package channeldb import ( "bytes" "encoding/binary" "errors" "fmt" "io" "github.com/lightningnetwork/lnd/kvdb" "github.com/lightningnetwork/lnd/lntypes" ) var ( // ErrAlreadyPaid signals we have already paid this payment hash. ErrAlreadyPaid = errors.New("invoice is already paid") // ErrPaymentInFlight signals that payment for this payment hash is // already "in flight" on the network. ErrPaymentInFlight = errors.New("payment is in transition") // ErrPaymentNotInitiated is returned if the payment wasn't initiated. ErrPaymentNotInitiated = errors.New("payment isn't initiated") // ErrPaymentAlreadySucceeded is returned in the event we attempt to // change the status of a payment already succeeded. ErrPaymentAlreadySucceeded = errors.New("payment is already succeeded") // ErrPaymentAlreadyFailed is returned in the event we attempt to alter // a failed payment. ErrPaymentAlreadyFailed = errors.New("payment has already failed") // ErrUnknownPaymentStatus is returned when we do not recognize the // existing state of a payment. ErrUnknownPaymentStatus = errors.New("unknown payment status") // ErrPaymentTerminal is returned if we attempt to alter a payment that // already has reached a terminal condition. ErrPaymentTerminal = errors.New("payment has reached terminal condition") // ErrAttemptAlreadySettled is returned if we try to alter an already // settled HTLC attempt. ErrAttemptAlreadySettled = errors.New("attempt already settled") // ErrAttemptAlreadyFailed is returned if we try to alter an already // failed HTLC attempt. ErrAttemptAlreadyFailed = errors.New("attempt already failed") // ErrValueMismatch is returned if we try to register a non-MPP attempt // with an amount that doesn't match the payment amount. ErrValueMismatch = errors.New("attempted value doesn't match payment" + "amount") // ErrValueExceedsAmt is returned if we try to register an attempt that // would take the total sent amount above the payment amount. ErrValueExceedsAmt = errors.New("attempted value exceeds payment" + "amount") // ErrNonMPPayment is returned if we try to register an MPP attempt for // a payment that already has a non-MPP attempt regitered. ErrNonMPPayment = errors.New("payment has non-MPP attempts") // ErrMPPayment is returned if we try to register a non-MPP attempt for // a payment that already has an MPP attempt regitered. ErrMPPayment = errors.New("payment has MPP attempts") // ErrMPPPaymentAddrMismatch is returned if we try to register an MPP // shard where the payment address doesn't match existing shards. ErrMPPPaymentAddrMismatch = errors.New("payment address mismatch") // ErrMPPTotalAmountMismatch is returned if we try to register an MPP // shard where the total amount doesn't match existing shards. ErrMPPTotalAmountMismatch = errors.New("mp payment total amount mismatch") // errNoAttemptInfo is returned when no attempt info is stored yet. errNoAttemptInfo = errors.New("unable to find attempt info for " + "inflight payment") // errNoSequenceNrIndex is returned when an attempt to lookup a payment // index is made for a sequence number that is not indexed. errNoSequenceNrIndex = errors.New("payment sequence number index " + "does not exist") ) // PaymentControl implements persistence for payments and payment attempts. type PaymentControl struct { db *DB } // NewPaymentControl creates a new instance of the PaymentControl. func NewPaymentControl(db *DB) *PaymentControl { return &PaymentControl{ db: db, } } // InitPayment checks or records the given PaymentCreationInfo with the DB, // making sure it does not already exist as an in-flight payment. When this // method returns successfully, the payment is guranteeed to be in the InFlight // state. func (p *PaymentControl) InitPayment(paymentHash lntypes.Hash, info *PaymentCreationInfo) error { var b bytes.Buffer if err := serializePaymentCreationInfo(&b, info); err != nil { return err } infoBytes := b.Bytes() var updateErr error err := kvdb.Batch(p.db.Backend, func(tx kvdb.RwTx) error { // Reset the update error, to avoid carrying over an error // from a previous execution of the batched db transaction. updateErr = nil bucket, err := createPaymentBucket(tx, paymentHash) if err != nil { return err } // Get the existing status of this payment, if any. paymentStatus, err := fetchPaymentStatus(bucket) if err != nil { return err } switch paymentStatus { // We allow retrying failed payments. case StatusFailed: // This is a new payment that is being initialized for the // first time. case StatusUnknown: // We already have an InFlight payment on the network. We will // disallow any new payments. case StatusInFlight: updateErr = ErrPaymentInFlight return nil // We've already succeeded a payment to this payment hash, // forbid the switch from sending another. case