package channeldb import ( "bytes" "crypto/sha256" "encoding/binary" "fmt" "io" "time" "github.com/btcsuite/btcd/wire" "github.com/coreos/bbolt" "github.com/lightningnetwork/lnd/lnwire" ) var ( // invoiceBucket is the name of the bucket within the database that // stores all data related to invoices no matter their final state. // Within the invoice bucket, each invoice is keyed by its invoice ID // which is a monotonically increasing uint32. invoiceBucket = []byte("invoices") // paymentHashIndexBucket is the name of the sub-bucket within the // invoiceBucket which indexes all invoices by their payment hash. The // payment hash is the sha256 of the invoice's payment preimage. This // index is used to detect duplicates, and also to provide a fast path // for looking up incoming HTLCs to determine if we're able to settle // them fully. // // maps: payHash => invoiceIndex invoiceIndexBucket = []byte("paymenthashes") // numInvoicesKey is the name of key which houses the auto-incrementing // invoice ID which is essentially used as a primary key. With each // invoice inserted, the primary key is incremented by one. This key is // stored within the invoiceIndexBucket. Within the invoiceBucket // invoices are uniquely identified by the invoice ID. numInvoicesKey = []byte("nik") // addIndexBucket is an index bucket that we'll use to create a // monotonically increasing set of add indexes. Each time we add a new // invoice, this sequence number will be incremented and then populated // within the new invoice. // // In addition to this sequence number, we map: // // addIndexNo => invoiceIndex addIndexBucket = []byte("invoice-add-index") // settleIndexBucket is an index bucket that we'll use to create a // monotonically increasing integer for tracking a "settle index". Each // time an invoice is settled, this sequence number will be incremented // as populate within the newly settled invoice. // // In addition to this sequence number, we map: // // settleIndexNo => invoiceIndex settleIndexBucket = []byte("invoice-settle-index") ) const ( // MaxMemoSize is maximum size of the memo field within invoices stored // in the database. MaxMemoSize = 1024 // MaxReceiptSize is the maximum size of the payment receipt stored // within the database along side incoming/outgoing invoices. MaxReceiptSize = 1024 // MaxPaymentRequestSize is the max size of a payment request for // this invoice. // TODO(halseth): determine the max length payment request when field // lengths are final. MaxPaymentRequestSize = 4096 ) // ContractTerm is a companion struct to the Invoice struct. This struct houses // the necessary conditions required before the invoice can be considered fully // settled by the payee. type ContractTerm struct { // PaymentPreimage is the preimage which is to be revealed in the // occasion that an HTLC paying to the hash of this preimage is // extended. PaymentPreimage [32]byte // Value is the expected amount of milli-satoshis to be paid to an HTLC // which can be satisfied by the above preimage. Value lnwire.MilliSatoshi // Settled indicates if this particular contract term has been fully // settled by the payer. Settled bool } // Invoice is a payment invoice generated by a payee in order to request // payment for some good or service. The inclusion of invoices within Lightning // creates a payment work flow for merchants very similar to that of the // existing financial system within PayPal, etc. Invoices are added to the // database when a payment is requested, then can be settled manually once the // payment is received at the upper layer. For record keeping purposes, // invoices are never deleted from the database, instead a bit is toggled // denoting the invoice has been fully settled. Within the database, all // invoices must have a unique payment hash which is generated by taking the // sha256 of the payment preimage. type Invoice struct { // Memo is an optional memo to be stored along side an invoice. The // memo may contain further details pertaining to the invoice itself, // or any other message which fits within the size constraints. Memo []byte // Receipt is an optional field dedicated