a cooperative channel closure.
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// TODO(roabeef): bool flag for timeout/force
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func (h *htlcSwitch) CloseLink(chanPoint *wire.OutPoint) (chan *closeLinkResp, chan error) {
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respChan := make(chan *closeLinkResp, 1)
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errChan := make(chan error, 1)
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h.linkControl <- &closeLinkReq{chanPoint, respChan, errChan}
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return respChan, errChan
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}
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