StatusSucceeded: updateErr = ErrAlreadyPaid return nil default: updateErr = ErrUnknownPaymentStatus return nil } // Obtain a new sequence number for this payment. This is used // to sort the payments in order of creation, and also acts as // a unique identifier for each payment. sequenceNum, err := nextPaymentSequence(tx) if err != nil { return err } // Before we set our new sequence number, we check whether this // payment has a previously set sequence number and remove its // index entry if it exists. This happens in the case where we // have a previously attempted payment which was left in a state // where we can retry. seqBytes := bucket.Get(paymentSequenceKey) if seqBytes != nil { indexBucket := tx.ReadWriteBucket(paymentsIndexBucket) if err := indexBucket.Delete(seqBytes); err != nil { return err } } // Once we have obtained a sequence number, we add an entry // to our index bucket which will map the sequence number to // our payment identifier. err = createPaymentIndexEntry( tx, sequenceNum, info.PaymentIdentifier, ) if err != nil { return err } err = bucket.Put(paymentSequenceKey, sequenceNum) if err != nil { return err } // Add the payment info to the bucket, which contains the // static information for this payment err = bucket.Put(paymentCreationInfoKey, infoBytes) if err != nil { return err } // We'll delete any lingering HTLCs to start with, in case we // are initializing a payment that was attempted earlier, but // left in a state where we could retry. err = bucket.DeleteNestedBucket(paymentHtlcsBucket) if err != nil && err != kvdb.ErrBucketNotFound { return err } // Also delete any lingering failure info now that we are // re-attempting. return bucket.Delete(paymentFailInfoKey) }) if err != nil { return err } return updateErr } // paymentIndexTypeHash is a payment index type which indicates that we have // created an index of payment sequence number to payment hash. type paymentIndexType uint8 // paymentIndexTypeHash is a payment index type which indicates that we have // created an index of payment sequence number to payment hash. const paymentIndexTypeHash paymentIndexType = 0 // createPaymentIndexEntry creates a payment hash typed index for a payment. The // index produced contains a payment index type (which can be used in future to // signal different payment index types) and the payment identifier. func createPaymentIndexEntry(tx kvdb.RwTx, sequenceNumber []byte, id lntypes.Hash) error { var b bytes.Buffer if err := WriteElements(&b, paymentIndexTypeHash, id[:]); err != nil { return err } indexes := tx.ReadWriteBucket(paymentsIndexBucket) return indexes.Put(sequenceNumber, b.Bytes()) } // deserializePaymentIndex deserializes a payment index entry. This function // currently only supports deserialization of payment hash indexes, and will // fail for other types. func deserializePaymentIndex(r io.Reader) (lntypes.Hash, error) { var ( indexType paymentIndexType paymentHash []byte ) if err := ReadElements(r, &indexType, &paymentHash); err != nil { return lntypes.Hash{}, err } // While we only have on payment index type, we do not need to use our // index type to deserialize the index. However, we sanity check that // this type is as expected, since we had to read it out anyway. if indexType != paymentIndexTypeHash { return lntypes.Hash{}, fmt.Errorf("unknown payment index "+ "type: %v", indexType) } hash, err := lntypes.MakeHash(paymentHash) if err != nil { return lntypes.Hash{}, err } return hash, nil } // RegisterAttempt atomically records the provided HTLCAttemptInfo to the // DB. func (p *PaymentControl) RegisterAttempt(paymentHash lntypes.Hash, attempt *HTLCAttemptInfo) (*MPPayment, error) { // Serialize the information before opening the db transaction. var a bytes.Buffer err := serializeHTLCAttemptInfo(&a, attempt) if err != nil { return nil, err } htlcInfoBytes := a.Bytes() htlcIDBytes := make([]byte, 8) binary.BigEndian.PutUint64(htlcIDBytes, attempt.AttemptID) var payment *MPPayment err = kvdb.Batch(p.db.Backend, func(tx kvdb.RwTx) error { bucket, err := fetchPaymentBucketUpdate(tx, paymentHash) if err != nil { return err } p, err := fetchPayment(bucket) if err != nil { return err } // We cannot register a new attempt if the payment already has // reached a terminal condition. We check this before // ensureInFlight because it is a more general check. settle, fail := p.TerminalInfo() if settle != nil || fail != nil { return ErrPaymentTerminal } // Ensure the payment is in-flight. if err := ensureInFlight(p); err != nil { return err } // Make sure any existing shards match the new one with regards // to MPP options. mpp := attempt.Route.FinalHop().MPP for _, h := range p.InFlightHTLCs() { hMpp := h.Route.FinalHop().MPP switch { // We tried to register a non-MPP