for storing a // cryptographically binding receipt of payment. // // TODO(roasbeef): document scheme. Receipt []byte // PaymentRequest is an optional field where a payment request created // for this invoice can be stored. PaymentRequest []byte // CreationDate is the exact time the invoice was created. CreationDate time.Time // SettleDate is the exact time the invoice was settled. SettleDate time.Time // Terms are the contractual payment terms of the invoice. Once all the // terms have been satisfied by the payer, then the invoice can be // considered fully fulfilled. // // TODO(roasbeef): later allow for multiple terms to fulfill the final // invoice: payment fragmentation, etc. Terms ContractTerm // AddIndex is an auto-incrementing integer that acts as a // monotonically increasing sequence number for all invoices created. // Clients can then use this field as a "checkpoint" of sorts when // implementing a streaming RPC to notify consumers of instances where // an invoice has been added before they re-connected. // // NOTE: This index starts at 1. AddIndex uint64 // SettleIndex is an auto-incrementing integer that acts as a // monotonically increasing sequence number for all settled invoices. // Clients can then use this field as a "checkpoint" of sorts when // implementing a streaming RPC to notify consumers of instances where // an invoice has been settled before they re-connected. // // NOTE: This index starts at 1. SettleIndex uint64 // AmtPaid is the final amount that we ultimately accepted for pay for // this invoice. We specify this value independently as it's possible // that the invoice originally didn't specify an amount, or the sender // overpaid. AmtPaid lnwire.MilliSatoshi } func validateInvoice(i *Invoice) error { if len(i.Memo) > MaxMemoSize { return fmt.Errorf("max length a memo is %v, and invoice "+ "of length %v was provided", MaxMemoSize, len(i.Memo)) } if len(i.Receipt) > MaxReceiptSize { return fmt.Errorf("max length a receipt is %v, and invoice "+ "of length %v was provided", MaxReceiptSize, len(i.Receipt)) } if len(i.PaymentRequest) > MaxPaymentRequestSize { return fmt.Errorf("max length of payment request is %v, length "+ "provided was %v", MaxPaymentRequestSize, len(i.PaymentRequest)) } return nil } // AddInvoice inserts the targeted invoice into the database. If the invoice // has *any* payment hashes which already exists within the database, then the // insertion will be aborted and rejected due to the strict policy banning any // duplicate payment hashes. func (d *DB) AddInvoice(newInvoice *Invoice) (uint64, error) { if err := validateInvoice(newInvoice); err != nil { return 0, err } var invoiceAddIndex uint64 err := d.Update(func(tx *bolt.Tx) error { invoices, err := tx.CreateBucketIfNotExists(invoiceBucket) if err != nil { return err } invoiceIndex, err := invoices.CreateBucketIfNotExists( invoiceIndexBucket, ) if err != nil { return err } addIndex, err := invoices.CreateBucketIfNotExists( addIndexBucket, ) if err != nil { return err } // Ensure that an invoice an identical payment hash doesn't // already exist within the index. paymentHash := sha256.Sum256( newInvoice.Terms.PaymentPreimage[:], ) if invoiceIndex.Get(paymentHash[:]) != nil { return ErrDuplicateInvoice } // If the current running payment ID counter hasn't yet been // created, then create it now. var invoiceNum uint32 invoiceCounter := invoiceIndex.Get(numInvoicesKey) if invoiceCounter == nil { var scratch [4]byte byteOrder.PutUint32(scratch[:], invoiceNum) err := invoiceIndex.Put(numInvoicesKey, scratch[:]) if err != nil { return nil } } else { invoiceNum = byteOrder.Uint32(invoiceCounter) } newIndex, err := putInvoice( invoices, invoiceIndex, addIndex, newInvoice, invoiceNum, ) if err != nil { return err } invoiceAddIndex = newIndex return nil }) if err != nil { return 0, err } return invoiceAddIndex, err } // InvoicesAddedSince can be used by callers to seek into the event time series // of all the invoices added in the database. The specified sinceAddIndex // should be the highest add index that the caller knows of. This method will // return all invoices with an add index greater