package loopdb import ( "bytes" "encoding/binary" "errors" "fmt" "io" "os" "path/filepath" "time" "github.com/btcsuite/btcd/chaincfg" "github.com/btcsuite/btcd/chaincfg/chainhash" "github.com/coreos/bbolt" "github.com/lightningnetwork/lnd/lntypes" ) var ( // dbFileName is the default file name of the client-side loop sub-swap // database. dbFileName = "loop.db" // loopOutBucketKey is a bucket that contains all out swaps that are // currently pending or completed. This bucket is keyed by the swaphash, // and leads to a nested sub-bucket that houses information for that // swap. // // maps: swapHash -> swapBucket loopOutBucketKey = []byte("uncharge-swaps") // loopInBucketKey is a bucket that contains all in swaps that are // currently pending or completed. This bucket is keyed by the swaphash, // and leads to a nested sub-bucket that houses information for that // swap. // // maps: swapHash -> swapBucket loopInBucketKey = []byte("loop-in") // updatesBucketKey is a bucket that contains all updates pertaining to // a swap. This is a sub-bucket of the swap bucket for a particular // swap. This list only ever grows. // // path: loopInBucket/loopOutBucket -> swapBucket[hash] -> updatesBucket // // maps: updateNumber -> time || state updatesBucketKey = []byte("updates") // basicStateKey contains the serialized basic swap state. basicStateKey = []byte{0} // htlcTxHashKey contains the confirmed htlc tx id. htlcTxHashKey = []byte{1} // contractKey is the key that stores the serialized swap contract. It // is nested within the sub-bucket for each active swap. // // path: loopInBucket/loopOutBucket -> swapBucket[hash] -> contractKey // // value: time || rawSwapState contractKey = []byte("contract") // outgoingChanSetKey is the key that stores a list of channel ids that // restrict the loop out swap payment. // // path: loopOutBucket -> swapBucket[hash] -> outgoingChanSetKey // // value: concatenation of uint64 channel ids outgoingChanSetKey = []byte("outgoing-chan-set") byteOrder = binary.BigEndian keyLength = 33 ) // fileExists returns true if the file exists, and false otherwise. func fileExists(path string) bool { if _, err := os.Stat(path); err != nil { if os.IsNotExist(err) { return false } } return true } // boltSwapStore stores swap data in boltdb. type boltSwapStore struct { db *bbolt.DB chainParams *chaincfg.Params } // A compile-time flag to ensure that boltSwapStore implements the SwapStore // interface. var _ = (*boltSwapStore)(nil) // NewBoltSwapStore creates a new client swap store. func NewBoltSwapStore(dbPath string, chainParams *chaincfg.Params) ( *boltSwapStore, error) { // If the target path for the swap store doesn't exist, then we'll // create it now before we proceed. if !fileExists(dbPath) { if err := os.MkdirAll(dbPath, 0700); err != nil { return nil, err } } // Now that we know that path exists, we'll open up bolt, which // implements our default swap store. path := filepath.Join(dbPath, dbFileName) bdb, err := bbolt.Open(path, 0600, nil) if err != nil { return nil, err } // We'll create all the buckets we need if this is the first time we're // starting up. If they already exist, then these calls will be noops. err = bdb.Update(func(tx *bbolt.Tx) error { // Check if the meta bucket exists. If it exists, we consider // the database as initialized and assume the meta bucket // contains the db version. metaBucket := tx.Bucket(metaBucketKey) if metaBucket == nil { log.Infof("Initializing new database with version %v", latestDBVersion) // Set db version to the current version. err := setDBVersion(tx, latestDBVersion) if err != nil { return err } } // Try creating these buckets, because loop in was added without // bumping the db version number. _, err = tx.CreateBucketIfNotExists(loopOutBucketKey) if err != nil { return err } _, err = tx.CreateBucketIfNotExists(loopInBucketKey) if err != nil { return err } return nil }) if err != nil { return nil, err } // Finally, before we start, we'll sync the DB versions to pick up any // possible DB migrations. err = syncVersions(bdb, chainParams) if err != nil { return nil, err } return &boltSwapStore{ db: bdb, chainParams: chainParams, }, nil } // FetchLoopOutSwaps returns all loop out swaps currently in the store. // // NOTE: Part of the loopdb.SwapStore interface. func (s *boltSwapStore) FetchLoopOutSwaps() ([]*LoopOut, error) { var swaps []*LoopOut err := s.db.View(func(tx *bbolt.Tx) error { // First, we'll grab our main loop in bucket key. rootBucket := tx.Bucket(loopOutBucketKey) if rootBucket == nil { return errors.New("bucket does not exist") } // We'll now traverse the root bucket for all active swaps. The // primary key is the swap hash itself. return rootBucket.ForEach(func(swapHash, v []byte) error { // Only go into things that we know are sub-bucket // keys. if v != nil { return nil } // From the root bucket, we'll grab the next swap // bucket for this swap from its swaphash. swapBucket := rootBucket.Bucket(swapHash) if swapBucket == nil { return fmt.Errorf("swap bucket %x not found", swapHash) } // With the main swap bucket obtained, we'll grab the // raw swap contract bytes and decode it. contractBytes := swapBucket.Get(contractKey) if contractBytes == nil { return errors.New("contract not found") } contract, err := deserializeLoopOutContract( contractBytes, s.chainParams, ) if err != nil { return err } // Read the list of concatenated outgoing channel ids // that form the outgoing set. setBytes := swapBucket.Get(outgoingChanSetKey) if outgoingChanSetKey != nil { r := bytes.NewReader(setBytes) readLoop: for { var chanID uint64 err := binary.Read(r, byteOrder, &chanID) switch { case err == io.EOF: break readLoop case err != nil: return err } contract.OutgoingChanSet = append( contract.OutgoingChanSet, chanID, ) } } updates, err := deserializeUpdates(swapBucket) if err != nil { return err } loop := LoopOut{ Loop: Loop{ Events: updates, }, Contract: contract, } loop.Hash, err = lntypes.MakeHash(swapHash) if err != nil { return err } swaps = append(swaps, &loop) return nil }) }) if err != nil { return nil, err } return swaps, nil } // deserializeUpdates deserializes the list of swap updates that are stored as a // key of the given bucket. func deserializeUpdates(swapBucket *bbolt.Bucket) ([]*LoopEvent, error) { // Once we have the raw swap, we'll also need to decode // each of the past updates to the swap itself. stateBucket := swapBucket.Bucket(updatesBucketKey) if stateBucket == nil { return nil, errors.New("updates bucket not found") } // Deserialize and collect each swap update into our slice of swap // events. var updates []*LoopEvent err := stateBucket.ForEach(func(k, v []byte) error { updateBucket := stateBucket.Bucket(k) if updateBucket == nil { return fmt.Errorf("expected state sub-bucket for %x", k) } basicState := updateBucket.Get(basicStateKey) if basicState == nil { return errors.New("no basic state for update") } event, err := deserializeLoopEvent(basicState) if err != nil { return err } // Deserialize htlc tx hash if this updates contains one. htlcTxHashBytes := updateBucket.Get(htlcTxHashKey) if htlcTxHashBytes != nil { htlcTxHash, err := chainhash.NewHash(htlcTxHashBytes) if err != nil { return err } event.HtlcTxHash = htlcTxHash } updates = append(updates, event) return nil }) if err != nil { return nil, err } return updates, nil } // FetchLoopInSwaps returns all loop in swaps currently in the store. // // NOTE: Part of the loopdb.SwapStore interface. func (s *boltSwapStore) FetchLoopInSwaps() ([]*LoopIn, error) { var swaps []*LoopIn err := s.db.View(func(tx *bbolt.Tx) error { // First, we'll grab our main loop in bucket key. rootBucket := tx.Bucket(loopInBucketKey) if rootBucket == nil { return errors.New("bucket does not exist") } // We'll now traverse the root bucket for all active swaps. The // primary key is the swap hash itself. return rootBucket.ForEach(func(swapHash, v []byte) error { // Only go into things that we know are sub-bucket // keys. if v != nil { return nil } // From the root bucket, we'll grab the next swap // bucket for this swap from its swaphash. swapBucket := rootBucket.Bucket(swapHash) if swapBucket == nil { return fmt.Errorf("swap bucket %x not found", swapHash) } // With the main swap bucket obtained, we'll grab the // raw swap contract bytes and decode it. contractBytes := swapBucket.Get(contractKey) if contractBytes == nil { return errors.New("contract not found") } contract, err := deserializeLoopInContract( contractBytes, ) if err != nil { return err } updates, err := deserializeUpdates(swapBucket) if err != nil { return err } loop := LoopIn{ Loop: Loop{ Events: updates, }, Contract: contract, } loop.Hash, err = lntypes.MakeHash(swapHash) if err != nil { return err } swaps = append(swaps, &loop) return nil }) }) if err != nil { return nil, err } return swaps, nil } // createLoopBucket creates the bucket for a particular swap. func createLoopBucket(tx *bbolt.Tx, swapTypeKey []byte, hash lntypes.Hash) ( *bbolt.Bucket, error) { // First, we'll grab the root bucket that houses all of our // swaps of this type. swapTypeBucket, err := tx.CreateBucketIfNotExists(swapTypeKey) if err != nil { return nil, err } // If the swap already exists, then we'll exit as we don't want // to override a swap. if swapTypeBucket.Get(hash[:]) != nil { return nil, fmt.Errorf("swap %v already exists", hash) } // From the swap type bucket, we'll make a new sub swap bucket using the // swap hash to