attempt for a MPP // payment. case mpp == nil && hMpp != nil: return ErrMPPayment // We tried to register a MPP shard for a non-MPP // payment. case mpp != nil && hMpp == nil: return ErrNonMPPayment // Non-MPP payment, nothing more to validate. case mpp == nil: continue } // Check that MPP options match. if mpp.PaymentAddr() != hMpp.PaymentAddr() { return ErrMPPPaymentAddrMismatch } if mpp.TotalMsat() != hMpp.TotalMsat() { return ErrMPPTotalAmountMismatch } } // If this is a non-MPP attempt, it must match the total amount // exactly. amt := attempt.Route.ReceiverAmt() if mpp == nil && amt != p.Info.Value { return ErrValueMismatch } // Ensure we aren't sending more than the total payment amount. sentAmt, _ := p.SentAmt() if sentAmt+amt > p.Info.Value { return ErrValueExceedsAmt } htlcsBucket, err := bucket.CreateBucketIfNotExists( paymentHtlcsBucket, ) if err != nil { return err } // Create bucket for this attempt. Fail if the bucket already // exists. htlcBucket, err := htlcsBucket.CreateBucket(htlcIDBytes) if err != nil { return err } err = htlcBucket.Put(htlcAttemptInfoKey, htlcInfoBytes) if err != nil { return err } // Retrieve attempt info for the notification. payment, err = fetchPayment(bucket) return err }) if err != nil { return nil, err } return payment, err } // SettleAttempt marks the given attempt settled with the preimage. If this is // a multi shard payment, this might implicitly mean that the full payment // succeeded. // // After invoking this method, InitPayment should always return an error to // prevent us from making duplicate payments to the same payment hash. The // provided preimage is atomically saved to the DB for record keeping. func (p *PaymentControl) SettleAttempt(hash lntypes.Hash, attemptID uint64, settleInfo *HTLCSettleInfo) (*MPPayment, error) { var b bytes.Buffer if err := serializeHTLCSettleInfo(&b, settleInfo); err != nil { return nil, err } settleBytes := b.Bytes() return p.updateHtlcKey(hash, attemptID, htlcSettleInfoKey, settleBytes) } // FailAttempt marks the given payment attempt failed. func (p *PaymentControl) FailAttempt(hash lntypes.Hash, attemptID uint64, failInfo *HTLCFailInfo) (*MPPayment, error) { var b bytes.Buffer if err := serializeHTLCFailInfo(&b, failInfo); err != nil { return nil, err } failBytes := b.Bytes() return p.updateHtlcKey(hash, attemptID, htlcFailInfoKey, failBytes) } // updateHtlcKey updates a database key for the specified htlc. func (p *PaymentControl) updateHtlcKey(paymentHash lntypes.Hash, attemptID uint64, key, value []byte) (*MPPayment, error) { htlcIDBytes := make([]byte, 8) binary.BigEndian.PutUint64(htlcIDBytes, attemptID) var payment *MPPayment err := kvdb.Batch(p.db.Backend, func(tx kvdb.RwTx) error { payment = nil bucket, err := fetchPaymentBucketUpdate(tx, paymentHash) if err != nil { return err } p, err := fetchPayment(bucket) if err != nil { return err } // We can only update keys of in-flight payments. We allow // updating keys even if the payment has reached a terminal // condition, since the HTLC outcomes must still be updated. if err := ensureInFlight(p); err != nil { return err } htlcsBucket := bucket.NestedReadWriteBucket(paymentHtlcsBucket) if htlcsBucket == nil { return fmt.Errorf("htlcs bucket not found") } htlcBucket := htlcsBucket.NestedReadWriteBucket(htlcIDBytes) if htlcBucket == nil { return fmt.Errorf("HTLC with ID %v not registered", attemptID) } // Make sure the shard is not already failed or settled. if htlcBucket.Get(htlcFailInfoKey) != nil { return ErrAttemptAlreadyFailed } if htlcBucket.Get(htlcSettleInfoKey) != nil { return ErrAttemptAlreadySettled } // Add or update the key for this htlc. err = htlcBucket.Put(key, value) if err != nil { return err } // Retrieve attempt info for the notification. payment, err = fetchPayment(bucket) return err }) if err != nil { return nil, err } return payment, err } // Fail transitions a payment into the Failed state, and records the reason the // payment failed. After invoking this method, InitPayment should return nil on // its next call for this payment hash, allowing the switch to make a // subsequent payment. func (p *PaymentControl) Fail(paymentHash lntypes.Hash, reason FailureReason) (*MPPayment, error) { var ( updateErr error payment *MPPayment ) err := kvdb.Batch(p.db.Backend, func(tx kvdb.RwTx) error { // Reset the update error, to avoid carrying over an error // from a previous execution of the batched db transaction. updateErr = nil payment = nil bucket, err := fetchPaymentBucketUpdate(tx, paymentHash) if err == ErrPaymentNotInitiated { updateErr = ErrPaymentNotInitiated return nil } else if err != nil { return err } // We mark the payent as failed as long as it is known. This // lets the last attempt to fail with a terminal write its // failure to the PaymentControl without synchronizing with // other attempts. paymentStatus, err := fetchPaymentStatus(bucket) if err != nil { return err } if paymentStatus == StatusUnknown { updateErr = ErrPaymentNotInitiated return nil } // Put the failure reason in the bucket for record keeping. v := []byte{byte(reason)} err = bucket.Put(paymentFailInfoKey, v) if err != nil { return err } // Retrieve attempt info for the notification, if available. payment, err = fetchPayment(bucket) if err != nil { return err } return nil }) if err != nil { return nil, err } return payment, updateErr } // FetchPayment returns information about a payment from the database. func (p *PaymentControl) FetchPayment(paymentHash lntypes.Hash) ( *MPPayment, error) { var payment *MPPayment err := kvdb.View(p.db, func(tx kvdb.RTx) error { bucket, err := fetchPaymentBucket(tx, paymentHash) if err != nil { return err } payment, err = fetchPayment(bucket) return err }, func() { payment = nil }) if err != nil { return nil, err } return payment, nil } // createPaymentBucket creates or fetches the sub-bucket assigned to this // payment hash. func createPaymentBucket(tx kvdb.RwTx, paymentHash lntypes.Hash) ( kvdb.RwBucket, error) { payments, err := tx.CreateTopLevelBucket(paymentsRootBucket) if err != nil { return nil, err } return payments.CreateBucketIfNotExists(paymentHash[:]) } // fetchPaymentBucket fetches the sub-bucket assigned to this payment hash. If // the bucket does not exist, it returns ErrPaymentNotInitiated. func fetchPaymentBucket(tx kvdb.RTx, paymentHash lntypes.Hash) ( kvdb.RBucket, error) { payments := tx.ReadBucket(paymentsRootBucket) if payments == nil { return nil, ErrPaymentNotInitiated } bucket := payments.NestedReadBucket(paymentHash[:]) if bucket == nil { return nil, ErrPaymentNotInitiated } return bucket, nil } // fetchPaymentBucketUpdate is identical to fetchPaymentBucket, but it returns a // bucket that can be written to. func fetchPaymentBucketUpdate(tx kvdb.RwTx, paymentHash lntypes.Hash) ( kvdb.RwBucket, error) { payments := tx.ReadWriteBucket(paymentsRootBucket) if payments == nil { return nil, ErrPaymentNotInitiated } bucket := payments.NestedReadWriteBucket(paymentHash[:]) if bucket == nil { return nil, ErrPaymentNotInitiated } return bucket, nil } // nextPaymentSequence returns the next sequence number to store for a new // payment. func nextPaymentSequence(tx kvdb.RwTx) ([]byte, error) { payments, err := tx.CreateTopLevelBucket(paymentsRootBucket) if err != nil { return nil, err } seq, err := payments.NextSequence() if err != nil { return nil, err } b := make([]byte, 8) binary.BigEndian.PutUint64(b, seq) return b, nil } // fetchPaymentStatus fetches the payment status of the payment. If the payment // isn't found, it will default to "StatusUnknown". func fetchPaymentStatus(bucket kvdb.RBucket) (PaymentStatus, error) { // Creation info should be set for all payments, regardless of state. // If not, it is unknown. if bucket.Get(paymentCreationInfoKey) == nil { return StatusUnknown, nil } payment, err := fetchPayment(bucket) if err != nil { return 0, err } return payment.Status, nil } // ensureInFlight checks whether the payment found in the given bucket has // status InFlight, and returns an error otherwise. This should be used to // ensure we only mark in-flight payments as succeeded or failed. func ensureInFlight(payment *MPPayment) error { paymentStatus := payment.Status switch { // The payment was indeed InFlight. case paymentStatus == StatusInFlight: return nil // Our records show the payment as unknown, meaning it never // should have left the switch. case paymentStatus == StatusUnknown: return ErrPaymentNotInitiated // The payment succeeded previously. case paymentStatus == StatusSucceeded: return ErrPaymentAlreadySucceeded // The payment was already failed. case paymentStatus == StatusFailed: return ErrPaymentAlreadyFailed default: return ErrUnknownPaymentStatus } } // FetchInFlightPayments returns all payments with status InFlight. func (p *PaymentControl) FetchInFlightPayments() ([]*MPPayment, error) { var inFlights []*MPPayment err := kvdb.View(p.db, func(tx kvdb.RTx) error { payments := tx.ReadBucket(paymentsRootBucket) if payments == nil { return nil } return payments.ForEach(func(k, _ []byte) error { bucket := payments.NestedReadBucket(k) if bucket == nil { return fmt.Errorf("non bucket element") } // If the status is not InFlight, we can return early. paymentStatus, err := fetchPaymentStatus(bucket) if err != nil { return err } if paymentStatus != StatusInFlight { return nil } p, err := fetchPayment(bucket) if err != nil { return err } inFlights = append(inFlights, p) return nil }) }, func() { inFlights = nil }) if err != nil { return nil, err } return inFlights, nil }