than the specified // sinceAddIndex. // // NOTE: The index starts from 1, as a result. We enforce that specifying a // value below the starting index value is a noop. func (d *DB) InvoicesAddedSince(sinceAddIndex uint64) ([]Invoice, error) { var newInvoices []Invoice // If an index of zero was specified, then in order to maintain // backwards compat, we won't send out any new invoices. if sinceAddIndex == 0 { return newInvoices, nil } var startIndex [8]byte byteOrder.PutUint64(startIndex[:], sinceAddIndex) err := d.DB.View(func(tx *bolt.Tx) error { invoices := tx.Bucket(invoiceBucket) if invoices == nil { return ErrNoInvoicesCreated } addIndex := invoices.Bucket(addIndexBucket) if addIndex == nil { return ErrNoInvoicesCreated } // We'll now run through each entry in the add index starting // at our starting index. We'll continue until we reach the // very end of the current key space. invoiceCursor := addIndex.Cursor() // We'll seek to the starting index, then manually advance the // cursor in order to skip the entry with the since add index. invoiceCursor.Seek(startIndex[:]) addSeqNo, invoiceKey := invoiceCursor.Next() for ; addSeqNo != nil && bytes.Compare(addSeqNo, startIndex[:]) > 0; addSeqNo, invoiceKey = invoiceCursor.Next() { // For each key found, we'll look up the actual // invoice, then accumulate it into our return value. invoice, err := fetchInvoice(invoiceKey, invoices) if err != nil { return err } newInvoices = append(newInvoices, invoice) } return nil }) switch { // If no invoices have been created, then we'll return the empty set of // invoices. case err == ErrNoInvoicesCreated: case err != nil: return nil, err } return newInvoices, nil } // LookupInvoice attempts to look up an invoice according to its 32 byte // payment hash. If an invoice which can settle the HTLC identified by the // passed payment hash isn't found, then an error is returned. Otherwise, the // full invoice is returned. Before setting the incoming HTLC, the values // SHOULD be checked to ensure the payer meets the agreed upon contractual // terms of the payment. func (d *DB) LookupInvoice(paymentHash [32]byte) (Invoice, error) { var invoice Invoice err := d.View(func(tx *bolt.Tx) error { invoices := tx.Bucket(invoiceBucket) if invoices == nil { return ErrNoInvoicesCreated } invoiceIndex := invoices.Bucket(invoiceIndexBucket) if invoiceIndex == nil { return ErrNoInvoicesCreated } // Check the invoice index to see if an invoice paying to this // hash exists within the DB. invoiceNum := invoiceIndex.Get(paymentHash[:]) if invoiceNum == nil { return ErrInvoiceNotFound } // An invoice matching the payment hash has been found, so // retrieve the record of the invoice itself. i, err := fetchInvoice(invoiceNum, invoices) if err != nil { return err } invoice = i return nil }) if err != nil { return invoice, err } return invoice, nil } // FetchAllInvoices returns all invoices currently stored within the database. // If the pendingOnly param is true, then only unsettled invoices will be // returned, skipping all invoices that are fully settled. func (d *DB) FetchAllInvoices(pendingOnly bool) ([]Invoice, error) { var invoices []Invoice err := d.View(func(tx *bolt.Tx) error { invoiceB := tx.Bucket(invoiceBucket) if invoiceB == nil { return ErrNoInvoicesCreated } // Iterate through the entire key space of the top-level // invoice bucket. If key with a non-nil value stores the next // invoice ID which maps to the corresponding invoice. return invoiceB.ForEach(func(k, v []byte) error { if v == nil { return nil } invoiceReader := bytes.NewReader(v) invoice, err := deserializeInvoice(invoiceReader) if err != nil { return err } if pendingOnly && invoice.Terms.Settled { return nil } invoices = append(invoices, invoice) return nil }) }) if err != nil { return nil, err } return invoices, nil } // SettleInvoice attempts to mark an invoice corresponding to the passed // payment hash as fully settled. If an invoice matching the passed payment // hash doesn't existing within the database, then the action will fail with a // "not found" error. func (d *DB) SettleInvoice(paymentHash [32]byte, amtPaid lnwire.MilliSatoshi) (*Invoice, error) { var