package invoices import ( "fmt" "sync" "time" "github.com/lightningnetwork/lnd/channeldb" "github.com/lightningnetwork/lnd/clock" "github.com/lightningnetwork/lnd/lntypes" "github.com/lightningnetwork/lnd/queue" "github.com/lightningnetwork/lnd/zpay32" ) // invoiceExpiry holds and invoice's payment hash and its expiry. This // is used to order invoices by their expiry for cancellation. type invoiceExpiry struct { PaymentHash lntypes.Hash Expiry time.Time Keysend bool } // Less implements PriorityQueueItem.Less such that the top item in the // priorty queue will be the one that expires next. func (e invoiceExpiry) Less(other queue.PriorityQueueItem) bool { return e.Expiry.Before(other.(*invoiceExpiry).Expiry) } // InvoiceExpiryWatcher handles automatic invoice cancellation of expried // invoices. Upon start InvoiceExpiryWatcher will retrieve all pending (not yet // settled or canceled) invoices invoices to its watcing queue. When a new // invoice is added to the InvoiceRegistry, it'll be forarded to the // InvoiceExpiryWatcher and will end up in the watching queue as well. // If any of the watched invoices expire, they'll be removed from the watching // queue and will be cancelled through InvoiceRegistry.CancelInvoice(). type InvoiceExpiryWatcher struct { sync.Mutex started bool // clock is the clock implementation that InvoiceExpiryWatcher uses. // It is useful for testing. clock clock.Clock // cancelInvoice is a template method that cancels an expired invoice. cancelInvoice func(lntypes.Hash, bool) error // expiryQueue holds invoiceExpiry items and is used to find the next // invoice to expire. expiryQueue queue.PriorityQueue // newInvoices channel is used to wake up the main loop when a new // invoices is added. newInvoices chan []*invoiceExpiry wg sync.WaitGroup // quit signals InvoiceExpiryWatcher to stop. quit chan struct{} } // NewInvoiceExpiryWatcher creates a new InvoiceExpiryWatcher instance. func NewInvoiceExpiryWatcher(clock clock.Clock) *InvoiceExpiryWatcher { return &InvoiceExpiryWatcher{ clock: clock, newInvoices: make(chan []*invoiceExpiry), quit: make(chan struct{}), } } // Start starts the the subscription handler and the main loop. Start() will // return with error if InvoiceExpiryWatcher is already started. Start() // expects a cancellation function passed that will be use to cancel expired // invoices by their payment hash. func (ew *InvoiceExpiryWatcher) Start( cancelInvoice func(lntypes.Hash, bool) error) error { ew.Lock() defer ew.Unlock() if ew.started { return fmt.Errorf("InvoiceExpiryWatcher already started") } ew.started = true ew.cancelInvoice = cancelInvoice ew.wg.Add(1) go ew.mainLoop() return nil } // Stop quits the expiry handler loop and waits for InvoiceExpiryWatcher to // fully stop. func (ew *InvoiceExpiryWatcher) Stop() { ew.Lock() defer ew.Unlock() if ew.started { // Signal subscriptionHandler to quit and wait for it to return. close(ew.quit) ew.wg.Wait() ew.started = false } } // makeInvoiceExpiry checks if the passed invoice may be canceled and calculates // the expiry time and creates a slimmer invoiceExpiry object with the hash and // expiry time. func makeInvoiceExpiry(paymentHash lntypes.Hash, invoice *channeldb.Invoice) *invoiceExpiry { if invoice.State != channeldb.ContractOpen { log.Debugf("Invoice not added to expiry watcher: %v", paymentHash) return nil } realExpiry := invoice.Terms.Expiry if realExpiry == 0 { realExpiry = zpay32.DefaultInvoiceExpiry } expiry := invoice.CreationDate.Add(realExpiry) return &invoiceExpiry{ PaymentHash: paymentHash, Expiry: expiry, Keysend: len(invoice.PaymentRequest) == 0, } } // AddInvoices adds invoices to the InvoiceExpiryWatcher. func (ew *InvoiceExpiryWatcher) AddInvoices(invoices ...*invoiceExpiry) { if len(invoices) > 0 { select { case ew.newInvoices <- invoices: log.Debugf("Added %d invoices to the expiry watcher", len(invoices)) // Select on quit too so that callers won't get blocked in case // of concurrent shutdown. case <-ew.quit: } } } // nextExpiry returns a Time chan to wait on until the next invoice expires. // If there are no active invoices, then it'll simply wait indefinitely. func (ew *InvoiceExpiryWatcher) nextExpiry() <-chan time.Time { if !ew.expiryQueue.Empty() { top := ew.expiryQueue.Top().(*invoiceExpiry) return ew.clock.TickAfter(top.Expiry.Sub(ew.clock.Now())) } return nil } // cancelNextExpiredInvoice will cancel the next expired invoice and removes // it from the expiry queue. func (ew *InvoiceExpiryWatcher) cancelNextExpiredInvoice() { if !ew.expiryQueue.Empty() { top := ew.expiryQueue.Top().(*invoiceExpiry) if !top.Expiry.Before(ew.clock.Now()) { return } // Don't force-cancel already accepted invoices. An exception to // this are auto-generated keysend invoices. Because those move // to the Accepted state directly after being opened, the expiry // field would never be used. Enabling cancellation for accepted // keysend invoices creates a safety mechanism that can prevents // channel force-closes. err := ew.cancelInvoice(top.PaymentHash, top.Keysend) if err != nil && err != channeldb.ErrInvoiceAlreadySettled && err != channeldb.ErrInvoiceAlreadyCanceled { log.Errorf("Unable to cancel invoice: %v", top.PaymentHash) } ew.expiryQueue.Pop() } } // mainLoop is a goroutine that receives new invoices and handles cancellation // of expired invoices. func (ew *InvoiceExpiryWatcher) mainLoop() { defer ew.wg.Done() for { // Cancel any invoices that may have expired. ew.cancelNextExpiredInvoice() pushInvoices := func(invoicesWithExpiry []*invoiceExpiry) { for _, invoiceWithExpiry := range invoicesWithExpiry { // Avoid pushing nil object to the heap. if invoiceWithExpiry != nil { ew.expiryQueue.Push(invoiceWithExpiry) } } } select { case invoicesWithExpiry := <-ew.newInvoices: // Take newly forwarded invoices with higher priority // in order to not block the newInvoices channel. pushInvoices(invoicesWithExpiry) continue default: select { case <-ew.nextExpiry(): // Wait until the next invoice expires. continue case invoicesWithExpiry := <-ew.newInvoices: pushInvoices(invoicesWithExpiry) case <-ew.quit: return } } } }