store the individual swap. return swapTypeBucket.CreateBucket(hash[:]) } // CreateLoopOut adds an initiated swap to the store. // // NOTE: Part of the loopdb.SwapStore interface. func (s *boltSwapStore) CreateLoopOut(hash lntypes.Hash, swap *LoopOutContract) error { // If the hash doesn't match the pre-image, then this is an invalid // swap so we'll bail out early. if hash != swap.Preimage.Hash() { return errors.New("hash and preimage do not match") } // Otherwise, we'll create a new swap within the database. return s.db.Update(func(tx *bbolt.Tx) error { // Create the swap bucket. swapBucket, err := createLoopBucket(tx, loopOutBucketKey, hash) if err != nil { return err } // With the swap bucket created, we'll store the swap itself. contractBytes, err := serializeLoopOutContract(swap) if err != nil { return err } err = swapBucket.Put(contractKey, contractBytes) if err != nil { return err } // Write the outgoing channel set. var b bytes.Buffer for _, chanID := range swap.OutgoingChanSet { err := binary.Write(&b, byteOrder, chanID) if err != nil { return err } } err = swapBucket.Put(outgoingChanSetKey, b.Bytes()) if err != nil { return err } // Finally, we'll create an empty updates bucket for this swap // to track any future updates to the swap itself. _, err = swapBucket.CreateBucket(updatesBucketKey) return err }) } // CreateLoopIn adds an initiated swap to the store. // // NOTE: Part of the loopdb.SwapStore interface. func (s *boltSwapStore) CreateLoopIn(hash lntypes.Hash, swap *LoopInContract) error { // If the hash doesn't match the pre-image, then this is an invalid // swap so we'll bail out early. if hash != swap.Preimage.Hash() { return errors.New("hash and preimage do not match") } // Otherwise, we'll create a new swap within the database. return s.db.Update(func(tx *bbolt.Tx) error { // Create the swap bucket. swapBucket, err := createLoopBucket(tx, loopInBucketKey, hash) if err != nil { return err } // With the swap bucket created, we'll store the swap itself. contractBytes, err := serializeLoopInContract(swap) if err != nil { return err } err = swapBucket.Put(contractKey, contractBytes) if err != nil { return err } // Finally, we'll create an empty updates bucket for this swap // to track any future updates to the swap itself. _, err = swapBucket.CreateBucket(updatesBucketKey) return err }) } // updateLoop saves a new swap state transition to the store. It takes in a // bucket key so that this function can be used for both in and out swaps. func (s *boltSwapStore) updateLoop(bucketKey []byte, hash lntypes.Hash, time time.Time, state SwapStateData) error { return s.db.Update(func(tx *bbolt.Tx) error { // Starting from the root bucket, we'll traverse the bucket // hierarchy all the way down to the swap bucket, and the // update sub-bucket within that. rootBucket := tx.Bucket(bucketKey) if rootBucket == nil { return errors.New("bucket does not exist") } swapBucket := rootBucket.Bucket(hash[:]) if swapBucket == nil { return errors.New("swap not found") } updatesBucket := swapBucket.Bucket(updatesBucketKey) if updatesBucket == nil { return errors.New("udpate bucket not found") } // Each update for this swap will get a new monotonically // increasing ID number that we'll obtain now. id, err := updatesBucket.NextSequence() if err != nil { return err } nextUpdateBucket, err := updatesBucket.CreateBucket(itob(id)) if err != nil { return fmt.Errorf("cannot create update bucket") } // With the ID obtained, we'll write out this new update value. updateValue, err := serializeLoopEvent(time, state) if err != nil { return err } err = nextUpdateBucket.Put(basicStateKey, updateValue) if err != nil { return err } // Write the htlc tx hash if available. if state.HtlcTxHash != nil { err := nextUpdateBucket.Put( htlcTxHashKey, state.HtlcTxHash[:], ) if err != nil { return err } } return nil }) } // UpdateLoopOut stores a swap update. This appends to the event log for // a particular swap as it goes through the various stages in its lifetime. // // NOTE: Part of the loopdb.SwapStore interface. func (s *boltSwapStore) UpdateLoopOut(hash lntypes.Hash, time time.Time, state SwapStateData) error { return s.updateLoop(loopOutBucketKey, hash, time, state) } // UpdateLoopIn stores a swap update. This appends to the event log for // a particular swap as it goes through the various stages in its lifetime. // // NOTE: Part of the loopdb.SwapStore interface. func (s *boltSwapStore) UpdateLoopIn(hash lntypes.Hash, time time.Time, state SwapStateData) error { return s.updateLoop(loopInBucketKey, hash, time, state) } // Close closes the underlying database. // // NOTE: Part of the loopdb.SwapStore interface. func (s *boltSwapStore) Close() error { return s.db.Close() }