settledInvoice *Invoice err := d.Update(func(tx *bolt.Tx) error { invoices, err := tx.CreateBucketIfNotExists(invoiceBucket) if err != nil { return err } invoiceIndex, err := invoices.CreateBucketIfNotExists( invoiceIndexBucket, ) if err != nil { return err } settleIndex, err := invoices.CreateBucketIfNotExists( settleIndexBucket, ) if err != nil { return err } // Check the invoice index to see if an invoice paying to this // hash exists within the DB. invoiceNum := invoiceIndex.Get(paymentHash[:]) if invoiceNum == nil { return ErrInvoiceNotFound } invoice, err := settleInvoice( invoices, settleIndex, invoiceNum, amtPaid, ) if err != nil { return err } settledInvoice = invoice return nil }) if err != nil { return nil, err } return settledInvoice, nil } // InvoicesSettledSince can be used by callers to catch up any settled invoices // they missed within the settled invoice time series. We'll return all known // settled invoice that have a settle index higher than the passed // sinceSettleIndex. // // NOTE: The index starts from 1, as a result. We enforce that specifying a // value below the starting index value is a noop. func (d *DB) InvoicesSettledSince(sinceSettleIndex uint64) ([]Invoice, error) { var settledInvoices []Invoice // If an index of zero was specified, then in order to maintain // backwards compat, we won't send out any new invoices. if sinceSettleIndex == 0 { return settledInvoices, nil } var startIndex [8]byte byteOrder.PutUint64(startIndex[:], sinceSettleIndex) err := d.DB.View(func(tx *bolt.Tx) error { invoices := tx.Bucket(invoiceBucket) if invoices == nil { return ErrNoInvoicesCreated } settleIndex := invoices.Bucket(settleIndexBucket) if settleIndex == nil { return ErrNoInvoicesCreated } // We'll now run through each entry in the add index starting // at our starting index. We'll continue until we reach the // very end of the current key space. invoiceCursor := settleIndex.Cursor() // We'll seek to the starting index, then manually advance the // cursor in order to skip the entry with the since add index. invoiceCursor.Seek(startIndex[:]) seqNo, invoiceKey := invoiceCursor.Next() for ; seqNo != nil && bytes.Compare(seqNo, startIndex[:]) > 0; seqNo, invoiceKey = invoiceCursor.Next() { // For each key found, we'll look up the actual // invoice, then accumulate it into our return value. invoice, err := fetchInvoice(invoiceKey, invoices) if err != nil { return err } settledInvoices = append(settledInvoices, invoice) } return nil }) if err != nil { return nil, err } return settledInvoices, nil } func putInvoice(invoices, invoiceIndex, addIndex *bolt.Bucket, i *Invoice, invoiceNum uint32) (uint64, error) { // Create the invoice key which is just the big-endian representation // of the invoice number. var invoiceKey [4]byte byteOrder.PutUint32(invoiceKey[:], invoiceNum) // Increment the num invoice counter index so the next invoice bares // the proper ID. var scratch [4]byte invoiceCounter := invoiceNum + 1 byteOrder.PutUint32(scratch[:], invoiceCounter) if err := invoiceIndex.Put(numInvoicesKey, scratch[:]); err != nil { return 0, err } // Add the payment hash to the invoice index. This will let us quickly // identify if we can settle an incoming payment, and also to possibly // allow a single invoice to have multiple payment installations. paymentHash := sha256.Sum256(i.Terms.PaymentPreimage[:]) err := invoiceIndex.Put(paymentHash[:], invoiceKey[:]) if err != nil { return 0, err } // Next, we'll obtain the next add invoice index (sequence // number), so we can properly place this invoice within this // event stream. nextAddSeqNo, err := addIndex.NextSequence() if err != nil { return 0, err } // With the next sequence obtained, we'll updating the event series in // the add index bucket to map this current add counter to the index of // this new invoice. var seqNoBytes [8]byte byteOrder.PutUint64(seqNoBytes[:], nextAddSeqNo) if err := addIndex.Put(seqNoBytes[:], invoiceKey[:]); err != nil { return 0, err } i.AddIndex = nextAddSeqNo // Finally, serialize the invoice itself to be written to the disk. var buf bytes.Buffer if err := serializeInvoice(&buf, i); err != nil { return 0, nil } if err := invoices.Put(invoiceKey[:], buf.Bytes()); err != nil { return 0, err } return nextAddSeqNo, nil } func serializeInvoice(w io.Writer, i *Invoice) error { if err := wire.WriteVarBytes(w, 0, i.Memo[:]); err != nil { return err } if err := wire.WriteVarBytes(w, 0, i.Receipt[:]); err != nil { return err } if err := wire.WriteVarBytes(w, 0, i.PaymentRequest[:]); err != nil { return err } birthBytes, err := i.CreationDate.MarshalBinary() if err != nil { return err } if err := wire.WriteVarBytes(w, 0, birthBytes); err != nil { return err } settleBytes, err := i.SettleDate.MarshalBinary() if err != nil { return err } if err := wire.WriteVarBytes(w, 0, settleBytes); err != nil { return err } if _, err := w.Write(i.Terms.PaymentPreimage[:]); err != nil { return err } var scratch [8]byte byteOrder.PutUint64(scratch[:], uint64(i.Terms.Value)) if _, err := w.Write(scratch[:]); err != nil { return err } if err := binary.Write(w, byteOrder, i.Terms.Settled); err != nil { return err } if err := binary.Write(w, byteOrder, i.AddIndex); err != nil { return err } if err := binary.Write(w, byteOrder, i.SettleIndex); err != nil { return err } if err := binary.Write(w, byteOrder, int64(i.AmtPaid)); err != nil { return err } return nil } func fetchInvoice(invoiceNum []byte, invoices *bolt.Bucket) (Invoice, error) { invoiceBytes := invoices.Get(invoiceNum) if invoiceBytes == nil { return Invoice{}, ErrInvoiceNotFound } invoiceReader := bytes.NewReader(invoiceBytes) return deserializeInvoice(invoiceReader) } func deserializeInvoice(r io.Reader) (Invoice, error) { var err error invoice := Invoice{} // TODO(roasbeef): use read full everywhere invoice.Memo, err = wire.ReadVarBytes(r, 0, MaxMemoSize, "") if err != nil { return invoice, err } invoice.Receipt, err = wire.ReadVarBytes(r, 0, MaxReceiptSize, "") if err != nil { return invoice, err } invoice.PaymentRequest, err = wire.ReadVarBytes(r, 0, MaxPaymentRequestSize, "") if err != nil { return invoice, err } birthBytes, err := wire.ReadVarBytes(r, 0, 300, "birth") if err != nil { return invoice, err } if err := invoice.CreationDate.UnmarshalBinary(birthBytes); err != nil { return invoice, err } settledBytes, err := wire.ReadVarBytes(r, 0, 300, "settled") if err != nil { return invoice, err } if err := invoice.SettleDate.UnmarshalBinary(settledBytes); err != nil { return invoice, err } if _, err := io.ReadFull(r, invoice.Terms.PaymentPreimage[:]); err != nil { return invoice, err } var scratch [8]byte if _, err := io.ReadFull(r, scratch[:]); err != nil { return invoice, err } invoice.Terms.Value = lnwire.MilliSatoshi(byteOrder.Uint64(scratch[:])) if err := binary.Read(r, byteOrder, &invoice.Terms.Settled); err != nil { return invoice, err } if err := binary.Read(r, byteOrder, &invoice.AddIndex); err != nil { return invoice, err } if err := binary.Read(r, byteOrder, &invoice.SettleIndex); err != nil { return invoice, err } if err := binary.Read(r, byteOrder, &invoice.AmtPaid); err != nil { return invoice, err } return invoice, nil } func settleInvoice(invoices, settleIndex *bolt.Bucket, invoiceNum []byte, amtPaid lnwire.MilliSatoshi) (*Invoice, error) { invoice, err := fetchInvoice(invoiceNum, invoices) if err != nil { return nil, err } // Add idempotency to duplicate settles, return here to avoid // overwriting the previous info. if invoice.Terms.Settled { return &invoice, nil } // Now that we know the invoice hasn't already been settled, we'll // update the settle index so we can place this settle event in the // proper location within our time series. nextSettleSeqNo, err := settleIndex.NextSequence() if err != nil { return nil, err } var seqNoBytes [8]byte byteOrder.PutUint64(seqNoBytes[:], nextSettleSeqNo) if err := settleIndex.Put(seqNoBytes[:], invoiceNum); err != nil { return nil, err } invoice.AmtPaid = amtPaid invoice.Terms.Settled = true invoice.SettleDate = time.Now() invoice.SettleIndex = nextSettleSeqNo var buf bytes.Buffer if err := serializeInvoice(&buf, &invoice); err != nil { return nil, err } if err := invoices.Put(invoiceNum[:], buf.Bytes()); err != nil { return nil, err } return &invoice, nil }